Foil stamping transfer film material pressure transfer processing device and foil stamping transfer film material pressure transfer processing method for processing workpieces
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- TSUJIKAWA
- Filing Date
- 2024-07-09
- Publication Date
- 2026-06-10
Smart Images

Figure 00000000_0000_ABST
Abstract
Description
[Technical Field]
[0001] The present invention relates to a transfer film pressure transfer processing device and a method for processing a workpiece, which use a pressure processing plate and a foil stamping transfer film material to transfer and form a desired graphic, letter, or picture pattern onto a workpiece by pressure processing, and more particularly to a transfer film pressure transfer processing device and a foil stamping transfer film material to transfer and form a desired graphic, letter, or picture pattern formed on a pressure processing plate onto a desired area of a workpiece such as a plastic molded product, a plastic product, a metal molded product, a metal product, a ceramic molded product, a ceramic product, a cloth processed product, a cloth product, a paper molded product, or a composite product of these plastics, metal, cloth, and paper, using a pressure processing plate and a foil stamping transfer film material, and a method for processing a workpiece by pressure processing. [Background technology]
[0002] BACKGROUND ART Conventionally, plating of plastic molded products or metal molded products or metal products has been carried out as a surface decoration method for forming graphic, letter, or picture patterns, coloring, or decorating desired areas of molded products or products such as plastic molded products, plastic products, metal molded products, metal products, etc. On the other hand, as a surface decoration method for forming graphic, letter, or picture patterns or for glossy coloring in desired areas of sheet-like workpieces such as sheet-like paper, sheet-like plastic film, and sheet-like metal plate, a foil stamping transfer film material pressure transfer processing method is carried out using a foil stamping transfer film material having a metal foil or colored film.
[0003] Conventionally, plating methods for plastic molded products and resin molded products have been well known as a method for decorating the surfaces of plastic molded products and resin molded products, such as parts for electrical appliances and automobiles, etc. Plastic molded products and resin molded products refer to the same material, and are collectively referred to as plastic molded products. Various plating methods have been proposed for plating plastic molded products. For example, generally, a desired decorated plated plastic molded product can be obtained through steps such as (a) etching the surface of the plastic molded product, (b) characterization, (c) accelerator, (d) chemical Ni plating, (e) strike plating, (f) Cu plating, (g) Ni plating, and (h) Cr plating.
[0004] For example, FIG. 4 of Japanese Patent Laid-Open Publication No. 5-59587 (Patent Document 1) discloses a typical plating method for plastics, including (a) degreasing, (b) water rinsing, (c) chemical etching, (d) water rinsing, (e) sensitivity imparting, (f) water rinsing, (g) activation imparting, (h) water rinsing, (i) chemical plating, (j) water rinsing, (k) strike plating, (l) water rinsing, (m) copper electroplating, (n) water rinsing, (o) nickel electroplating, (p) water rinsing, (q) chromium electroplating, (r) water rinsing, and (s) drying.
[0005] For example, Japanese Patent Laid-Open Publication No. 62-110000 (Patent Document 2) discloses a surface treatment method for plastics, which comprises catalytically activating the surface of a plastic, applying electroless plating, and then forming an electrodeposition coating film either directly on the electroless plating film or after forming an electroplated film, the method comprising: forming a non-conductive masking film on the plastic or on a desired portion of the plating film formed thereon in any step prior to the electrodeposition coating step; applying electroless plating and / or electroplating; then removing the masking film, and if a plating film is formed underneath, removing it to expose the plastic surface; or forming a masking film on a desired portion of the plating film, and then removing the plating film in areas other than the masked area to expose the plastic surface; then removing the masking film; and if necessary, forming a plating film on it; then applying electrodeposition coating; and forming an electrodeposition coating film on conductive areas other than the exposed plastic area, so that the exposed plastic area and the electrodeposition coating film are different colors from each other.
[0006] For example, Japanese Patent Laid-Open Publication No. 59-136472 (Patent Document 3) discloses a "method of partial plating of plastics, characterized in that an ultraviolet-curing coating material that is resistant to etching solution is applied to the portions of the plastic not to be plated, and then the coating material is hardened by irradiating ultraviolet light with low wavelengths cut out using an ultraviolet irradiation device, followed by etching, electroless plating, and then electroplating."
[0007] On the other hand, as a foil stamping transfer film material pressure transfer processing device that transfers and forms decorative graphic character patterns or glossy coloring graphic character patterns onto sheet-like workpieces such as sheet-like paper and sheet-like plastic film, a transfer film pressure transfer processing device as shown in Fig. 23 is known. Fig. 23 is a schematic diagram for explaining the general configuration of a conventional, known transfer film pressure transfer processing device, with Fig. 23(A) showing a schematic front view and Fig. 23(B) showing a schematic side view. In Figure 23, a conventional known transfer film pressure transfer processing device includes a stand 109, an upper platen mechanism 102, a lower platen mechanism 103, an upper substrate 172, a lower substrate 173, a desired pressure processing plate 174, a pressure processing plate opposing plate 177, a desired foil stamping transfer film material 161, and a desired workpiece 175. The platform 109 has an approximately rectangular platform bottom support 194 located on the installation surface side, a platform rear central support body 192 fixed vertically to the rear end face of the platform bottom support body 194, and a platform upper support body 191 installed from the top of the platform rear central support body 192 toward the front; in other words, the platform 109 has an approximately C-shape. The upper platen mechanism 102 is located below the frame upper support 191, is fixed to the frame upper support 191, and is configured to be drivable in the vertical direction. An upper substrate 172 is removably attached to the underside of the upper platen mechanism 102, and a desired pressing plate 174 is removably attached to the upper substrate 172. The lower platen mechanism 103 is located above the base bottom support 194 and is fixedly held by the base bottom support 194. The lower base plate 173 is removably attached to the upper side of the lower platen mechanism 103, and the pressing plate opposing plate 177 is removably attached to the lower base plate 173. It is also known that the upper platen mechanism 102, the upper substrate 172, or the desired pressing plate 174 has a heating mechanism.
[0008] The desired foil stamping transfer film material 161 is arranged so that it can be supplied to be positioned below the desired pressing processing plate 174, and the desired workpiece 175 is supplied so that it is positioned between the desired foil stamping transfer film material 161 and the lower substrate 173.
[0009] The desired pressing plate 174 is made of metal, plastic, resin, or rubber depending on the application, and has the desired graphic, letter, or design pattern formed in an uneven shape on the surface. The pressing plate opposing plate 177 has a planar shape with a flat surface without irregularities, or has a graphic, letter, and picture pattern with irregularities that can fit into the irregularities of the desired pressing plate 174 .
[0010] The desired workpiece 175 may be a sheet of plastic film, a sheet of paper, or a sheet of fabric, and may be supplied in a continuous strip or in a single form of a desired size and shape.
[0011] Using the above-mentioned conventional known transfer film pressure transfer processing device, with the foil stamping transfer film material 161 positioned below the desired pressure processing plate 174, and with a strip-shaped workpiece 175 or a single workpiece 175 of the desired size and shape being supplied between the desired foil stamping transfer film material 161 and the pressure processing plate opposing plate 177, the upper plate mechanism 102 is driven vertically to press the desired pressure processing plate 174, on which a graphic, letter, and design pattern is formed in an uneven shape, against the sheet-shaped desired workpiece 175 via the desired foil stamping transfer film material 161 and also against the pressure processing plate opposing plate 177, thereby transferring and forming a graphic, letter, and design pattern made of a peel-off foil stamping transfer film having a "surface protection layer, coloring layer, metal layer, and adhesive layer" that has been peeled off and separated from the foil stamping transfer film material that matches the graphic, letter, and design pattern formed in an uneven shape on the desired pressure processing plate 174, onto the surface of the workpiece. That is, the adhesive layer side of the "surface protection layer, coloring layer, metal layer, and adhesive layer" that has been peeled off and separated from the foil stamping transfer film material 161 is transferred and adhered to the surface of the desired workpiece 175, thereby forming a transfer.
[0012] For example, in Utility Model Registration No. 3162734 (Patent Document 4), it is described that "a processing plate mold 11 having a concave-convex pattern formed on its surface, an opposing base plate 26 installed in a position opposite to the processing plate mold 11, and a workpiece 3 positioned and supplied between the processing plate mold 11 and the opposing base plate 2, the processing plate mold 11 having a concave-convex pattern portion, the concave-convex pattern portion having a flat surface, the concave-convex pattern being formed in a concave-convex shape on the surface of the concave-convex pattern portion, the processing plate mold 11 being a foil stamping plate, the workpiece 3 having a processed product 33 and a transfer foil material 34, the concave-convex pattern on the foil stamping plate 11 being formed as a foil stamping concave-convex pattern, the transfer foil material 34 being positioned and supplied between the processing plate mold 11 and the processed product 33, The press processing system is characterized by being configured such that, with a transfer foil material 34 and the processed product 33 positioned between the processing plate 11 and the opposing substrate 2, a foil stamping pattern formed by the transfer foil material 34 is transferred onto the surface of the processed product 33 by pressing at least one of the processing plate 11 and the opposing substrate 2, thereby preventing the occurrence of disturbances such as lifting of the transfer foil material, poor adhesion, wrinkles, and distortion in necessary areas of the foil stamping pattern transferred onto the processed product surface, and enabling the transfer and formation of a foil stamping pattern or a foil stamping pattern that is faithful to the uneven pattern formed on the surface of the processing plate. Examples of the processed product 33 include resin-coated paper, waterproof-coated paper, paper laminated with plastic film, and plastic film sheets, as shown in Figure 1 of Utility Model Registration No. 3162734 (Patent Document 1).
[0013] For example, Figures 1 and 17 of Utility Model Registration No. 3218466 (Patent Document 5) disclose "a stamping system comprising a first base 11 and a second base 12 arranged opposite each other at a predetermined distance, a stamping die base substrate 2 having a flat front surface and a flat back surface, a stamping die base substrate first substrate mounting member 28, a stamping die 3 having a stamping die pattern portion formed with a concave-convex shape on its surface, a stamping die base substrate mounting screw member 38, a receiving die positioned opposite the stamping die 3, and a receiving die second substrate mounting member 49, wherein the stamping die 3 is positioned at a desired position on the stamping die base substrate 2 and is attached and installed so as to be freely attached and detached, and wherein the workpiece 7 is a thin workpiece substrate 71 and a transfer material 72 such as a foil material." Regarding the workpiece 7, paragraphs 0121, 0145, and 0150 of Utility Model Registration No. 3218466 disclose that "the workpiece 7 is constituted of cardboard supplied in a strip shape having a thickness of approximately 0.1 mm and having patterns and letters printed at desired positions on its surface."
[0014] For example, Figure 22 of JP 2017-007318 A (Patent Document 6) shows that (A) a pair of first and second plate dies 30 and 40, each engraved with a three-dimensional concave-convex pattern that can fit together, are attached and fixed to a first base 11 and a second base 12 of a flat-type pressing processing device 1, and a thin plate-shaped workpiece substrate 71 and a thin plate-shaped foil material for foil stamping 72 are placed between the first base 11 and the second base 12. Then, (B) with the thin plate-like workpiece substrate 71 and the thin plate-like stamping foil material 72 in place, at least one of the first substrate 11 and the second substrate 12 is driven, and the pair of first plate mold 11 and second plate mold 12 is pressed against each other with the workpieces 71, 72 sandwiched between them, whereby the thin plate-like workpiece substrate 71 and the thin plate-like stamping foil material 72 are pressed firmly against each other by the first plate mold 30 and the second plate mold 40, and are deformed into a shape that matches the three-dimensional uneven pattern engraved on the pair of plate molds. Then, (C) by driving at least one of the first base 11 and the second base 12 to release the pressure, a three-dimensional uneven pattern 73a formed by transferring a thin foil stamping foil material having a shape that matches the three-dimensional uneven pattern engraved on the pair of plates is adhered to the thin workpiece substrate 71 in an uneven shape, and is formed and processed into the thin workpiece substrate in an uneven shape. A flat-plate pressing processing device is disclosed. [Prior art documents] [Patent documents]
[0015] [Patent Document 1] Japanese Patent Application Publication No. 5-59587 [Patent Document 2] Japanese Patent Application Publication No. 62-110000 [Patent Document 3] Japanese Patent Application Publication No. 59-136472 [Patent Document 4] Utility Model Registration No. 3162734 [Patent Document 5] Utility Model Registration No. 3218466 [Patent Document 6] Japanese Patent Application Publication No. 2017-007318 Summary of the Invention [Problem to be solved by the invention]
[0016] In the press processing system using a processed product 33 and a transfer foil material 34 in the above-mentioned publicly known Utility Model Registration No. 3162734 (Patent Document 4), the processed product 33 is disclosed to be resin-coated paper, waterproof-coated paper, paper laminated with plastic film, or plastic film sheet. Furthermore, in a foil stamping system in which a workpiece substrate 71 and a transfer material 72 such as foil material are used in Utility Model Registration No. 3218466 (Patent Document 5), the use of cardboard supplied in the form of a thin strip as the workpiece substrate 71 is disclosed. Furthermore, in the processing method for a hot stamp hologram in Japanese Patent Laid-Open Publication No. 2002-99196 (Patent Document 6), the use of the following as the processing material R is disclosed: paper / ink / thermoplastic resin layer, metallized paper / thermoplastic resin layer, paper / metal paste processed layer / thermoplastic resin layer, paper / pearl processed layer / thermoplastic resin layer, paper / metal foil layer / thermoplastic resin layer, paper / metallized film / thermoplastic resin layer, ink / plastic sheet (polypropylene, polyethylene terephthalate, vinyl chloride, polyethylene, etc.). That is, in the foil stamping systems and hot stamp hologram processing methods disclosed in Utility Model Registration No. 3162734 (Patent Document 4), Utility Model Registration No. 3218466 (Patent Document 5), and JP 2002-99196 A (Patent Document 6), a foil stamping system and a hot stamp hologram processing method are disclosed in which a desired foil-stamped graphic, letter, or picture pattern is transferred onto a workpiece such as a processed product 33, workpiece substrate 71, or workpiece material R, which has a sheet shape or a thin, strip-like shape, using a foil stamping transfer film material such as transfer foil material 34, foil material transfer material 72, or hologram transfer foil V.
[0017] The decorative methods such as the surface treatment method for plastics and the partial plating method for plastics disclosed in the above-mentioned known Japanese Patent Laid-Open No. 5-59587 (Patent Document 1), Japanese Patent Laid-Open No. 62-110000 (Patent Document 2), and Japanese Patent Laid-Open No. 59-136472 (Patent Document 3) require complex processes such as (a) etching the surface of a plastic molded product, (b) characterization process, (c) accelerator process, (d) chemical Ni plating process, (e) strike plating process, (f) Cu plating process, (g) Ni plating process, and (h) Cr plating process, and also have problems such as the use of chemical substances that are harmful to the human body and environmental safety measures, which require considerable manufacturing costs.
[0018] Furthermore, the foil stamping systems and flat-plate press processing devices disclosed in Utility Model Registration No. 3162734 (Patent Document 4), Utility Model Registration No. 3218466 (Patent Document 5), and JP 2017-007318 A (Patent Document 6) have had the problem that "it is difficult to transfer a desired foil-stamped graphic, letter, or picture pattern onto a workpiece having a three-dimensional shape." In particular, there has been the problem that "it is difficult to transfer a desired foil-stamped graphic, letter, or picture pattern onto a workpiece having a three-dimensional shape and an uneven surface."
[0019] The present invention provides a foil stamping transfer film material pressure transfer processing device and a foil stamping transfer film material pressure transfer processing method for workpieces, which can be mass-produced more cheaply than conventional surface decoration methods using plating methods and can form desired graphic, letter, or picture patterns in desired areas of workpieces having three-dimensional shapes. [Means for solving the problem]
[0020] The foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device that transfers and forms a separated foil stamping transfer film material (61a) having a transfer film drafting character picture pattern formed by separating it from a foil stamping transfer film material (61) on the surface of a desired workpiece 75, (A) Upper panel mechanism (2), (B) Lower plate mechanism (3), (C) a desired pressing plate (74) that can be attached to and detached from the upper plate mechanism (2); (D) a desired workpiece (75) that can be attached to and detached from the lower platen mechanism (3); (E) a foil stamping transfer film material supply mechanism (6) that supplies a foil stamping transfer film material (61) between the desired pressing plate and the desired workpiece; and, (F) stand (9), Equipped with where: The upper plate mechanism (2) is fixed to the upper part of the base (9), The lower mechanism (3) is fixed to the bottom of the base (9), The foil stamping transfer film material supply mechanism (6) is installed on the upper platen mechanism (2), The lower plate mechanism (3) is configured to be located below the upper plate mechanism (2), The upper platen mechanism (2) is configured to be drivable in the vertical direction, The desired pressing plate (74) has a desired graphic, letter, and picture pattern formed in a concave-convex shape, The desired workpiece (75) is a desired three-dimensional shape workpiece having a desired three-dimensional shape, The foil stamping transfer film material (61) has a strip-like shape, During operation, The desired pressing plate (74) is attached below the upper plate mechanism (2), The desired workpiece (75) is mounted on the lower platen mechanism (3), The desired pressing plate (74) and the desired workpiece (75) are attached in positions facing each other, With the desired pressing plate (74) attached to the upper platen mechanism (2) and the desired workpiece (73) attached to the lower platen mechanism (3), At least one of the upper platen mechanism (2) and the lower platen mechanism (3) is driven in the vertical direction, and the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil stamping transfer film material (61a) having a transfer film drafting character picture pattern separated from the foil stamping transfer film material and corresponding to the desired graphic character picture pattern formed on the desired pressing plate (74) is configured so as to be transferable onto the surface of the desired workpiece (75). It is characterized by:
[0021] The method for processing a foil stamping transfer film material onto a workpiece of the present invention comprises: A method for press-transferring a foil stamping transfer film material onto a surface of a desired workpiece (75), in which a separated foil stamping transfer film material (61a) having a transfer film drafting character and picture pattern formed by separating the foil stamping transfer film material (61) is transferred and formed, (a) a step of preparing a pressure transfer processing device body; where: The pressure transfer processing device itself is (A) Upper panel mechanism (2), (B) Lower plate mechanism (3), (E) Foil stamping transfer film material supply mechanism (6), and, (F) stand (9), Equipped with where: The upper plate mechanism (2) is fixed to the upper part of the base (9), The lower mechanism (3) is fixed to the bottom of the base (9), The foil stamping transfer film material supply mechanism (6) is installed on the upper platen mechanism (2), The lower plate mechanism (3) is configured to be located below the upper plate mechanism (2), The upper platen mechanism (2) is configured to be drivable in the vertical direction, The foil stamping transfer film material (61) has a strip-like shape, (A) The upper plate mechanism (2) is An upper board (21), Upper bottom plate (22), An electric cylinder for driving the upper platen up and down (23); Upper deck fall prevention cylinder (24), Upper plate Z-axis lock cylinder (25), Equipped with The electric cylinder (23) for driving the upper plate up and down is attached to the base (9), The upper board base plate (21) is attached to a part of the upper board vertical driving electric cylinder (23), The upper plate fall prevention cylinder (24) is attached to the upper plate base plate (21), The upper plate Z-axis lock cylinder (25) is attached to the upper plate base plate (21), The upper base plate (22) is attached to the underside of the upper base plate (21) by the upper plate fall prevention cylinder (24), The upper board base plate (21) is configured to be attachable to the upper board vertical driving electric cylinder (23), By driving the upper plate vertical driving electric cylinder (23), the upper plate base plate (21) and the upper base plate (72) attached to the upper plate base plate (21) can be driven up and down, and the upper plate bottom plate (22) can also be driven up and down. (E) The foil stamping transfer film material supply mechanism (6) (Ea) A foil stamping transfer film material feeding mechanism (62) having a function of feeding a foil stamping transfer film material (61), and, (Eb) a foil stamping transfer film material receiving mechanism (63) having the function of receiving and winding up the foil stamping transfer film material (61) sent from the foil stamping transfer film material sending mechanism (62); Equipped with (b) preparing a press-processing plate workpiece positioning member unit (7); where: (CD) The pressing plate workpiece positioning member unit (7) is an upper base plate (72) that can be attached and detached below the upper plate mechanism (2); a lower base plate (73) that can be attached to and detached from the lower plate mechanism (3); a removable and attachable pressing plate workpiece positioning member (77) for setting the relative positions of the upper substrate (72) and the lower substrate (73); A pressing plate workpiece positioning member unit (7) comprising: Equipped with where: A desired pressing plate (74) is attached and detachably mounted to the upper base plate (72), The upper base plate (72) is configured to be attachable and detachable downward from the upper plate mechanism (2), A desired workpiece (75) is configured to be attachable to and detachable from the lower substrate (73), The lower base plate (73) is configured to be attachable and detachable upward from the lower plate mechanism (3), At least one of the upper platen mechanism (2) and the lower platen mechanism (3) is configured to be drivable in the vertical direction, The upper platen mechanism (2) and the lower platen mechanism (3) are positioned opposite each other in the vertical direction and are configured separately. The upper end of the pressing plate workpiece positioning member (77) is configured to be attachable to and detachable from the upper base plate (72), and the lower end of the pressing plate workpiece positioning member (77) is configured to be attachable to and detachable from the lower base plate (73), (c) a step of installing the press processing plate workpiece positioning member unit (7) at a predetermined position of the lower plate mechanism (3) of the press transfer processing device body; (d) In a state where the pressing plate workpiece positioning member unit (7) is positioned between the upper plate mechanism (2) and the lower plate mechanism (3), the upper plate mechanism (2) is lowered in a state where the foil stamping transfer film material (61) is not interposed between the upper plate mechanism (2) and the lower plate mechanism (3), The upper surface of the upper base plate (72) of the press processing plate workpiece positioning member unit (7) is pressed into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), a step of removably attaching and fixing the upper base plate (72) to the upper plate mechanism (2) in the pressed contact state; Here, the desired pressing plate (74) is maintained attached to the lower surface of the upper substrate (72), (e) Raise the upper plate mechanism (2), As a result, the upper base plate (72) attached and fixed to the upper plate mechanism (2) is separated from the upper end of the pressing plate workpiece positioning member (77), Thereafter, a step of removing the pressing plate workpiece positioning member (77) from the pressing plate workpiece positioning member unit (7) from which the upper base plate (72) has been removed; (f) a step of removably mounting a desired workpiece (75) on the lower base plate (73) of the press processing plate workpiece positioning member unit (7); (g) With the foil stamping transfer film material (61) positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, a step of pressing the desired pressing plate (74) against the desired workpiece (75) via the foil stamping transfer film material (61); As a result, a separated foil stamping transfer film material (61a) having a transfer film drafting character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming a desired workpiece (75a) on which the transfer film drafting character picture pattern is transferred and formed. and, (h) a step of removing the desired workpiece (75a) onto which the transfer film drafted character and picture pattern has been transferred from the lower substrate (73); Equipped with The method is characterized in that a separated foil stamping transfer film material (61a) having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired character pattern formed on the desired pressing processing plate (74) is transferred and formed onto the surface of the desired workpiece (75). [Effects of the Invention]
[0022] The foil stamping transfer film material pressure transfer processing device of the present invention provides the following effect: [Basic configuration effect 1: A foil stamping transfer film material pressure transfer processing device is obtained that can be mass-produced more cheaply than conventional surface decoration methods using plating methods, and can form desired graphic, letter, and picture patterns in desired areas of a workpiece having a three-dimensional shape].
[0023] The foil stamping transfer film material pressure transfer processing method of the present invention provides the effect of [Basic method effect 38: A foil stamping transfer film material pressure transfer processing method is obtained that can be mass-produced more cheaply than conventional surface decoration methods using plating methods, and that can form desired graphic, letter, and picture patterns in desired areas of a workpiece having a three-dimensional shape]. [Brief explanation of the drawings]
[0024] [Figure 1] 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material pressure transfer processing device according to an embodiment of the present invention; [Figure 2] 1 is a schematic diagram illustrating a portion of a press processing plate workpiece positioning member unit configured in a foil stamping transfer film material press transfer processing device according to one embodiment of the present invention, and the configuration of a desired workpiece. [Figure 3] 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material pressure transfer processing device according to an embodiment of the present invention; [Figure 4] 1 is a schematic diagram illustrating the configuration of a press processing plate workpiece positioning member unit configured in a foil stamping transfer film material press transfer processing device according to one embodiment of the present invention; [Figure 5] 1 is a schematic diagram illustrating the configuration of a lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to an embodiment of the present invention; [Figure 6] 1 is a schematic diagram illustrating the configuration of a lower plate mechanism and a press processing plate workpiece positioning member unit configured in a foil stamping transfer film material press transfer processing device according to one embodiment of the present invention; [Figure 7] 1 is a schematic diagram illustrating the configuration of a portion of a lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to an embodiment of the present invention; [Figure 8] 3 is a schematic diagram illustrating a conveying member 341 of a lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. FIG. [Figure 9]1 is a schematic diagram illustrating the configuration of an upper platen mechanism and a press processing plate workpiece positioning member unit configured in a foil stamping transfer film material press transfer processing device according to one embodiment of the present invention; [Figure 10] 1 is a schematic diagram illustrating the configuration of a portion of an upper plate mechanism configured in a foil stamping transfer film material pressure transfer processing device according to an embodiment of the present invention; [Figure 11] 1 is a schematic diagram illustrating the configuration of a portion of an upper plate mechanism and a portion of a press processing plate workpiece positioning member unit configured in a foil stamping transfer film material press transfer processing device according to one embodiment of the present invention; [Figure 12] 1 is a schematic diagram illustrating the configuration of an upper platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention; [Figure 13] 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material feed mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention; [Figure 14] 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material receiving mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention; [Figure 15] 1 is a schematic diagram illustrating the configuration of an upper plate mechanism and a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention; [Figure 16] 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material feed mechanism, receiving mechanism, and rotation mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. FIG. [Figure 17] 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention; [Figure 18] 1 is a schematic diagram illustrating the configuration of a stand configured in a foil stamping transfer film material pressure transfer processing device according to an embodiment of the present invention; [Figure 19]1 is a schematic diagram illustrating a foil stamping transfer film material configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention; [Figure 20] A schematic diagram of a cross section of a desired workpiece to explain the configuration of the desired workpiece configured in a foil stamping transfer film material pressure transfer processing device in one embodiment of the present invention and the desired workpiece onto which a transfer film drafted character and picture pattern is transferred. [Figure 21] 1 is a schematic diagram illustrating a fine graphic, letter, and picture pattern formed with fine projections and depressions on a pressing processing plate in a foil stamping transfer film material pressing transfer processing device according to one embodiment of the present invention; [Figure 22] 1 is a schematic diagram of a transfer film drafting character and picture pattern formed on the surface of a desired workpiece in one embodiment of the present invention. [Figure 23] 1 is a schematic diagram illustrating the general configuration of a conventional known foil stamping transfer film material pressure transfer processing device. DETAILED DESCRIPTION OF THE INVENTION
[0025] The foil stamping transfer film material pressure transfer processing device of the present invention will be described below with reference to the drawings. The drawings do not accurately represent the shape, size, dimensions, etc. of each component, but are merely schematic diagrams for explaining the shape, configuration, system, effects, and other characteristics.
[0026] <Basic Configuration 1 of the Foil Stamping Transfer Film Material Press Transfer Processing Device of the Present Invention> 1, 2, 3, and 20 are schematic diagrams illustrating the configuration of a foil stamping transfer film material pressure transfer processing apparatus according to one embodiment of the present invention. Fig. 1 is a schematic diagram illustrating the configuration of a foil stamping transfer film material pressure transfer processing apparatus according to one embodiment of the present invention, Fig. 2 is a schematic diagram illustrating a portion of a pressure processing plate workpiece positioning member unit and the configuration of a desired workpiece configured in the foil stamping transfer film material pressure transfer processing apparatus according to one embodiment of the present invention, Fig. 3 is a schematic diagram illustrating the configuration of a foil stamping transfer film material pressure transfer processing apparatus according to one embodiment of the present invention, and Fig. 20 is a cross-sectional schematic diagram illustrating the configuration of a desired workpiece configured in the foil stamping transfer film material pressure transfer processing apparatus according to one embodiment of the present invention, and the desired workpiece onto which a transfer film drafted character and picture pattern is transferred and formed.
[0027] As shown in Figures 1, 2, and 3, the foil stamping transfer film material pressing and transferring processing device of the present invention is a foil stamping transfer film material pressing and transferring processing device that transfers and forms a separated foil stamping transfer film material 61a having a transfer film drafting character and picture pattern formed by separating it from the foil stamping transfer film material 61 onto the surface of the desired workpiece 75, and is equipped with (A) an upper platen mechanism 2, (B) a lower platen mechanism 3, (C) a desired pressing processing plate 74 that can be attached to and detached from the upper platen mechanism 2, (D) a desired workpiece 75 that can be attached to and detached from the lower platen mechanism 3, (E) a foil stamping transfer film material supply mechanism 6 that supplies the foil stamping transfer film material 61 between the desired pressing processing plate and the desired workpiece, and (F) a stand 9. Here, the upper platen mechanism 2 is fixed to the top of the stand 9, the lower platen mechanism 3 is fixed to the bottom of the stand 9, the foil stamping transfer film material supply mechanism 6 is installed on the upper platen mechanism 2, the lower platen mechanism 3 is configured to be positioned below the upper platen mechanism 2, the upper platen mechanism 2 is configured to be able to be driven in the vertical direction, the desired pressing processing plate 74 is formed with a desired graphic, letter, or picture pattern formed in an uneven shape, and the desired workpiece 75 is a desired three-dimensional shaped workpiece having a desired three-dimensional shape. When in operation, the desired pressing plate 74 is attached to the underside of the upper platen mechanism 2, the desired workpiece 75 is attached to the upper platen mechanism 3, the desired pressing plate 74 and the desired workpiece 75 are attached in positions facing each other in the vertical direction, and with the desired pressing plate 74 attached to the upper platen mechanism 2 and the desired workpiece 73 attached to the lower platen mechanism 3, at least one of the upper platen mechanism 2 and the lower platen mechanism 3 is driven in the vertical direction, and the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, thereby forming a separated foil stamping transfer film material 61a having a transfer film drawing character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74, which can be transferred and formed on the surface of the desired workpiece 75.
[0028] In addition, "the desired pressing plate 74 is attached to the underside of the upper platen mechanism 2" means "the desired pressing plate 74 is attached below, or below, or downward, or downward direction" as shown in Figures 1 and 3, and "the desired workpiece 75 is attached to the upper side of the lower platen mechanism 3" means "the desired workpiece 75 is attached above, or above, or upward, or upward direction" of the lower platen mechanism 3. Furthermore, "a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from a foil stamping transfer film material that matches the desired character pattern formed on the desired pressing processing plate 74 is configured so that it can be transferred onto the surface of the desired workpiece 75" means, in other words, "a transfer film character pattern that matches the desired character pattern formed on the desired pressing processing plate 74 is separated from the foil stamping transfer film material and configured so that it can be transferred onto the surface of the desired workpiece 75." Furthermore, "a separated foil stamping transfer film material 61a having a transfer film drafting character pattern separated from a foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74 is configured to be transferable onto the surface of the desired workpiece 75" means, in other words, "a separated foil stamping transfer film material 61a having a transfer film drafting character pattern separated from a foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74 is transferred onto the surface of the desired workpiece 75, thereby forming the desired workpiece 75a onto which the transfer film drafting character pattern has been transferred."
[0029] As shown in FIG. 2(B) and FIG. 20, the desired workpiece 75 is a workpiece having a desired three-dimensional shape. Preferably, the transfer film drafted character and picture pattern separated from the hot stamping transfer film material 61 can be transferred and formed on the surface of the desired workpiece 75 in a desired region of the desired three-dimensional shaped workpiece 75. In other words, the desired workpiece 75a can be formed in which the transfer film drafted character and picture pattern separated from the hot stamping transfer film material 61 is transferred and formed on the desired region of the desired three-dimensional shaped workpiece 75.
[0030] The drive of the foil stamping transfer film material pressure transfer processing device of the present invention has an electrical overall control system and is configured to be driven by the electrical overall control system. For example, as shown in Figure 1, the foil stamping transfer film material pressing transfer processing device has a comprehensive control unit 8 installed at a desired position on the front of a stand 9, and by operating the comprehensive control unit 8 of the foil stamping transfer film material pressing transfer processing device, each component of the foil stamping transfer film material pressing transfer processing device is driven. However, the operation of placing and attaching the desired workpiece 75 on the lower substrate 73 or the workpiece mounting member 76 can also be performed manually by an operator, rather than automatically, without using the foil stamping transfer film material pressure transfer processing device general control unit 8. The foil stamping transfer film material supply mechanism 6 is installed and fixed on the upper platen mechanism 2, and is configured to be able to move up and down as the upper platen mechanism 2 moves up and down. For example, the upper platen base plate 21 and the upper platen bottom plate 22 move up and down when driven by the upper platen up / down driving electric cylinder 23 of the upper platen mechanism 2 (described later), and the foil stamping transfer film material supply mechanism 6 is also configured to move up and down in accordance with the up and down movement of the upper platen base plate 21 and the upper platen bottom plate 22. That is, the upper platen base plate 21 and the upper platen bottom plate 22 move up and down (described later) when driven by the upper platen up and down drive electric cylinder 23 of the upper platen mechanism 2, and in conjunction with the up and down movement of the upper platen base plate 21 and the upper platen bottom plate 22, the foil stamping transfer film material supply mechanism 6 also moves up and down, so that the desired pressing processing plate 74 can press the desired workpiece 75 through the foil stamping transfer film material 61.
[0031] The foil stamping transfer film material pressure transfer processing device of the present invention provides the following effect: [Basic configuration effect 1: A foil stamping transfer film material pressure transfer processing device is obtained that can be mass-produced more cheaply than conventional surface decoration methods using plating methods, and can form desired graphic, letter, and picture patterns in desired areas of a workpiece having a three-dimensional shape].
[0032] The desired pressing plate 74 is not particularly limited, but for example, a pressing plate 74 made of metal, plastic, resin, rubber, or the like, which are commonly used as pressing plates, can be used. Particularly preferably, the desired rubber pressing plate 74 can be implemented. The desired rubber pressing plate 74 can be a desired pressing plate 74 made of rubber such as butadiene rubber, isoprene rubber, styrene rubber, silicone rubber, polyfluoro rubber, natural rubber, or the like, and can have a desired graphic, letter, or picture pattern formed in an uneven shape on its surface. Furthermore, the desired pressing plate 74 is not limited to being made of rubber, but may also be preferably made of metals such as stainless steel, brass, copper, magnesium, duralumin, etc., or steels such as iron, cemented carbide (GM, MF), powder high-speed steel (YXM), high-speed steel (high-speed steel, SKH, HSS), die steel (SKD), alloy tool steel (SKT, SKS), carbon tool steel (SK), etc. The desired graphic, letter, and picture pattern formed in a concave-convex shape on the surface of the desired pressing plate 74 is not particularly limited, but for example, desired letters, numbers, patterns, designs, designs, pictures, images, and concave-convex patterns having shapes similar thereto are engraved in a concave-convex shape. Also, as the desired graphic, letter, and picture pattern formed in a concave-convex shape, a changing image in which different graphic, letter, and picture patterns are seen depending on the viewing direction can be implemented.
[0033] The desired workpiece 75 can be made of plastic, paper, leather, wood, cloth, metal, or other materials, and can have shapes such as an uneven surface shape, a curved surface shape, or a three-dimensional shape containing through holes. As the desired workpiece 75, a three-dimensional workpiece having a three-dimensional shape is particularly preferable. Examples of three-dimensional workpieces having a desired three-dimensional shape include molded objects made of plastic, paper, leather, wood, cloth, metal, etc., or processed objects having three-dimensional shapes such as uneven surface shapes, curved surface shapes, shapes containing through holes, etc. Examples of three-dimensional workpieces having a desired three-dimensional shape include three-dimensional workpieces for manufacturing decorated decorative items such as decorative panels for automobiles, decorative panels for electrical appliances, and decorative panels for buildings. Examples of three-dimensional workpieces having a desired three-dimensional shape include plastic molded products having a desired shape, plastic molded products having an uneven surface, plastic molded products having through holes, plastic molded products having a curved surface, and other plastic molded products that have a desired three-dimensional shape and also have an uneven surface. For example, in the case of automobiles, decorative parts can be manufactured by forming desired graphic, letter, and pattern designs on the front panel, side panel, back panel, and bumper parts of the automobile exterior, the front panel of the automobile interior, air conditioner vent panel, front panel dial, etc. In addition, in the field of home electrical appliances, it is possible to manufacture decorative parts by forming desired graphic, letter, and picture patterns on the front panel of an air conditioner, the front peripheral panel of a television, the back panel of a television, the exterior panel of a washing machine, etc. Furthermore, without being limited to the above, it is possible to manufacture decorative parts in which desired graphic, letter, and picture patterns are formed on interior parts of buildings, furniture, etc.
[0034] The size of the desired workpiece 75 can be a three-dimensional workpiece of less than about 0.5 m or less than about 1 m. Furthermore, a three-dimensional workpiece having a large size of about 1 m or more can also be used, and a large decorative part can be manufactured by forming a desired graphic, letter, or picture pattern in a desired area of a large three-dimensional workpiece.
[0035] The above-mentioned "Basic Configuration 1" preferably includes the following configuration. The desired foil stamping transfer film material 61 is supplied in the form of a strip. As the desired foil stamping transfer film material 61, foil stamping transfer film materials for various foil stamping transfer applications can be used, and for example, a multilayer film can be used which is formed by combining and laminating at least the desired layers such as a base film layer, a peeling layer, a surface protection layer, a colored film layer, a decorative functional material layer, a special decorative functional material layer, an adhesive layer, etc. By combining these colored film layers, decorative functional material layers, special decorative functional material layers, etc., the desired foil stamping transfer film material 61 can be obtained, exhibiting the desired color such as "gold," "silver," "metallic blue," "metallic pink," etc., and / or the desired graphic, letter, and pattern. For example, it is possible to use a multilayer film that is configured by combining at least two or more of a base film layer, a release layer, a surface protection layer, a colored film layer, a decorative functional material layer, a special decorative functional material layer, and an adhesive layer, as shown in Fig. 19. Fig. 19 is a schematic diagram for explaining a desired foil stamping transfer film material 61 configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0036] Desired foil stamping transfer film materials 61 include a multilayer film layer having a base film layer, a peeling layer, a decorative functional material layer (or a special decorative functional material layer), and an adhesive layer, as shown in (A) of FIG. 19; a multilayer film having a base film layer, a peeling layer, a surface protective layer, a decorative functional material layer (or a special decorative functional material layer), and an adhesive layer, as shown in (B); and a multilayer film having a base film layer, a peeling layer, a surface protective material layer (or a colored film layer), and an adhesive layer, as shown in (C). Multilayer films that can be implemented include those having a decorative functional material layer (or special decorative functional material layer) and an adhesive layer, as shown in (D) and having a base film layer, a peeling layer, a decorative functional material layer (metal foil layer or metal vapor deposition film layer), a decorative functional layer B (special decorative functional material layer), a special decorative functional material layer, and an adhesive layer, as shown in (E), and the like.
[0037] The base film layer is also called a carrier film layer, and is made of a tough film such as a polyester film, a polyamide film, or a polyethylene film. The thickness of the film is not particularly limited, but a film having a thickness of, for example, about 10 μm to 100 μm can be used. The decorative functional material layer may be a colored film layer, a metal foil layer, a metal vapor deposition film layer, and / or a special decorative functional material layer. As the colored film layer, a plastic film containing a coloring agent such as a dye or pigment and colored to a desired color can be used. As the metal foil layer, thin metal foil such as aluminum foil, magnesium foil, nickel foil, gold foil, silver foil, etc. can be used. The metallized film layer may be a metallized film formed by depositing a metal component such as aluminum, gold, silver, nickel, or magnesium, or a metal oxide component such as aluminum oxide or magnesium oxide, onto the surface of a plastic film. The surface protective layer may be a transparent or colored plastic film made of polyester, polyamide, polyethylene, or other plastics. Examples of special decorative functional material layers include plastic films having a desired graphic, letter, or picture pattern printed on them, colored films having a desired graphic, letter, or picture pattern printed on them, paper having a desired graphic, letter, or picture pattern printed on them, colored paper having a desired graphic, letter, or picture pattern printed on them, plastic films having a holographic image that shows different images depending on the angle from which it is viewed, paper having a holographic image that shows different images depending on the angle from which it is viewed, and plastic films or paper having a changing image that has the function of showing different graphic, letter, or picture patterns depending on the angle from which it is viewed. The adhesive layer may be an adhesive layer containing an adhesive material that is easily adhered to the target workpiece. The plastic film is not particularly limited, but may be, for example, a film made of polyester, polyamide, polyethylene, or other plastics.
[0038] When the desired stamping plate 74 and the desired workpiece 75 are pressed against each other while the desired stamping plate 74 has at least a base film layer, a peeling layer, a decorative functional material layer (or a special decorative functional material layer), and an adhesive layer positioned between them, the "decorative functional material layer (or special decorative functional material layer) and the adhesive layer" peel off from the "base film layer" at the "peeling layer" and adhere to the surface of the desired workpiece 75, and a separated stamping transfer film material 61a having the desired graphic, letter, and picture pattern that matches the desired graphic, letter, and picture pattern of the desired stamping plate 74, which is formed in an uneven shape, is stamped and formed on the surface of the desired workpiece 75. The separated foil stamping transfer film material 61a that is separated from the desired foil stamping transfer film material 61 and transferred onto the surface of the desired workpiece 75 is formed by transferring the separated foil stamping transfer film material 61a from the desired foil stamping transfer film material 61, which has a base film layer, a ``surface protection layer'' having the desired graphic, letter, or pattern and / or a ``decorative functional material layer (colored film layer, and / or metal foil layer, and / or metal vapor deposition film layer, and / or special decorative functional material layer, and / or special decorative functional material layer)'' and an ``adhesive layer.''
[0039] In a configuration in which the desired pressing plate 74 is attached below the upper plate mechanism 2, a configuration in which the desired pressing plate 74 is attached so as to be attachable and detachable below the upper plate mechanism 2 is possible. Alternatively, as shown in Figure 1, a configuration in which an upper substrate 72 is attached so as to be attachable and detachable below the upper plate mechanism 2 is possible. Preferably, the desired pressing plate 74 is configured to be heatable, and for example, the upper plate mechanism 2 may have a heating mechanism, or the upper substrate 72 may have a heating mechanism, or the desired pressing plate 74 may have a heating mechanism. The heating mechanism is not particularly limited, but for example, a sheathed heater may be used.
[0040] In a configuration in which the desired workpiece 75 is attached above the lower platen mechanism 3, the desired workpiece 75 can be attached and detached to the lower platen mechanism 3. Alternatively, a configuration in which a lower base plate 73 is attached and detached to the lower platen mechanism 3, and the desired workpiece 75 is attached and detached to the lower base plate 73, can be implemented. Alternatively, as shown in FIG. 1, a configuration in which a lower base plate 73 is attached and detached to the lower platen mechanism 3, and a workpiece mounting member 76 is attached and detached to the lower base plate 73, and the desired workpiece 75 is attached and detached to the workpiece mounting member 76, can be implemented. Note that FIG. 1 does not show the desired workpiece 75, but FIG. 2B shows an embodiment in which the desired workpiece 75 is attached and detached to the workpiece mounting member 76.
[0041] As shown in (B) of Figure 2, a large three-dimensional workpiece exceeding approximately 1 m can also be used as the desired workpiece 75, and the desired large three-dimensional workpiece exceeding approximately 1 m is attached and detachably mounted on a workpiece mounting member 76. As shown in Figure 1, at least one of the upper platen mechanism 2 and the lower platen mechanism 3 is driven in the vertical direction, and the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74 can be transferred and formed on the desired surface of the desired workpiece 75.
[0042] Preferably, when the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, the desired workpiece 75 is fixed and held by the workpiece mounting member 76 without moving and / or deforming due to the pressing force. For example, a preferred embodiment is one in which the surface shape of the workpiece mounting member 76 has an uneven shape that roughly matches the back surface shape of the desired three-dimensional workpiece 75, so that the uneven portions on the back surface of the desired three-dimensional workpiece 75 and the uneven portions on the back surface of the workpiece mounting member 76 can engage with each other, and / or the desired three-dimensional workpiece 75 can be fixed and held removably to the workpiece mounting member 76 by a chuck-type fixing jig. The chuck-type fixing jig refers to a fixing jig that can fix and release the desired three-dimensional workpiece by clamping and releasing the clamping action.
[0043] <Regarding the subordinate configuration 2 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Fig. 4 is a schematic diagram illustrating the configuration of a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, and shows a schematic diagram illustrating the configuration of a pressing plate workpiece positioning member unit configured in the foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. Also, Fig. 3 is a schematic diagram illustrating the configuration of a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. In the foil stamping transfer film material pressure transfer processing device of the above-mentioned basic configuration 1, the foil stamping transfer film material pressure transfer processing device of the present invention, as shown in Figures 3 and 4, in addition to the above-mentioned basic configuration 1, further comprises a pressure processing plate workpiece positioning member unit 7 comprising (CD) an upper base plate 72 that can be attached and detached below the upper platen mechanism 2, a lower base plate 73 that can be attached and detached above the lower platen mechanism 3, and a pressure processing plate workpiece positioning member 77 that can be attached and detached and sets the relative position of the desired pressure processing plate 74 and the desired workpiece 75. The upper substrate 72 has an upper substrate receiving member 72a as a positioning member formed on the lower surface of the upper substrate, and the lower substrate 73 has a lower substrate receiving member 73a as a positioning member formed on the upper surface of the lower substrate. Here, the desired pressing plate 74 is configured to be attachable and detachable to the underside of the upper substrate 72, the upper substrate 72 is configured to be attachable and detachable downward to the upper platen mechanism 2, the desired workpiece 75 is configured to be attachable and detachable to the lower substrate 73, the lower substrate 73 is configured to be attachable and detachable upward to the lower platen mechanism 3, the upper platen mechanism 2 is configured to be drivable in the vertical direction, and the upper platen mechanism 2 and the lower platen mechanism 3 are positioned opposite each other in the vertical direction and are configured to be separated from each other. One end of the press processing plate workpiece positioning member 77 is formed so as to be attachable to and detachable from the positioning member upper substrate receiving member 72a formed on the upper substrate 72, and the other end of the press processing plate workpiece positioning member 77 is formed so as to be attachable to and detachable from the positioning member lower substrate receiving member 73a formed on the lower substrate 73. When in operation, the desired pressing plate 74 is attached to the underside of the upper substrate 72, the upper substrate 72 is attached below the upper platen mechanism 2, the desired workpiece 75 is attached to the lower substrate 73, the pressing plate workpiece positioning member 77 is removed from the upper substrate 72 and the lower substrate 73, the upper platen mechanism 2 is driven in the vertical direction, and the foil stamping transfer film material 61 is positioned between the desired pressing plate 74 and the desired workpiece 75, and the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, thereby forming a separated foil stamping transfer film material 61a having a transfer film drawing character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74, which can be transferred and formed on the surface of the desired workpiece 75.
[0044] In addition, "the upper substrate 72 is configured to be attachable and detachable downward from the upper panel mechanism 2" means, as shown in Figure 3, "the upper substrate 72 is configured to be attachable and detachable below, or on the lower side, or on the lower surface side, or in the downward direction, of the upper panel mechanism 2," and "the lower substrate 73 is configured to be attachable and detachable upward from the lower panel mechanism 3" means "the lower substrate 73 is configured to be attachable and detachable above, or on the upper side, or on the upper surface side, or in the upward direction, of the lower panel mechanism 3." Furthermore, as a configuration in which "one end of the pressing plate workpiece positioning member 77 is configured to be attachable to and detachable from the upper substrate 72, and the other end of the pressing plate workpiece positioning member 77 is configured to be attachable to and detachable from the lower substrate 73," it is possible to implement, for example, "the pressing plate workpiece positioning member 77 has a pillar shape or a rod shape, and the upper end of the pressing plate workpiece positioning member 77 is configured to be attachable to and detachable from the upper substrate 72, and the lower end of the pressing plate workpiece positioning member 77 is configured to be attachable to and detachable from the lower substrate 73."
[0045] The foil stamping transfer film material pressing transfer processing device of the above-mentioned subordinate configuration 2 has the effect of [Configuration effect 2: The above-mentioned basic configuration effect 1 is obtained, and a foil stamping transfer film material pressing transfer processing device is obtained in which the relative positions of the desired pressing processing plate 74 placed on the upper substrate 72 and the desired workpiece 75 placed on the lower substrate 73 can be accurately positioned and aligned at the desired position].
[0046] <Regarding the subordinate configuration 3 of the foil stamping transfer film material pressing and transferring processing device of the present invention> In the foil stamping transfer film material pressure transfer processing device of the above-mentioned subsidiary configuration 2, in the foil stamping transfer film material pressure transfer processing device of the present invention, as shown in Figures 3 and 4, (CD) in the pressing plate workpiece positioning member 77, the pressing plate workpiece positioning member 77 has a plurality of pressing plate workpiece positioning members 77, and each pressing plate workpiece positioning member 77 has a pillar shape, a cylindrical rod shape, or a rectangular rod shape, and an upper end portion as one end of each pressing plate workpiece positioning member 77 is formed on the upper substrate 72 and engages with the positioning member upper substrate receiving member 72a so as to be attachable and detachable, and a lower end portion as the other end of each pressing plate workpiece positioning member 77 is formed on the lower substrate 73 and engages with the positioning member lower substrate receiving member 73a so as to be attachable and detachable, and when driven, each The pressing plate workpiece positioning member is configured to be drivable when detached from the upper substrate 72 and the lower substrate 73, and when driven, the upper plate mechanism 2 drives in the vertical direction with the multiple pressing plate workpiece positioning members 77 formed on the upper substrate 72 and detached from the positioning member upper substrate receiving member 72a and the positioning member lower substrate receiving member 73a formed on the lower substrate 73, and the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61 with the desired pressing plate 74 pressing the desired workpiece 75 through the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75.
[0047] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 3 has the effect of [Configuration effect 3: The above-mentioned basic configuration effect 1 and configuration effect 2 are obtained, and a foil stamping transfer film material pressure transfer processing device is obtained that can be installed by more accurately positioning and aligning the relative positions of the desired pressure processing plate 74 installed on the upper substrate 72 and the desired workpiece 75 installed on the lower substrate 73].
[0048] For example, the pressing plate workpiece positioning member 77 has a plurality of pressing plate workpiece positioning members 77, more preferably, two or more, or three or more pressing plate workpiece positioning members 77, and even more preferably, four pressing plate workpiece positioning members 77. Preferably, in a configuration having four press processing plate workpiece positioning members 77, the upper substrate 72 has an approximately rectangular shape, and positioning member upper substrate receiving members 72a are formed at the four corners of the upper substrate 72, the lower substrate 73 has an approximately rectangular shape, and positioning member lower substrate receiving members 73a are formed at the four corners of the lower substrate 73, the positioning member upper substrate receiving members 72a and the positioning member lower substrate receiving members 73a are formed in positions facing each other, and the upper end of the press processing plate workpiece positioning member 77 is formed so as to be engageable with the positioning member upper substrate receiving member 72a, and the lower end of the press processing plate workpiece positioning member 77 is formed so as to be engageable with the positioning member lower substrate receiving member 73a. For example, the press processing plate workpiece positioning member 77 has a cylindrical rod shape, the positioning member upper substrate receiving member 72a has a circular recess, the positioning member lower substrate receiving member 73a also has a circular recess, the upper end of the press processing plate workpiece positioning member 77 engages with the circular recess of the positioning member upper substrate receiving member 72a so as to be attachable and detachable, and the lower end of the press processing plate workpiece positioning member 77 engages with the circular recess of the positioning member lower substrate receiving member 73a so as to be attachable and detachable.
[0049] Without being limited to the above, a configuration can also be implemented in which the press processing plate workpiece positioning member 77 has one press processing plate workpiece positioning member 77, a positioning member upper substrate receiving member 72a is formed at a desired position on the upper substrate 72, a positioning member lower substrate receiving member 73a is formed at a desired position on the lower substrate 73, and the positioning member upper substrate receiving member 72a and the positioning member lower substrate receiving member 73a are formed in positions facing each other.
[0050] The positioning member upper substrate receiving member 72a is not limited to the shape protruding from the underside of the upper substrate 72 shown in Figure 4, but a configuration in which a concave-shaped positioning member upper substrate receiving member 72a is formed at a desired position on the upper substrate 72 without protruding from the underside of the upper substrate 72 is also possible. The positioning member lower substrate receiving member 73a is not limited to the shape protruding from the upper surface of the lower substrate 73 shown in Figure 4, but a configuration in which a concave-shaped positioning member lower substrate receiving member 73a is formed at a desired position on the lower substrate 73 without protruding from the upper surface of the lower substrate 73 is also possible.
[0051] Preferably, upper substrate pilot guide portions 721 are formed in two locations on opposing peripheral regions of upper substrate 72. Upper substrate pilot guide portion 721 can have any desired shape, such as a hole shape with a recessed shape, a hole shape with a through-hole, or a protrusion shape with a protruding shape. The upper substrate pilot guide portion 721 has a guiding function for attaching the upper substrate 72 to the desired position on the upper base plate 22.
[0052] <Regarding the subordinate configuration 4 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Figure 4 is a schematic diagram for explaining the configuration of a foil stamping transfer film material pressure transfer processing device in one embodiment of the present invention, and is a schematic diagram for explaining the configuration of a pressure processing plate workpiece positioning member unit configured in a foil stamping transfer film material pressure transfer processing device in one embodiment of the present invention. In the foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 2 or subordinate configuration 3, the foil stamping transfer film material pressure transfer processing device of the present invention, as shown in Figure 4, in the above-mentioned subordinate configuration 2, (CD) the pressing processing plate workpiece positioning member unit 7 further has a workpiece placement plate 78 configured to be adjustable in position in the left-right horizontal and front-to-back vertical directions in the planar direction of the lower substrate 73, and the desired workpiece 75 is removably attached to the workpiece placement plate 78, thereby making the position of the workpiece placement plate 78 movable in the front-to-back vertical and left-to-right horizontal directions in the planar direction of the upper surface of the lower substrate 73, and making the relative position of the desired pressing processing plate 74 and the desired workpiece 75 attached to the workpiece placement plate 78 adjustable. When driven, the position of the workpiece placement plate 78 is adjusted by moving in the front-to-back, vertical, and left-to-right directions in the planar direction of the upper surface of the lower substrate 73, and the relative position of the desired pressing plate 74 and the desired workpiece 75 is adjusted.With the pressing plate workpiece positioning member 77 removed from the upper substrate 72 and the lower substrate 73, the upper platen mechanism 2 is driven in the vertical direction, and the foil stamping transfer film material 61 is positioned between the desired pressing plate 74 and the desired workpiece 75.The desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, and a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74 is configured to be transfer-formed onto the surface of the desired workpiece 75.
[0053] In addition, in the phrase "having a workpiece placement plate 78 configured so that the position of the lower substrate 73 in the horizontal and front-to-back vertical directions in the planar direction can be adjusted," the "horizontal and front-to-back directions" in the planar direction refer to the "horizontal and front-to-back directions" and "front-to-back vertical directions" when an operator operating the foil stamping transfer film material pressure transfer processing device is positioned in front of the foil stamping transfer film material pressure transfer processing device, facing the foil stamping transfer film material pressure transfer processing device; in other words, they refer to the X (left-to-right and horizontal) direction in a plane having the X direction (left-to-right and horizontal) and the Y direction (front-to-back and vertical).
[0054] The foil stamping transfer film material pressure transfer processing device 1 is equipped with a foil stamping transfer film material pressure transfer processing device general control unit 8, and by operating the foil stamping transfer film material pressure transfer processing device general control unit 8, the position of the workpiece placement plate 78 can be moved in the front-to-back vertical and left-to-right horizontal directions in the planar direction of the upper surface of the lower substrate 73, making it possible to adjust the position.
[0055] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 4 can achieve the effect of [Configuration effect 4: The above-mentioned basic configuration effect 1 and configuration effect 2 can be achieved, and a foil stamping transfer film material pressure transfer processing device can be obtained that further significantly exhibits the effect that the relative positions of the desired pressure processing plate 74 placed on the upper substrate 72 and the desired workpiece 75 placed on the lower substrate 73 can be accurately positioned and aligned at the desired positions].
[0056] <Regarding the subordinate configuration 5 of the foil stamping transfer film material pressing and transferring processing device of the present invention> In the foil stamping transfer film material pressure transfer processing device of the aforementioned subordinate configuration 4, as shown in Figure 4, (CD) in the pressure processing plate workpiece positioning member unit 7, the workpiece placement plate 78 comprises (i) a left-right lateral adjustment placement plate 78a that can adjust the left-right lateral position in the planar direction, and a front-to-back vertical adjustment placement plate 78b that can adjust the front-to-back vertical position in the planar direction. Here, (ia) the left-right lateral adjustment mounting plate 78a is mounted on the lower base plate 73 so as to be adjustable in left-right lateral movement, the front-to-back vertical adjustment mounting plate 78b is mounted on the left-to-right lateral adjustment mounting plate 78a so as to be adjustable in front-to-back vertical movement, and the desired workpiece 75 is attached and detachable to the front-to-back vertical adjustment mounting plate 78b, or (ib) the front-to-back vertical adjustment mounting plate 78b is mounted on the lower base plate 73 so as to be adjustable in left-to-right lateral movement, the left-to-right lateral adjustment mounting plate 78a is mounted on the front-to-back vertical adjustment mounting plate 78b so as to be adjustable in front-to-back vertical movement, and the desired workpiece 75 is attached and detachable to the left-to-right lateral adjustment mounting plate 78a. Alternatively, in the press processing plate workpiece positioning member unit 7, the workpiece placement plate 78 has (ii) a left-right lateral and front-to-back vertical adjustment placement plate (not shown) that can adjust the position in the left-right lateral and front-to-back vertical directions in the planar direction. In this way, the position of the workpiece placement plate 78 is adjustable by moving in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower substrate 73. The relative positions of the desired pressing plate 74 and the desired workpiece 75 attached to the workpiece placement plate 78 are adjustable. As a result, when driven, the position of the workpiece placement plate 78 is adjusted by moving in the front-to-back, vertical, and left-to-right directions in the planar direction of the upper surface of the substrate 73, and with the relative position of the desired pressing plate 74 and the desired workpiece 75 adjusted, the pressing plate workpiece positioning member 77 is removed from the upper substrate 72 and the lower substrate 73, the upper platen mechanism 2 is driven in the vertical direction, and with the foil stamping transfer film material 61 positioned between the desired pressing plate 74 and the desired workpiece 75, the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75.
[0057] Note that Figure 4 does not show the configuration of the workpiece placement plate 78, which has (ii) a left-right lateral and front-back vertical direction adjustment placement plate (not shown) that can adjust the position in the left-right lateral and front-back vertical directions in the planar direction. The workpiece placement plate 78 may have a configuration (ii) having a left-right lateral and front-to-back vertical adjustment placement plate (not shown) that can adjust the position in the left-right lateral and front-to-back vertical directions in the planar direction. There is no particular limitation to this configuration, but for example, a configuration in which a left-right lateral adjustment function member and a front-to-back vertical adjustment function member are installed on the underside of the workpiece placement plate 78 is possible.
[0058] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subsidiary configuration 5 achieves the effect of [Configuration Effect 5: In addition to achieving the above-mentioned basic configuration effect 1 and configuration effect 4, a foil stamping transfer film material pressure transfer processing device is obtained which further significantly exhibits the effect of being able to accurately position and align the desired pressing processing plate 74 installed on the upper substrate 72 and the desired workpiece 75 installed on the lower substrate 73 at the desired positions]. In particular, the relative positions of the desired processing plate 74 and the desired workpiece 75 can be set in the foil stamping transfer film material pressure transfer processing device with an accuracy of 0.5 mm or less, resulting in the effect of obtaining a desired workpiece 75a on which a transfer film drafting character and picture pattern is transferred and formed in an extremely precise area within an area of 0.5 mm or less from the desired area on the surface of the desired workpiece 75.
[0059] <Regarding the subordinate configuration 6 of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device of the aforementioned subordinate configurations 2 to 5, as shown in FIG. 2, (CD) pressing plate workpiece positioning member unit 7 further includes a workpiece mounting member 76 installed above lower substrate 73, and a desired workpiece 75 is configured to be attachable to and detachable from workpiece mounting member 76, and when driven, a desired pressing plate 74 is attached to the lower surface of upper substrate 72, and the desired workpiece 75 is attached to workpiece mounting member 76, and the desired pressing plate 74 and the desired workpiece 75 are attached in positions facing each other. and in a state where the pressing plate workpiece positioning member 77 is removed from the upper substrate 72 and the lower substrate 73, the upper plate mechanism 2 is driven in the vertical direction, and the foil stamping transfer film material 61 is positioned between the desired pressing plate 74 and the desired workpiece 75, whereby the desired pressing plate 74 presses the desired workpiece 75 via the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drafting character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75. It is characterized by:
[0060] In addition, in the press processing plate workpiece positioning member unit 7, which is equipped with a workpiece placement plate 78 installed on the upper surface of the lower substrate 73 of the aforementioned subordinate structure 5, a workpiece mounting member 76 is installed on the workpiece placement plate 78, and the desired workpiece 75 is attached and installed to the workpiece mounting member 76 so that it can be attached and removed. Furthermore, the desired workpiece 75 is attached and detachably mounted to the workpiece mounting member 76, and is preferably configured to be fixed to the workpiece mounting member 76 so that it does not move when driven by the upper platen mechanism 2.
[0061] In addition, in the foil stamping transfer processing device of subordinate configurations 2 to 5 equipped with the above-mentioned press processing plate workpiece positioning member unit 7, when the press processing plate workpiece positioning member 77 is removed from the upper substrate 72 and the lower substrate 73, the upper platen mechanism 2 is driven in the vertical direction, and the foil stamping transfer film material 61 is positioned between the desired press processing plate 74 and the desired workpiece 75, and the desired press processing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired press processing plate 74 can be transferred and formed on the surface of the desired workpiece 75.
[0062] As shown in Fig. 1, a possible configuration is one having a lower base plate 73 removably attached to the lower platen mechanism 3, and a workpiece mounting member 76 removably attached to the lower base plate 73, with a desired workpiece 75 being removably attached to the workpiece mounting member 76. Note that Fig. 1 does not show the desired workpiece 75, and Fig. 2(B) shows one embodiment having a configuration in which the desired workpiece 75 is removably attached to the workpiece mounting member 76.
[0063] As shown in (B) of Figure 2, a large three-dimensional workpiece exceeding approximately 1 m can also be used as the desired workpiece 75, and the desired large three-dimensional workpiece exceeding approximately 1 m is attached and detachably mounted on a workpiece mounting member 76. As shown in Figure 1, at least one of the upper platen mechanism 2 and the lower platen mechanism 3 is driven in the vertical direction, and the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74 can be transferred and formed on the desired surface of the desired workpiece 75. In addition, when the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, it is preferable that the desired workpiece 75 is fixed and held by the workpiece mounting member 76 without moving and / or deforming due to the pressing force.For example, a configuration in which the surface shape of the workpiece mounting member 76 has an uneven shape that roughly matches the back surface shape of the desired three-dimensional workpiece 75, and the uneven portions on the back surface of the desired three-dimensional workpiece 75 and the uneven portions on the back surface of the workpiece mounting member 76 have shapes that allow them to engage with each other, and / or a configuration in which the desired three-dimensional workpiece 75 further comprises a chuck-type fixing member is preferably implemented, and the workpiece mounting member 76 is placed so that the uneven portions of the workpiece mounting member 76 engage with the uneven portions of the desired three-dimensional workpiece 75 having an uneven surface, and further, the workpiece mounting member 76 can be fixed and held in a mountable and removable state by being clamped by the chuck-type fixing member. The chuck-type fixing member refers to a fixing member that can fix and release a desired three-dimensionally shaped workpiece by clamping and releasing the clamping action.
[0064] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 6 achieves the effect of [Configuration Effect 6: The above-mentioned basic configuration effect 1 and configuration effects 2 to 5 are obtained, and the effect that the relative positions of the desired pressing processing plate 74 placed on the upper substrate 72 and the desired workpiece 75 placed on the lower substrate 73 can be accurately positioned and aligned at the desired position is further significantly achieved, and further, the desired workpiece 75 can be accurately and reliably placed on the lower substrate 73 without moving when pressed, resulting in a foil stamping transfer film material pressure transfer processing device being obtained that makes it possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material onto the surface of the desired workpiece 75 in the desired area of the desired workpiece 75 even when using a desired workpiece 75 with a large shape].
[0065] <Regarding the subordinate configuration 7a of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressure transfer processing device of the present invention is characterized in that, in the foil stamping transfer film material pressure transfer processing device of the above-mentioned basic configuration 1 or subordinate configurations 2 to 6, it further comprises (G) a heating element having the function of heating the desired pressing processing plate 74 to a desired temperature, the heating element being installed on the upper platen mechanism 2, the upper substrate 72, or the desired pressing processing plate 74, and when operated, the upper platen mechanism 2 moves in the vertical direction, and the foil stamping transfer film material 61 is positioned between the desired pressing processing plate 74 and the desired workpiece 75, and the heated desired pressing processing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, thereby forming a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74, which can be transferred and formed on the surface of the desired workpiece 75.
[0066] In the foil stamping transfer film material pressure transfer processing device of the present invention, a configuration in which the desired pressing processing plate 74 is configured to be heatable is preferably possible, and although not particularly limited, for example, a configuration in which the upper platen mechanism 2 has a heating mechanism, a configuration in which the upper substrate 72 has a heating mechanism, or a configuration in which the desired pressing processing plate 74 has a heating mechanism, etc. are possible. The heating mechanism is not particularly limited, but for example, a configuration in which a sheath heater is used is possible. [Configuration effect 7a: Basic configuration effect 1 and configuration effects 2 to 6 are obtained, and in addition, in a configuration comprising (G) a heating element having the function of heating the desired pressing processing plate (74) to a desired temperature of the above-mentioned subordinate configuration 7, the effect is obtained in which a separated foil stamping transfer film material 61a having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing processing plate 74 is transferred and formed onto the surface of the desired workpiece 75 with a significantly high yield.]
[0067] <Regarding the subordinate configuration 7b of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressing transfer processing device of the present invention is characterized in that, in the foil stamping transfer film material pressing transfer processing device of the above-mentioned basic configuration 1 or subordinate configurations 2 to 6, it further comprises (H) a foil scraping mechanism 65 configured to be able to blow air onto the foil stamping transfer film material 61, and when operated, the desired pressing processing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, and then, when the desired pressing processing plate 74 moves upward, the scraping mechanism 65 blows air towards the foil stamping transfer film material 61, thereby having the function of peeling off the desired foil stamping transfer film material excluding the separated foil stamping transfer film material 61a from the desired workpiece 75a onto which the transfer film drafting character and picture pattern has been transferred and formed.
[0068] The foil scraping mechanism 65 is not particularly limited, but for example, a configuration in which air can be blown from the side of the upper bottom plate 22 can be implemented. The foil scraping mechanism 65 is not limited to the above, and may be configured to be installed in a foil stamping transfer film material supply mechanism 6 described later. [Configuration effect 7b: The above-mentioned basic configuration effect 1 and configuration effects 2 to 6 are obtained, and in addition, in the configuration of the above-mentioned subordinate configuration 7 (H) which is equipped with a foil scraping mechanism 65 configured to be able to blow air on the foil stamping transfer film material 61, the effect that it becomes possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drawing character pattern that is separated from the foil stamping transfer film material and matches the desired graphic character pattern formed on the desired pressing processing plate 74 onto the surface of the desired workpiece 75 with a significantly high yield is obtained.]
[0069] <Regarding the subordinate configuration 8 of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressure transfer processing device of the present invention is the foil stamping transfer film material pressure transfer processing device described in the above-mentioned basic configuration 1 and subsidiary configurations 2 to 7, preferably wherein (B) the lower platen mechanism 3 has a lower platen base 31. Here, the lower platen base 31 of the lower platen mechanism 3 is fixedly installed on the stand 9. The desired workpiece 75 is configured to be attached and detachable above, or above, or in the upward direction, or on the upper surface of the lower platen base 31. The desired pressing processing plate 74 is configured to be attached and detachable below, or below, or in the downward direction, or on the lower surface of the upper platen mechanism 2. When in operation, the desired pressing plate 74 and the desired workpiece 75 are positioned facing each other in the vertical direction via the foil stamping transfer film material 61, and the upper plate mechanism 2 is driven in the vertical direction, causing the desired pressing plate 74 to press the desired workpiece 75 via the foil stamping transfer film material 61, thereby creating a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74, which can be transferred and formed onto the surface of the desired workpiece 75. Although the foil stamping transfer film material pressure transfer processing device having the configuration of the lower platen mechanism 3 of this embodiment 8 is not shown, in Figures 3 and 5, the lower platen mechanism 3 does not have a movable lower platen 32, but rather has a lower platen base 31.
[0070] It should be noted that "the desired workpiece 75 is configured to be attached and detachable to the upper side of the lower base 31" means "the desired workpiece 75 is configured to be attached and detachable to the top, upward direction, upper surface, upper surface side, or upward direction of the lower base 31." "The desired pressing plate 74 is configured to be attached and detachably mounted to the underside of the upper platen mechanism 2" means "The desired pressing plate 74 is configured to be attached and detachably mounted below, downward, on the underside, on the underside or in the downward direction of the upper platen mechanism 2." Furthermore, in the foil stamping transfer film material pressing transfer processing device of this subordinate configuration 8, which includes the aforementioned subordinate configuration 2, it is preferable to further implement a configuration in which an upper substrate 72 is provided, the upper substrate 72 is installed on the "lower side, below, downward direction, lower surface, lower surface side, or downward direction" of the upper platen mechanism 2, and the desired pressing processing plate 74 is attached and detachably configured to the "lower surface" of the upper substrate 72. Furthermore, in the foil stamping transfer film material pressing transfer processing device of this subordinate configuration 8, which includes the aforementioned subordinate configuration 2, it is preferable to further implement a configuration in which a lower substrate 73 is provided, the lower substrate 73 is installed on the "upper side, above, upward direction, upper surface, upper surface side, or upward direction" of the lower platen mechanism 3, and the desired workpiece 75 is attached and detachably configured to the "upper side" of the lower substrate 73. Furthermore, in the foil stamping transfer film material pressing transfer processing device of the subordinate configuration 8 including the workpiece mounting member 76 of the aforementioned subordinate configuration 6, a configuration can be preferably implemented in which a lower substrate 73 is installed on the "upper side, above, upward direction, upper surface, upper surface side, or upper direction" of the lower platen mechanism 3, a workpiece mounting member 76 is installed on the "upper side, above, upward direction, upper surface, upper surface side, or upper direction" of the lower substrate 73, and a desired workpiece 75 is attached and detachably mounted on the lower substrate 73. In addition, a configuration in which a lower base plate 73 is installed on the "upper side, above, upward direction, upper surface, upper surface side, or upward direction" of the lower platen mechanism 3, a workpiece placement plate 78 is installed on the "upper side, above, upward direction, upper surface, upper surface side, or upward direction" of the lower base plate 73, and a desired workpiece 75 is attached and detachably mounted on the workpiece placement plate 78 is preferably implemented.
[0071] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 8 achieves the effect of [Configuration Effect 8: The above-mentioned basic configuration effect 1, configuration effect 2 to configuration effects 7a and 7b are obtained, and the effect that the relative position of the desired pressing processing plate 74 attached below the upper platen mechanism 2 and the desired workpiece 75 attached above the lower platen mechanism 3 can be accurately positioned and aligned and installed at the desired position is further significantly achieved, and further, the desired workpiece 75 can be installed accurately and reliably on the lower substrate 73 without moving when pressed, resulting in a foil stamping transfer film material pressure transfer processing device being obtained that makes it possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material in the desired area of the desired workpiece 75 onto the surface of the desired workpiece 75 even when using a desired workpiece 75 with a large shape].
[0072] <Regarding the subordinate configuration 9 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Figure 5 shows a schematic diagram illustrating the configuration of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, and Figure 6 shows a schematic diagram illustrating the configuration of the lower platen mechanism and pressure processing plate workpiece positioning member unit configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. In the foil stamping transfer film material pressure transfer processing device described in the above-mentioned subsidiary configurations 2 to 7, preferably, as shown in Figures 5 and 6, the foil stamping transfer film material pressure transfer processing device of the present invention is configured such that (B) the lower plate mechanism 3 has a lower plate base 31 and a movable lower plate 32. And, as shown in Figure 6, a pressing processing plate workpiece positioning member unit 7 is installed at a desired position on the movable lower plate 32. 1, the lower platen base 31 of the lower platen mechanism 3 is fixed to the frame 9, and the movable lower platen 32 is installed above the lower platen base 31. As shown in FIG. 2, a desired workpiece 75 is installed on a workpiece mounting member 76 so as to be attachable and detachable, and the workpiece mounting member 76 is installed on a lower base plate 73. Then, as shown in FIG. 3, the lower base plate 73 is installed on the movable lower platen 32 so as to be attachable and detachable. That is, the desired workpiece 75 is attached above the movable lower platen 32, and the desired workpiece 75 is configured to be attachable to and detachable from the movable lower platen 32. As shown in Fig. 5, the movable lower platen 32 is configured to be installable at a desired position on the lower platen base 31. As shown in Figures 3 and 4, the desired pressing plate 74 is installed so as to be attachable and detachable to the underside of the upper substrate 72, and as shown in Figure 3, the upper substrate 72 is installed so as to be attachable and detachable to the underside of the upper plate bottom plate 22 of the upper plate mechanism 2. That is, a desired pressing plate 74 is attached below the upper platen mechanism 2 . When in operation, the desired pressing plate 74 and the desired workpiece 75 are positioned facing each other in the vertical direction via the foil stamping transfer film material 61, and the pressing plate workpiece positioning member unit 7 is installed at the desired position on the movable lower plate 32, and the pressing plate workpiece positioning member 77 is removed from the pressing plate workpiece positioning member unit 7.The upper plate mechanism 2 is driven in the vertical direction, and the desired pressing plate 74 presses the desired workpiece 75 via the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75.
[0073] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 9 achieves the effect of [Configuration Effect 9: The above-mentioned basic configuration effect 1 and the effect of configuration effect 2, 3, 4, or 5 are obtained, and the effect that the relative position of the desired pressing processing plate 74 attached below the upper platen mechanism 2 and the desired workpiece 75 attached above the movable lower platen 32 can be accurately positioned and aligned and installed at the desired position is further significantly achieved, and further, the desired workpiece 75 can be accurately and reliably installed on the lower substrate 73 without moving when pressed, resulting in a foil stamping transfer film material pressure transfer processing device being obtained that makes it possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material onto the surface of the desired workpiece 75 in the desired area of the desired workpiece 75 even when using a desired workpiece 75 with a large shape].
[0074] <Regarding the subordinate configuration 10 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Figure 5 shows a schematic diagram illustrating the configuration of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, and Figure 6 shows a schematic diagram illustrating the configuration of the lower platen mechanism and pressure processing plate workpiece positioning member unit configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. Preferably, the foil stamping transfer film material pressing and transferring processing device of the present invention is the foil stamping transfer film material pressing and transferring processing device described in the aforementioned subordinate configuration 9, as shown in Figures 5 and 6, (B) the lower platen mechanism 3 further includes a positioning member unit carrying device 33, the positioning member unit carrying device 33 has a carrying device member 331 and a carrying device member drive motor 332 that drives the carrying device member, the motor rotation shaft of the carrying device member drive motor 332 is connected to the carrying device member 331, and the carrying device member drive motor 332 is fixed to the lower platen base 31 and / or the frame 9, the carrying device member 331 is configured to be movable in the front-to-back vertical direction in the planar direction of the upper surface of the lower platen base 31, and the movable lower platen 32 is configured to be movable in the front-to-back vertical direction in the planar direction of the upper surface of the lower platen base 31 by driving the carrying device member 331, thereby the movable lower platen 32 is moved in the front-to-back vertical direction in the planar direction by driving the positioning member unit carrying device 33 and is configured to be installable at a desired position on the lower platen base 31, and when driven, the pressing plate workpiece positioning member unit 7 placed at a desired position on the movable lower platen 32 is transported and installed at the desired position on the movable lower platen 32, and the desired pressing plate 74 and the desired workpiece 75 are positioned facing each other in the vertical direction via the foil stamping transfer film material 61, and with the pressing plate workpiece positioning member 77 removed from the pressing plate workpiece positioning member unit 7, the upper platen mechanism 2 is driven in the vertical direction, and the desired pressing plate 74 presses the desired workpiece 75 via the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drafting character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75.
[0075] In addition, in the description that "the conveying device member 331 is configured to be movable in the front-to-back vertical direction in the planar direction of the upper surface of the lower base 31," "the front-to-back vertical direction in the planar direction of the upper surface of the lower base 31" corresponds to "the front-to-back vertical direction in the planar direction of the upper surface of the lower base 31." In other words, in the description of the present invention, "front-to-back vertical direction" means the "front-to-back direction" or "vertical direction" with the position of the operator of the foil stamping transfer film material pressure transfer processing device as the starting point, and "front-to-back direction" means the same direction as "the vertical direction in the planar direction."
[0076] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 10 achieves the effect of [Configuration Effect 10: The effect of the above-mentioned basic configuration effect 1 and configuration effect 8 or 9 can be obtained, and the configuration including a positioning member unit conveying device 33 having a conveying device member 331 and a conveying device member drive motor 332 that drives the conveying device member makes it possible to more significantly achieve the effect that even when using a desired workpiece 75 having a large shape, the relative position of the desired pressing processing plate 74 attached below the upper platen mechanism 2 and the desired workpiece 75 attached above the movable lower platen 32 can be accurately positioned and aligned at the desired position, and a foil stamping transfer film material pressure transfer processing device is obtained that makes it possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drafting character pattern separated from the foil stamping transfer film material onto the surface of the desired workpiece 75 in the desired area of the desired workpiece 75].
[0077] <Regarding the subordinate configuration 11 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Figure 5 shows a schematic diagram illustrating the configuration of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, and Figure 6 shows a schematic diagram illustrating the configuration of the lower platen mechanism and pressure processing plate workpiece positioning member unit configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. Figure 7 shows a schematic diagram illustrating a partial configuration of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device in one embodiment of the present invention, and Figure 8 shows a schematic diagram illustrating another partial configuration of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device in one embodiment of the present invention. Preferably, the foil stamping transfer film material press transfer processing device of the present invention is the foil stamping transfer film material press transfer processing device described in the aforementioned subsidiary configuration 9 and subsidiary configuration 10, as shown in Figures 5, 6, 7 and 8, (B) the lower plate mechanism 3 further includes a positioning member unit transporting and fixing member 34 that transports the press processing plate workpiece positioning member unit 7 and fixes the press processing plate workpiece positioning member unit 7 at a desired position, and the positioning member unit transporting and fixing portion The member 34 has a conveying member 341 installed at both end regions of the lower plate, a guide member 342 installed on the end face of the lower plate, and an electromagnet fixing member 343 installed in a desired region of the lower plate, and the pressing plate workpiece positioning member unit 7 is guided by the conveying member 341 and the guide member 342 and moved to a desired position on the upper surface of the movable lower plate 32, and the pressing plate workpiece positioning member unit 7 is fixed at a desired position on the upper surface of the movable lower plate 32 by the electromagnet fixing member 343. and is configured to be able to be fixed and released, and when driven, the pressing plate workpiece positioning member unit 7 is fixed at a desired position on the movable lower plate 32, and the desired pressing plate 74 and the desired workpiece 75 are positioned to face each other in the vertical direction via the foil stamping transfer film material 61, and the pressing plate workpiece positioning member 77 of the pressing plate workpiece positioning member unit 7 is removed from the upper substrate 72 and the lower substrate 73, and the upper plate mechanism 2 is When the foil stamping transfer film material 61 is driven in the direction of the arrow, and the desired pressing plate 74 is positioned between the desired pressing plate 74 and the desired workpiece 75, the desired pressing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, and a separated foil stamping transfer film material 61a having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate 74 is configured to be transferable onto the surface of the desired workpiece 75.
[0078] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 11 achieves the effect of [Configuration effect 11: The effect of the above-mentioned basic configuration effect 1 and configuration effects 8, 9, or 10 is obtained, and the configuration including a positioning member unit transporting and fixing member 34 having a transport member 341, a guide member 342, and an electromagnet fixing member 343 makes it possible to easily transport the press processing plate workpiece positioning member unit 7 to the desired position with high precision and fix it in the desired position, thereby achieving a foil stamping transfer film material pressure transfer processing device that makes it possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material onto the surface of the desired workpiece 75 in the desired area of the desired workpiece 75, even when using a desired workpiece 75 having a large shape].
[0079] <Detailed Description of the Pressing Plate Workpiece Positioning Member Unit 7 of the Subordinate Structures 2 to 6 and the Lower Plate Mechanism 3 of the Subordinate Structures 8 to 11> A detailed description including an example of the press processing plate workpiece positioning member unit 7 of the aforementioned subordinate components 2 to 6 and the lower plate mechanism 3 associated with the subordinate components 8 to 11 will be given below. As shown in Figure 1, the lower board mechanism 3 is attached to the bottom of the stand 9, and the upper board mechanism 2 is attached to the top of the stand 9, with the lower board mechanism 3 and the upper board mechanism 2 being installed in positions facing each other in the vertical direction. As shown in Figure 5, the lower plate mechanism 3 has a lower plate base 31, a movable lower plate 32, a positioning member unit transport device 33, a positioning member unit transport and fixing member 34, and a pilot member 35. The lower plate base 31 is attached and fixed to the bottom of the stand 9 with fasteners such as bolts. A transporting device member installation section is formed or installed on the upper surface of the lower plate base 31. The movable lower plate 32 is installed above the positioning member unit transport device 33. The positioning member unit transport device 33 is installed above the lower plate base 31. The press processing plate workpiece positioning member unit 7 is attached and installed to the positioning member unit transport and fixing member 34 in a manner that allows it to be attached or removed.
[0080] The positioning member unit transport device 33 includes a transport member 331 and a transport member drive motor 332 . The conveying device member 331 is installed in a conveying device member installation section, and the conveying device member drive motor 332 is installed on the outer periphery of the lower platform 31, and the motor shaft of the conveying device member drive motor 332 is connected to the conveying device member 331 formed or installed in the conveying device member installation section. The conveying device member drive conveying device member 331 is configured to be drivable by the motor 332. The conveying device member 331 is not particularly limited, and examples thereof include a screw conveyor, a belt conveyor, etc. The movable lower platen 32 is configured to be movable in the front-to-rear direction on the transporting device member 331. A positioning member unit transporting and fixing member 34 is installed on the movable lower platen 32. The positioning member unit transporting and fixing member 34 has a transport member 341, a guide member 342, and an electromagnet fixing member 343. The pilot member 35 has a pilot lock cylinder 351, a pilot member guide shaft 352, and a pilot pin 353. The pilot member 35 is installed on the movable lower platen 32.
[0081] The positioning member unit transporting device 33 is, for example, a screw-type conveyor having a transporting device rib-like protrusion portion 333 formed in the vertical, depth, and front-to-back directions on the upper surface of the movable lower platen 32, a transporting device member 331 having a screw installed on the transporting device rib-like protrusion portion 333, and a transporting device member drive motor 332 connected to the transporting device member 331 having the screw, so that the transporting device member 331 having the screw is driven by the drive of the transporting device member drive motor 332, and the movable lower platen 32 is configured to be movable in the vertical, depth, and front-to-back directions on the positioning member unit transporting device 33.
[0082] 8 is a schematic diagram illustrating the conveying member 341 of the lower platen mechanism configured in the foil stamping transfer film material pressure transfer processing device of one embodiment of the present invention. The conveying member 341 is installed in the end regions on both sides of the movable lower platen 32. As shown in FIG. 8, the conveying member 341 has a steel conveying member base 341a having a substantially rectangular parallelepiped or block shape, a conveying member sphere 341b, a conveying member surface hole 341c, and an internal conveying member vent hole 341d. The conveying member surface holes 341c comprise a plurality of conveying member surface holes 341c formed on the upper surface of the steel conveying member base 341a, the internal conveying member vent 341d is formed inside the steel conveying member base 341a and comprises a continuous hole connected to the plurality of conveying member surface holes 341c, and one end of the internal conveying member vent 341d comprises an internal conveying member vent opening opened on a predetermined surface of the steel conveying member base 341a. In other words, the plurality of conveying member vent holes and the internal conveying member vent hole are connected to each other. A conveying member sphere 341b is installed in each of the plurality of conveying member surface holes 341c so as to be able to float or be released. The inner conveying member vent opening is configured to communicate with a vent pipe (not shown).
[0083] As the steel transport member base 341a, for example, a steel transport member base 341a made of stainless steel or steel can be used. The transporting member sphere 341b may be made of stainless steel, steel, ceramic, glass, plastic, or other spherical material. By supplying gas such as air through the internal conveying member ventilation hole opening, the internal conveying member ventilation hole 341d, and the conveying member surface hole 341c, the conveying member sphere 341b installed in the conveying member surface hole 341c rises or floats, and the conveying member sphere 341b protrudes from the top surface of the steel conveying member base 341a, and by cutting off the air supply, the conveying member sphere 341b descends or sinks.
[0084] Figure 5 is a schematic diagram for explaining the configuration of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, Figure 6 is a schematic diagram for explaining the configuration of the lower platen mechanism and pressure processing plate workpiece positioning member unit configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, and Figure 7 is a schematic diagram for explaining the configuration of a portion of the lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. 5 and 7, the guide member 342 has a shape that protrudes from the upper end surface of the movable lower platen 32, and is installed in the front region of the upper end surface of the movable lower platen 32. The guide member 342 functions as a guide control member that guides the position of the press processing plate workpiece positioning member unit 7 and controls the position of the press processing plate workpiece positioning member unit 7. As shown in FIG. 7, the pilot member 35 has a pilot lock cylinder 351 , a pilot member guide shaft 352 , and a pilot pin 353 , and the pilot member 35 is installed on the movable lower platen 32 . A pilot pin 353 is installed on the movable lower platen 32, a pilot member guide shaft 352 is installed connected to the pilot pin 353, and a pilot lock cylinder 351 is installed via a mounting seat and connected to the pilot member guide shaft 352. That is, the pilot lock cylinder 351 is installed via the mounting seat so as to protrude from the lower surface end region of the movable lower platen 32, an end of the pilot lock cylinder 351 is connected to the pilot member guide shaft 352, and the pilot pin 353 is connected to the pilot member guide shaft 352.
[0085] As shown in FIG. 6, the press processing plate workpiece positioning member unit 7 is removably attached to the movable lower plate 32. As shown in Figure 4, the press processing plate workpiece positioning member unit 7 includes an upper base plate 72, a press processing plate mounting adjustment member 79 installed on the upper base plate 72, a plurality of positioning member upper base plate receiving members 72a and an upper base plate pilot guide portion 721, a lower base plate 73, a workpiece placing plate 78 installed on the lower base plate 73, a plurality of positioning member lower base plate receiving members 73a, a lower base plate movable lower plate position adjustment member 73b and a plurality of press processing plate workpiece positioning members 77. Each of the multiple press processing plate workpiece positioning members 77 is configured to be installed so as to be attachable and detachable by engaging or fitting with each of the multiple positioning member upper board receiving members 72a and each of the multiple positioning member lower board receiving members 73a. The upper substrate pilot guide portion 721 has the function of guiding and adjusting the positions of the upper substrate 72 and the upper plate bottom plate 22 of the upper plate mechanism 2 to a desired position.
[0086] A desired pressing plate 74 is removably attached to the lower surface of the upper substrate 72 . The workpiece placement plate 78 has a left-right lateral adjustment placement plate 78a and a front-rear vertical adjustment placement plate 78b. A preferred embodiment of the workpiece placement plate 78 has a left-right lateral adjustment placement plate 78a placed in the central region of the upper surface of the lower substrate 73, and a front-rear vertical adjustment placement plate 78b placed on the left-right lateral adjustment placement plate 78a. Alternatively, a preferred embodiment of the workpiece placement plate 78 has a left-right lateral adjustment placement plate 78a placed in a desired region of the lower substrate 73, and a front-rear vertical adjustment placement plate 78b placed in another desired region of the lower substrate 73.
[0087] <Description of the process of installing the press processing plate workpiece positioning member unit 7 at a desired position on the movable lower plate 32 using the positioning member unit transport and fixing member 34> The process of installing the press processing plate workpiece positioning member unit 7 at a desired position on the movable lower plate 32 using the positioning member unit transport and fixing member 34 will be described below. · Installation process of the press processing plate workpiece positioning member unit A. Pressurized gas is supplied to the conveying member vent hole 341d of the conveying member 341, causing the conveying member sphere 341b to rise and float. · Installation process B of the press processing plate workpiece positioning member unit. The press processing plate workpiece positioning member unit 7 is placed on the movable lower plate 32, and the position of the press processing plate workpiece positioning member unit 7 is controlled by the guide member 342 to set it at a desired position. · Installation process of the press processing plate workpiece positioning member unit C. The pilot lock cylinder 351 is raised, and the pilot pin 353 engages or fits into the lower substrate movable lower plate position adjustment member 73b formed on the press processing plate workpiece positioning member unit 7, thereby controlling the positions of the lower substrate 73 of the press processing plate workpiece positioning member unit 7 and the movable lower plate 32 of the lower plate mechanism 3 and setting them at the desired positions. · Installation process of the press processing plate workpiece positioning member unit D. The supply of pressurized gas to the conveying member air vent 341d is stopped, causing the conveying member sphere 341b to descend and sink into the conveying member surface hole 341c, causing the press processing plate workpiece positioning member unit 7 to descend to the movable lower plate 32 and the electromagnet fixing member 343 to become energized, causing the lower base 73 of the press processing plate workpiece positioning member unit 7 and the movable lower plate 32 of the lower plate mechanism 3 to lock together and be fixed in place. In this way, the press processing plate workpiece positioning member unit 7 is fixed and installed at a desired position on the movable lower platen 32 so as to be attachable and detachable. This process makes it possible to automatically and removably fix and install the pressing plate workpiece positioning member unit 7 at the desired position on the movable lower plate 32 without the need for manual operation by an operator. As a result, the time required to replace the desired pressing plate 74 is reduced, the pressing plate workpiece positioning member unit 7 having the desired pressing plate 74 can be accurately installed at the desired position, and furthermore, the safety of the operator can be ensured.
[0088] <Regarding the subordinate configuration 12 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Figure 9 shows a schematic diagram illustrating the configuration of a lower platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, Figure 10 shows a schematic diagram illustrating the configuration of a portion of an upper platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, Figure 11 shows a schematic diagram illustrating the configuration of a portion of an upper platen mechanism and a portion of a pressure processing plate workpiece positioning member unit configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention, and Figure 12 shows a schematic diagram illustrating the configuration of an upper platen mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0089] The foil stamping transfer film material pressure transfer processing device described in the above-mentioned basic configuration 1 preferably has the following configuration. As shown in Figures 9, 10, 11 and 12, (A) the upper plate mechanism 2 comprises an upper plate base plate 21, an upper plate bottom plate 22, an upper plate up and down drive electric cylinder 23, an upper plate fall prevention cylinder 24, and an upper plate Z-axis lock cylinder 25. The upper panel up / down driving electric cylinder 23 is attached to the frame 9, the upper panel base plate 21 is attached to a part of the upper panel up / down driving electric cylinder 23, the upper panel fall prevention cylinder 24 is attached to the upper panel base plate 21, and the upper panel Z-axis lock cylinder 25 is attached to the upper panel base plate 21. That is, the upper panel bottom plate 22 is attached to the underside of the upper panel base plate 21 by the upper panel fall prevention cylinder 24, and the upper panel base plate 21 is configured to be attachable to the upper panel up and down drive electric cylinder 23. By driving the upper panel up and down drive electric cylinder 23, the upper panel base plate 21 and the upper base plate 72 attached to the upper panel base plate 21 can be driven up and down, and the upper panel bottom plate 22 can also be driven up and down. A desired pressing plate 74 is removably and attachably attached to the upper board base plate 21, and a desired workpiece 75 is removably and attachably attached to the lower board mechanism 3. When driven, the desired pressing plate (74) and the desired workpiece (75) are positioned facing each other in the vertical direction via the foil stamping transfer film material (61), and the upper plate base 21 of the upper plate mechanism 2 is driven vertically, and the desired pressing plate 74 attached to the upper plate base 21 presses the desired workpiece 75 via the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drafting character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75. It is characterized by:
[0090] The foil stamping transfer film material pressing transfer processing device of the above-mentioned subordinate configuration 12 achieves the effect of [Configuration effect 12: In addition to achieving the effect of the above-mentioned basic configuration effect 1, the upper panel bottom plate 22 is attached to the underside of the upper panel base plate 21 by the upper panel fall prevention cylinder 24, the upper panel base plate 21 is configured to be attachable to the upper panel up and down drive electric cylinder 23, and the desired pressing processing plate 74 is attached to the upper panel base plate 21 in a removable and attachable manner, thereby facilitating the installation of the desired pressing processing plate 74 and the installation and replacement of the desired pressing processing plate 74].
[0091] <Regarding the subordinate configuration 13 of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressure transfer processing device according to the above-mentioned sub-configurations 2 to 11 preferably includes the following configuration. As shown in Figures 9, 10, 11, 12, and 4, (A) the upper panel mechanism 2 comprises an upper panel base plate 21, an upper panel bottom plate 22, an upper panel up / down drive electric cylinder 23, an upper panel fall prevention cylinder 24, and an upper panel Z-axis lock cylinder 25. The upper panel up / down driving electric cylinder 23 is attached to the frame 9, the upper panel base plate 21 is attached to a part of the upper panel up / down driving electric cylinder 23, the upper panel fall prevention cylinder 24 is attached to the upper panel base plate 21, and the upper panel Z-axis lock cylinder 25 is attached to the upper panel base plate 21. That is, the upper panel bottom plate 22 is attached to the underside of the upper panel base plate 21 by the upper panel fall prevention cylinder 24, and the upper panel base plate 21 is configured to be attachable to the upper panel up / down drive electric cylinder 23. By driving the upper panel up / down drive electric cylinder 23, the upper panel base plate 21 and the upper panel 72 attached to the upper panel base plate 21 can be driven up and down, and the upper panel bottom plate 22 can also be driven up and down. (CD) The desired pressing plate 74 is attached and detachably mounted to the bottom surface of the upper substrate 72 of the pressing plate workpiece positioning member unit 7, and the desired workpiece 75 is attached and detachably mounted to the lower substrate 73 of the pressing plate workpiece positioning member unit 7. When in operation, the desired pressing plate 74 and the desired workpiece 75 are positioned facing each other in the vertical direction via the foil stamping transfer film material 61, and the pressing plate workpiece positioning member unit 7 is fixed at the desired position between the lower plate base 31 and the movable lower plate 32, and when the pressing plate workpiece positioning member 77 is detached from the upper substrate 72 and the lower substrate 73, the upper plate mechanism 2 is driven in the vertical direction, and the foil stamping transfer film material 61 is positioned between the desired pressing plate 74 and the desired workpiece 75, and the desired pressing plate 74 presses the desired workpiece 75 via the foil stamping transfer film material 61, so that a separated foil stamping transfer film material 61a having a transfer film drawing character picture pattern separated from the foil stamping transfer film material that matches the desired graphic character picture pattern formed on the desired pressing plate 74 can be transferred and formed on the surface of the desired workpiece 75.
[0092] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subsidiary configuration 13 provides the effect of [Configuration effect 13: The effects of the above-mentioned subsidiary configurations 2 to 11 are obtained, and a pressure processing plate workpiece positioning member unit 7 is formed, and the upper plate bottom plate 22 is attached to the underside of the upper plate base plate 21 by the upper plate fall prevention cylinder 24, and the upper plate base plate 21 is configured to be attachable to the upper plate up and down drive electric cylinder 23, and the desired pressure processing plate 74 is attached to the upper plate base plate 21 in a removable and attachable manner, so that the relative positions of the desired pressure processing plate 74 installed on the upper base plate 72 and the desired workpiece 75 installed on the lower base plate 73 can be accurately positioned and aligned at the desired position, and further, a foil stamping transfer film material pressure transfer processing device is obtained in which the desired pressure processing plate 74 can be easily installed and the installation and replacement of the desired pressure processing plate 74 is facilitated].
[0093] <Regarding the subordinate configuration 14 of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressure transfer processing device according to the aforementioned subsidiary configuration 13 preferably includes the following configuration. As shown in Figure 10, (A) the upper panel mechanism 2 includes an upper panel base plate 21, an upper panel bottom plate 22, an upper panel up / down drive electric cylinder 23, the upper panel fall prevention cylinder 24, and the upper panel Z-axis lock cylinder 25, as well as the following components. (A) The upper plate mechanism 2 further comprises an upper plate cylinder-fixing member 27, an upper plate connecting member fixing block member 28a, an upper plate connecting guide shaft 28b, an upper plate connecting member driving block member 28c, and an upper plate connecting rod moving block member 28d. The upper platen cylinder-fixing member 27 is fixed to the end of the upper platen base plate 21, and the upper platen Z-axis lock cylinder 25 is installed on the upper platen base plate 21 via the upper platen cylinder-fixing member 27. The upper platen connecting member fixing block member 28a is connected to the shaft end of the upper platen anti-fall cylinder 24 by the upper platen connecting member driving block member 28c, and the upper platen connecting rod moving block member 28d is attached to the end of the upper platen connecting member fixing block member 28a, and the upper platen connecting rod moving block member 28d is configured to be able to lock the upper platen base plate 72, and the upper platen connecting member fixing block member 28a is connected by the upper platen connecting guide shaft 28b. As a result, the upper base plate 72 is removably attached to the upper base plate 21 by the upper base plate connecting member fixing block member 28a, the upper base plate connecting guide shaft 28b, the upper base plate connecting member driving block member 28c, and the upper base plate connecting rod moving block member 28d. A desired pressing plate 74 is removably and attachably attached to the upper board base plate 21, and a desired workpiece 75 is removably and attachably attached to the lower board mechanism 3. When driven, the upper platen base plate 21 of the upper platen mechanism 2 drives in the vertical direction, and the desired pressing processing plate 74 attached to the upper platen base plate 21 presses the desired workpiece 75 through the foil stamping transfer film material 61, thereby forming a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the pressing transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74, which can be transferred and formed on the surface of the desired workpiece 75. In the above configuration, the upper cylinder fixing members 27 are preferably fixed to the four corner ends of the upper base plate 21.
[0094] The foil stamping transfer film material pressing and transferring processing device of the above-mentioned subordinate configuration 14 can obtain [Configuration effect 14: A foil stamping transfer film material pressing and transferring processing device that can obtain the effect of the above-mentioned subordinate configuration 13 and can be installed by accurately positioning and aligning the relative positions of the upper substrate 72 and the upper panel substrate 21 at the desired positions].
[0095] <Regarding the subordinate configuration 15 of the foil stamping transfer film material pressing and transferring processing device of the present invention> The foil stamping transfer film material pressure transfer processing device according to the aforementioned substructure 14 preferably includes the following configuration. As shown in FIGS. 9 and 11, (A) the upper plate mechanism 2 further comprises an upper plate bottom plate positioning member 26 and an upper plate upper board mounting safety hook 29. The upper platen bottom plate positioning member 26 is installed on the upper platen bottom plate 22, and the upper base plate 72 of the press processing plate workpiece positioning member unit 7 has an upper base plate pilot guide portion 721, and the upper platen bottom plate positioning member 26 and the upper base plate pilot guide portion 721 engage with each other, so that the upper base plate 72 of the press processing plate workpiece positioning member unit 7 can be attached to a desired position on the upper platen bottom plate 22. In this way, the upper base plate 72 can be installed at a desired position on the upper platen mechanism 2, and the upper platen upper base plate attachment safety hook 29 is attached to the shaft end of the upper platen fall prevention cylinder 24. The upper board upper board mounting safety hook 29 is configured to be able to hold and lock the upper board 72, and when driven, When the upper platen mechanism 2 is driven in the vertical direction and the foil stamping transfer film material 61 is positioned between the desired pressing processing plate 74 and the desired workpiece 75, the desired pressing processing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, and a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74 is configured to be transferable onto the surface of the desired workpiece 75.
[0096] The upper plate bottom plate positioning member 26 is not particularly limited, but for example, a pin-shaped upper plate bottom plate dowel pin 26 can be used, and the upper substrate pilot guide portion 721 is not particularly limited, but for example, a configuration having a through-hole, hole, or groove, and in which the upper plate bottom plate dowel pin 26 and the upper substrate pilot guide portion 721 can be engaged, mated, or fitted with each other, is preferably implemented.
[0097] In addition, in a configuration in which the foil stamping transfer processing device is equipped with the press processing plate workpiece positioning member unit 7 of the aforementioned subordinate configuration 2, when driven, the press processing plate workpiece positioning member unit 7 is fixed at the desired position between the lower plate base 31 and the movable lower plate 32, and when the press processing plate workpiece positioning member 77 is removed from the upper substrate 72 and the lower substrate 73, the upper plate mechanism 2 drives in the vertical direction, and with the foil stamping transfer film material 61 positioned between the desired press processing plate 74 and the desired workpiece 75, the desired press processing plate 74 can press the desired workpiece 75 through the foil stamping transfer film material 61.
[0098] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 15 can obtain [Configuration effect 15: A foil stamping transfer film material pressure transfer processing device that obtains the effect of the above-mentioned subordinate configuration 14, and also enables the relative positions of the upper substrate 72 and the upper board substrate 21 to be accurately aligned and installed at the desired position, and suppresses the phenomenon of the upper substrate 72 detaching from the upper board substrate 21].
[0099] <Detailed explanation of upper mechanism 2 of subordinate structures 12 to 15> The upper panel mechanism 2 related to the aforementioned subordinate components 12 to 15 will be described in detail below, including an example. The steps of driving the foil stamping transfer film material pressure transfer processing device using the foil stamping transfer film material pressure transfer processing device having the above-mentioned basic configuration 1 and subsidiary configurations 2 to 15 will be described below. · Upper board mechanism 2 drive process Step A. A process of preparing a foil stamping transfer film material pressure transfer processing device equipped with (A) an upper platen mechanism 2, (B) a lower platen mechanism 3, and (E) a foil stamping transfer film material supply mechanism 6. · Upper board mechanism 2 drive process step B. A step of preparing a pressing plate workpiece positioning member unit 7 as shown in FIG. The pressing plate workpiece positioning member unit 7 comprises an upper substrate 72, a lower substrate 73, and an attachable and detachable pressing plate workpiece positioning member 77 that sets the relative position between the desired pressing plate 74 and the desired workpiece 75. · Upper board mechanism 2 drive process step C. A step of placing the press processing plate workpiece positioning member unit 7 on the front side of the lower plate base 31 of the lower plate mechanism 3 in the planar direction. · Upper board mechanism 2 drive process step D. A process of transporting the press processing plate workpiece positioning member unit 7 placed on the front side of the lower plate base 31 of the lower plate mechanism 3 in the planar direction to the rear side of the lower plate base 31 of the lower plate mechanism 3 in the planar direction, and moving and positioning it below the upper plate bottom plate positioning member 26 of the upper plate mechanism 2.
[0100] · Drive process of upper board mechanism 2 Step E. In the foil stamping transfer film material pressing and transferring processing device shown in Figure 3, when there is no foil stamping transfer film material 61 between the upper platen mechanism 2 and the lower platen mechanism 3, the upper platen mechanism 2 or the upper platen up and down drive electric cylinder 23 is driven to descend, the upper platen bottom plate positioning member 26 is fitted or inserted into the upper platen pilot guide portion 721 of the upper platen 72, and the upper platen 72 is attached and installed at the desired position on the upper platen bottom plate 22. · Upper board mechanism 2 drive process step F. Next, the upper plate Z-axis lock cylinder 25 shown in Figure 9 is activated, which causes the upper plate connecting rod moving block member 28d shown in Figure 10 to extend, and the upper plate connecting rod moving block member 28d locks the upper base plate 72, thereby fixing the upper base plate 72 to the upper plate bottom plate 22 as shown in Figure 9. · Upper board mechanism 2 drive process step G. After the upper plate connecting rod moving block member 28d is locked to the upper base plate 72, the upper plate fall prevention cylinder 24 is extended, and the upper plate upper base plate mounting safety hook 29 firmly supports the upper plate bottom plate 22, thereby preventing the upper plate bottom plate 22 from falling or detaching from the upper base plate 72, and ensuring that the upper base plate 72 is securely mounted and installed on the upper plate bottom plate 22. · Drive process of upper board mechanism 2 Step H. The upper plate is raised by driving the electric cylinder 23 for driving the upper plate up and down. When the electric cylinder 23 for driving the upper plate up and down is driven, the upper base plate 72 attached to the upper plate bottom plate (22) is raised, and the components of the pressing plate workpiece positioning member unit 7, excluding the upper base plate 72, remain in place. · Driving process of upper board mechanism 2 Step I. The pressing plate workpiece positioning member unit 7, with all of the components of the pressing plate workpiece positioning member unit 7 remaining except for the upper substrate 72, is transported and moved to the front side in the planar direction of the lower plate base 31 of the lower plate mechanism 3, and then multiple pressing plate workpiece positioning members 77 are removed from the pressing plate workpiece positioning member unit 7.
[0101] · Drive process of upper board mechanism 2 Step K. A desired workpiece 75 is placed on a workpiece mounting member 76 installed on the lower base plate 73, and is clamped by a chuck-type fixing member so as to be immovable. · Upper board mechanism 2 drive process step L. The lower substrate 73, on which the desired workpiece 75 is placed and attached, is transported and moved along the upper surface of the lower platen base 31 to a position below the upper substrate 72, which has been attached and installed at the desired position on the upper platen bottom plate 22 in the aforementioned ``drive process D of the upper platen mechanism 2.'' · Drive process of upper board mechanism 2 Step M. With the foil stamping transfer film material 61 positioned between the desired pressing processing plate 74 and the desired workpiece 75, the upper plate mechanism 2 is driven downward, and the desired pressing processing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61, thereby transferring and forming a separated foil stamping transfer film material 61a onto the surface of the desired workpiece 75, the separated foil stamping transfer film material having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing processing plate 74.
[0102] · Driving process of upper board mechanism 2 Step N. A process of moving and transporting the pressing plate workpiece positioning member unit 7 (excluding the upper substrate 72 and the desired pressing plate 74) to the front side in the planar direction of the lower plate base 31 of the lower plate mechanism 3, on which the desired workpiece 75a is placed, on which the transfer film drafting character and picture pattern, on which the separation foil stamping transfer film material 61a has been transferred onto the surface of the desired workpiece 75, is placed. · Upper board mechanism 2 drive process step O. A step of removing the desired workpiece 75a onto which the transfer film drafting character and picture pattern has been transferred from the pressing plate workpiece positioning member unit 7 (excluding the upper substrate 72 and the desired pressing plate 74). · Upper board mechanism 2 drive process step P. A process of removably attaching a plurality of press processing plate workpiece positioning members 77 to the press processing plate workpiece positioning member unit 7 (excluding the upper substrate 72 and the desired press processing plate 74) after removing the desired workpiece 75a onto which the transfer film drafting character and picture pattern has been transferred. · Upper board mechanism 2 drive process step Q. A process of transporting and moving the pressing plate workpiece positioning member unit 7 (excluding the upper substrate 72 and the desired pressing plate 74) to which multiple pressing plate workpiece positioning members 77 are removably attached, to a position toward the rear in the planar direction of the lower plate base 31 of the lower plate mechanism 3, the same position as in the aforementioned process D or process E. · Drive process R of upper plate mechanism 2 A process in which the upper platen up / down driving electric cylinder 23 is driven downward to engage the upper end of the pressing processing plate workpiece positioning member 77 with the positioning member upper plate receiving member 72a of the upper base plate 72 attached to the upper platen bottom plate 22 of the upper platen mechanism 2, and then the members attaching the upper platen bottom plate 22 and the upper base plate 72 are detached. · Drive process S of upper plate mechanism 2. A process of driving the upper plate vertical driving electric cylinder 23 upward to move the upper plate mechanism 2 having the upper plate bottom plate 22 upward. · Drive process T of upper plate mechanism 2 A process of transporting and moving a pressing plate workpiece positioning member unit 7 having an upper substrate 72, a lower substrate 73, a desired pressing plate 74, and a pressing plate workpiece positioning member 77 from the rear side in the planar direction of the lower plate base 31 of the lower plate mechanism 3 to the front side in the planar direction of the lower plate base 31. The drive of the foil stamping transfer film material press transfer processing device of the present invention has an electrical overall control system and is configured to be driven by the electrical overall control system.
[0103] This process makes it possible to automatically and removably fix and install the pressing plate workpiece positioning member unit 7 at the desired position on the movable lower platen 32 without the need for manual operation by an operator.As a result, the time required to replace the desired pressing plate 74 is reduced, and the pressing plate workpiece positioning member unit 7 having the desired pressing plate 74 can be accurately installed at the desired position.This has the effect of making it possible to transfer and form onto the surface of the desired workpiece 75 a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing plate 74 in the desired area of the desired workpiece 75. Furthermore, in a configuration equipped with a foil stamping transfer film material pressure transfer processing device general control unit 8, the above effects can be obtained, and also other effects such as easier operation, reduced variation, and ensuring the safety of workers can be obtained. The effect is obtained of obtaining a foil stamping transfer film material pressure transfer processing device that can transfer and form a separate foil stamping transfer film material 61a having a transfer film drafting character and picture pattern onto a desired surface of a desired workpiece 75.
[0104] <Regarding the subordinate configuration 16 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Figure 13 shows a schematic diagram illustrating the configuration of the foil stamping transfer film material feeding mechanism in the foil stamping transfer film material supply mechanism configured in the foil stamping transfer film material pressure transfer processing device of one embodiment of the present invention, and Figure 14 shows a schematic diagram illustrating the configuration of the foil stamping transfer film material receiving mechanism in the foil stamping transfer film material supply mechanism configured in the foil stamping transfer film material pressure transfer processing device of one embodiment of the present invention. Preferably, the foil stamping transfer film material pressing transfer processing device of the present invention is a foil stamping transfer film material pressing transfer processing device described in the above-mentioned basic configuration 1 and subordinate configurations 2 to 15, and as shown in Figures 13 and 14, (E) the foil stamping transfer film material supply mechanism 6 comprises (Ea) a foil stamping transfer film material feeding mechanism 62 having the function of transporting and pulling and spreading the foil stamping transfer film material 61, (Eb) a foil stamping transfer film material receiving mechanism 63 having the function of receiving and winding up the foil stamping transfer film material 61 fed from the foil stamping transfer film material feeding mechanism 62, and (Ec). Here, the foil stamping transfer film material 61 is removably attached to the foil stamping transfer film material feeding mechanism 62 in a continuously layered wound form, is unfolded in a strip form and fed to the foil stamping transfer film material receiving mechanism 63, and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism 63, and the foil stamping transfer film material feeding mechanism 62 and the foil stamping transfer film material receiving mechanism 63 are fixed and held on the foil stamping transfer film material supply mechanism connecting plate, and are positioned opposite each other with a predetermined distance between them, and are configured to be able to transport and pull and unfold the foil stamping transfer film material 61. The foil stamping transfer film material supply mechanism fixed bottom plate is not shown.
[0105] As shown in Figure 13, (Ea) the foil stamping transfer film material feed mechanism 62 has a foil stamping transfer film material feed mechanism holding member 621, a foil stamping transfer film material replacement member 622, a foil stamping transfer film material feed motor 623, a foil stamping transfer film material feed mechanism transition drum 624, and a foil stamping transfer film material feed pressing member 625 that has the function of pressing the foil stamping transfer film material in the direction of the desired workpiece. The foil stamping transfer film material feed motor 623 has a foil stamping transfer film material feed motor main body 623a, a foil stamping transfer film material feed motor bearing housing member 623b connected to the shaft end of the foil stamping transfer film material feed motor main body, and a foil stamping transfer film material feed motor rotating shaft 623c connected to the foil stamping transfer film material feed motor bearing housing member, and the foil stamping transfer film material feed motor rotating shaft 623c has a cylindrical or cylindrical shape, and one end of the foil stamping transfer film material feed motor rotating shaft 623c is connected to the foil stamping transfer film material feed motor main body 623a via the foil stamping transfer film material feed motor bearing housing member 623b, and is removably attached to the foil stamping transfer film material feed motor rotating shaft 623c.
[0106] The foil stamping transfer film material feed mechanism holding member 621 has a first central holding member 621a, a first right holding member 621b connected to one end of the first central holding member, and a first left holding member 621c connected to the other end of the first central holding member, and the first right holding member 621b and the first left holding member 621c are configured in opposing positions with a gap corresponding to the length of the first central holding member 621a. The first central holding member 621a is installed parallel to the foil stamping transfer film material feed motor rotation shaft 623c, the left end of the foil stamping transfer film material feed mechanism transition drum 624 is connected and fixed to the first left holding member 621c, and the right end of the foil stamping transfer film material feed mechanism transition drum 624 is connected and fixed to the first right holding member 621b. The first central holding member 621a is fixed and held on the foil stamping transfer film material supply mechanism connecting plate, one end of the foil stamping transfer film material feed motor rotating shaft 623c is connected to the foil stamping transfer film material feed motor-bearing housing member 623b, which is held on the top of the first right holding member 621b, and the other end of the foil stamping transfer film material feed motor rotating shaft 623c is connected and held to the first left holding member 621c in a manner that allows it to be connected and fixed and releasably connected and fixed, so that the foil stamping transfer film material feed motor-623 is mounted and held on the top of the first right holding member 621b via the foil stamping transfer film material feed motor-bearing housing member 623b, and the first right holding member 621b, the foil stamping transfer film material feed motor rotating shaft 623c and the foil stamping transfer film material feed mechanism transition drum 624 are arranged parallel to each other.
[0107] The stamping transfer film material replacement member 622 has a stamping transfer film material width adjustment member 622a and a stamping transfer film material replacement fixing member 622b. The stamping transfer film material width adjustment member 622a is attached to a stamping transfer film material feed motor rotation shaft 623c and has the function of adjusting the width of the stamping transfer film material 61 and attaching it, and the stamping transfer film material replacement fixing member 622b is configured to be able to lock and unlock the connection between the other end of the stamping transfer film material feed motor rotation shaft 623c and the first left holding member 621c. The foil stamping transfer film material replacement member 622 is attached by attaching the foil stamping transfer film material 61 to the foil stamping transfer film material feed motor rotation shaft 623c, and when the width of the foil stamping transfer film material 61 is adjusted to the desired width, one end of the foil stamping transfer film material replacement fixing member 622b is connected and fixed to the top of the first left holding member 621c, and the other end of the foil stamping transfer film material replacement fixing member 622b is configured to be connected and locked to the other end of the foil stamping transfer film material feed motor rotation shaft 623c and to be able to release the connection lock. As a result, the foil stamping transfer film material 61, which is strip-shaped and wound in continuous layers, is attached and removably mounted to the foil stamping transfer film material feed motor rotation shaft 623c by the foil stamping transfer film material replacement member 622, and the foil stamping transfer film material 61 attached to the foil stamping transfer film material feed motor rotation shaft 623c can be supplied in strip form from the foil stamping transfer film material replacement member 622 toward the foil stamping transfer film material feed pressure member 625. The foil stamping transfer film material feed pressure member 625 is installed below the foil stamping transfer film material feed mechanism holding member 621, and is configured so that the foil stamping transfer film material feed pressure member 625 can press the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material 61 downward toward the desired workpiece 75 with elastic force.
[0108] When in operation, the desired foil stamping transfer film material 61 is attached to the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 in a manner that allows it to be attached and detached, and the desired pressing plate 74 and the desired workpiece 75 are positioned in positions facing each other in the vertical direction via the foil stamping transfer film material 61, and the foil stamping transfer film material 61 is positioned between the desired pressing plate 74 and the desired workpiece 75.When the upper platen mechanism 2 is driven in the vertical direction, the desired pressing plate 74 presses the desired workpiece 75 via the foil stamping transfer film material 61, and a separated foil stamping transfer film material 61a having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate 74 is configured to be transferred and formed on the surface of the desired workpiece 75.
[0109] In the foil stamping transfer film material 61 having a multi-layer structure of "base film layer, peeling layer, surface protective material layer and / or colored film layer and / or decorative functional material layer (metal foil layer or metal vapor deposition film layer) and / or special decorative functional material layer and adhesive layer" as shown in Figure 19, a separate foil stamping transfer film material 61a having a graphic, letter, and picture pattern made of a transfer film having "surface protective material layer and / or colored film layer and / or decorative functional material layer (metal foil layer or metal vapor deposition film layer) and / or special decorative functional material layer and adhesive layer" is configured to be separated from the "base film layer" and transferable onto the surface of the desired workpiece 75. That is, when the desired stamping plate 74 and the desired workpiece 75 are pressed against each other while the desired stamping plate 74 has a base film layer, a peeling layer, a decorative functional material layer (or a special decorative functional material layer), and an adhesive layer, the "decorative functional material layer (or a special decorative functional material layer) and the adhesive layer" are peeled off from the "base film layer" at the "peeling layer" and adhered to the surface of the desired workpiece 75, and a separated stamping transfer film material 61a having the desired graphic, letter, and pattern that matches the desired graphic, letter, and pattern on the desired stamping plate 74, which is formed in an uneven shape, is stamped and formed on the surface of the desired workpiece 75. The separated foil stamping transfer film material 61a that is separated from the desired foil stamping transfer film material 61 and transferred onto the surface of the desired workpiece 75 is formed by transferring the separated foil stamping transfer film material 61a from the desired foil stamping transfer film material 61, which has a base film layer, a ``surface protection layer'' having the desired graphic, letter, or pattern and / or a ``decorative functional material layer (colored film layer, and / or metal foil layer, and / or metal vapor deposition film layer, and / or special decorative functional material layer, and / or special decorative functional material layer)'' and an ``adhesive layer.'' Then, the foil stamping transfer film material having the "base film layer" and the "surface protection layer / decorative functional material layer in the area excluding the surface protection layer / decorative functional material layer having the transferred desired graphic, letter, and design pattern" is sent to the foil stamping transfer film material receiving mechanism 63 and taken up. The foil stamping transfer film material pressure transfer processing device is configured to be capable of being driven as described above.
[0110] The foil stamping transfer film material feed motor body 623a is not particularly limited, but a torque motor is particularly preferably used. In the foil stamping transfer film material feed mechanism holding member 621, the first central holding member 621a, the first right holding member 621b and the first left holding member 621c are not particularly limited, but it is desirable and possible for them to be made of metal such as steel or stainless steel and have a plate-like shape. The foil stamping transfer film material 61 is attached to the foil stamping transfer film material feed motor-rotating shaft 623c of the foil stamping transfer film material feed mechanism 62, and is fed in a strip-like form toward the foil stamping transfer film material receiving mechanism 63, and is positioned between the desired pressing processing plate 74 and the desired workpiece 75 in a state where it is pulled and unfolded by the foil stamping transfer film material feed pressure member 625 and the foil stamping transfer film material receiving pressure member 635 (described later) of the foil stamping transfer film material receiving mechanism 63, and is attached so that it can be wound up by the foil stamping transfer film material receiving mechanism 63.
[0111] It should be noted that (Ec) a foil stamping transfer film material supply mechanism connecting plate that connects the foil stamping transfer film material feeding mechanism 62 and the foil stamping transfer film material receiving mechanism 63 is not shown. The foil stamping transfer film material supply mechanism connecting plate (not shown) that connects the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 corresponds to the foil stamping transfer film material rotating plate 643a in a foil stamping transfer film material pressing transfer processing device equipped with the foil stamping transfer film material feed mechanism receiving mechanism rotating device 64 described below, but the foil stamping transfer film material supply mechanism connecting plate in the foil stamping transfer film material pressing transfer processing device of this subordinate configuration 16 is configured to not rotate.
[0112] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 16 provides a foil stamping transfer film material pressure transfer processing device that achieves [Configuration effect 16: the above-mentioned basic configuration effect 1 and configuration effects 2 to 15 are obtained, and it is also possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drafting character pattern onto the surface of the desired workpiece 75 with extremely high precision, and in particular, the effect of making it possible to easily and quickly attach and attach the foil stamping transfer film material to the foil stamping transfer film material replacement part 622, and to easily and quickly detach and attach it].
[0113] <Regarding the subordinate configuration 17 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configuration 16, as shown in Figure 13, (Ea) in the foil stamping transfer film material feed mechanism 62, the foil stamping transfer film material feed pressure member 625 comprises a second foil stamping transfer film material feed pressure member pressure shaft 625a, a second foil stamping transfer film material feed pressure member pressure shaft holding member 625b, a foil stamping transfer film material feed pressure member pressure roll shaft 625c, a foil stamping transfer film feed pressure member buffer member 625d, a foil stamping transfer film material feed pressure member mounting frame 625e, a foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member left 625f, a foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member right 625k, and a foil stamping transfer film material pressure force control elastic member 625g.
[0114] The first left holding member 621c is formed with a first holding member protrusion portion left 625j, and the first right holding member 621b is formed with a first holding member protrusion portion right (not shown), and the first holding member protrusion portion left 625j and the first holding member protrusion portion right (not shown) are formed in positions facing each other, and the foil stamping transfer film feed pressing member transfer film limit adjustment strip forming pressure bonding force adjustment member left 625f is formed with a strip-shaped or approximately rectangular strip-shaped through hole, and the first holding member protrusion portion left 625j is engaged with the strip-shaped through hole and is formed to be slidable along the strip-shaped through hole, The transfer film feed pressing member transfer film limit adjustment stripe forming pressure force adjustment member right 625k has a strip-shaped or approximately rectangular strip-shaped through hole formed therein, and the first holding member protrusion right (not shown) is formed to engage with the strip-shaped through hole and to be able to slide along the strip-shaped through hole.As a result, a strip-shaped through hole is formed in the transfer film limit adjustment stripe forming pressure force adjustment member 625f, and the first holding member protrusion 625j is formed to engage with the strip-shaped through hole and be able to slide, thereby providing the function of cushioning the pressing force pressing the foil stamping transfer film material. The left end of the foil stamping transfer film material feed pressure member pressure roll shaft 625c is connected to the lower part of the foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member left 625f, and the right end of the foil stamping transfer film material feed pressure member pressure roll shaft 625c is connected to the lower part of the foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member right 625k, thereby allowing the foil stamping transfer film material feed pressure member pressure roll shaft 625c to be held on the foil stamping transfer film material feed mechanism holding member 621 so that it can move up and down.
[0115] The foil stamping transfer film material feed pressing member mounting frame 625e is connected to the foil stamping transfer film material feed mechanism holding member 621. The foil stamping transfer film material feed pressure member pressing shaft 625a has two pressing shafts, a first pressing shaft and a second pressing shaft, which are installed parallel to each other and are configured to be able to press into contact with each other, and both ends of the foil stamping transfer film material feed pressure member pressing shaft 625a having the two pressing shafts are rotatably held by the foil stamping transfer film material feed pressure member pressing shaft holding member 25b. The foil stamping transfer film material feed pressure member transition drum 625h, the foil stamping transfer film material feed pressure member pressure roll shaft 625c, the foil stamping transfer film material feed pressure member pressing shaft 625a, and the foil stamping transfer film material feed pressure member mounting frame 625e are installed parallel to each other. The foil stamping film material 61 having a belt shape can pass between the first pressing shaft and the second pressing shaft of the foil stamping transfer film material feeding pressing member pressing shaft 625a. The foil stamping transfer film material feed pressure member pressure force control elastic member 625g is installed so as to be able to connect the foil stamping transfer film material feed pressure member mounting frame 625e and the foil stamping transfer film material feed pressure member pressing shaft holding member 625b with cushioning and / or elasticity, the foil stamping transfer film material feed pressure member cushioning member 625d is installed so as to be able to connect the foil stamping transfer film material feed pressure member mounting frame 625e and the foil stamping transfer film material feed pressure member pressing shaft holding member 625b with cushioning and / or elasticity, and the foil stamping transfer film material feed pressure member pressing shaft 625a is configured so as to be able to press the foil stamping transfer film material 61 with cushioning and / or elasticity.
[0116] As a result, the foil stamping transfer film material feed pressure member 625 is configured to be able to press the band-shaped foil stamping transfer film material 61 being fed from the foil stamping transfer film material 61 attached to the foil stamping transfer film material feed motor rotation shaft 623c with the desired cushioning and / or elasticity adjusted by the foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member 625f, the foil stamping transfer film feed pressure member cushioning member 625d and the foil stamping transfer film material feed pressure member pressure force control elastic member 625g.
[0117] The foil stamping transfer film feed pressing member buffer member 625d is not particularly limited, but for example, a hydraulic buffer is preferably usable. A configuration in which a foil stamping transfer film material feed pressing member transitional drum 624 is installed parallel to the first central holding member 621a between the first right holding member 621b and the first left holding member 621c is also possible. That is, a configuration in which the left end of the foil stamping transfer film material feed pressing member transitional drum 624 is connected to and fixed to the first left holding member 621c, and the right end of the foil stamping transfer film material feed pressing member transitional drum 624 is connected to and fixed to the first right holding member 621b is also possible. A configuration can also be implemented in which the foil stamping transfer film material feed pressure member leader pin 625i is installed vertically on the foil stamping transfer film material feed pressure member mounting frame 625e, and the tip of the foil stamping transfer film material feed pressure member mounting frame 625e abuts against the foil stamping transfer film material feed pressure member pressing shaft holding member 625b, thereby maintaining the positional relationship between the foil stamping transfer film material feed pressure member mounting frame 625e and the foil stamping transfer film material feed pressure member pressing shaft holding member 625b.
[0118] The foil stamping transfer film material feed motor rotation shaft 623c, the foil stamping transfer film material feed mechanism transient drum 624, the foil stamping transfer film material feed pressure member pressing shaft 625a, the foil stamping transfer film material feed pressure member pressing shaft holding member 625b, the foil stamping transfer film material feed pressure member pressure roll shaft 625c, and the foil stamping transfer film material feed pressure member mounting frame 625e are configured parallel to each other. The foil stamping transfer film feed pressure member buffer member 625d is installed perpendicular to the foil stamping transfer film material feed pressure member mounting frame 625e and the foil stamping transfer film material feed pressure member pressing shaft holding member 625b, and is connectable with buffering and / or elasticity.
[0119] The foil stamping transfer film material pressing and transferring processing device of the above-mentioned subordinate configuration 17 provides a foil stamping transfer film material pressing and transferring processing device that achieves [configuration effect 17: the aforementioned configuration effect 16 is obtained, and in particular, it becomes possible to press the incoming strip-shaped foil stamping transfer film material 61 with an adjusted desired cushioning and / or elasticity, thereby making it possible to press the foil stamping transfer film material 61 against the surface of the desired workpiece 75 with high precision and make it adhere to the surface].
[0120] <Regarding the subordinate configuration 18 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material pressing and transferring processing device of the present invention is a foil stamping transfer film material pressing and transferring processing device described in the above-mentioned subordinate configuration 16 or 17, as shown in Figure 14, (Eb) the foil stamping transfer film material receiving mechanism 63 comprises a foil stamping transfer film material receiving mechanism holding member 631, a foil stamping transfer film material receiving motor 632, a foil stamping transfer film material receiving second shaft member 634 having a foil stamping transfer film material receiving second shaft 634c, a foil stamping transfer film material receiving pressing member transition drum 636, a foil stamping transfer film material receiving second shaft synchronous rotation auxiliary member 637, and a foil stamping transfer film material receiving pressing member 635 having the function of pressing the foil stamping transfer film material in the direction of the desired workpiece. The foil stamping transfer film material receiving second shaft synchronous rotation auxiliary member 637 has the function of rotating the foil stamping transfer film material receiving second shaft 634c in synchronization with the foil stamping transfer film material receiving motor 632.
[0121] The foil stamping transfer film material receiving mechanism holding member 631 has a second central holding member 631a, a second right holding member 631b connected to one end of the second central holding member, and a second left holding member 631c connected to the other end of the second central holding member, and the second right holding member 631b and the second left holding member 631c are configured in opposing positions with a gap corresponding to the length of the second central holding member 631a. A second central holding member 631a is installed on a foil stamping transfer film material supply mechanism connecting plate (not shown), where the second central holding member 631a is fixed and installed in a position facing the first central holding member 621a of the foil stamping transfer film material feed mechanism holding member 621 at a predetermined distance apart.
[0122] The foil stamping transfer film material receiving motor 632 has a foil stamping transfer film material receiving motor main body 632a, a foil stamping transfer film material receiving motor bearing housing member 632b connected to the shaft end of the foil stamping transfer film material receiving motor main body 632a, and a foil stamping transfer film material receiving motor rotating shaft 632c connected to the foil stamping transfer film material receiving motor bearing housing member 632b, and the foil stamping transfer film material receiving motor rotating shaft 632c has a cylindrical or cylindrical shape, and one end of the foil stamping transfer film material receiving motor rotating shaft 632c is connected to the foil stamping transfer film material receiving motor main body 632a via the foil stamping transfer film material receiving motor bearing housing member 632b.
[0123] The second central holding member 631a is disposed parallel to the rotary shaft 632c of the foil stamping transfer film material receiving motor.
[0124] The foil stamping transfer film material receiving motor 632 is attached to and held by the second right holding member 631b via a foil stamping transfer film material receiving motor bearing housing member 632b, one end of the foil stamping transfer film material receiving motor rotating shaft 632c is connected to the foil stamping transfer film material receiving motor bearing housing member 632b, the foil stamping transfer film material receiving motor bearing housing member 632b is connected and fixed to the second right holding member 631b, and the other end of the foil stamping transfer film material receiving motor rotating shaft 632c is connected and fixed to the second left holding member 631c. One end of the second foil stamping transfer film material receiving shaft 634c is rotatably held and installed on the second right holding member 631b, and the other end of the second foil stamping transfer film material receiving shaft 634c is rotatably held and installed on the second left holding member 631c. The second shaft synchronous rotation member 637 for receiving the foil transfer film material is formed by connecting the shaft end of the rotation shaft 632c for receiving the foil transfer film material and the shaft end of the second shaft 634c for receiving the foil transfer film material to each other so that they can rotate synchronously.
[0125] In this way, the foil stamping transfer film material receiving motor rotating shaft 632c and the foil stamping transfer film material receiving second shaft 634c are held and installed on the foil stamping transfer film material receiving mechanism holding member 631 so that they are parallel to each other, and are connected to each other so that they can rotate synchronously.As a result, by driving the foil stamping transfer film material receiving motor 632, the foil stamping transfer film material receiving motor rotating shaft 632c and the foil stamping transfer film material receiving second shaft 634c are connected to each other so that they can rotate synchronously. As a result, the foil stamping transfer film material 61, which is in a strip shape and is sent from the foil stamping transfer film material feed mechanism 62, passes through the foil stamping transfer film material receiving member 635, passes through the foil stamping transfer film material receiving motor-rotating shaft 632c, and is then wound up by the foil stamping transfer film material receiving second shaft 634c so that it can be received. The foil stamping transfer film material receiving motor-rotating shaft 632c can be, for example, a cylindrical rotating shaft having a surface made of rubber material, or a columnar rotating shaft having a surface made of rubber material.
[0126] When in operation, the desired foil stamping transfer film material 61 is attached to the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 in a manner that allows it to be attached and detached, and the foil stamping transfer film material 61 is positioned between the desired pressing processing plate 74 and the desired workpiece 75.The upper platen mechanism 2 then drives in the vertical direction, causing the desired pressing processing plate 74 to press the desired workpiece 75 through the foil stamping transfer film material 61, thereby creating a separated foil stamping transfer film material 61a having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing processing plate 74, which can be transferred and formed onto the surface of the desired workpiece 75.
[0127] The foil stamping transfer film material receiving second shaft synchronous rotation auxiliary member 637 is not particularly limited, but may be, for example, a circular rubber belt that connects the shaft end of the foil stamping transfer film material receiving rotation shaft 632c and the shaft end of the foil stamping transfer film material receiving second shaft 634c to each other and is installed so as to be rotatable. As the foil stamping transfer film material receiving motor body 632a, for example, a servo motor can be preferably implemented. As the foil stamping transfer film material receiving motor rotation shaft 632c, for example, a foil stamping transfer film material receiving motor rotation shaft 632c having a cylindrical or columnar shape made of rubber can be preferably implemented. The second foil stamping transfer film material receiving shaft 634c preferably has a columnar or cylindrical shape and is rotatable.
[0128] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 18 provides a foil stamping transfer film material pressure transfer processing device that achieves [Configuration effect 18: the above-mentioned basic configuration effect 1 and configuration effects 16 and 17 are obtained, and in particular, it becomes possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drafting character pattern onto the surface of the desired workpiece 75 with extremely high precision, and in particular, it becomes possible to wind and receive the strip-shaped foil stamping transfer film material 61 sent from the foil stamping transfer film material feed mechanism 62 on the foil stamping transfer film material receiving second shaft 634c, making continuous pressing processing easier].
[0129] <Regarding the subordinate configuration 19 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configuration 18, as shown in Figure 14, (Eb) in the foil stamping transfer film material receiving mechanism 63, the foil stamping transfer film material receiving presser member 635 comprises a foil stamping transfer film material receiving presser member pressing shaft 635a, a foil stamping transfer film material receiving presser member pressing shaft holding member 635b, a foil stamping transfer film material receiving presser member pressing roll shaft 635c, a foil stamping transfer film material receiving presser member cushioning member 635d, a foil stamping transfer film material receiving presser member mounting frame 635e, a foil stamping transfer film material receiving presser member transfer film limit adjustment stripe forming pressure force adjustment member left 635f, a foil stamping transfer film material receiving presser member transfer film limit adjustment stripe forming pressure force adjustment member right 635k, and a foil stamping transfer film material receiving presser member pressure force control elastic member 635g.
[0130] The second left holding member 631c is formed with a second holding member protrusion portion left 635j, and the second right holding member 631b is formed with a second holding member protrusion portion right (not shown), and the second holding member protrusion portion left 635j and the second holding member protrusion portion right (not shown) are formed in positions facing each other, and the foil stamping transfer film receiving presser member transfer film limit adjustment strip forming pressure bonding force adjustment member left 635f is formed with a strip-shaped or approximately rectangular strip-shaped through hole, and the second holding member protrusion portion left 635j engages with the strip-shaped through hole and is formed to be slidable along the strip-shaped through hole, and the foil stamping transfer film receiving presser The foil stamping transfer film limit adjustment strip forming pressure-adjusting member right 635k has a strip-shaped or approximately rectangular strip-shaped through hole formed therein, and the second holding member protrusion right (not shown) is formed to engage with the strip-shaped through hole and to be able to slide along the strip-shaped through hole, thereby forming a strip-shaped through hole in the foil stamping transfer film receiving and pressing member transfer film limit adjustment strip forming pressure-adjusting member 635f, and the second holding member protrusion 635j is formed to engage with the strip-shaped through hole and to be able to slide, thereby having the function of cushioning the pressing force pressing the foil stamping transfer film material.
[0131] The left end of the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c is connected to the lower part of the foil stamping transfer film receiving and pressing member transfer film limit adjustment stripe forming pressure force adjustment member left 635f, and the right end of the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c is connected to the lower part of the foil stamping transfer film receiving and pressing member transfer film limit adjustment stripe forming pressure force adjustment member right 635k, and the foil stamping transfer film material receiving and pressing member transition drum 635h and the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c are installed parallel to each other, thereby the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c is held by the foil stamping transfer film material receiving mechanism holding member 631 so that it can move up and down.
[0132] The foil stamping transfer film material receiving presser member mounting frame 635e is connected to the foil stamping transfer film material receiving mechanism holding member 631. The foil stamping transfer film material receiving presser member pressing shaft 635a has two pressing shafts, a first receiving pressing shaft and a second receiving pressing shaft, the two receiving pressing shafts are installed parallel to each other and configured to be able to press into contact with each other, both ends of the foil stamping transfer film material receiving presser member pressing shaft 635a having two receiving pressing shafts are rotatably held by the foil stamping transfer film material receiving presser member pressing shaft holding member 635b, and the foil stamping transfer film material receiving presser member transition drum 635h, the foil stamping transfer film material receiving presser member pressing shaft 635a and the foil stamping transfer film material receiving presser member mounting frame 635e are installed parallel to each other.
[0133] The foil stamping film material receiving and pressing member pressing shaft 635a is configured to allow a band-shaped foil stamping film material 61 to pass between the first receiving pressing shaft and the second receiving pressing shaft, the foil stamping transfer film material receiving and pressing member pressure force control elastic member 635g is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame 635e and the foil stamping transfer film material receiving and pressing member pressing shaft holding member 635b with cushioning and / or elasticity, the foil stamping transfer film material receiving and pressing member cushioning member 635d is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame 635e and the foil stamping transfer film material receiving and pressing member pressing shaft holding member 635b with cushioning and / or elasticity, and the foil stamping transfer film material receiving and pressing member pressing shaft 635a is configured so as to be able to press the foil stamping transfer film material 61 with cushioning and / or elasticity.
[0134] As a result, a strip-shaped through hole is formed in the foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure force adjustment member 635f, and the second holding member protrusion portion 635j is formed to engage with the strip-shaped through hole and be able to slide, so that the pressure force pressing the foil stamping transfer film material can be applied with the desired cushioning and / or elasticity, and the foil stamping transfer film material receiving and pressing member 635 is configured to be able to press the incoming foil stamping transfer film material 61 with the desired cushioning and / or elasticity adjusted by the foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure force adjustment member 635f and the foil stamping transfer film material receiving and pressing member pressure force control elastic member 635g.
[0135] When in operation, the desired foil stamping transfer film material 61 is attached and detachably mounted to the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63, and the foil stamping transfer film material 61 is positioned between the desired pressing processing plate 74 and the desired workpiece 75.The upper platen mechanism 2 then drives in the vertical direction, causing the desired pressing processing plate 74 to press the desired workpiece 75 through the foil stamping transfer film material 61, thereby creating a separated foil stamping transfer film material 61a having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing processing plate 74, which can be transferred and formed onto the surface of the desired workpiece 75.
[0136] The foil stamping transfer film material receiving and pressing member buffer member 635d is not particularly limited, but for example, a hydraulic buffer is preferably usable. A configuration in which a foil stamping transfer film material receiving and pressing member transitional drum 636 is installed parallel to the second central holding member 631a between the second right holding member 631b and the second left holding member 631c is also possible. That is, a configuration in which the left end of the foil stamping transfer film material receiving and pressing member transitional drum 636 is connected to and fixed to the second left holding member 631c, and the right end of the foil stamping transfer film material receiving and pressing member transitional drum 636 is connected to and fixed to the second right holding member 631b is also possible. A configuration can also be implemented in which the foil stamping transfer film material holder leader pin 635i is installed vertically on the foil stamping transfer film material holder holder mounting frame 635e, and the tip of the foil stamping transfer film material holder holder mounting frame 635e abuts against the foil stamping transfer film material holder holder pressing shaft holding member 635b, thereby maintaining the positional relationship between the foil stamping transfer film material holder pressing member mounting frame 635e and the foil stamping transfer film material holder pressing shaft holding member 635b.
[0137] The second central holding member 631a, the foil stamping transfer film material receiving second shaft 634c, the foil stamping transfer film material receiving presser member transition drum 636, the foil stamping transfer film material receiving motor rotation shaft 632c, the foil stamping transfer film material receiving presser member pressing shaft 635a, the foil stamping transfer film material receiving presser member pressing shaft holding member 635b, the foil stamping transfer film material receiving presser member pressure roll shaft 635c and the foil stamping transfer film material receiving presser member mounting frame 635e are configured parallel to each other. The foil stamping transfer film material receiving and pressing member buffer member 635d is installed perpendicular to the foil stamping transfer film material receiving and pressing member mounting frame 635e and the foil stamping transfer film material receiving and pressing member pressing shaft holding member 635b, and is connectable with buffering and / or elasticity.
[0138] The foil stamping transfer film material pressing and transferring processing device of the above-mentioned subordinate configuration 19 provides a foil stamping transfer film material pressing and transferring processing device that achieves [configuration effect 19: the aforementioned configuration effect 18 is obtained, and in particular, the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material feed mechanism 62 can be pressed with an adjusted desired cushioning and / or elasticity, thereby making it possible to press the foil stamping transfer film material 61 against the surface of the desired workpiece 75 with high precision and make it adhere to the surface by the action of the foil stamping transfer film material feed pressing member 625 and the foil stamping transfer film material receiving pressing member 635].
[0139] <Regarding the subordinate configuration 20 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material pressing and transferring processing device of the present invention is the foil stamping transfer film material pressing and transferring processing device described in the aforementioned subsidiary configurations 18 and 19, as shown in FIG. 14, (Eb) in the foil stamping transfer film material receiving mechanism 63, the foil stamping transfer film material receiving second shaft member 634 is installed on the second right holding member 631b so as to be above the foil stamping transfer film material receiving motor-rotating shaft 632c, and the foil stamping transfer film material receiving second shaft 634c and the foil stamping transfer film material receiving motor-rotating shaft 632c are The rotating shaft 632c and the foil stamping transfer film material receiving pressing member transition drum 636 are installed parallel to each other, and the foil stamping transfer film material receiving second shaft member 634 further has a rotatable foil stamping transfer film material receiving second shaft right bearing nut 634e installed at the end of the foil stamping transfer film material receiving second shaft 634c, and the foil stamping transfer film material receiving second shaft right bearing nut 634e is configured to be able to adjust the slack in the tension of the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material feed mechanism 62 by rotating.
[0140] Furthermore, (Eb) in the foil stamping transfer film material receiving mechanism 63, the foil stamping transfer film material receiving press member 635 has the foil stamping transfer film material receiving rotation bearing shaft synchronous rotation auxiliary member 637 that rotates in synchronization with the foil stamping transfer film material receiving motor rotation shaft 632c and the foil stamping transfer film material receiving second shaft 634c, and the foil stamping transfer film material receiving press member 635 has a foil stamping transfer film material receiving second shaft pulley member 634d installed on the foil stamping transfer film material receiving second shaft 634c, and a foil stamping transfer film material receiving motor It has a foil stamping transfer film material receiving motor-rotating shaft pulley member 632d installed on the rotating shaft 632c, and the foil stamping transfer film material receiving rotating shaft synchronous rotation auxiliary member 637 is a circular belt 20, which is installed to connect the foil stamping transfer film material receiving second shaft pulley member 634d and the foil stamping transfer film material receiving motor rotating shaft pulley member 632d, thereby configuring the foil stamping transfer film material receiving second shaft 634c to be rotatable on its own axis in synchronization with the rotation of the foil stamping transfer film material receiving motor rotating shaft 632c.
[0141] As a result, when the film is driven, loosening of the band-shaped foil stamping transfer film material 61 located between the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 is suppressed, and the film is pulled in a band-like form and is configured to be unfoldable.
[0142] As the foil stamping transfer film material receiving motor rotating shaft 632c, for example, a rotating shaft made of rubber and having a cylindrical or columnar shape can be preferably implemented. The second shaft member 634 for receiving the foil stamping transfer film material can preferably be, for example, a rotating shaft having a cylindrical or columnar shape made of metal, plastic, or rubber.
[0143] The foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 20 provides a foil stamping transfer film material pressure transfer processing device that achieves the following effect: [Configuration effect 20: The above-mentioned configuration effects 18 and 19 are obtained, and in particular, the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material feed mechanism 2 can be pressed with an adjusted desired cushioning and / or elasticity, whereby, by the action of the foil stamping transfer film material feed pressure member 625 and the foil stamping transfer film material receiving pressure member 635, loosening of the strip-shaped foil stamping transfer film material 61 located between the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 is suppressed, and the foil stamping transfer film material is pulled in a strip-like shape and is configured to be unfoldable, as a result of which the foil stamping transfer film material 61 can be pressed against the surface of the desired workpiece 75 with high precision and adhered to it].
[0144] <Regarding the subordinate configuration 21 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 16 is a schematic diagram illustrating the configuration of a foil stamping transfer film material feeding mechanism, receiving mechanism, and rotation mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. Preferably, the foil stamping transfer film material pressing transfer processing device of the present invention is a foil stamping transfer film material pressing transfer processing device described in the above-mentioned basic configuration 1 and subordinate configurations 2 to 15, and as shown in Figure 16, (E) the foil stamping transfer film material supply mechanism 6 comprises (Ea) a foil stamping transfer film material feeding mechanism 62 that feeds the desired foil stamping transfer film material 61, (Eb) a foil stamping transfer film material receiving mechanism 63 that receives the foil stamping transfer film material 61 fed from the foil stamping transfer film material feeding mechanism 62, and (Ed) a foil stamping transfer film material feeding mechanism receiving mechanism rotation device 64 that can rotate the foil stamping transfer film material feeding mechanism 62 and the foil stamping transfer film material receiving mechanism 63 to a desired angle position in the planar direction. Here, the foil stamping transfer film material 61 is removably attached to the foil stamping transfer film material feeding mechanism 62 in a continuously layered wound form, is unfolded in a strip-like form and fed to the foil stamping transfer film material receiving mechanism 63, and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism 63, and the foil stamping transfer film material feeding mechanism 62 and the foil stamping transfer film material receiving mechanism 63 are positioned opposite each other with a predetermined distance between them, and are configured to be able to transport and pull and unfold the foil stamping transfer film material 61.
[0145] (Ed) The foil stamping transfer film material feed mechanism receiving mechanism rotation device 64 comprises a foil rotation device fixed bottom plate 641, a foil rotation device drive mechanism 642, and a foil rotation device rotation mechanism 643, and a foil rotation device fixed bottom plate through hole 641a is formed in the central region of the foil rotation device fixed bottom plate 641, and an upper plate mechanism 2 is installed in a form that passes through the foil rotation device fixed bottom plate through hole 641a. (Eda) The foil rotation device drive mechanism 642 comprises a foil rotation device drive mechanism drive motor mounting stand 642a installed on the upper surface of the foil rotation device fixed bottom plate 641, a foil rotation device drive mechanism drive motor main body 642b installed on the foil rotation device drive mechanism drive motor mounting stand 642a, a foil rotation device drive mechanism drive motor bearing 642f connected to the foil rotation device drive mechanism drive motor main body 642b, a foil rotation device drive mechanism drive motor rotating shaft (642c), and a foil rotation device drive mechanism outer peripheral gear member 642d having a gear shape on its outer periphery installed at the tip of the foil rotation device drive mechanism drive motor rotating shaft 642c. Here, the mounting base 642a for mounting the motor for driving the foil rotation device drive mechanism is fixed to the foil rotation device fixed bottom plate 641, the motor for driving the foil rotation device drive mechanism 642b is installed so that the rotation shaft 642c for driving the foil rotation device drive mechanism is perpendicular to the foil rotation device fixed bottom plate 641, and the outer gear member 642d of the foil rotation device drive mechanism has a gear shape on its outer periphery. (Edb) The foil rotation device rotation mechanism 643 comprises a rotatable annular foil stamping transfer film material rotating plate 643a, and an annular rotating plate inner gear member 643b installed in the inner peripheral region of the underside of the annular foil stamping transfer film material rotating plate 643a. The foil rotation device drive mechanism outer gear member 642d and the foil rotation device drive mechanism rotating plate inner gear member 643b engage with each other, and the driving rotation of the foil rotation device drive mechanism drive motor-main body 642b causes the foil rotation device drive outer gear member 642d to rotate and the rotating plate inner gear member 643b to rotate, thereby causing the foil stamping transfer film material rotating plate 643a, which has the rotating plate inner gear member 643b fixedly installed, to rotate to the desired position and stop at the desired position, so that it is configured to be able to rotate and stop.
[0146] (Ea) The foil stamping transfer film material feeding mechanism 62 is fixed to a predetermined position on the foil stamping transfer film material rotating plate 643a. (Eb) The foil stamping transfer film material receiving mechanism 63 is installed at a position opposite to the foil stamping transfer film material feeding mechanism 62 of the foil stamping transfer film material rotating plate 643a.
[0147] The desired stamping transfer film material 61 is attached to and detached from the stamping transfer film material feed mechanism 62 and the stamping transfer film material receiving mechanism 63, and is present in a stretched and unfolded strip-like form between the stamping transfer film material feed mechanism 62 and the stamping transfer film material receiving mechanism 63. When the foil rotation device rotation mechanism 643 is driven, the stamping transfer film material feed mechanism 62 and the stamping transfer film material receiving mechanism 63 rotate and move to the desired position and stop, and the desired stamping processing plate 7) and the desired workpiece 75 are placed on top of each other via the stamping transfer film material 61. With the upper platen mechanism 2 driven in the vertical direction and the foil stamping transfer film material 61 positioned between the desired pressing processing plate 74 and the desired workpiece 75, the desired pressing processing plate 74 presses the desired workpiece 75 through the foil stamping transfer film material 61 having a strip-shaped form, and a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74 is configured to be transferable and formed on the surface of the desired workpiece 75.
[0148] The motor 642b for driving the foil rotation device drive mechanism is not particularly limited, but a servo motor is particularly preferable. The servo motor configuration makes it possible to repeatedly rotate and stop the foil stamping transfer film material rotating plate 643a to the desired position quickly and with high precision, thereby making it possible to quickly and accurately align the direction and position of the desired strip-shaped foil stamping transfer film material 61 with the relative position of the desired workpiece 75. The foil stamping transfer film material rotating plate 643a is not particularly limited, but is particularly preferably made of metal or hard plastic and has a circular shape in plan view. A foil stamping transfer film material feed mechanism 62 is fixedly installed in an arbitrary region of the edge region of the circumferential region of the foil stamping transfer film material rotating plate 643a having a circular shape in plan view, and a foil stamping transfer film material receiving mechanism 63 is fixedly installed in an edge region of the circumferential region of the foil stamping transfer film material rotating plate 643a opposite the foil stamping transfer film material feed mechanism 62.
[0149] A desired foil stamping transfer film material 61 is attached and set in a rolled state to a foil stamping transfer film material feeding mechanism 62, and is sent in a strip-like form to a foil stamping transfer film material receiving mechanism 63, which is configured to be able to receive the rolled state. The foil rotation device fixed bottom plate 641 is not particularly limited, but can be made of metal or hard plastic, have a flat plate shape with a wider plane than the foil stamping transfer film material rotating plate 643a, and have a planar shape that can support the entire area of the foil stamping transfer film material rotating plate 643a.For example, a square or circular planar shape is possible, and in particular, a foil rotation device fixed bottom plate 641 having a planar area and circular shape equal to or greater than that of the foil stamping transfer film material rotating plate 643a is preferably implemented.
[0150] (Eda) In the foil rotating device driving mechanism 642, it is also possible to implement a configuration in which a rotation speed adjuster 642e is preferably provided on the rotation shaft 642c of the motor for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism. The foil rotation device drive mechanism driving motor body 642b is fixed and held to the upper platen mechanism 2 via the foil rotation device drive mechanism driving motor bearing 642f, thereby fixing and holding the foil rotation device drive mechanism 642 to the upper platen mechanism 2.
[0151] By the foil stamping transfer film material pressing and transferring processing device of the above-mentioned subordinate configuration 21, [Configuration Effect 21: The above-mentioned basic configuration effect 1 and configuration effects 2 to 15 can be obtained, and (Ea) a foil stamping transfer film material feeding mechanism 62 that feeds the desired foil stamping transfer film material 61, and (Eb) a foil stamping transfer film material receiving mechanism 63 that receives the foil stamping transfer film material 61 fed from the foil stamping transfer film material feeding mechanism 62, is positioned between the foil stamping transfer film material feeding mechanism 62 and the foil stamping transfer film material receiving mechanism 63, A foil stamping transfer processing device is obtained which has the effect of being able to rotate the foil stamping transfer film material 61, which has a strip-like shape that has been pulled and unfolded, to a desired angle so that it can be pressed onto a desired area of a desired workpiece 75, thereby enabling a separated foil stamping transfer film material 61a having a transfer film drafting character pattern that is separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 4) to be transferred and formed onto the surface of a desired area of the desired workpiece 75 with significantly superior precision.
[0152] <Regarding the subordinate configuration 22 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 13 is a schematic diagram illustrating the configuration of a foil stamping transfer film material feeding mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. FIG. 14 is a schematic diagram illustrating the configuration of a foil stamping transfer film material receiving mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0153] Preferably, the foil stamping transfer film material pressing and transferring processing device of the present invention is a foil stamping transfer film material pressing and transferring processing device described in the above-mentioned subordinate configuration 21, as shown in Figure 13, (Ea) the foil stamping transfer film material feeding mechanism 62 comprises a foil stamping transfer film material feeding mechanism holding member 621, a foil stamping transfer film material replacement member 622, a foil stamping transfer film material feeding motor 623, a foil stamping transfer film material feeding mechanism transition drum 624, and a foil stamping transfer film material feeding pressing member 625 having the function of pressing the foil stamping transfer film material in the direction of the desired workpiece.
[0154] The foil stamping transfer film material feed motor 623 comprises a foil stamping transfer film material feed motor main body 623a, a foil stamping transfer film material feed motor bearing housing member 623b connected to the shaft end of the foil stamping transfer film material feed motor main body, and a foil stamping transfer film material feed motor rotating shaft 623c connected to the foil stamping transfer film material feed motor bearing housing member. The foil stamping transfer film material feed motor rotating shaft 623c has a cylindrical or columnar shape, and one end of the foil stamping transfer film material feed motor rotating shaft 623c is connected to the foil stamping transfer film material feed motor main body 623a via a foil stamping transfer film material feed motor bearing housing member 623b, and the foil stamping transfer film material 61 is removably attached to the foil stamping transfer film material feed motor rotating shaft 623c.
[0155] The foil stamping transfer film material feed mechanism holding member 621 has a first central holding member 21a, a first right holding member 621b connected to one end of the first central holding member, and a first left holding member 621c connected to the other end of the first central holding member, the first right holding member 621b and the first left holding member 21c being configured in opposing positions with a gap corresponding to the length of the first central holding member 621a, and the first central holding member 621a being installed parallel to the stamping transfer film material feed motor rotation shaft 623c. The left end of the foil stamping transfer film material feed mechanism transition drum 624 is connected to and fixed to the first left holding member 621c, and the right end of the foil stamping transfer film material feed mechanism transition drum 624 is connected to and fixed to the first right holding member 621b. The first center holding member 621a is fixed to and held by the foil stamping transfer film material rotating plate 643a. One end of the stamping transfer film material feed motor rotating shaft 623c is connected to the stamping transfer film material feed motor-bearing housing member 623b, which is held on the top of the first right holding member 621b, and the other end of the stamping transfer film material feed motor rotating shaft 623c is connected and held to the left holding member 621c in a manner that allows it to be connected and fixed and releasably connected and fixed, so that the stamping transfer film material feed motor-623 is mounted and held on the top of the first right holding member 21b via the stamping transfer film material feed motor-bearing housing member 623b, and the first right holding member 621b, the stamping transfer film material feed motor rotating shaft 623c and the stamping transfer film material feed mechanism transition drum 624 are installed parallel to each other.
[0156] The foil stamping transfer film material replacement member 622 has a foil stamping transfer film material width adjustment member 622a and a foil stamping transfer film material replacement fixing member 622b. The foil stamping transfer film material width adjustment member 622a is attached to a foil stamping transfer film material feed motor rotation shaft 623c and has the function of adjusting the width of the foil stamping transfer film material 61 and attaching it. The foil stamping transfer film material replacement fixing member 622b is configured to be able to connect and lock and unlock the other end of the foil stamping transfer film material feed motor rotation shaft 623c and the first left holding member 621c. The foil stamping transfer film material replacement member 622 is configured so that the foil stamping transfer film material 61 is attached to the foil stamping transfer film material feed motor rotation shaft 623c, and when the width of the foil stamping transfer film material 61 is adjusted to the desired width, one end of the foil stamping transfer film material replacement fixing member 622b is connected and fixed to the top of the first left holding member 621c, and the other end of the foil stamping transfer film material replacement fixing member 622b is configured to be able to be connected and locked to the other end of the foil stamping transfer film material feed motor rotation shaft 623c and to be able to release the connection lock.
[0157] As a result, the foil stamping transfer film material 61, which is strip-shaped and wound in continuous layers, is attached and removably mounted to the foil stamping transfer film material feed motor rotation shaft 623c by the foil stamping transfer film material replacement member 622, and the foil stamping transfer film material 61 attached to the foil stamping transfer film material feed motor rotation shaft 623c is configured to be able to be supplied in strip form from the foil stamping transfer film material replacement member 622 towards the foil stamping transfer film material feed pressure member 625, which is installed below the foil stamping transfer film material feed mechanism holding member 621, and is configured so that the foil stamping transfer film material feed pressure member 625 can press the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material 61 downward.
[0158] And / or (Eb) the foil stamping transfer film material receiving mechanism 63 comprises a foil stamping transfer film material receiving mechanism holding member 631, a foil stamping transfer film material receiving motor 632, a foil stamping transfer film material receiving second shaft member 634 having a foil stamping transfer film material receiving second shaft 34c, a foil stamping transfer film material receiving pressing member transition drum 636, a foil stamping transfer film material receiving second shaft synchronous rotation auxiliary member 637, and a foil stamping transfer film material receiving pressing member 635 having the function of pressing the foil stamping transfer film material in the direction of the desired workpiece.
[0159] The foil stamping transfer film material receiving second shaft synchronous rotation auxiliary member 637 has the function of rotating the foil stamping transfer film material receiving second shaft 634c in synchronization with the foil stamping transfer film material receiving motor 632. The foil stamping transfer film material receiving mechanism holding member 631 has a second central holding member 631a, a second right holding member 631b connected to one end of the second central holding member, and a second left holding member 631c connected to the other end of the second central holding member, and the second right holding member 631b and the second left holding member 631c are configured in opposing positions with a gap corresponding to the length of the second central holding member 631a. The second central holding member 631a is installed and fixed on the foil stamping transfer film material rotating plate 643a, where the second central holding member 631a is fixed and installed in a position facing the first central holding member 621a of the foil stamping transfer film material feeding mechanism holding member 621 at a predetermined distance apart.
[0160] The foil stamping transfer film material receiving motor-32 has a foil stamping transfer film material receiving motor-main body 632a, a foil stamping transfer film material receiving motor-bearing housing member 632b connected to the shaft end of the foil stamping transfer film material receiving motor-main body 632a, and a foil stamping transfer film material receiving motor-rotating shaft 632c connected to the foil stamping transfer film material receiving motor-bearing housing member 632b, and the foil stamping transfer film material receiving motor-rotating shaft 632c has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material receiving motor rotation shaft 632c is connected to the foil stamping transfer film material receiving motor main body 632a via a foil stamping transfer film material receiving motor bearing housing member 632b.
[0161] The second central holding member 631a is installed parallel to the foil stamping transfer film material receiving motor rotating shaft 632c, the foil stamping transfer film material receiving motor 632 is attached to and held by the second right holding member 631b via the foil stamping transfer film material receiving motor bearing housing member 632b, one end of the foil stamping transfer film material receiving motor rotating shaft 632c is connected to the foil stamping transfer film material receiving motor bearing housing member 632b, the foil stamping transfer film material receiving motor bearing housing member 632b is connected and fixed to the second right holding member 631b, and the other end of the foil stamping transfer film material receiving motor rotating shaft 632c is connected and fixed to the second left holding member 631c.
[0162] One end of the second foil stamping transfer film material receiving shaft 634c is rotatably held and installed on the second right holding member 631b, and the other end of the second foil stamping transfer film material receiving shaft 634c is rotatably held and installed on the second left holding member 31c), and the second foil stamping transfer film material receiving shaft synchronous rotation member 637 connects the shaft end of the foil stamping transfer film material receiving rotation shaft 632c and the shaft end of the second foil stamping transfer film material receiving shaft 34c to each other and connects them so that they can rotate synchronously.
[0163] In this way, the foil stamping transfer film material receiving motor rotating shaft 632c and the foil stamping transfer film material receiving second shaft 634c are held and installed in the foil stamping transfer film material receiving mechanism holding member 631 so that they are parallel to each other, and are connected to each other so that they can rotate synchronously.As a result, when driven by the foil stamping transfer film material receiving motor 632, the front foil stamping transfer film material receiving motor rotating shaft 632c and the foil stamping transfer film material receiving second shaft 634c are connected to each other so that they can rotate synchronously. As a result, the foil stamping transfer film material 61 having a strip shape sent from the foil stamping transfer film material feeding mechanism 62 passes through the foil stamping transfer film material receiving member 35, passes through the foil stamping transfer film material receiving motor-rotating shaft 632c, and is then wound up by the foil stamping transfer film material receiving second shaft 634c so that it can be received.
[0164] When in operation, the desired foil stamping transfer film material 61 is attached and detachably to the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63, and exists in a stretched and unfolded strip-like form between the foil stamping transfer film material feed mechanism 2 and the foil stamping transfer film material receiving mechanism 63. When the foil rotation device rotation mechanism 643 is driven, the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 rotate and move to the desired position and stop. When the foil stamping transfer film material 61 is positioned between the desired pressing processing plate 4 and the desired workpiece 75, the upper platen mechanism 2 is driven in the vertical direction, and the desired pressing processing plate 74 presses the desired workpiece 75 through the pressing film material 61 in a strip-like form. As a result, a separated foil stamping transfer film material 61a having a transfer film drafting character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74 can be transferred and formed on the surface of the desired workpiece 5.
[0165] (Ea) The detailed configuration of the foil stamping transfer film material feeding mechanism 62 is similar to the configuration described in the above section "Subordinate Configuration 16" except for the following points. However, while the foil stamping transfer film material feed mechanism 62 of "subordinate configuration 16" has a configuration in which the first central holding member 621a is fixed and held by a foil stamping transfer film material supply mechanism connecting plate, in contrast, the foil stamping transfer film material feed mechanism 62 of this "subordinate configuration 21" has a configuration in which the first central holding member 621a is fixed and held by a foil stamping transfer film material rotating plate 643a. In this respect, the foil stamping transfer film material feed mechanism 62 of this "subordinate configuration 21" differs from the foil stamping transfer film material feed mechanism 62 of the aforementioned "subordinate configuration 16". Except for this point, the foil stamping transfer film material feeding mechanism 62 has the same configuration as the foil stamping transfer film material feeding mechanism 62 of the aforementioned "subordinate configuration 16".
[0166] The detailed configuration of the foil stamping transfer film material receiving mechanism 63 is similar to the configuration described in the above section "Subordinate Configuration 18" except for the following points. However, while the foil stamping transfer film material receiving mechanism 63 of "subordinate configuration 18" has a configuration in which the second central holding member 631a is fixed to and held by the foil stamping transfer film material supply mechanism connecting plate, in contrast, the foil stamping transfer film material receiving mechanism 63 of this "subordinate configuration 21" has a configuration in which the second central holding member 631a is fixed to and held by the foil stamping transfer film material rotating plate 643a. In this respect, the foil stamping transfer film material receiving mechanism 63 of this "subordinate configuration 21" differs from the foil stamping transfer film material receiving mechanism 63 of the aforementioned "subordinate configuration 18". Except for this point, the foil stamping transfer film material receiving mechanism 63 has the same configuration as the foil stamping transfer film material receiving mechanism 63 of the aforementioned "subordinate configuration 18".
[0167] A foil stamping transfer film material pressure transfer processing device equipped with the foil stamping transfer film material feed mechanism 62 of the above-mentioned subordinate configuration 22 can provide a foil stamping transfer film material pressure transfer processing device that achieves [configuration effect 22a: the above-mentioned configuration effect 21 can be obtained, and by pressing the desired foil stamping transfer film material 61 adjusted to the desired angle while it is positioned between the desired pressing processing plate 74 and the desired workpiece 75, it becomes possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drafting character and picture pattern onto the surface of the desired workpiece 75 with extremely high precision, and in particular the effect that the foil stamping transfer film material 61 can be easily and quickly attached to the foil stamping transfer film material replacement part 62, and can also be easily and quickly detached and attached].
[0168] A foil stamping transfer film material pressure transfer processing device equipped with the foil stamping transfer film material receiving mechanism 63 of the above-mentioned subordinate configuration 22 can provide a foil stamping transfer film material pressure transfer processing device that achieves [configuration effect 22b: the above-mentioned configuration effect 21 can be obtained, and by pressing the desired foil stamping transfer film material 61 adjusted to the desired angle while it is positioned between the desired pressing processing plate 74 and the desired workpiece 75, it becomes possible to transfer and form a separated foil stamping transfer film material 61a having a transfer film drafting character pattern onto the surface of the desired workpiece 75 with extremely high precision, and in particular, it becomes possible to wind up and receive the strip-shaped foil stamping transfer film material 61 sent from the foil stamping transfer film material feed mechanism 62 on the foil stamping transfer film material receiving second shaft 634c, making continuous pressing easier].
[0169] <Regarding the subordinate configuration 23 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 14 is a schematic diagram illustrating the configuration of a foil stamping transfer film material receiving mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0170] Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configuration 22, as shown in Figure 14, (Eb) in the foil stamping transfer film material receiving mechanism 63, the foil stamping transfer film material receiving presser member 635 includes a foil stamping transfer film material receiving presser member pressing shaft 635a, a foil stamping transfer film material receiving presser member pressing shaft holding member 635b, a foil stamping transfer film material receiving presser member pressing roll shaft 635c, a foil stamping transfer film material receiving presser member cushioning member 35d), a foil stamping transfer film material receiving presser member mounting frame 35e, a foil stamping transfer film material receiving presser member transfer film limit adjustment stripe forming pressure force adjustment member left 635f, a foil stamping transfer film material receiving presser member transfer film limit adjustment stripe forming pressure force adjustment member right 635k, and a foil stamping transfer film material receiving presser member pressure force control elastic member 635g.
[0171] A second retaining member left protrusion 35j is formed on the second left retaining member 631c, and a second retaining member right protrusion is formed on the second right retaining member 631b, and the second retaining member left protrusion 635j and the second retaining member right protrusion are formed in positions facing each other.
[0172] The left 635f of the transfer film receiving and holding member transfer film limit adjustment stripe forming pressure-adjusting member has a strip-shaped or approximately rectangular strip-shaped through hole formed therein, and the left 635j of the second holding member protrusion is formed to engage with the strip-shaped through hole and be able to slide along the strip-shaped through hole, and the right 635k of the foil stamping transfer film receiving and holding member transfer film limit adjustment stripe forming pressure-adjusting member has a strip-shaped or approximately rectangular strip-shaped through hole formed therein, and the right second holding member protrusion is formed to engage with the strip-shaped through hole and be able to slide along the strip-shaped through hole, so that a strip-shaped through hole is formed in the transfer film limit adjustment stripe forming pressure-adjusting member 635f and the second holding member protrusion 635j is formed to engage with the strip-shaped through hole and be able to slide along the strip-shaped through hole, thereby providing a function of cushioning the pressure applied to the foil stamping transfer film material.
[0173] The left end of the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c is connected to the lower part of the foil stamping transfer film receiving and pressing member transfer film limit adjustment stripe forming pressure force adjustment member left 635f, and the right end of the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c is connected to the lower part of the foil stamping transfer film receiving and pressing member transfer film limit adjustment stripe forming pressure force adjustment member right 635k, and the foil stamping transfer film material receiving and pressing member transition drum 635h and the foil stamping transfer film material receiving and pressing member pressure roll shaft 635c are installed parallel to each other. As a result, the foil stamping transfer film material receiving member pressure roll shaft 635c is held on the foil stamping transfer film material receiving mechanism holding member 631 so that it can move up and down, and the foil stamping transfer film material receiving member mounting frame 635e is connected to the foil stamping transfer film material receiving mechanism holding member 631.
[0174] The foil stamping transfer film material receiving and pressing member pressing shaft 635a has two pressing shafts, a first receiving pressing shaft and a second receiving pressing shaft, and the two receiving pressing shafts are installed parallel to each other and are configured to be able to press into contact with each other, and both ends of the foil stamping transfer film material receiving and pressing member pressing shaft 635a, which has the two receiving pressing shafts, are rotatably held by foil stamping transfer film material receiving and pressing member pressing shaft holding member 635b, and the foil stamping transfer film material receiving and pressing member transition drum 635h, the foil stamping transfer film material receiving and pressing member pressing shaft 635a and the foil stamping transfer film material receiving and pressing member mounting frame 635e are installed parallel to each other.
[0175] The foil stamping film material 61 having a belt shape can pass between the first receiving pressure shaft and the second receiving pressure shaft of the pressure transfer film material receiving and holding member pressure shaft 635a. The transfer film material receiving and pressing member pressure force control elastic member 635g is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame 635e and the foil stamping transfer film material receiving and pressing member pressing shaft holding member 635b with cushioning and / or elasticity, the foil stamping transfer film material receiving and pressing member cushioning member 635d is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame 635e and the foil stamping transfer film material receiving and pressing member pressing shaft holding member 635b with cushioning and / or elasticity, and the foil stamping transfer film material receiving and pressing member pressing shaft 635a is configured so as to be able to press the foil stamping transfer film material 61 with cushioning and / or elasticity.
[0176] As a result, a strip-shaped through hole is formed in the foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure force adjustment member 635f, and the second holding member protrusion portion 635j is formed to engage with the strip-shaped through hole and be able to slide, so that the pressure force pressing the foil stamping transfer film material can be applied with the desired cushioning and / or elasticity, and the foil stamping transfer film material receiving and pressing member 635 is configured to be able to press the incoming foil stamping transfer film material 61 with the desired cushioning and / or elasticity adjusted by the foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure force adjustment member 635f and the foil stamping transfer film material receiving and pressing member pressure force control elastic member 635g.
[0177] When in operation, the desired foil stamping transfer film material 61 is attached and detachably mounted to the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63, and the foil stamping transfer film material 61 is positioned between the desired pressing processing plate 74 and the desired workpiece 75.The upper platen mechanism 2 then drives in the vertical direction, causing the desired pressing processing plate 74 to press the desired workpiece 75 through the foil stamping transfer film material 61, thereby creating a separated foil stamping transfer film material 61a having a transfer film drawing character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74, which can be transferred and formed onto the surface of the desired workpiece 75. In this way, a foil stamping transfer film material pressure transfer processing device is configured.
[0178] The detailed configuration of the (Eb) foil stamping transfer film material receiving mechanism 63 described in the above-mentioned subsidiary configuration 23 has a similar configuration to the configuration described in the above-mentioned section "subsidiary configuration 19."
[0179] A foil stamping transfer film material pressing and transferring processing device equipped with the foil stamping transfer film material receiving mechanism 63 of the above-mentioned subordinate configuration 23 can provide a foil stamping transfer film material pressing and transferring processing device that achieves [configuration effect 23: the aforementioned configuration effect 22 can be obtained, and in particular, the strip-shaped foil stamping transfer film material 61 adjusted to the desired angle and fed from the foil stamping transfer film material feed mechanism 62 can be pressed with the adjusted desired cushioning and / or elasticity, thereby enabling the foil stamping transfer film material 61 to be pressed against the surface of the desired workpiece 75 with high precision and adhered to it by the action of the foil stamping transfer film material feed pressing member 625 and the foil stamping transfer film material receiving pressing member 635].
[0180] <Regarding the subordinate configuration 24 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 13 is a schematic diagram illustrating the configuration of a foil stamping transfer film material feeding mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0181] Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configuration 22 or subordinate configuration 23, as shown in Figure 13, (Ea) in the foil stamping transfer film material feed mechanism 62, the foil stamping transfer film material feed pressure member 625 comprises a second foil stamping transfer film material feed pressure member pressure shaft 625a, a second foil stamping transfer film material feed pressure member pressure shaft holding member 625b, a foil stamping transfer film material feed pressure member pressure roll shaft 625c, a foil stamping transfer film feed pressure member buffer member 625d, a foil stamping transfer film material feed pressure member mounting frame 625e, a foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member left 625f, a foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member right 625k, and a foil stamping transfer film material pressure force control elastic member 625g.
[0182] A first holding member left protrusion 625j is formed on the first left holding member 621c, and a first holding member right protrusion (not shown) is formed on the first right holding member 621b, and the first holding member left protrusion 625j and the first holding member right protrusion (not shown) are formed in positions facing each other, a stripe-shaped or approximately rectangular strip-shaped through hole is formed in the foil stamping transfer film feed pressing member transfer film limit adjustment stripe forming pressure force adjustment member 625f, and the first holding member left protrusion 625j is formed to engage with the stripe-shaped through hole and to be able to slide along the stripe-shaped through hole, and a stripe-shaped or approximately rectangular strip-shaped through hole is formed in the pressing transfer film feed pressing member transfer film limit adjustment stripe forming pressure force adjustment member right 625k, and the first holding member right protrusion (not shown) is formed to engage with the stripe-shaped through hole and to be able to slide along the stripe-shaped through hole. As a result, a strip-shaped through hole is formed in the transfer film limit adjustment strip forming pressure-bonding force adjustment member 25f, and the first holding member protrusion portion 625j is configured to engage with the strip-shaped through hole and be able to slide and move, thereby providing the function of buffering the pressing force pressing against the foil stamping transfer film material.
[0183] The left end of the foil stamping transfer film material feed pressure member pressure roll shaft 625c is connected to the lower part of the transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member left 625f, and the right end of the foil stamping transfer film material feed pressure member pressure roll shaft 625c is connected to the lower part of the transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member right 25k, thereby allowing the foil stamping transfer film material feed pressure member pressure roll shaft 625c to be held on the foil stamping transfer film material feed mechanism holding member 621 so that it can move up and down.
[0184] The foil stamping transfer film material feed pressing member mounting frame 625e is connected to the foil stamping transfer film material feed mechanism holding member 621. The foil stamping transfer film material feed pressure member pressing shaft 625a has two pressing shafts, a first pressing shaft and a second pressing shaft, which are installed parallel to each other and are configured to be able to press into contact with each other, and both ends of the foil stamping transfer film material feed pressure member pressing shaft 625a, which has two pressing shafts, are rotatably held by foil stamping transfer film material feed pressure member pressing shaft holding member 625b. The foil stamping transfer film material feed pressure member transition drum 625h, the foil stamping transfer film material feed pressure member pressure roll shaft 625c, the foil stamping transfer film material feed pressure member pressing shaft 625a and the foil stamping transfer film material feed pressure member mounting frame 625e are installed parallel to each other, and are configured so that a band-shaped foil stamping film material 61 can pass between the first pressing shaft and the second pressing shaft of the foil stamping transfer film material feed pressure member pressing shaft 625a.
[0185] The foil stamping transfer film material feed pressure member pressure force control elastic member 625g is installed so as to be able to connect the foil stamping transfer film material feed pressure member mounting frame 625e and the foil stamping transfer film material feed pressure member pressing shaft holding member 625b with cushioning and / or elasticity, the foil stamping transfer film material feed pressure member cushioning member 625d is installed so as to be able to connect the foil stamping transfer film material feed pressure member mounting frame 625e and the foil stamping transfer film material feed pressure member pressing shaft holding member 625b with cushioning and / or elasticity, and the foil stamping transfer film material feed pressure member pressing shaft 625a is configured so as to be able to press the foil stamping transfer film material 61 with cushioning and / or elasticity.
[0186] As a result, the foil stamping transfer film material feed pressure member 625 is configured to be able to press the band-shaped foil stamping transfer film material 61 being fed from the foil stamping transfer film material 61 attached to the foil stamping transfer film material feed motor rotation shaft 623c with the desired cushioning and / or elasticity adjusted by the foil stamping transfer film feed pressure member transfer film limit adjustment stripe forming pressure force adjustment member 625f, the foil stamping transfer film feed pressure member cushioning member 625d and the foil stamping transfer film material feed pressure member pressure force control elastic member 625g.
[0187] The detailed configuration of the (Ea) foil stamping transfer film material feeding mechanism 62 described in the above-mentioned subsidiary configuration 24 has a similar configuration to the configuration described in the above-mentioned section "subsidiary configuration 17."
[0188] By the foil stamping transfer film material pressing and transferring processing device equipped with the foil stamping transfer film material feeding mechanism 62 of the above-mentioned subordinate configuration 24, [Configuration Effect 24: The above-mentioned Configuration Effect 22 and / or Configuration Effect 23 can be obtained, In particular, a foil stamping transfer film material pressing and transfer processing device is obtained that can press a strip-shaped foil stamping transfer film material 61, which has been adjusted to the desired angle and is fed from a foil stamping transfer film material feed mechanism 62, with the desired adjusted cushioning and / or elasticity, thereby achieving the effect of being able to press the foil stamping transfer film material 61 against the surface of the desired workpiece 75) with high precision and make it adhere tightly to the surface.
[0189] <Regarding the subordinate configuration 25 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 14 is a schematic diagram illustrating the configuration of a foil stamping transfer film material receiving mechanism in a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0190] Preferably, the foil stamping transfer film material pressing and transferring processing device of the present invention is the foil stamping transfer film material pressing and transferring processing device described in the aforementioned subordinate configuration 22, as shown in FIG. 14, (Eb) in the foil stamping transfer film material receiving mechanism 63, the foil stamping transfer film material receiving second shaft member 634 is installed on the second right holding member 631b so as to be above the foil stamping transfer film material receiving motor-rotating shaft 632c, and the foil stamping transfer film material receiving second shaft 634c and the foil stamping transfer film material receiving motor-rotating shaft The shaft 632c and the foil stamping transfer film material receiving pressing member transition drum 36) are arranged parallel to each other, and the foil stamping transfer film material receiving second shaft member 634 further has a rotatable foil stamping transfer film material receiving second shaft right bearing nut 634e installed at the end of the foil stamping transfer film material receiving second shaft 634c, and the foil stamping transfer film material receiving second shaft right bearing nut 634e is configured to be able to adjust the slack in the tension of the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material feed mechanism 62 by rotating.
[0191] (Eb) In the foil stamping transfer film material receiving mechanism 63, the foil stamping transfer film material receiving press member 635 has a foil stamping transfer film material receiving rotating bearing shaft synchronous rotation auxiliary member 637 that rotates synchronously with the foil stamping transfer film material receiving motor rotating shaft 632c and the foil stamping transfer film material receiving second shaft 634c, and the foil stamping transfer film material receiving press member 635 has a foil stamping transfer film material receiving second shaft pulley member 634d installed on the foil stamping transfer film material receiving second shaft 634c, and a foil stamping transfer film material receiving motor rotating shaft pulley member 632d installed on the foil stamping transfer film material receiving motor rotating shaft 632c. The foil stamping transfer film material receiving rotating bearing shaft synchronous rotation auxiliary member 637 is a circular belt 20, which is installed by connecting the foil stamping transfer film material receiving second shaft pulley member 634d and the foil stamping transfer film material receiving motor rotating shaft pulley member 632d. As a result, the second foil stamping transfer film material receiving shaft 634c is configured to be rotatable about its axis in synchronization with the rotation of the foil stamping transfer film material receiving motor rotation shaft 632c.
[0192] As a result, when the film is driven, loosening of the strip-shaped foil stamping transfer film material 61 located between the foil stamping transfer film material feeding mechanism 62 and the foil stamping transfer film material receiving mechanism 63 is suppressed, and the film is pulled in a strip-like shape and is configured to be unfoldable. In this way, a foil stamping transfer film material pressure transfer processing device equipped with a foil stamping transfer film material receiving mechanism 63 is configured.
[0193] The detailed configuration of the (Eb) foil stamping transfer film material receiving mechanism 63 described in the above-mentioned subsidiary configuration 25 has a similar configuration to the configuration described in the above-mentioned section "subsidiary configuration 20."
[0194] A foil stamping transfer film material pressure transfer processing device equipped with the foil stamping transfer film material receiving mechanism 63 of the above-mentioned subordinate configuration 25 can provide a foil stamping transfer film material pressure transfer processing device that achieves the following effect: [Configuration effect 25: the above-mentioned configuration effects 22, 23, and 24 can be achieved, and in particular, the strip-shaped foil stamping transfer film material 61 adjusted to the desired angle and fed from the foil stamping transfer film material feed mechanism 62 can be pressed with the adjusted desired cushioning and / or elasticity, so that the action of the foil stamping transfer film material feed pressure member 625 and the foil stamping transfer film material receiving pressure member 635 suppresses slack in the strip-shaped foil stamping transfer film material 61 located between the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63, allowing it to be pulled in a strip-like shape and be configured to be unfoldable, resulting in the effect of the foil stamping transfer film material 61 being pressed against the surface of the desired workpiece 75 with high precision and made to adhere tightly].
[0195] <Regarding the subordinate configuration 26 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 16 is a schematic diagram illustrating the configuration of the foil stamping transfer film material feeding mechanism, receiving mechanism, and rotating mechanism configured in the foil stamping transfer film material pressure transfer processing device of one embodiment of the present invention.
[0196] Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configurations 22 to 25, as shown in Figure 16, (Ec) the foil stamping transfer film material feed mechanism receiving mechanism rotation mechanism 64 further includes a foil scraping mechanism 65 having a foil scraping member 65a and a foil scraping member holding member 65b, wherein the foil scraping member 65a has the function of peeling off the desired foil stamping transfer film material excluding the separated foil stamping transfer film material 61a from the desired workpiece 75a on which the transfer film drafting character and picture pattern is transferred and formed. A foil stamping transfer film material feeding mechanism holding member installation section, a foil stamping transfer film material receiving mechanism holding member installation section, and a foil scraping mechanism holding member installation section are formed on the annular upper surface of the foil stamping transfer film material rotating plate 643a of the foil rotation device rotation mechanism 643, and the foil stamping transfer film material feeding mechanism holding member installation section and the foil stamping transfer film material receiving mechanism holding member installation section are formed in positions facing each other, and the foil scraping mechanism holding member installation section is formed in the intermediate section between the foil stamping transfer film material feeding mechanism holding member installation section and the foil stamping transfer film material receiving mechanism holding member installation section. The foil stamping transfer film material feeding mechanism holding member 621 is installed in the foil stamping transfer film material feeding mechanism holding member installation section, the foil stamping transfer film material receiving mechanism holding member 631 is installed in the foil stamping transfer film material receiving mechanism holding member installation section, and the foil scraping member holding member 65b is installed in the foil scraping mechanism holding member installation section. In this way, a foil stamping transfer film material pressing and transferring processing device having the aforementioned sub-components 22 to 26 is configured.
[0197] A foil stamping transfer film material pressure transfer processing device equipped with the rotation speed adjuster 642e of the above-mentioned subordinate configuration 26 can provide a foil stamping transfer film material pressure transfer processing device that achieves [configuration effect 26: the aforementioned configuration effects 22, 23, 24, and 25 can be obtained, and in particular, it becomes possible to rotate and stop the strip-shaped foil stamping transfer film material 61 fed from the foil stamping transfer film material feed mechanism 62 at an angle position adjusted to the desired angle, resulting in the effect of being able to press the foil stamping transfer film material 61 against the surface of the desired workpiece 75 with high precision and make it adhere to the surface].
[0198] <Regarding the subordinate configuration 27 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 17 is a schematic diagram illustrating the configuration of a foil stamping transfer film material supply mechanism configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention.
[0199] Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configurations 22 to 26, as shown in Figure 17, (Ec) the foil stamping transfer film material feed mechanism receiving mechanism rotation mechanism 64 further includes a foil scraping mechanism 65 having a foil scraping member 65a and a foil scraping member holding member 65b, wherein the foil scraping member 65a has the function of peeling off the desired foil stamping transfer film material excluding the separated foil stamping transfer film material 61a from the desired workpiece 75a onto which the transfer film drafting character and picture pattern is transferred and formed. A foil stamping transfer film material feeding mechanism holding member installation section, a foil stamping transfer film material receiving mechanism holding member installation section, and a foil scraping mechanism holding member installation section are formed on the annular upper surface of the foil stamping transfer film material rotating plate 643a of the foil rotation device rotation mechanism 643, and the foil stamping transfer film material feeding mechanism holding member installation section and the foil stamping transfer film material receiving mechanism holding member installation section are formed in positions facing each other, and the foil scraping mechanism holding member installation section is formed in the intermediate section between the foil stamping transfer film material feeding mechanism holding member installation section and the foil stamping transfer film material receiving mechanism holding member installation section. The foil stamping transfer film material feeding mechanism holding member 621 is installed in the foil stamping transfer film material feeding mechanism holding member installation section, the foil stamping transfer film material receiving mechanism holding member 631 is installed in the foil stamping transfer film material receiving mechanism holding member installation section, and the foil scraping member holding member 65b is installed in the foil scraping mechanism holding member installation section. In this way, a foil stamping transfer film material pressure transfer processing device including the components of the subordinate components 22 to 26 is configured.
[0200] The foil scraping member holding member 65b is not particularly limited, but for example, a blower member capable of blowing air toward the desired foil stamping transfer film material 75 of the desired workpiece 75a on which the transfer film drawing character pattern transferred onto the surface of the desired workpiece is preferably implemented.
[0201] By the foil stamping transfer film material pressing transfer processing device equipped with the foil scraping member holding member 65b of the above-mentioned subordinate configuration 27, [Configuration Effect 27: The above-mentioned configuration effects 22 to 26 can be obtained, and In particular, it is possible to easily peel off the remaining untransferred foil stamping transfer film material 61 from the surface of the desired workpiece 75a onto which the transfer film drafting character and picture pattern has been transferred, thereby achieving the effect of obtaining the desired workpiece 75a onto which the transfer film drafting character and picture pattern has been transferred with the desired accuracy.
[0202] <Regarding the subordinate configuration 28 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 16 is a schematic diagram illustrating the configuration of the foil stamping transfer film material feeding mechanism, receiving mechanism, and rotating mechanism configured in the foil stamping transfer film material pressure transfer processing device of one embodiment of the present invention.
[0203] Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configurations 22 to 26, as shown in Figure 16, (Ec) the foil stamping transfer film material feed mechanism receiving mechanism rotation mechanism 64 further has a rotation angle sensor 643d for controlling the angle of the rotating plate installed on the foil rotation device fixed bottom plate 41), and the rotation angle sensor 643d for controlling the angle of the rotating plate is configured to monitor the rotation position of the foil stamping transfer film material rotating plate 643a and stop it at the desired rotation position so as to be controllable.
[0204] As the rotation angle sensor 643d for controlling the angle of the rotating plate, a configuration having a plurality of rotation angle sensors 643d for controlling the angle of the rotating plate, which are preferably installed on the foil rotation device fixed bottom plate 641, can be preferably implemented. Each of the multiple rotary plate angle control rotation angle sensors 643d monitors the angle position of the foil stamping transfer film material rotary plate 643a and has the function of stopping and controlling the foil stamping transfer film material rotary plate 643a at the desired rotation position, thereby enabling the foil stamping transfer film material rotary plate 643a to rotate and stop at the desired position.
[0205] A foil stamping transfer film material pressure transfer processing device equipped with the rotation angle sensor 643d for controlling the angle of the rotating plate of the above-mentioned subordinate configuration 28 can provide a foil stamping transfer film material pressure transfer processing device [Configuration effect 28: The above-mentioned configuration effects 22 to 27 can be obtained, and in particular, it becomes possible to rotate and position the band-shaped foil stamping transfer film material 61 at a desired angle position corresponding to the shape of the desired workpiece 75, resulting in the effect of obtaining a desired workpiece 75a on which a transfer film drawing character pattern transferred and formed accurately and with the desired precision at the desired position on the desired workpiece 75.
[0206] <Regarding the subordinate configuration 29 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned subordinate configurations 22 to 28, and as shown in Figures 16 and 17, the foil stamping transfer film material pressure transfer processing device further includes a foil stamping transfer film material pressure transfer processing device general control unit 8. And (Ec) in the foil stamping transfer film material feed mechanism receiving mechanism rotation mechanism 64, the motor 642b for driving the foil stamping transfer film material feed mechanism receiving mechanism rotation mechanism is a servo motor 642b having a rotary encoder, and the servo motor 642b having a rotary encoder is electrically connected to the foil stamping transfer film material press transfer processing device overall control unit 8, and by operating the foil stamping transfer film material press transfer processing device overall control unit 8, the motor 642b for driving the foil stamping transfer film material feed mechanism receiving mechanism rotation mechanism is started, and the foil stamping transfer film material rotating plate 643a of the foil rotation device rotation mechanism 643 is rotated and moved to a desired angle position, thereby making it possible to move the foil stamping transfer film material feed mechanism 62 to which the foil stamping transfer film material 61 is attached and the foil stamping transfer film material receiving mechanism 63 to the desired position.
[0207] The driving members constituting the present invention include an electric cylinder 23 for driving the upper platen up and down, a transporting device member driving motor 332, an electromagnet fixing member 343, a foil stamping transfer film material feed motor 623 with bearings, a foil stamping transfer film material receiving motor 632, a foil rotation device driving mechanism 642, a foil rotation device rotation mechanism 643, etc. The foil stamping transfer film material pressure transfer processing device comprehensive control unit 8 is preferably electrically connected to the driving member that constitutes the present invention and is installed in front of the stand 9 or adjacent to the stand 9.
[0208] The foil stamping transfer film material pressing and transferring processing device of the above-mentioned subordinate configuration 29, [Configuration Effect 29: The above-mentioned configuration effects 22 to 28 can be obtained, and in particular, the configuration in which the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism driving motor 642b has a servo motor 642b having a rotary encoder makes it possible to rotate and position the belt-shaped foil stamping transfer film material 61 at a desired angle position corresponding to the shape of the desired workpiece 75, and as a result, the transfer film material that has been transferred and formed accurately at the desired position on the desired workpiece 75 with the desired precision. This provides a foil stamping transfer film material pressure transfer processing device which has the effect of obtaining the desired workpiece 75a onto which the drafting character and picture pattern is transferred, and further, by operating the foil stamping transfer film material pressure transfer processing device overall control unit 8, the operator can easily and accurately rotate and move the foil stamping transfer film material rotating plate 643a of the foil rotating device rotation mechanism 643 to the desired angle position, thereby making it possible to move the foil stamping transfer film material feed mechanism 62 and the foil stamping transfer film material receiving mechanism 63 to the desired positions, to which the foil stamping transfer film material 61 is attached.
[0209] <Regarding the subordinate configuration 30 of the foil stamping transfer film material pressing and transferring processing device of the present invention> FIG. 18 is a schematic diagram illustrating the configuration of a stand configured in a foil stamping transfer film material pressure transfer processing device according to one embodiment of the present invention. Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is a foil stamping transfer film material pressure transfer processing device described in the above-mentioned basic configuration 1 and subordinate configurations 2 to 29, and as shown in Figure 18, (F) the frame 9 comprises (Fa) a lower frame 91, (Fb) an upper frame 92, and (Fc) an upper plate mechanism mounting and fixing member 3). Here, (Fa) the lower frame 91 comprises a lower frame bottom base member 911 having a planar shape of an approximately rectangular plate, and at least four lower frame support frame members 912 which are frame-shaped and formed vertically from the corners of the lower frame bottom base member 911 having a planar shape of an approximately rectangular plate. (Fb) The upper platform 92 comprises an upper platform frame bottom base member 921 having a frame shape with an approximately rectangular planar shape, and at least four upper platform support frame members 922 each having a frame shape formed vertically from the corners of the upper platform bottom base member 921 having a frame shape with an approximately rectangular planar shape. (Fc) The upper platen mechanism mounting and fixing member 93 is installed and fixed to the underside of the upper frame member 921 of the gantry. (Fab) The upper frame 92 is fixed onto the lower frame 91, and the upper frame 92 and the lower frame 91 are integrally formed, and the outer peripheral shapes of the lower frame bottom base member 911, which has an approximately rectangular plate shape, and the upper frame bottom base member 921 have the same outer peripheral shapes, and the lower frame bottom base member 911 and the upper frame bottom base member 921 are configured to be parallel to each other. (F) The stand 9 has a rectangular parallelepiped shape. (A) The upper platform mechanism 2 is fixedly installed under the upper platform mechanism mounting and fixing member 93 which is installed and fixed to the underside of the upper platform bottom base member 921 of the upper platform 92, and (B) the lower platform mechanism 3 is fixedly installed on top of the upper platform bottom base member 921 of the lower platform 91.
[0210] Each member constituting the stand 9 is preferably made of a metal material such as steel or stainless steel having high mechanical strength.
[0211] The stand configured in a conventional conventional foil stamping transfer film material pressure transfer processing device is generally a steel C-shaped structure that can install and hold a large device with a pressing force of approximately 10 tons, including an upper platen mechanism 2, a lower platen mechanism 3, and a foil stamping transfer film material supply mechanism 6.However, due to the excessive weight of the upper platen mechanism 2 and the lower platen mechanism 3, the C-shaped structure stand tends to deform by approximately 0.6 mm or more when the foil stamping transfer film material pressure transfer processing device is pressed and operated, compared to when it is stationary before being driven.As a result, it is not possible to transfer the graphic, letter, or picture pattern formed on the desired pressure processing plate (74) to a specified area on the surface of the desired workpiece 75, and there is a tendency for an error of 0.6 mm or more to occur in the desired transfer formation position. In contrast to this, the foil stamping transfer film material pressure transfer processing device of the above-mentioned subordinate configuration 30 of the present invention provides the following: [Configuration Effect 30: The above-mentioned configuration effects 1 to 29 can be obtained, and the upper platen mechanism 2 and the lower platen mechanism 3 can be installed separately from each other, and the relative positions of the upper platen mechanism 2 and the lower platen mechanism 3 can be installed on a stand with an accuracy of less than 1 mm. As a result, a large-scale pressure transfer processing device having a pressing force of approximately 10 tons, including the upper platen mechanism 2, the lower platen mechanism 3 and the foil stamping transfer film material supply mechanism 6, can be installed and fixed with the desired precise dimensional accuracy, and the desired position of the foil stamping transfer film material to be installed on the upper substrate 72 can be adjusted. A foil stamping transfer film material pressing and transferring processing device is obtained that can accurately position and align the relative position between the pressing processing plate 74 and the desired workpiece 75 placed on the lower substrate 73 at the desired position, and as a result, a foil stamping transfer film material pressing and transferring processing device is obtained that has the effect of ``making it possible to transfer and form a graphic character pattern that is faithful to the desired graphic character pattern formed on the desired pressing processing plate 74 to an extremely precise area within an area of less than 0.6 mm from the desired area on the surface of the desired workpiece 75, from a small workpiece with a length of 10 cm to a large workpiece with a length of 1 m or more.''
[0212] <Regarding the subordinate configuration 31a of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, in the foil stamping transfer film material pressing transfer processing device of the present invention, in the foil stamping transfer film material pressing transfer processing device described in the above-mentioned subordinate configuration 30, as shown in Figure 18, (Fc) the upper platform mechanism mounting and fixing member 93 installed and fixed to the underside of the upper platform bottom base member 921 of the upper platform 92 has a hollow shape configuration that can cover the left and right lateral sides of the upper platform mechanism 2 and store it therein.
[0213] The upper panel mechanism mounting and fixing member 93 having a hollow shape that can cover and store the upper panel mechanism 2 in the left and right lateral directions is not particularly limited, but examples include a three-dimensional hollow shape with a trapezoidal vertical cross section and a square horizontal cross section, a three-dimensional hollow shape with surrounding walls that narrow as it goes upward, a three-dimensional hollow shape similar to an open umbrella, and a three-dimensional hollow shape in the shape of a dragon gate.
[0214] The foil stamping transfer film material pressing and transferring processing device of the above-mentioned subordinate configuration 31a can provide a foil stamping transfer film material pressing and transferring processing device that has the following effects: [Configuration effect 31: In addition to providing the above-mentioned configuration effect 30, when the worker operates the foil stamping transfer film material pressing and transferring processing device, the effect of protecting the worker from the dangers associated with operating the upper platen mechanism 2, the effect of protecting the worker when the upper platen mechanism 2 generates heat, the effect of protecting the upper platen mechanism 2 from dust, etc.]
[0215] <Regarding the subordinate configuration 31b of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material press-transfer processing device of the present invention is the foil stamping transfer film material press-transfer processing device described in the aforementioned subsidiary configuration 30 or 31, as shown in FIG. 18, (Fa) the frame upper frame bottom base member 921 has a substantially rectangular plate shape with four corners, and the plurality of lower frame support frame members 912 are vertically installed from each corner of the several lower frame support frame members 912 and from the middle of the peripheral edges of the plurality of lower frame support frame members 912. In addition to the lower frame support frame members 912, the lower frame 91 further includes lower frame support frame skeletal members 913 installed between the respective lower frame support frame members 912, lower frame support frame side panels 914 having a plate shape installed on the side between the respective lower frame support frame members 912, and / or lower frame support frame reinforcing ribs 915 installed by joining the intersections of the respective lower frame support frame members 912 and the lower frame support frame skeletal members 913. At least the front of the four surrounding surfaces of the lower base 91 of the rectangular parallelepiped base is open, and the desired workpiece 75 can be attached and detached from the open front of the lower base 91.
[0216] At least the front of the four peripheral surfaces around the lower base 91 has an open shape without a lower base support frame side panel 914. As shown in FIG. 1, the open front of the lower base 91 corresponds to the front side of the lower platform mechanism 3, which is movable in the front-rear direction. A configuration in which the upper frame 92 has plate-shaped frame side panels (not shown) installed between the respective lower frame support frame members 912 is also preferably possible.
[0217] The above-mentioned subordinate configuration 31b foil stamping transfer film material pressing transfer processing device provides a foil stamping transfer film material pressing transfer processing device that achieves [configuration effect 32: the aforementioned configuration effect 30 is obtained, and the effect of the aforementioned configuration effect 30 can be further enhanced].
[0218] <Regarding the subordinate configuration 32 of the foil stamping transfer film material pressing and transferring processing device of the present invention> Preferably, the foil stamping transfer film material pressure transfer processing device of the present invention is the foil stamping transfer film material pressure transfer processing device described in the above-mentioned basic configuration 1 and subordinate configurations 2 to 31, and further includes the following configuration.
[0219] The surface of the desired pressing plate 74 has a plurality of fine concave-convex portions 741 formed with a plurality of fine convex portions 741a and a plurality of fine concave-convex portions 741b. The multiple fine concave-convex portions 741 include (f) a fine dot pattern, a fine pattern pattern, a fine picture pattern, and / or a fine lattice pattern, (g) a fine line pattern, (h) a fine stripe pattern, (i) a gloss changing pattern that represents a pattern pictogram pattern with different pattern glosses when viewed from different directions, (i) a pattern pictogram pattern changing pattern that represents different pattern pictogram patterns when viewed from different directions, and (j) a changing latent image pattern that represents different pattern pictogram patterns when viewed from different directions, where the changing latent image pattern that represents different pattern pictogram patterns when viewed from different directions has multiple fine concave-convex portions 741 having multiple multiple fine concave-convex portion convex portions 741a and multiple multiple fine concave-convex portion concave portions 741b, and the multiple fine concave-convex portions 741 are engraved with a fine concave-convex shape and are divided into a predetermined shape. The image is formed by a combination of a plurality of types of uneven pattern cells arranged with regularity, and each uneven pattern cell of the plurality of types of uneven pattern cells forms a fine graphic character picture pattern formed with at least two or more types of fine uneven shapes selected from the group consisting of a fine dot pattern, a fine design pattern, a fine picture pattern, a fine line pattern, and a fine stripe pattern, and a plurality of fine graphic character picture patterns of one type among the two or more types of fine graphic character picture patterns gather to form a first image, and a plurality of fine graphic character picture patterns of a second type different from the one type among the two or more types of fine graphic character picture patterns gather to form another image.
[0220] With this configuration, [Configuration Effect 32: The above-mentioned basic configuration effect 1 and subordinate configuration effects 2 to 31 are obtained, and the desired workpiece 75a having the transfer film drafting character pattern separated from the foil stamping transfer film material that matches the desired graphic character pattern formed on the desired pressing processing plate 74, such as (F) a fine dot pattern, a fine pattern pattern, a fine picture pattern, and / or a fine lattice pattern, (G) a fine line pattern, (H) a fine stripe pattern, (I) a gloss changing pattern that represents a graphic character pattern with different pattern glosses when viewed from different directions, (F) a graphic character pattern changing pattern that represents different graphic character patterns when viewed from different directions, and / or (K) a changing latent image pattern that represents different graphic character patterns when viewed from different directions, is obtained.
[0221] The "fine line pattern" includes a fine line pattern formed by straight lines, dashed lines, dotted lines, dashed lines, etc. The "fine stripe pattern" includes a fine stripe pattern formed by a curve of a desired shape, and a fine stripe pattern formed by a wavy curve of a desired shape.
[0222] "(F) A changing pattern of a pictorial character pattern that shows different pictorial character patterns when viewed from different directions, and / or (K) a changing latent image pattern that shows different pictorial character patterns when viewed from different directions, means, in other words, a pictorial character pattern that shows different pictorial character patterns when viewed from different directions. The changing pattern and changing latent image pattern that show different pictorial character patterns when viewed from different directions will be explained below. FIG. 21 is a schematic plan view illustrating a fine graphic, letter, and picture pattern formed by fine projections and recesses on a pressing plate according to an embodiment of the present invention. (Aa) and (Ab) of Fig. 21 are plan views illustrating the shapes of a plurality of pattern cells divided into predetermined shapes and arranged with regularity, with (Aa) showing a plurality of pattern cells divided into approximately square shapes. (Ba), (Bb), (Bc), (Bd), (Be), and (Bf) of Fig. 21 are enlarged schematic views showing an example of the shape of a concave-convex pattern formed by the concave-convex shapes formed in the plurality of pattern cells shown in (Aa) and (Ab) of Fig. 21. (Ba) shows fine left-hand diagonal lines, (Bb) shows fine right-hand diagonal lines, (Bc) shows fine horizontal lines, (Bd) shows fine vertical parallel lines, (Be) shows a fine stripe pattern, and (Bf) shows a fine dot pattern. (C) of Fig. 21 shows an example of the shape of a concave-convex pattern formed in each of the plurality of pattern cells. (Da), (Db), and (Dc) in FIG. 21 show a plurality of types of concave-convex pattern cells formed in FIG. 21(C).
[0223] As shown in (Aa) and (Ab) of Figure 21, the pre-formed multiple fine unevenness portion 46 having multiple pre-formed multiple fine unevenness portion convex portions 461 and multiple pre-formed multiple fine unevenness portion concave portions 462 is formed by a combination of multiple types of unevenness pattern cells that are engraved with fine uneven shapes, divided into predetermined shapes, and arranged with regularity. As shown in (Ba) to (Bf) of Figure 21, each of the multiple types of concave-convex pattern cells forms a fine graphic, letter, and picture pattern formed of at least two or more types of fine concave-convex shapes selected from the group consisting of a fine dot pattern, a fine design pattern, a fine picture pattern, a fine line pattern, and a fine stripe pattern. The fine line pattern includes a fine line pattern formed by straight lines, broken lines, dotted lines, dashed lines, dotted lines, etc. The fine stripe pattern includes a fine stripe pattern formed by a curve of a desired shape, and a fine stripe pattern formed by a wavy curve of a desired shape. As shown in Figure 21 (C) and Figure 21 (Da) to (Dc), a plurality of fine graphic character picture patterns of one type among two or more types of fine graphic character picture patterns are gathered together to form a first image, and a plurality of fine graphic character picture patterns of a second type different from the one type among the two or more types of fine graphic character picture patterns are gathered together to form another image. In this way, the desired pressing plate 74 is formed.
[0224] Preferably, in the above configuration, a configuration can be implemented in which a first image is recognized when viewed from one direction, and another image is recognized when viewed from another direction different from the one direction. In other words, a configuration in which a plurality of fine graphic character patterns of one type out of two or more types of fine graphic character patterns are gathered together to form one image, and a plurality of fine graphic character patterns of the other type are gathered together to form another image, and when viewed from different directions, different images appear and are recognized.
[0225] For example, in Figure 21 showing an embodiment, the fine left-diagonal line patterns in Figure 21 (C) come together to form the "H" character image 74a in Figure 21 (Da), the fine right-diagonal line patterns in Figure 21 (C) come together to form the "T" character image 74b in Figure 21 (Db), and the fine horizontal line patterns in Figure 21 (C) come together to form the "Z" character image 474c in Figure 21 (Dc), and these characters are formed so that different image characters are recognized when viewed from different directions. In this way, the desired pressing plate 74 is formed.
[0226] Figure 21 shows a schematic shape of the surface of the desired pressing plate 74. The workpiece formed by pressing the desired workpiece using this pressing plate 74 is processed into a shape having a concave-convex shape that matches the concave-convex shape formed on the pressing plate used, and is formed so that different image characters can be recognized when viewed from different directions.
[0227] In Figure 21, the "multiple types of concave-convex pattern cells divided into predetermined shapes and arranged with regularity" have boundaries formed between each of the pattern cells divided into the predetermined shapes, but this configuration is not limited to this, and it is also possible to implement a configuration in which boundaries are not formed between each of the pattern cells and each pattern cell has a fine graphic, letter, and picture pattern formed by a concave-convex shape. The shape of each of the multiple pattern cells that are divided into predetermined shapes and arranged with regularity can be polygonal, elliptical, circular, or a pattern cell of a desired size and shape.
[0228] When each of the plurality of pattern cells that are separated into a predetermined shape and arranged with regularity has a polygonal, elliptical, or circular shape, the maximum diameter dimension is not particularly limited, but is, for example, 1 mm to 20 mm, and more preferably 2 mm to 10 mm. The height dimension "d1" of each of the multiple fine unevenness convex portions 741a is not particu...
Claims
1. A foil stamping transfer film material pressing transfer processing apparatus for transferring and forming a separated foil stamping transfer film material (61a) having a transfer film drawing character pattern formed by separating it from a foil stamping transfer film material (61) onto the surface of a desired workpiece (75), (A) Upper panel mechanism (2), (B) Lower plate mechanism (3), (C) A desired pressing plate (74) that can be attached to and removed from the upper plate mechanism (2), (D) A desired workpiece (75) that can be attached to and removed from the lower platen mechanism (3), (E) A foil stamping transfer film supply mechanism (6) that supplies foil stamping transfer film material (61) between the desired pressing plate and the desired workpiece. And, (F) Stand (9), Equipped with, Here, The upper panel mechanism (2) is fixed to the upper part of the frame (9), The lower panel mechanism (3) is fixed to the lower part of the frame (9), The foil stamping transfer film material supply mechanism (6) is installed in the upper plate mechanism (2), The lower plate mechanism (3) is configured to be located below the upper plate mechanism (2), The upper panel mechanism (2) is configured to be drivable in the vertical direction, The desired pressing plate (74) is formed by creating a desired graphic, letter, or pictographic pattern with an uneven shape. The desired workpiece (75) is a workpiece with a desired three-dimensional shape having a desired three-dimensional shape, The foil stamping transfer film material (61) has a strip-like shape, During operation, The desired pressing plate (74) is attached to the lower side of the upper plate mechanism (2), The desired workpiece (75) is attached to the upper side of the lower platen mechanism (3), The desired pressing plate (74) and the desired workpiece (75) are mounted in positions facing each other in the vertical direction. With the desired pressing plate (74) attached to the upper platen mechanism (2) and the desired workpiece (73) attached to the lower platen mechanism (3), At least one of the upper platen mechanism (2) and the lower platen mechanism (3) is driven in the vertical direction so that the desired pressing platen (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). A press transfer processing apparatus for foil stamping transfer film material, characterized by the above.
2. Furthermore, (CD) An upper circuit board (72) which can be attached to and removed from below the upper panel mechanism (2), A lower base plate (73) that can be attached to and removed from the lower plate mechanism (3), A removable pressing plate workpiece positioning member (77) is provided to set the relative position between the desired pressing plate (74) and the desired workpiece (75). A pressing plate workpiece positioning member unit (7) having Equipped with, The upper substrate (72) has a positioning member upper substrate receiving member (72a) formed on the lower surface of the upper substrate, The lower substrate (73) has a positioning member lower substrate receiving member (73a) formed on the upper surface of the lower substrate, Here, The desired pressing plate (74) is configured to be attachable to and detachable from the lower surface of the upper substrate (72). The upper substrate (72) is configured to be attachable to and detachable from the upper panel mechanism (2) in a downward direction. The desired workpiece (75) is configured to be attachable to and detachable from the lower substrate (73). The lower base plate (73) is configured to be attachable to and detachable from the lower plate mechanism (3) in an upward direction. The upper panel mechanism (2) is configured to be drivable in the vertical direction, The upper plate mechanism (2) and the lower plate mechanism (3) are positioned opposite each other in the vertical direction and are configured to be separate from each other. One end of the pressing plate workpiece positioning member (77) is formed to be attachable to and detachable from the positioning member upper substrate receiving member (72a) formed on the upper substrate (72). The other end of the pressing plate workpiece positioning member (77) is configured to be attachable to and detachable from the positioning member lower substrate receiving member (73a) formed on the lower substrate (73). During operation, The desired pressing plate (74) is attached to the lower surface of the upper substrate (72), and the upper substrate (72) is attached below the upper plate mechanism (2). The desired workpiece (75) is attached to the lower substrate (73), With the pressing plate workpiece positioning member (77) removed from the upper substrate (72) and the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 1.
3. (CD) In the pressing plate workpiece positioning member (77), the pressing plate workpiece positioning member (77) has a plurality of pressing plate workpiece positioning members (77), Each pressing plate workpiece positioning member (77) has a column shape, a cylindrical rod shape, or a rectangular prism rod shape, The upper end of each pressing plate workpiece positioning member (77) engages with the positioning member upper substrate receiving member (72a) formed on the upper substrate (72), and is attached and detachably. Each pressing plate workpiece positioning member (77) has its other end, the lower end, engaged with the positioning member lower substrate receiving member (73a) formed on the lower substrate (73), and is attached and detachably mounted. During operation, each pressing plate workpiece positioning member (77) is configured to be drivable while detached from the upper substrate (72) and the lower substrate (73). During operation, With the plurality of pressing plate workpiece positioning members (77) removed from the positioning member upper substrate receiving member (72a) formed on the upper substrate (72) and the positioning member lower substrate receiving member (73a) formed on the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 2.
4. (CD) The pressing plate workpiece positioning member unit (7) is, Furthermore, the lower substrate (73) has a workpiece mounting plate (78) configured to allow adjustment of its position in the left-right lateral direction and the front-back vertical direction in the planar direction, The desired workpiece (75) is attached to the workpiece mounting plate (78) in a removable manner. As a result, The position of the workpiece mounting plate (78) is formed to be adjustable by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73). The relative position between the desired pressing plate (74) and the desired workpiece (75) attached to the workpiece mounting plate (78) is formed to be adjustable. During operation, The position of the workpiece mounting plate (78) is adjusted by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73), and the relative position of the desired pressing plate (74) and the desired workpiece (75) is adjusted. With the pressing plate workpiece positioning member (77) removed from the upper substrate (72) and the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 2.
5. (CD) In the pressing plate workpiece positioning member unit (7), The workpiece mounting plate (78) is (i) A left-right lateral adjustment mounting plate (78a) that can adjust the left-right lateral position in the planar direction, It has a front-to-back vertical adjustment mounting plate (78b) that can adjust the front-to-back vertical position in the planar direction, Here, (i-a) The left and right lateral adjustment mounting plate (78a) is installed on the lower base plate (73) so as to be movable and adjustable in the left and right lateral directions. The front-to-back vertical adjustment mounting plate (78b) is installed on the left-to-right horizontal adjustment mounting plate (78a) so as to be movable in the front-to-back vertical direction. The desired workpiece (75) is attached to the front and rear vertical adjustment mounting plate (78b) in a manner that allows for attachment and removal. Or, (i-b) The front-to-back vertical adjustment mounting plate (78b) is installed on the lower base plate (73) so as to be movable and adjustable in the left-to-right lateral direction, The left-right lateral adjustment mounting plate (78a) is installed on the front-rear vertical adjustment mounting plate (78b) so as to be movable in the front-rear vertical direction. The desired workpiece (75) is attached to the left and right lateral adjustment mounting plate (78a) in a manner that allows for attachment and removal. Or, The workpiece mounting plate (78) is (ii) Having a left-right lateral and front-back vertical adjustment mounting plate that can adjust the position in the left-right lateral and front-back vertical directions in the planar direction, In this way, the position of the workpiece mounting plate (78) is formed to be adjustable by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73). The relative position between the desired pressing plate (74) and the desired workpiece (75) attached to the workpiece mounting plate (78) is formed to be adjustable. During operation, The position of the workpiece mounting plate (78) is adjusted by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73), and the relative position of the desired pressing plate (74) and the desired workpiece (75) is adjusted. With the pressing plate workpiece positioning member (77) removed from the upper substrate (72) and the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 4.
6. (CD) The pressing plate workpiece positioning member unit (7) further comprises a workpiece mounting member (76) installed above the lower base plate (73), The desired workpiece (75) is configured to be attachable to and detachable from the workpiece mounting member (76), During operation, The desired pressing plate (74) is attached to the lower surface of the upper substrate (72), The desired workpiece (75) is attached to the workpiece mounting member (76), The desired pressing plate (74) and the desired workpiece (75) are mounted in positions facing each other. With the pressing plate workpiece positioning member (77) removed from the upper substrate (72) and the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transferable onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 2.
7. Furthermore, (G) A heating member having the function of heating the desired pressing plate (74) to a desired temperature, The heating element is installed on the upper plate mechanism (2), the upper substrate (72), or the desired pressing plate (74). During operation, The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the heated desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). and / or, (H) The foil scraping mechanism (65) is configured to allow air to be blown onto the foil transfer film material (61), During operation, The desired pressing plate (74) presses the desired workpiece (75) through the foil transfer film material (61), and then, when the desired pressing plate (74) moves upward, the foil scraping mechanism (65) blows air toward the foil transfer film material (61), thereby having the function of peeling the desired foil transfer film material, excluding the separated foil transfer film material (61a), from the desired workpiece (75a) on which the transfer film drawing characters and patterns have been transferred. The foil stamping transfer film material pressing transfer processing apparatus according to feature 1.
8. (B) The lower plate mechanism (3) has a lower plate base (31), The lower base plate (31) is fixed and installed on the frame (9), The desired workpiece (75) is configured to be attached and detachably mounted on the upper side of the lower plate base (31). The desired pressing plate (74) is configured to be attached to the lower side of the upper plate mechanism (2) in a manner that allows for attachment and removal. During operation, With the desired pressing plate (74) and the desired workpiece (75) positioned facing each other in the vertical direction via the foil stamping transfer film material (61), The upper plate mechanism (2) is driven in the vertical direction, and the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 1, characterized in that
9. (B) The lower plate mechanism (3) has a lower plate base (31) and a movable lower plate (32), The lower base plate (31) is fixed and installed on the frame (9), The movable lower plate (32) is configured to be installable at a desired position on the lower plate base (31), During operation, With the desired pressing plate (74) and the desired workpiece (75) positioned facing each other in the vertical direction via the foil stamping transfer film material (61), With the pressing plate workpiece positioning member unit (7) installed at a desired position on the movable lower plate (32), and with the pressing plate workpiece positioning member (77) removed from the pressing plate workpiece positioning member unit (7), The upper plate mechanism (2) is driven in the vertical direction, and the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 2, characterized in that
10. (B) The lower plate mechanism (3) further comprises a positioning member unit transport device (33), The positioning member unit transport device (33) includes a transport device member (331) and a transport device member drive motor (332) that drives the transport device member. The motor rotation shaft of the transport equipment member drive motor (332) is connected to the transport equipment member (331), The transport equipment member drive motor (332) is fixed to the lower base (31) and / or the frame (9), The transport device member (331) is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower base (31), The movable lower plate (32) is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower plate base (31) by the drive of the transport device member (331), As a result, the movable lower plate (32) is configured to move in the front-to-back and vertical directions in the planar direction by the drive of the positioning member unit transport device (33) and be installed at a desired position on the lower plate base (31). During operation, The pressing plate workpiece positioning member unit (7), which is placed at a desired position on the movable lower plate (32), is transported and installed at a desired position on the movable lower plate (32), With the desired pressing plate (74) and the desired workpiece (75) positioned facing each other in the vertical direction via the foil stamping transfer film material (61), With the pressing plate workpiece positioning member (77) removed from the pressing plate workpiece positioning member unit (7), The upper plate mechanism (2) is driven in the vertical direction, and the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 9.
11. (B) The lower plate mechanism (3) further, The pressing plate workpiece positioning member unit (7) is transported and fixed in a desired position by a positioning member unit transport and fixing member (34). The positioning member unit transport and fixing member (34) is, Transport members (341) installed in the regions at both ends of the lower plate, A guide member (342) installed on the end face of the lower plate, An electromagnet-made fixing member (343) installed in a desired area of the lower plate, It has, The pressing plate workpiece positioning member unit (7) is guided by the transport member (341) and the guide member (342) to a desired position on the upper surface of the movable lower plate (32), and the pressing plate workpiece positioning member unit (7) is configured to be fixable and unfixable at the desired position on the upper surface of the movable lower plate (32) by the electromagnet fixing member (343). During operation, The pressing plate workpiece positioning member unit (7) is fixed to a desired position on the movable lower plate (32), With the desired pressing plate (74) and the desired workpiece (75) positioned facing each other in the vertical direction via the foil stamping transfer film material (61), With the pressing plate workpiece positioning member (77) of the pressing plate workpiece positioning member unit (7) removed from the upper substrate (72) and the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 9, characterized in that
12. (A) The upper plate mechanism (2) is Upper board (21) and Upper plate bottom plate (22) and Upper panel up and down drive electric cylinder (23), Upper panel fall prevention cylinder (24), Upper plate Z-axis lock cylinder (25), Equipped with, The aforementioned upper panel vertical drive electric cylinder (23) is attached to the frame (9), The upper panel substrate (21) is attached to a portion of the upper panel vertical drive electric cylinder (23), The upper panel fall prevention cylinder (24) is attached to the upper panel base plate (21), The upper panel Z-axis lock cylinder (25) is attached to the upper panel base plate (21), The upper panel bottom plate (22) is attached to the lower side of the upper panel base plate (21) by the upper panel fall prevention cylinder (24), The upper panel substrate (21) is configured to be attachable to the upper panel vertical drive electric cylinder (23), The upper panel's vertical drive electric cylinder (23) drives the upper panel's base plate (21) and the upper base plate (72) attached to the upper panel's base plate (21), and the upper panel's bottom plate (22) is also configured to be driveable vertically. The desired pressing plate (74) is detachably attached to the upper plate base (21). The desired workpiece (75) is detachably attached to the lower platen mechanism (3), During operation, With the desired pressing plate (74) and the desired workpiece (75) positioned facing each other in the vertical direction via the foil stamping transfer film material (61), The upper plate base plate (21) of the upper plate mechanism (2) is driven in the vertical direction, and the desired pressing plate (74) attached to the upper plate base plate (21) presses the desired workpiece (75) via the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 1, characterized in that
13. (A) The upper plate mechanism (2) is Upper board (21) and Upper plate bottom plate (22) and Upper panel up and down drive electric cylinder (23), Upper panel fall prevention cylinder (24), Upper plate Z-axis lock cylinder (25), Equipped with, The aforementioned upper panel vertical drive electric cylinder (23) is attached to the frame (9), The upper panel substrate (21) is attached to a portion of the upper panel vertical drive electric cylinder (23), The upper panel fall prevention cylinder (24) is attached to the upper panel base plate (21), The upper panel Z-axis lock cylinder (25) is attached to the upper panel base plate (21), The upper panel bottom plate (22) is attached to the lower side of the upper panel base plate (21) by the upper panel fall prevention cylinder (24), The upper panel substrate (21) is configured to be attachable to the upper panel vertical drive electric cylinder (23), The upper panel's vertical drive electric cylinder (23) drives the upper panel's base plate (21) and the upper base plate (72) attached to the upper panel's base plate (21), and the upper panel's bottom plate (22) is also configured to be driveable vertically. (CD) The desired pressing plate (74) is attached to the bottom surface of the upper base plate (72) of the pressing plate workpiece positioning member unit (7) so as to be attachable and detachable. The desired workpiece (75) is attached to the lower base plate (73) of the pressing plate workpiece positioning member unit (7) in a manner that allows for attachment and removal. During operation, The pressing plate workpiece positioning member unit (7) is fixed at a desired position between the lower plate base (31) and the movable lower plate (32), With the desired pressing plate (74) and the desired workpiece (75) positioned facing each other in the vertical direction via the foil stamping transfer film material (61), With the pressing plate workpiece positioning member (77) removed from the upper substrate (72) and the lower substrate (73), The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 2, characterized in that
14. (A) The upper plate mechanism (2) is Furthermore, Upper plate cylinder fixing member (27), Upper panel connecting member fixing block member (28a) and Upper panel connecting guide shaft (28b) and Upper panel connecting member drive block member (28c), Upper plate connecting rod moving block member (28d) and Equipped with, The upper plate cylinder fixing member (27) is fixed to the end of the upper plate base plate (21), The upper plate Z-axis lock cylinder (25) is installed on the upper plate base plate (21) via the upper plate cylinder-fixing member (27), The upper panel connecting member fixing block member (28a) is connected to the shaft end of the upper panel fall prevention cylinder (24) by the upper panel connecting member driving block member (28c), The upper panel connecting rod moving block member (28d) is attached to the end of the upper panel connecting member fixing block member (28a), The upper plate connecting rod moving block member (28d) is configured to be able to lock the upper base plate (72), The upper panel connecting member fixing block member (28a) is connected by the upper panel connecting guide shaft (28b), As a result, the upper substrate (72) and the upper panel connecting member fixing block member (28a) Upper panel connecting guide shaft (28b) and Upper panel connecting member drive block member (28c), With the upper plate connecting rod moving block member (28d), It is attached to the upper panel substrate (21) in a manner that allows for attachment and removal. The desired pressing plate (74) is detachably attached to the upper plate base (21). The desired workpiece (75) is detachably attached to the lower platen mechanism (3), During operation, The upper plate base plate (21) of the upper plate mechanism (2) is driven in the vertical direction, and the desired pressing plate (74) attached to the upper plate base plate (21) presses the desired workpiece (75) via the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 13, characterized in that
15. (A) The upper plate mechanism (2) further, Upper board bottom plate positioning member (26), and / or, The upper panel is equipped with a safety hook (29) for mounting the substrate on the upper panel, The upper plate bottom plate positioning member (26) is installed on the upper plate bottom plate (22), The upper substrate (72) of the pressing plate workpiece positioning member unit (7) has an upper substrate pilot guide portion (721), The upper plate bottom plate positioning member (26) and the upper substrate pilot guide portion (721) engage with each other, so that the upper substrate (72) of the pressing plate workpiece positioning member unit (7) can be attached to the upper plate bottom plate (22) at a desired position. This allows the upper substrate (72) to be installed at a desired position on the upper panel mechanism (2). The upper panel upper substrate mounting safety hook (29) is attached to the shaft end of the upper panel fall prevention cylinder (24), The upper panel mounting safety hook (29) is configured to hold and lock the upper substrate (72), During operation, The upper plate mechanism (2) is driven in the vertical direction, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), the desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 13, characterized in that
16. (E) The foil stamping transfer film material supply mechanism (6) is (E-a) Foil stamping transfer film material feeding mechanism (62) having the function of feeding the foil stamping transfer film material (61), (E-b) A foil stamping transfer film receiving mechanism (63) having the function of receiving and winding up the foil stamping transfer film material (61) that is fed from the foil stamping transfer film material feeding mechanism (62), And, (E-c) A foil stamping transfer film material supply mechanism connecting plate that connects the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63), Equipped with, Here, the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feeding mechanism (62) in a form that is continuously wound in layers, is unfolded into a strip form and sent to the foil stamping transfer film material receiving mechanism (63), and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism (63). The foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) are fixed and held on the foil stamping transfer film material supply mechanism connecting plate, and are positioned opposite each other at a predetermined distance apart, and are configured to transport and stretch the foil stamping transfer film material (61). (E-a) The foil stamping transfer film material feeding mechanism (62) is A foil stamping transfer film material feeding mechanism holding member (621), A foil stamping transfer film material replacement member (622), Foil stamping transfer film material feed motor (623), A transient drum (624) for feeding foil transfer film material, It has a foil stamping transfer film material feed and press member (625) that has the function of pressing the foil stamping transfer film material in the direction of the desired workpiece, The foil stamping transfer film material feeding motor (623) is Foil stamping transfer film material feed motor body (623a), A foil stamping transfer film material feed motor bearing housing member (623b) connected to the shaft end of the foil stamping transfer film material feed motor body, The foil stamping transfer film material feed motor has a rotating shaft (623c) connected to the bearing housing member, The foil stamping transfer film material feed motor - rotating shaft (623c) has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material feed motor rotating shaft (623c) is connected to the foil stamping transfer film material feed motor body (623a) via the foil stamping transfer film material feed motor bearing housing member (623b), The foil stamping transfer film material (61) is detachably attached to the foil stamping transfer film material feed motor rotation shaft (623c), The foil stamping transfer film material feeding mechanism holding member (621) comprises a first central holding member (621a) and a first right holding member (621b) connected to one end of the first central holding member, The first central holding member has a first left holding member (621c) connected to the other end, The first right retaining member (621b) and the first left retaining member (621c) are positioned opposite each other with a distance corresponding to the length of the first central retaining member (621a). The first central holding member (621a) is installed parallel to the foil stamping transfer film material feed motor rotation shaft (623c), The left end of the transient drum (624) of the foil stamping transfer film material feeding mechanism is connected to and fixed to the first left holding member (621c). The right end of the transient drum (624) of the foil stamping transfer film material feeding mechanism is connected to and fixed to the first right holding member (621b). The first central holding member (621a) is fixed and held to the foil stamping transfer film material supply mechanism connecting plate. One end of the foil stamping transfer film material feed motor rotating shaft (623c) is connected to the foil stamping transfer film material feed motor bearing housing member (623b), The foil stamping transfer film material feed motor bearing housing member (623b) is held on the upper part of the first right holding member (621b), The other end of the foil stamping transfer film material feed motor rotation shaft (623c) is connected to and fixed to the first left holding member (621c) in a manner that allows for connection and disconnection. As a result, the foil stamping transfer film material feed motor (623) is mounted and held on the upper part of the first right holding member (621b) via the foil stamping transfer film material feed motor bearing housing member (623b). The first right holding member (621b), the foil stamping transfer film material feed motor rotation shaft (623c), and the foil stamping transfer film material feed mechanism transient drum (624) are installed parallel to each other. The foil stamping transfer film material replacement member (622) includes a foil stamping transfer film material width adjustment member (622a) and a foil stamping transfer film material replacement fixing member (622b), The foil stamping transfer film material width adjustment member (622a) is attached to the foil stamping transfer film material feed motor-rotating shaft (623c) and has the function of adjusting the width of the foil stamping transfer film material (61) and attaching it. The foil stamping transfer film material replacement fixing member (622b) is configured to be able to connect and lock the other end of the foil stamping transfer film material feed motor-rotating shaft (623c) to the first left holding member (621c), and to release the connection lock. The foil stamping transfer film material replacement member (622) is configured such that the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feed motor rotating shaft (623c), and with the width of the foil stamping transfer film material (61) adjusted to a desired width, one end of the foil stamping transfer film material replacement fixing member (622b) is connected and fixed to the upper part of the first left holding member (621c), and the other end of the foil stamping transfer film material replacement fixing member (622b) is configured to be able to be connected and locked to the other end of the foil stamping transfer film material feed motor rotating shaft (623c), and the connection lock can be released. As a result, the foil stamping transfer film material (61), which has a strip shape and is continuously wound in layers, is attached and detachably mounted to the foil stamping transfer film material feed motor rotating shaft (623c) by the foil stamping transfer film material replacement member (622). The foil stamping transfer film material (61), which is attached to the foil stamping transfer film material feed motor rotating shaft (623c), is configured to be supplied in a strip-like form from the foil stamping transfer film material replacement member (622) toward the foil stamping transfer film material feed presser member (625), The foil stamping transfer film material feed presser member (625) is installed below the foil stamping transfer film material feed mechanism holding member (621), The foil stamping transfer film material feeding and pressing member (625) is configured to be able to press the strip-shaped foil stamping transfer film material (61) that is fed from the foil stamping transfer film material (61) downwards. During operation, The desired foil stamping transfer film material (61) is mounted to the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) in a manner that allows for attachment and removal. The desired pressing plate (74) and the desired workpiece (75) are positioned facing each other in the vertical direction via the foil transfer film material (61), and the foil transfer film material (61) is positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 1, characterized in that it is as described above.
17. (E-a) In the foil stamping transfer film material feeding mechanism (62), The foil stamping transfer film material feed press member (625) is The second foil stamping transfer film material feed press member pressing shaft (625a) and The second foil stamping transfer film material feed press member pressing shaft holding member (625b), The foil stamping transfer film material feed press member pressure roll shaft (625c), A foil stamping transfer film feed press member buffer member (625d), A mounting frame (625e) for the foil stamping transfer film material feed press member, Foil stamping transfer film feed press member, transfer film limit adjustment strip formation pressure adjustment member left (625f), Foil stamping transfer film feed press member, transfer film limit adjustment strip formation pressure adjustment member (right, 625k), A pressure-controlling elastic member for foil stamping transfer film material (625g), It has, The first left retaining member (621c) has a left projection (625j) of the first retaining member formed thereon. The right projection of the first retaining member is formed on the first right retaining member (621b). The left projection (625j) of the first retaining member and the right projection of the first retaining member are formed in positions facing each other. The left (625f) transfer film limit adjustment strip formation pressure adjustment member of the foil stamping transfer film feed presser member has strip-shaped or substantially rectangular strip-shaped through holes formed therein, and the left (625j) projection of the first holding member engages with the strip-shaped through holes and is formed to be slidable along the strip-shaped through holes. The foil stamping transfer film feed presser member transfer film limit adjustment strip formation pressure adjustment member right (625k) has strip-shaped or substantially rectangular strip-shaped through holes formed therein, and the first holding member projection right is formed to engage with the strip-shaped through holes and to be slidable along the strip-shaped through holes, As a result, a strip-shaped through-hole is formed in the transfer film limit adjustment strip-forming pressure adjustment member (625f), and the first holding member projection (625j) is formed to engage with the strip-shaped through-hole and slide movably, thereby providing a function to buffer the pressing force applied to the foil stamping transfer film material. The left end of the foil stamping transfer film material feed presser member pressure roll shaft (625c) is connected to the lower part of the foil stamping transfer film feed presser member transfer film limit adjustment strip forming pressure adjustment member left (625f), The right end of the foil stamping transfer film material feed presser member pressure roll shaft (625c) is connected to the lower part of the foil stamping transfer film feed presser member transfer film limit adjustment strip forming pressure adjustment member right (625k), As a result, the foil stamping transfer film material feed press member pressure roll shaft (625c) is held in the foil stamping transfer film material feed mechanism holding member (621) so as to be able to move up and down. The foil stamping transfer film material feed press member mounting frame (625e) is connected to the foil stamping transfer film material feed mechanism holding member (621), The foil stamping transfer film material feed press member pressing shaft (625a) has two pressing shafts, a first pressing shaft and a second pressing shaft, and these two pressing shafts are installed parallel to each other and configured to be able to press against each other. Both ends of the foil stamping transfer film material feed press member pressing shaft (625a), which has the two pressing shafts, are rotatably held by the foil stamping transfer film material feed press member pressing shaft holding member (625b). The foil stamping transfer film material feed press member transient drum (625h), the foil stamping transfer film material feed press member pressure roll shaft (625c), the foil stamping transfer film material feed press member pressing shaft (625a), and the foil stamping transfer film material feed press member mounting frame (625e) are installed parallel to each other. The foil stamping film member (61), which has a strip shape, is configured to pass between the first pressing shaft and the second pressing shaft of the foil stamping transfer film material feed pressing member pressing shaft (625a), The foil stamping transfer film material feed presser member pressure control elastic member (625g) is installed so as to be able to connect the foil stamping transfer film material feed presser member mounting frame (625e) and the foil stamping transfer film material feed presser member pressing shaft holding member (625b) with cushioning and / or elasticity. The foil stamping transfer film feed press member buffer member (625d) is installed so as to be able to connect the foil stamping transfer film feed press member mounting frame (625e) and the foil stamping transfer film feed press member pressing shaft holding member (625b) with cushioning and / or elasticity. The foil stamping transfer film material feed presser member pressing shaft (625a) is configured to be able to press the foil stamping transfer film material (61) with cushioning and / or elasticity, As a result, the foil stamping transfer film material feed presser member (625) is configured to be able to press the foil stamping transfer film material (61), which is attached to the foil stamping transfer film material feed motor - rotating shaft (623c), with a desired cushioning and / or elasticity adjusted by the foil stamping transfer film feed presser member transfer film limit adjustment strip forming pressure adjustment member (625f), the foil stamping transfer film feed presser member buffer member (625d), and the foil stamping transfer film material feed presser member pressure control elastic member (625g). The foil stamping transfer film material pressing transfer processing apparatus according to feature 16.
18. (E-b) The foil stamping transfer film material receiving mechanism (63) is A foil stamping transfer film material receiving mechanism holding member (631), Foil stamping transfer film material receiving motor (632), A second shaft member (634) having a second shaft (634c) for receiving foil transfer film material, A foil stamping transfer film material receiving and pressing member transient drum (636), A second axis synchronous rotation assist member (637) for receiving foil stamping transfer film material, It includes a foil stamping transfer film material receiving and pressing member (635) that has the function of pressing the foil stamping transfer film material in the direction of the desired workpiece, The foil stamping transfer film material receiving second shaft synchronous rotation assist member (637) has the function of rotating the foil stamping transfer film material receiving second shaft (634c) in synchronization with the foil stamping transfer film material receiving motor (632), The foil stamping transfer film material receiving mechanism holding member (631) is It has a second central holding member (631a), a second right holding member (631b) connected to one end of the second central holding member, and a second left holding member (631c) connected to the other end of the second central holding member. The second right retaining member (631b) and the second left retaining member (631c) are positioned opposite each other with a distance corresponding to the length of the second central retaining member (631a). The second central holding member (631a) is installed on the foil stamping transfer film material supply mechanism connecting plate, and the second central holding member (631a) is fixed and installed in a position facing each other at a predetermined distance apart from the first central holding member (621a) of the foil stamping transfer film material feeding mechanism holding member (621). The aforementioned foil stamping transfer film material receiving motor (632) is Foil stamping transfer film material receiving motor body (632a), A foil stamping transfer film material receiving motor bearing housing member (632b) is connected to the shaft end of the foil stamping transfer film material receiving motor body (632a), The foil stamping transfer film material receiving motor has a rotating shaft (632c) connected to the bearing housing member (632b), The aforementioned foil stamping transfer film material receiving motor-rotating shaft (632c) has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material receiving motor - rotating shaft (632c) is connected to the foil stamping transfer film material receiving motor - main body (632a) via the foil stamping transfer film material receiving motor - bearing housing member (632b), The second central holding member (631a) is installed parallel to the foil stamping transfer film material receiving motor rotation shaft (632c), The foil stamping transfer film material receiving motor (632) is attached to and held by the second right holding member (631b) via the foil stamping transfer film material receiving motor bearing housing member (632b), One end of the foil stamping transfer film material receiving motor rotating shaft (632c) is connected to the foil stamping transfer film material receiving motor bearing housing member (632b), and the foil stamping transfer film material receiving motor bearing housing member (632b) is connected to and fixed to the second right holding member (631b) and held in place. The other end of the foil stamping transfer film material receiving motor rotating shaft (632c) is connected to and fixed to the second left holding member (631c) and held in place. One end of the second shaft (634c) that receives the foil stamping transfer film material is rotatably held and installed on the second right holding member (631b), The other end of the second shaft (634c) that receives the foil stamping transfer film material is rotatably held and installed on the second left holding member (631c). The foil stamping transfer film material receiving second axis synchronous rotating member (637) is connected to the shaft end of the foil stamping transfer film material receiving rotating shaft (632c) and the shaft end of the foil stamping transfer film material receiving second axis (634c) so as to be able to rotate synchronously with each other. In this manner, the foil stamping transfer film material receiving motor rotation shaft (632c) and the foil stamping transfer film material receiving second shaft (634c) are held and installed on the foil stamping transfer film material receiving mechanism holding member (631) so as to be parallel to each other, and are connected so as to be rotatable in a synchronous manner. As a result, the foil stamping transfer film material receiving motor (632) is driven so that the foil stamping transfer film material receiving motor rotating shaft (632c) and the foil stamping transfer film material receiving second shaft (634c) are connected to each other so as to be rotatable in sync with each other. As a result, the foil stamping transfer film material (61), which is in the shape of a strip and is fed from the foil stamping transfer film material feeding mechanism (62), passes through the foil stamping transfer film material receiving and pressing member (635), passes through the foil stamping transfer film material receiving motor-rotating shaft (632c), and is wound up on the foil stamping transfer film material receiving second shaft (634c) so that it can be received. During operation, The desired foil stamping transfer film material (61) is mounted to the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) in a manner that allows for attachment and removal. With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 16.
19. (E-b) In the foil stamping transfer film material receiving mechanism (63), The aforementioned foil stamping transfer film material receiving and pressing member (635) is The foil stamping transfer film material receiving and pressing member pressing shaft (635a), The foil stamping transfer film material receiving and pressing member, the pressing shaft holding member (635b), The foil stamping transfer film material receiving and pressing member pressure roll shaft (635c), Foil stamping transfer film material receiving and pressing member cushioning member (635d), A mounting frame (635e) for receiving and pressing the foil stamping transfer film material, Foil stamping transfer film material receiving and pressing member, transfer film limit adjustment strip forming pressure adjustment member left (635f), Foil stamping transfer film material receiving and pressing member, transfer film limit adjustment strip forming pressure adjustment member right (635k), A foil stamping transfer film material receiving and pressing member, a pressure-controlling elastic member (635g), and a... The second left retaining member (631c) has a second retaining member projection (635j) formed on it. The second right retaining member (631b) has a projection on the right side of the second retaining member. The left projection (635j) of the second retaining member and the right projection of the second retaining member are formed in positions opposite to each other. The left (635f) transfer film limit adjustment strip forming pressure adjustment member of the foil stamping transfer film receiving and pressing member has strip-shaped or substantially rectangular strip-shaped through holes, and the left (635j) projection of the second holding member engages with the strip-shaped through holes and is formed to be slidable along the strip-shaped through holes. The foil stamping transfer film receiving and pressing member transfer film limit adjustment strip forming pressure adjustment member right (635k) has strip-shaped or substantially rectangular strip-shaped through holes formed therein, and the second holding member projection right is formed to engage with the strip-shaped through holes and to be slidable along the strip-shaped through holes, As a result, the foil stamping transfer film receiving and pressing member transfer film limit adjustment strip forming pressure adjustment member (635f) has strip-shaped through holes, and the second holding member projection (635j) is formed to engage with the strip-shaped through holes and slide movably, thereby providing a function to buffer the pressing force applied to the foil stamping transfer film material. The left end of the pressing roll shaft (635c) of the foil stamping transfer film material receiving and pressing member is connected to the lower part of the left (635f) of the transfer film limit adjustment strip forming pressing force adjustment member of the foil stamping transfer film receiving and pressing member. The right end of the pressing roll shaft (635c) of the foil stamping transfer film material receiving and pressing member is connected to the lower part of the right (635k) of the foil stamping transfer film receiving and pressing member transfer film limit adjustment strip forming pressing force adjustment member. The foil stamping transfer film material receiving and pressing member transient drum (635h) and the foil stamping transfer film material receiving and pressing member pressure roll shaft (635c) are installed parallel to each other. As a result, the foil stamping transfer film material receiving and pressing member pressure roll shaft (635c) is held by the foil stamping transfer film material receiving mechanism holding member (631) so as to be able to move up and down. The foil stamping transfer film material receiving and pressing member mounting frame (635e) is connected to the foil stamping transfer film material receiving mechanism holding member (631), The foil stamping transfer film material receiving and pressing member pressing shaft (635a) has two pressing shafts, a first receiving pressing shaft and a second receiving pressing shaft, and these two receiving pressing shafts are installed parallel to each other and configured to be able to press and contact each other. Both ends of the foil stamping transfer film material receiving and pressing member pressing shaft (635a), which has the two receiving and pressing shafts, are rotatably held by the foil stamping transfer film material receiving and pressing member pressing shaft holding member (635b). The foil stamping transfer film material receiving and pressing member transient drum (635h), the foil stamping transfer film material receiving and pressing member pressing shaft (635a), and the foil stamping transfer film material receiving and pressing member mounting frame (635e) are installed parallel to each other. The foil stamping film member (61), which has a strip shape, is configured to pass between the receiving first pressing shaft and the receiving second pressing shaft of the foil stamping transfer film material receiving and pressing member pressing shaft (635a). The foil stamping transfer film material receiving and pressing member pressure control elastic member (635g) is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame (635e) and the foil stamping transfer film material receiving and pressing member pressing shaft holding member (635b) with cushioning and / or elasticity. The foil stamping transfer film receiving and pressing member buffer member (635d) is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame (635e) and the foil stamping transfer film material receiving and pressing member pressing shaft holding member (635b) with cushioning and / or elasticity. The pressing shaft (635a) of the foil stamping transfer film material receiving and pressing member is configured to be able to press the foil stamping transfer film material (61) with cushioning and / or elasticity. As a result, The foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure adjustment member (635f) has strip-shaped through holes, and the second holding member projection (635j) is formed to engage with the strip-shaped through holes and be slidable, so that the pressing force for pressing the foil stamping transfer film material can be pressed with the desired cushioning and / or elasticity, The foil stamping transfer film material receiving and pressing member (635) is configured to be able to press the incoming foil stamping transfer film material (61) with a desired cushioning and / or elasticity adjusted by the foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure adjustment member (635f) and the foil stamping transfer film material receiving and pressing member pressure adjustment elastic member (635g), During operation, The desired foil stamping transfer film material (61) is mounted in a manner that allows it to be attached to and detached from the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63), With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 18.
20. (E-b) In the foil stamping transfer film material receiving mechanism (63), The aforementioned foil stamping transfer film material receiving second shaft member (634) is, The second right holding member (631b) is installed so as to be above the foil stamping transfer film material receiving motor rotation shaft (632c), The foil stamping transfer film material receiving second shaft (634c), the foil stamping transfer film material receiving motor-rotating shaft (632c), and the foil stamping transfer film material receiving pressing member transient drum (636) are installed parallel to each other. The foil stamping transfer film material receiving second shaft member (634) further has a rotatable foil stamping transfer film material receiving second shaft right bearing nut (634e) installed at the end of the foil stamping transfer film material receiving second shaft (634c), and the foil stamping transfer film material receiving second shaft right bearing nut (634e) is configured to adjust the loosening of the tensile force of the strip-shaped foil stamping transfer film material (61) fed from the foil stamping transfer film material feeding mechanism (62) by rotation. (E-b) In the foil stamping transfer film material receiving mechanism (63), The foil stamping transfer film material receiving and pressing member (635) has a foil stamping transfer film material receiving rotation shaft receiving shaft synchronous rotation assist member (637) that rotates synchronously with the foil stamping transfer film material receiving motor rotation shaft (632c) and the foil stamping transfer film material receiving second shaft (634c), The foil stamping transfer film material receiving and pressing member (635) includes a foil stamping transfer film material receiving second shaft pulley member (634d) installed on the foil stamping transfer film material receiving second shaft (634c) and a foil stamping transfer film material receiving motor rotation shaft pulley member (632d) installed on the foil stamping transfer film material receiving motor rotation shaft (632c). The aforementioned foil stamping transfer film material receiving rotating bearing shaft synchronous rotation assist member (637) is an annular circular belt (20), The circular belt (20) is installed connecting the foil stamping transfer film material receiving second shaft pulley member (634d) and the foil stamping transfer film material receiving motor rotating shaft pulley member (632d). As a result, the second shaft (634c) for receiving the foil stamping transfer film material is configured to rotate in synchronization with the rotation of the rotating shaft (632c) for receiving the foil stamping transfer film material. As a result, during operation, the loosening of the strip-shaped foil transfer film material (61) located between the foil transfer film material feeding mechanism (62) and the foil transfer film material receiving mechanism (63) is suppressed, and it is configured to be pulled in a strip shape and to be unfoldable. The foil stamping transfer film material pressing transfer processing apparatus according to feature 18.
21. (E) The foil stamping transfer film material supply mechanism (6) is (E-a) A foil stamping transfer film material feeding mechanism (62) that feeds the desired foil stamping transfer film material (61), (E-b) A foil stamping transfer film material receiving mechanism (63) that receives the foil stamping transfer film material (61) sent from the foil stamping transfer film material feeding mechanism (62), (E-d) A foil stamping transfer film material feeding mechanism (62) and a foil stamping transfer film material receiving mechanism (63) rotating device (64) that can rotate them to a desired angular position in the planar direction, Equipped with, Here, the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feeding mechanism (62) in a form that is continuously wound in layers, is unfolded into a strip form and sent to the foil stamping transfer film material receiving mechanism (63), and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism (63). The foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) are positioned opposite each other at a predetermined distance apart and are configured to transport and stretch the foil stamping transfer film material (61). (E-d) The foil stamping transfer film material feeding mechanism receiving mechanism rotating device (64) is Foil rotating device fixed base plate (641), Foil rotating device drive mechanism (642), And, The foil rotating device is equipped with a rotating mechanism (643), A through-hole (641a) of the foil rotating device fixing bottom plate (641) is formed in the central region of the foil rotating device fixing bottom plate (641). The upper plate mechanism (2) is installed in such a manner that it penetrates the fixed bottom plate through hole (641a) of the foil rotating device. (E-d-a) The foil rotating device drive mechanism (642) is Mounting frame (642a) for the motor drive mechanism of the foil rotating device, installed on the upper surface of the foil rotating device fixed base plate (641), The motor body (642b) of the foil rotating device drive mechanism drive motor is installed on the mounting frame (642a) for the foil rotating device drive mechanism drive motor, A motor bearing (642f) for the foil rotating device drive mechanism is connected to the motor body for the foil rotating device drive mechanism (642b). Foil rotating device drive mechanism drive motor - rotating shaft (642c), And, A gear member (642d) of the foil rotating device drive mechanism, which has a gear shape on its outer circumference, is installed at the tip of the motor for driving the foil rotating device drive mechanism - rotating shaft (642c), Equipped with, Here, the mounting base (642a) for the motor that drives the foil rotating device drive mechanism is fixed to the foil rotating device fixing base plate (641), The motor for the foil rotating device drive mechanism (642c) is mounted perpendicular to the fixed base plate (641) of the foil rotating device, and the motor for the foil rotating device drive mechanism (642b) is mounted perpendicular to the fixed base plate (641) of the foil rotating device. The outer peripheral gear member (642d) of the foil rotating device drive mechanism has a gear shape on its outer circumference. (E-d-b) The foil rotating device rotation mechanism (643) is A rotating plate (643a) for foil stamping transfer film material having a rotatable annular shape, The device comprises an annular rotating plate inner gear member (643b) installed in the inner circumferential region of the lower surface of the annular foil stamping transfer film material rotating plate (643a), The outer circumferential gear member (642d) of the foil rotating device drive mechanism and the inner circumferential gear member (643b) of the foil rotating device drive mechanism's rotating plate are engaged with each other, and the rotation of the motor body (642b) for driving the foil rotating device drive mechanism causes the outer circumferential gear member (642d) of the foil rotating device drive mechanism to rotate and the inner circumferential gear member (643b) of the rotating plate to rotate, thereby allowing the foil stamping transfer film material rotating plate (643a), on which the inner circumferential gear member (643b) is fixedly installed, to rotate to a desired position and stop at a desired position, thus enabling rotation and stopping. (E-a) The foil stamping transfer film material feeding mechanism (62) is fixed and installed in a predetermined position on the foil stamping transfer film material rotating plate (643a), (E-b) The foil stamping transfer film material receiving mechanism (63) is installed at a position opposite to the foil stamping transfer film material feeding mechanism (62) of the foil stamping transfer film material rotating plate (643a), The desired foil stamping transfer film material (61) is mounted to the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) in a manner that allows for attachment and detachment, and exists in a stretched and unfolded strip-like form between the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63). When the foil rotating device rotation mechanism (643) is driven, the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) rotate to the desired position and stop, The desired pressing plate (74) and the desired workpiece (75) are positioned facing each other in the vertical direction via the foil transfer film material (61), and the foil transfer film material (61) is positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil transfer film material (61) which has a strip shape, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 1.
22. (E-a) The foil stamping transfer film material feeding mechanism (62) is A foil stamping transfer film material feeding mechanism holding member (621), A foil stamping transfer film material replacement member (622), Foil stamping transfer film material feed motor (623), A transient drum (624) for feeding foil transfer film material, It has a foil stamping transfer film material feed and press member (625) that has the function of pressing the foil stamping transfer film material in the direction of the desired workpiece, The foil stamping transfer film material feeding motor (623) is Foil stamping transfer film material feed motor body (623a), A foil stamping transfer film material feed motor bearing housing member (623b) connected to the shaft end of the foil stamping transfer film material feed motor body, The foil stamping transfer film material feed motor has a rotating shaft (623c) connected to the bearing housing member, The foil stamping transfer film material feed motor - rotating shaft (623c) has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material feed motor rotating shaft (623c) is connected to the foil stamping transfer film material feed motor body (623a) via the foil stamping transfer film material feed motor bearing housing member (623b), The foil stamping transfer film material (61) is detachably attached to the foil stamping transfer film material feed motor rotation shaft (623c), The foil stamping transfer film material feeding mechanism holding member (621) comprises a first central holding member (621a) and a first right holding member (621b) connected to one end of the first central holding member, The first central holding member has a first left holding member (621c) connected to the other end, The first right retaining member (621b) and the first left retaining member (621c) are positioned opposite each other with a distance corresponding to the length of the first central retaining member (621a). The first central holding member (621a) is installed parallel to the foil stamping transfer film material feed motor rotation shaft (623c), The left end of the transient drum (624) of the foil stamping transfer film material feeding mechanism is connected to and fixed to the first left holding member (621c). The right end of the transient drum (624) of the foil stamping transfer film material feeding mechanism is connected to and fixed to the first right holding member (621b). The first central holding member (621a) is fixed and held on the foil stamping transfer film material rotating plate (643a), One end of the foil stamping transfer film material feed motor rotating shaft (623c) is connected to the foil stamping transfer film material feed motor bearing housing member (623b), The foil stamping transfer film material feed motor bearing housing member (623b) is held on the upper part of the first right holding member (621b), The other end of the foil stamping transfer film material feed motor rotation shaft (623c) is connected to and fixed to the first left holding member (621c) in a manner that allows for connection and disconnection. As a result, the foil stamping transfer film material feed motor (623) is mounted and held on the upper part of the first right holding member (621b) via the foil stamping transfer film material feed motor bearing housing member (623b). The first right holding member (621b), the foil stamping transfer film material feed motor rotation shaft (623c), and the foil stamping transfer film material feed mechanism transient drum (624) are installed parallel to each other. The foil stamping transfer film material replacement member (622) is A foil stamping transfer film material width adjustment member (622a), It has a foil stamping transfer film material replacement and fixing member (622b), The foil stamping transfer film material width adjustment member (622a) is attached to the foil stamping transfer film material feed motor-rotating shaft (623c) and has the function of adjusting the width of the foil stamping transfer film material (61) and attaching it. The foil stamping transfer film material replacement fixing member (622b) is configured to be able to connect and lock the other end of the foil stamping transfer film material feed motor-rotating shaft (623c) to the first left holding member (621c), and to release the connection lock. The foil stamping transfer film material replacement member (622) is configured such that the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feed motor rotating shaft (623c), and with the width of the foil stamping transfer film material (61) adjusted to a desired width, one end of the foil stamping transfer film material replacement fixing member (622b) is connected and fixed to the upper part of the first left holding member (621c), and the other end of the foil stamping transfer film material replacement fixing member (622b) is configured to be able to be connected and locked to the other end of the foil stamping transfer film material feed motor rotating shaft (623c), and the connection lock can be released. As a result, the foil stamping transfer film material (61), which has a strip shape and is continuously wound in layers, is attached and detachably mounted to the foil stamping transfer film material feed motor rotating shaft (623c) by the foil stamping transfer film material replacement member (622). The foil stamping transfer film material (61), which is attached to the foil stamping transfer film material feed motor rotating shaft (623c), is configured to be supplied in a strip-like form from the foil stamping transfer film material replacement member (622) toward the foil stamping transfer film material feed presser member (625), The foil stamping transfer film material feed presser member (625) is installed below the foil stamping transfer film material feed mechanism holding member (621), The foil stamping transfer film material feeding and pressing member (625) is configured to be able to press the strip-shaped foil stamping transfer film material (61) that is fed from the foil stamping transfer film material (61) downwards. (E-b) The foil stamping transfer film material receiving mechanism (63) is A foil stamping transfer film material receiving mechanism holding member (631), Foil stamping transfer film material receiving motor (632), A second shaft member (634) having a second shaft (634c) for receiving foil transfer film material, A foil stamping transfer film material receiving and pressing member transient drum (636), A second axis synchronous rotation assist member (637) for receiving foil stamping transfer film material, A foil stamping transfer film material receiving and pressing member (635) having the function of pressing the foil stamping transfer film material in the direction of the desired workpiece, It has, The foil stamping transfer film material receiving second shaft synchronous rotation assist member (637) has the function of rotating the foil stamping transfer film material receiving second shaft (634c) in synchronization with the foil stamping transfer film material receiving motor (632), The foil stamping transfer film material receiving mechanism holding member (631) is It has a second central holding member (631a), a second right holding member (631b) connected to one end of the second central holding member, and a second left holding member (631c) connected to the other end of the second central holding member. The second right retaining member (631b) and the second left retaining member (631c) are positioned opposite each other with a distance corresponding to the length of the second central retaining member (631a). The second central holding member (631a) is installed and fixed to the foil stamping transfer film material rotating plate (643a), where the second central holding member (631a) is fixed and installed in a position facing the first central holding member (621a) of the foil stamping transfer film material feeding mechanism holding member (621) at a predetermined distance apart. The aforementioned foil stamping transfer film material receiving motor (632) is Foil stamping transfer film material receiving motor body (632a), A foil stamping transfer film material receiving motor bearing housing member (632b) is connected to the shaft end of the foil stamping transfer film material receiving motor body (632a), The foil stamping transfer film material receiving motor has a rotating shaft (632c) connected to the bearing housing member (632b), The aforementioned foil stamping transfer film material receiving motor-rotating shaft (632c) has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material receiving motor - rotating shaft (632c) is connected to the foil stamping transfer film material receiving motor - main body (632a) via the foil stamping transfer film material receiving motor - bearing housing member (632b), The second central holding member (631a) is installed parallel to the foil stamping transfer film material receiving motor rotation shaft (632c), The foil stamping transfer film material receiving motor (632) is attached to and held by the second right holding member (631b) via the foil stamping transfer film material receiving motor bearing housing member (632b), One end of the foil stamping transfer film material receiving motor rotating shaft (632c) is connected to the foil stamping transfer film material receiving motor bearing housing member (632b), and the foil stamping transfer film material receiving motor bearing housing member (632b) is connected to and fixed to the second right holding member (631b) and held in place. The other end of the foil stamping transfer film material receiving motor rotating shaft (632c) is connected to and fixed to the second left holding member (631c) and held in place. One end of the second shaft (634c) that receives the foil stamping transfer film material is rotatably held and installed on the second right holding member (631b), The other end of the second shaft (634c) that receives the foil stamping transfer film material is rotatably held and installed on the second left holding member (631c). The foil stamping transfer film material receiving second axis synchronous rotating member (637) is connected to the shaft end of the foil stamping transfer film material receiving rotating shaft (632c) and the shaft end of the foil stamping transfer film material receiving second axis (634c) so as to be able to rotate synchronously with each other. In this manner, the foil stamping transfer film material receiving motor rotation shaft (632c) and the foil stamping transfer film material receiving second shaft (634c) are held and installed on the foil stamping transfer film material receiving mechanism holding member (631) so as to be parallel to each other, and are connected so as to be rotatable in a synchronous manner. As a result, the foil stamping transfer film material receiving motor (632) is driven so that the foil stamping transfer film material receiving motor rotating shaft (632c) and the foil stamping transfer film material receiving second shaft (634c) are connected to each other so as to be rotatable in sync with each other. As a result, the foil stamping transfer film material (61), which is in the shape of a strip and is fed from the foil stamping transfer film material feeding mechanism (62), passes through the foil stamping transfer film material receiving and pressing member (635), passes through the foil stamping transfer film material receiving motor-rotating shaft (632c), and is wound up on the foil stamping transfer film material receiving second shaft (634c) so that it can be received. During operation, The desired foil stamping transfer film material (61) is mounted to the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) in a manner that allows for attachment and detachment, and exists in a stretched and unfolded strip-like form between the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63). When the foil rotating device rotation mechanism (643) is driven, the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) rotate to the desired position and stop, With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil transfer film material (61) which has a strip shape, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 21.
23. (E-b) In the foil stamping transfer film material receiving mechanism (63), The aforementioned foil stamping transfer film material receiving and pressing member (635) is The foil stamping transfer film material receiving and pressing member pressing shaft (635a), The foil stamping transfer film material receiving and pressing member, the pressing shaft holding member (635b), The foil stamping transfer film material receiving and pressing member pressure roll shaft (635c), Foil stamping transfer film material receiving and pressing member cushioning member (635d), A mounting frame (635e) for receiving and pressing the foil stamping transfer film material, Foil stamping transfer film material receiving and pressing member, transfer film limit adjustment strip forming pressure adjustment member left (635f), Foil stamping transfer film material receiving and pressing member, transfer film limit adjustment strip forming pressure adjustment member right (635k), A pressing force control elastic member (635g) for receiving and pressing foil transfer film material, It has, The second left retaining member (631c) has a second retaining member projection (635j) formed on it. The second right retaining member (631b) has a projection on the right side of the second retaining member. The left projection (635j) of the second retaining member and the right projection of the second retaining member are formed in positions opposite to each other. The left (635f) transfer film limit adjustment strip forming pressure adjustment member of the foil stamping transfer film receiving and pressing member has strip-shaped or substantially rectangular strip-shaped through holes, and the left (635j) projection of the second holding member engages with the strip-shaped through holes and is formed to be slidable along the strip-shaped through holes. The foil stamping transfer film receiving and pressing member transfer film limit adjustment strip formation pressure adjustment member right (635k) has strip-shaped or substantially rectangular strip-shaped through holes, and the second holding member projection right is formed to engage with the strip-shaped through holes and to be slidable along the strip-shaped through holes. Thus, the foil stamping transfer film receiving and pressing member transfer film limit adjustment strip formation pressure adjustment member (635f) has strip-shaped through holes, and the second holding member projection (635j) is formed to engage with the strip-shaped through holes and to be slidable, thereby providing a function to buffer the pressing force applied to the foil stamping transfer film material. The left end of the pressing roll shaft (635c) of the foil stamping transfer film material receiving and pressing member is connected to the lower part of the left (635f) of the transfer film limit adjustment strip forming pressing force adjustment member of the foil stamping transfer film receiving and pressing member. The right end of the pressing roll shaft (635c) of the foil stamping transfer film material receiving and pressing member is connected to the lower part of the right (635k) of the foil stamping transfer film receiving and pressing member transfer film limit adjustment strip forming pressing force adjustment member. The foil stamping transfer film material receiving and pressing member transient drum (635h) and the foil stamping transfer film material receiving and pressing member pressure roll shaft (635c) are installed parallel to each other. As a result, the foil stamping transfer film material receiving and pressing member pressure roll shaft (635c) is held by the foil stamping transfer film material receiving mechanism holding member (631) so as to be able to move up and down. The foil stamping transfer film material receiving and pressing member mounting frame (635e) is connected to the foil stamping transfer film material receiving mechanism holding member (631), The foil stamping transfer film material receiving and pressing member pressing shaft (635a) has two pressing shafts, a first receiving pressing shaft and a second receiving pressing shaft, and these two receiving pressing shafts are installed parallel to each other and configured to be able to press and contact each other. Both ends of the foil stamping transfer film material receiving and pressing member pressing shaft (635a), which has the two receiving and pressing shafts, are rotatably held by the foil stamping transfer film material receiving and pressing member pressing shaft holding member (635b). The foil stamping transfer film material receiving and pressing member transient drum (635h), the foil stamping transfer film material receiving and pressing member pressing shaft (635a), and the foil stamping transfer film material receiving and pressing member mounting frame (635e) are installed parallel to each other. The foil stamping film member (61), which has a strip shape, is configured to pass between the receiving first pressing shaft and the receiving second pressing shaft of the foil stamping transfer film material receiving and pressing member pressing shaft (635a). The foil stamping transfer film material receiving and pressing member pressure control elastic member (635g) is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame (635e) and the foil stamping transfer film material receiving and pressing member pressing shaft holding member (635b) with cushioning and / or elasticity. The foil stamping transfer film receiving and pressing member buffer member (635d) is installed so as to be able to connect the foil stamping transfer film material receiving and pressing member mounting frame (635e) and the foil stamping transfer film material receiving and pressing member pressing shaft holding member (635b) with cushioning and / or elasticity. The pressing shaft (635a) of the foil stamping transfer film material receiving and pressing member is configured to be able to press the foil stamping transfer film material (61) with cushioning and / or elasticity. As a result, The foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure adjustment member (635f) has strip-shaped through holes, and the second holding member projection (635j) is formed to engage with the strip-shaped through holes and be slidable, so that the pressing force for pressing the foil stamping transfer film material can be pressed with the desired cushioning and / or elasticity, The foil stamping transfer film material receiving and pressing member (635) is configured to be able to press the incoming foil stamping transfer film material (61) with a desired cushioning and / or elasticity adjusted by the foil stamping transfer film material receiving and pressing member transfer film limit adjustment strip forming pressure adjustment member (635f) and the foil stamping transfer film material receiving and pressing member pressure adjustment elastic member (635g), During operation, The desired foil stamping transfer film material (61) is mounted in a manner that allows it to be attached to and detached from the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63), With the foil stamping transfer film material (61) positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
24. (E-a) In the foil stamping transfer film material feeding mechanism (62), The foil stamping transfer film material feed press member (625) is The second foil stamping transfer film material feed press member pressing shaft (625a) and The second foil stamping transfer film material feed press member pressing shaft holding member (625b), The foil stamping transfer film material feed press member pressure roll shaft (625c), A foil stamping transfer film feed press member buffer member (625d), A mounting frame (625e) for the foil stamping transfer film material feed press member, Foil stamping transfer film feed press member, transfer film limit adjustment strip formation pressure adjustment member left (625f), Foil stamping transfer film feed press member, transfer film limit adjustment strip formation pressure adjustment member (right, 625k), A pressure-controlling elastic member for foil stamping transfer film material (625g), It has, The first left retaining member (621c) has a left projection (625j) of the first retaining member formed thereon. The right projection of the first retaining member is formed on the first right retaining member (621b). The left projection (625j) of the first retaining member and the right projection of the first retaining member are formed in positions facing each other. The left (625f) transfer film limit adjustment strip formation pressure adjustment member of the foil stamping transfer film feed presser member has strip-shaped or substantially rectangular strip-shaped through holes formed therein, and the left (625j) projection of the first holding member engages with the strip-shaped through holes and is formed to be slidable along the strip-shaped through holes. The transfer film limit adjustment strip formation pressure adjustment member right (625k) of the foil stamping transfer film feed presser member has strip-shaped or substantially rectangular strip-shaped through holes, and the projection right of the first holding member engages with the strip-shaped through holes and is formed to be slidable along the strip-shaped through holes. Thus, the transfer film limit adjustment strip formation pressure adjustment member (625f) has strip-shaped through holes, and the projection (625j) of the first holding member engages with the strip-shaped through holes and is formed to be slidable, thereby providing a function to buffer the pressing force that presses the foil stamping transfer film material. The left end of the foil stamping transfer film material feed presser member pressure roll shaft (625c) is connected to the lower part of the foil stamping transfer film feed presser member transfer film limit adjustment strip forming pressure adjustment member left (625f), The right end of the foil stamping transfer film material feed presser member pressure roll shaft (625c) is connected to the lower part of the foil stamping transfer film feed presser member transfer film limit adjustment strip forming pressure adjustment member right (625k), As a result, the foil stamping transfer film material feed press member pressure roll shaft (625c) is held in the foil stamping transfer film material feed mechanism holding member (621) so as to be able to move up and down. The foil stamping transfer film material feed press member mounting frame (625e) is connected to the foil stamping transfer film material feed mechanism holding member (621), The foil stamping transfer film material feed press member pressing shaft (625a) has two pressing shafts, a first pressing shaft and a second pressing shaft, and these two pressing shafts are installed parallel to each other and configured to be able to press against each other. Both ends of the foil stamping transfer film material feed press member pressing shaft (625a), which has the two pressing shafts, are rotatably held by the foil stamping transfer film material feed press member pressing shaft holding member (625b). The foil stamping transfer film material feed press member transient drum (625h), the foil stamping transfer film material feed press member pressure roll shaft (625c), the foil stamping transfer film material feed press member pressing shaft (625a), and the foil stamping transfer film material feed press member mounting frame (625e) are installed parallel to each other. The foil stamping film member (61), which has a strip shape, is configured to pass between the first pressing shaft and the second pressing shaft of the foil stamping transfer film material feed pressing member pressing shaft (625a), The foil stamping transfer film material feed presser member pressure control elastic member (625g) is installed so as to be able to connect the foil stamping transfer film material feed presser member mounting frame (625e) and the foil stamping transfer film material feed presser member pressing shaft holding member (625b) with cushioning and / or elasticity. The foil stamping transfer film feed press member buffer member (625d) is installed so as to be able to connect the foil stamping transfer film feed press member mounting frame (625e) and the foil stamping transfer film feed press member pressing shaft holding member (625b) with cushioning and / or elasticity. The foil stamping transfer film material feed presser member pressing shaft (625a) is configured to be able to press the foil stamping transfer film material (61) with cushioning and / or elasticity, As a result, the foil stamping transfer film material feed presser member (625) is configured to be able to press the foil stamping transfer film material (61), which is attached to the foil stamping transfer film material feed motor - rotating shaft (623c), with a desired cushioning and / or elasticity adjusted by the foil stamping transfer film feed presser member transfer film limit adjustment strip forming pressure adjustment member (625f), the foil stamping transfer film feed presser member buffer member (625d), and the foil stamping transfer film material feed presser member pressure control elastic member (625g). The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
25. (E-b) In the foil stamping transfer film material receiving mechanism (63), The aforementioned foil stamping transfer film material receiving second shaft member (634) is, The second right holding member (631b) is installed so as to be above the foil stamping transfer film material receiving motor rotation shaft (632c), The foil stamping transfer film material receiving second shaft (634c), the foil stamping transfer film material receiving motor-rotating shaft (632c), and the foil stamping transfer film material receiving pressing member transient drum (636) are installed parallel to each other. The foil stamping transfer film material receiving second shaft member (634) further has a rotatable foil stamping transfer film material receiving second shaft right bearing nut (634e) installed at the end of the foil stamping transfer film material receiving second shaft (634c), and the foil stamping transfer film material receiving second shaft right bearing nut (634e) is configured to adjust the loosening of the tensile force of the strip-shaped foil stamping transfer film material (61) fed from the foil stamping transfer film material feeding mechanism (62) by rotation. (E-b) In the foil stamping transfer film material receiving mechanism (63), The foil stamping transfer film material receiving and pressing member (635) has a foil stamping transfer film material receiving rotation shaft receiving shaft synchronous rotation assist member (637) that rotates synchronously with the foil stamping transfer film material receiving motor rotation shaft (632c) and the foil stamping transfer film material receiving second shaft (634c), The foil stamping transfer film material receiving and pressing member (635) includes a foil stamping transfer film material receiving second shaft pulley member (634d) installed on the foil stamping transfer film material receiving second shaft (634c) and a foil stamping transfer film material receiving motor rotation shaft pulley member (632d) installed on the foil stamping transfer film material receiving motor rotation shaft (632c). The aforementioned foil stamping transfer film material receiving rotating bearing shaft synchronous rotation assist member (637) is an annular circular belt (20), The circular belt (20) is installed connecting the foil stamping transfer film material receiving second shaft pulley member (634d) and the foil stamping transfer film material receiving motor rotating shaft pulley member (632d). As a result, the second shaft (634c) for receiving the foil stamping transfer film material is configured to rotate in synchronization with the rotation of the rotating shaft (632c) for receiving the foil stamping transfer film material. As a result, during operation, the loosening of the strip-shaped foil transfer film material (61) located between the foil transfer film material feeding mechanism (62) and the foil transfer film material receiving mechanism (63) is suppressed, and it is configured to be pulled in a strip shape and to be unfoldable. The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
26. (E-c) In the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), The foil rotating device drive mechanism (642) is The aforementioned mounting base (642a) for the motor that drives the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism, The motor for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism has a rotating shaft (642c) and a motor (642b) for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism, In addition to the outer peripheral gear member (642d) having a gear shape on its outer circumference, which is installed on the motor-rotating shaft (642c) for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotation mechanism, Furthermore, the device has a rotation speed regulator (642e) installed between the motor-rotating shaft (642c) and the outer gear member (642d) for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotation mechanism, The rotation speed adjuster (642e) adjusts the rotation speed of the motor (642b) for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotation mechanism to a desired rotation speed, thereby enabling adjustment of the rotation speed of the foil stamping transfer film material rotating plate (643a) via the outer peripheral gear member (642d) and the inner peripheral gear member (643b) of the rotating plate. The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
27. (E-c) The foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64) is, Furthermore, the device includes a foil scraping mechanism (65) having a foil scraping member (65a) and a foil scraping member holding member (65b), wherein the foil scraping member (65a) has the function of peeling off the desired foil stamping transfer film material, excluding the separated foil stamping transfer film material (61a), from the desired workpiece (75a) on which the transfer film drawing characters and patterns are transferred. On the annular upper surface of the foil stamping transfer film material rotating plate (643a) of the foil rotating device rotating mechanism (643), a foil stamping transfer film material feeding mechanism holding member installation portion, a foil stamping transfer film material receiving mechanism holding member installation portion, and a foil scraping mechanism holding member installation portion are formed. The foil stamping transfer film material feeding mechanism holding member installation section and the foil stamping transfer film material receiving mechanism holding member installation section are formed in positions facing each other. The foil scraping mechanism holding member installation section is formed in the intermediate part between the foil stamping transfer film material feeding mechanism holding member installation section and the foil stamping transfer film material receiving mechanism holding member installation section. The foil stamping transfer film material feeding mechanism holding member (621) is installed in the foil stamping transfer film material feeding mechanism holding member installation section. The foil stamping transfer film material receiving mechanism holding member (631) is installed in the foil stamping transfer film material receiving mechanism holding member installation section. The foil scraping member holding member (65b) is installed in the foil scraping mechanism holding member installation section. The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
28. (E-c) The foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64) is, Furthermore, the foil rotating device has a rotating angle sensor (643d) installed on the fixed bottom plate (641) for controlling the angle of the rotating plate, The rotation angle sensor (643d) for controlling the rotational plate angle is configured to monitor the rotational position of the foil stamping transfer film material rotational plate (643a) and to stop and control it at a desired rotational position. The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
29. Furthermore, it is equipped with a foil stamping transfer film material pressing transfer processing apparatus integrated control unit (8), (E-c) In the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), The motor (642b) for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotation mechanism is a servo motor (642b) having a rotary encoder. The servo motor (642b) having the rotary encoder is electrically connected to the foil stamping transfer film material pressing transfer processing apparatus general control unit (8), By operating the foil stamping transfer film material pressing transfer processing apparatus general control unit (8), the motor (642b) for driving the foil stamping transfer film material feeding mechanism receiving mechanism rotation mechanism is started, and the foil stamping transfer film material rotating plate (643a) of the foil rotating device rotation mechanism (643) is rotated to a desired angle position. As a result, the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63), to which the foil stamping transfer film material (61) is attached, are configured to be movable to a desired position. The foil stamping transfer film material pressing transfer processing apparatus according to feature 22.
30. (F) The frame (9) is (F-a) Lower frame (91), Here, the lower frame (91) is A lower frame base member (911) having a plate-like shape with a roughly rectangular planar shape, The lower frame base member (911), which has a plate-like shape with a roughly rectangular planar shape, has at least four frame-shaped lower frame support frame members (912) formed vertically from its corners, (F-b) Upper frame (92), Here, the upper frame (92) is, A frame base member (921) at the bottom of the upper frame of the support structure, having a roughly rectangular frame shape in plan view, The upper frame base member (921) has a frame-like shape with a roughly rectangular planar shape, and at least four frame-shaped upper frame support frame members (922) are formed vertically from the corners of the upper frame base member (921), And, (F-c) Upper panel mechanism mounting fixing member (93), Here, the upper panel mechanism mounting and fixing member (93) is installed and fixed to the lower side of the upper frame member (921) of the frame, Equipped with, (F-ab) The upper frame (92) is fixed on the lower frame (91), and the upper frame (92) and the lower frame (91) are configured to be an integral part of each other. The outer periphery shape of the lower base base member (911) having a roughly rectangular plate shape and the outer periphery shape of the upper base base member (921) are the same as each other, The lower base member (911) and the upper base member (921) are configured to be parallel to each other. (F) The frame (9) has the shape of a rectangular parallelepiped, (A) The upper plate mechanism (2) is fixedly installed below the upper plate mechanism mounting fixing member (93) which is installed and fixed to the lower side of the upper frame base member (921) of the upper frame (92), (B) The lower plate mechanism (3) is fixedly installed on the upper base base member (921) of the lower frame (91), The foil stamping transfer film material pressing transfer processing apparatus according to claim 1, characterized in that it is a foil stamping transfer film material pressing transfer processing apparatus.
31. (F-c) The upper plate mechanism mounting and fixing member (93) installed and fixed to the lower side of the upper base base member (921) of the upper base frame (92) has a hollow shape that can cover and house the left and right lateral perimeter of the upper plate mechanism (2), and / or, (F-a) The base member (921) at the bottom of the upper frame of the support structure has a roughly rectangular plate shape with four corners, The plurality of lower frame support members (912) are configured to be installed vertically from each corner of the plurality of lower frame support members (912) and from the middle of the peripheral edges of the plurality of lower frame support members (912). The lower frame (91) is further, in addition to the lower frame support frame member (912), A lower frame support frame skeletal member (913) is installed between each lower frame support frame member (912), and A plate-shaped side plate (914) of the lower frame support frame section is installed on the side between each lower frame support frame member (912), and / or The lower frame support frame reinforcing rib (915) is installed by joining the intersections of each lower frame support frame member (912) and the lower frame support frame skeletal member (913). It has, The lower frame (91) of the rectangular parallelepiped is configured such that at least the front of the four surrounding surfaces is open, and the desired workpiece (75) can be attached to and removed from the open front surface of the lower frame (91). The foil stamping transfer film material pressing transfer processing apparatus according to the feature described in 30.
32. The surface of the desired pressing plate (74) has a plurality of fine uneven surfaces (741) which are formed by a plurality of fine uneven surfaces (741a) and a plurality of fine uneven surfaces (741b), The plurality of fine irregularities 741 are (f) Fine dot patterns, fine patterned designs, fine picture patterns, and / or fine grid patterns, (T) Fine line pattern, (Chi) Fine striped pattern, (Ri) A gloss-changing pattern that represents a pictographic design where the gloss of the pattern differs when viewed from different directions. (Nu) A pattern-changing emoji pattern that displays different emoji patterns when viewed from different directions. And, (L) A changing latent image pattern that displays different pictographic patterns when viewed from different directions. Here, a changing latent image pattern, which represents different pictographic patterns when viewed from different directions, is: It has a plurality of fine uneven parts (741) having a plurality of multiple fine uneven parts, with multiple protrusions (741a) and a plurality of multiple fine uneven parts, with multiple recesses (741b), The plurality of fine uneven portions (741) are formed by a combination of multiple types of uneven pattern cells that are engraved with a fine uneven shape, divided into predetermined shapes, and arranged in a regular manner. Each of the aforementioned multiple types of uneven pattern cells is formed with a fine graphic character pattern, which consists of at least two types of fine uneven shapes selected from the group consisting of fine dot patterns, fine patterned patterns, fine picture patterns, fine line patterns, and fine striped patterns. Multiple micro-picture patterns of one of two or more types of micro-picture patterns come together to form the first image. Multiple micro-picture patterns of a second type, different from one of the two or more types of micro-picture patterns mentioned above, are gathered together to form another image. A fine graphic character pattern is formed by at least one plurality of fine uneven shapes selected from the group consisting of the following, The foil stamping transfer film material pressing transfer processing apparatus according to feature 1.
33. Furthermore, (CD) An upper base plate (72) that can be attached to and removed from the upper plate mechanism (2) in the downward direction, A lower base plate (73) that can be attached to and removed from the upper part of the lower plate mechanism (3), A removable pressing plate workpiece positioning member (77) is provided to set the relative position between the desired pressing plate (74) and the desired workpiece (75). A workpiece mounting member (76) is installed above the lower substrate (73), A pressing plate workpiece positioning member unit (7) having Equipped with, The upper substrate (72) has a positioning member upper substrate receiving member (72a) formed on the lower surface of the upper substrate, The lower substrate (73) has a positioning member lower substrate receiving member (73a) formed on the upper surface of the lower substrate, (CD) In the pressing plate workpiece positioning member (77), the pressing plate workpiece positioning member (77) has a plurality of pressing plate workpiece positioning members (77), Each pressing plate workpiece positioning member (77) has a column shape, a cylindrical rod shape, or a rectangular prism rod shape. The upper end of each pressing plate workpiece positioning member (77) engages with the positioning member upper substrate receiving member (72a) formed on the upper substrate (72), and is attached and detachably. Each pressing plate workpiece positioning member (77) has its other end, the lower end, engaged with the positioning member lower substrate receiving member (73a) formed on the lower substrate (73), and is attached and detachably mounted. Here, The desired pressing plate (74) is configured to be attachable to and detachable from the upper substrate (72). The upper substrate (72) is configured to be attachable to and detachable from the upper panel mechanism (2) in a downward direction. The desired workpiece (75) is configured to be attachable to and detachable from the lower substrate (73). The lower base plate (73) is configured to be attachable to and detachable from the lower plate mechanism (3) in an upward direction. At least one of the upper plate mechanism (2) and the lower plate mechanism (3) is configured to be drivable in the vertical direction. The upper plate mechanism (2) and the lower plate mechanism (3) are positioned opposite each other in the vertical direction and are configured separately. One end of the pressing plate workpiece positioning member (77) is formed to be attachable to and detachable from the upper plate mechanism, and the other end of the pressing plate workpiece positioning member (77) is configured to be attachable to and detachable from the lower plate mechanism. The desired workpiece (75) is configured to be attachable to and detachable from the workpiece mounting member (76), (B) The lower plate mechanism (3) comprises a lower plate base (31) and a movable lower plate (32), Furthermore, it is equipped with a positioning member unit transport device (33), The lower base plate (31) is fixed and installed on the frame (9), The movable lower plate (32) is configured to be installable at a desired position on the lower plate base (31), The positioning member unit transport device (33) includes a transport device member (331) and a transport device member drive motor (332) that drives the transport device member. The motor rotation shaft of the transport equipment member drive motor (332) is connected to the transport equipment member (331), The transport equipment member drive motor (332) is fixed to the lower base (31) and / or the frame (9), The transport device member 331 is configured to be movable in the front-to-back and vertical directions in the planar direction of the upper surface of the lower base plate 31. The movable lower plate 32 is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower plate base 31 by the drive of the transport device member 331. As a result, the movable lower plate 32 is configured to move in the front-to-back and vertical directions in the planar direction by the drive of the positioning member unit transport device 33, and can be installed at a desired position on the lower plate base 31. (A) The upper plate mechanism (2) is Upper board (21) and Upper plate bottom plate (22) and Upper panel up and down drive electric cylinder (23), Upper panel fall prevention cylinder (24), Upper plate Z-axis lock cylinder (25), Equipped with, The aforementioned upper panel vertical drive electric cylinder (23) is attached to the frame (9), The upper panel substrate (21) is attached to a portion of the upper panel vertical drive electric cylinder (23), The upper panel fall prevention cylinder (24) is attached to the upper panel base plate (21), The upper panel Z-axis lock cylinder (25) is attached to the upper panel base plate (21), The upper panel bottom plate (22) is attached to the lower side of the upper panel base plate (21) by the upper panel fall prevention cylinder (24), The upper panel substrate (21) is configured to be attachable to the upper panel vertical drive electric cylinder (23), The upper panel's vertical drive electric cylinder (23) drives the upper panel's base plate (21) and the upper base plate (72) attached to the upper panel's base plate (21), and the upper panel's bottom plate (22) is also configured to be driveable vertically. (E) The foil stamping transfer film material supply mechanism (6) is (E-a) A foil stamping transfer film material feeding mechanism (62) that feeds the desired foil stamping transfer film material (61), (E-b) A foil stamping transfer film material receiving mechanism (63) that receives the foil stamping transfer film material (61) sent from the foil stamping transfer film material feeding mechanism (62), (E-d) A foil stamping transfer film material feeding mechanism (62) and a foil stamping transfer film material receiving mechanism (63) rotating device (64) that can rotate them to a desired angular position in the planar direction, Equipped with, Here, the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feeding mechanism (62) in a form that is continuously wound in layers, is unfolded into a strip form and sent to the foil stamping transfer film material receiving mechanism (63), and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism (63). The foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) are positioned opposite each other at a predetermined distance apart and are configured to transport and stretch the foil stamping transfer film material (61). (E-d) The foil stamping transfer film material feeding mechanism receiving mechanism rotating device (64) is Foil rotating device fixed base plate (641), Foil rotating device drive mechanism (642), And, The foil rotating device is equipped with a rotating mechanism (643), A through-hole (641a) of the foil rotating device fixing bottom plate (641) is formed in the central region of the foil rotating device fixing bottom plate (641). The upper plate mechanism (2) is installed in such a manner that it penetrates the fixed bottom plate through hole (641a) of the foil rotating device. (E-d-a) The foil rotating device drive mechanism (642) is Mounting frame (642a) for the motor drive mechanism of the foil rotating device, installed on the upper surface of the foil rotating device fixed base plate (641), The motor body (642b) of the foil rotating device drive mechanism drive motor is installed on the mounting frame (642a) for the foil rotating device drive mechanism drive motor, The motor body for the foil rotating device drive mechanism is connected to (642b) the motor bearing (642f) and the motor rotating shaft (642c) of the foil rotating device drive mechanism, And, A gear member (642d) of the foil rotating device drive mechanism, which has a gear shape on its outer circumference, is installed at the tip of the motor for driving the foil rotating device drive mechanism - rotating shaft (642c), Equipped with, Here, the mounting base (642a) for the motor that drives the foil rotating device drive mechanism is fixed to the foil rotating device fixing base plate (641), The motor for the foil rotating device drive mechanism (642c) is mounted perpendicular to the fixed base plate (641) of the foil rotating device, and the motor for the foil rotating device drive mechanism (642b) is mounted perpendicular to the fixed base plate (641) of the foil rotating device. The outer peripheral gear member (642d) of the foil rotating device drive mechanism has a gear shape on its outer circumference. (E-d-b) The foil rotating device rotation mechanism (643) is A rotating plate (643a) for foil stamping transfer film material having a rotatable annular shape, The device comprises an annular rotating plate inner gear member (643b) installed in the inner circumferential region of the lower surface of the annular foil stamping transfer film material rotating plate (643a), The outer circumferential gear member (642d) of the foil rotating device drive mechanism and the inner circumferential gear member (643b) of the foil rotating device drive mechanism's rotating plate are engaged with each other, and the rotation of the motor body (642b) for driving the foil rotating device drive mechanism causes the outer circumferential gear member (642d) of the foil rotating device drive mechanism to rotate and the inner circumferential gear member (643b) of the rotating plate to rotate, thereby allowing the foil stamping transfer film material rotating plate (643a), on which the inner circumferential gear member (643b) is fixedly installed, to rotate to a desired position and stop at a desired position, thus enabling rotation and stopping. (E-a) The foil stamping transfer film material feeding mechanism (62) is fixed and installed in a predetermined position on the foil stamping transfer film material rotating plate (643a), (E-b) The foil stamping transfer film material receiving mechanism (63) is installed at a position opposite to the foil stamping transfer film material feeding mechanism (62) of the foil stamping transfer film material rotating plate (643a), During operation, The desired pressing plate (74) is attached to the lower surface of the upper substrate (72), and the upper substrate (72) is attached downward to the upper plate mechanism (2). The desired workpiece (75) is attached to the workpiece mounting member (76), the workpiece mounting member (76) is installed on the lower base plate (73), and the lower base plate (73) is mounted upward on the lower plate mechanism (3). The pressing plate workpiece positioning member unit (7) is transported and installed at a desired position on the movable lower plate (32), and the pressing plate workpiece positioning member (77) is removed from the pressing plate workpiece positioning member unit (7). With the pressing plate workpiece positioning member (77) removed from the upper substrate (72) and the lower substrate (73), The desired foil stamping transfer film material (61) is mounted to the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) in a manner that allows for attachment and detachment, and exists in a stretched and unfolded strip-like form between the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63). When the foil rotating device rotation mechanism (643) is driven, the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) rotate to the desired position and stop, The desired pressing plate (74) and the desired workpiece (75) are positioned facing each other in the vertical direction via the foil transfer film material (61), and the foil transfer film material (61) is positioned between the desired pressing plate (74) and the desired workpiece (75), The upper plate mechanism (2) is driven in the vertical direction, The desired pressing plate (74) presses the desired workpiece (75) through the foil transfer film material (61) which has a strip shape, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired pressing plate (74) is configured to be transfer-formed onto the surface of the desired workpiece (75). The foil stamping transfer film material pressing transfer processing apparatus according to claim 1, characterized in that it is as described above.
34. The desired workpiece (75) has an overall three-dimensional shape, and its surface shape has a curved surface and / or an uneven surface and / or a surface that forms through holes. The desired pressing plate (74) has a curved surface and / or an uneven surface that matches the surface shape of the desired workpiece, and the curved surface and / or uneven surface and / or through-hole forming surface has a desired graphic, letter, or pictographic pattern formed in an uneven shape. During operation, The desired pressing plate (74) is mounted below the upper plate mechanism (2), The desired workpiece (75) is mounted above the lower platen mechanism (3), The curved surface and / or uneven surface and / or through-hole forming surface of the desired pressing plate (74) and the curved surface and / or uneven surface and / or through-hole forming surface of the desired workpiece (75) are mounted in positions facing each other. With the desired pressing plate (74) attached to the upper platen mechanism (2) and the desired workpiece (73) attached to the lower platen mechanism (3), At least one of the upper platen mechanism (2) and the lower platen mechanism (3) is driven in the vertical direction so that the desired pressing platen (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), The transfer film drawing character pattern (61a), separated from the foil stamping transfer film material (61) and matching the desired graphic character pattern formed on the desired pressing plate (74), is configured to be transferable onto the curved surface and / or uneven surface and / or through-hole forming surface of the desired workpiece (75). A foil stamping transfer film material pressing transfer processing apparatus according to any one of claims 1 to 33.
35. Using the foil stamping transfer film material pressing transfer processing apparatus according to any one of claims 2 to 33, A method for pressing and transferring a foil stamping transfer film onto the surface of a desired workpiece (75), wherein a separated foil stamping transfer film material (61a) having a transfer film drawing character pattern formed separately from a foil stamping transfer film material (61) is transferred onto the surface of the workpiece (75), (a) A step of preparing the main body of a press transfer processing apparatus equipped with the upper platen mechanism (2), the lower platen mechanism (3), the foil stamping transfer film material supply mechanism (6), and the stand (9), (b) A step of preparing the pressing plate workpiece positioning member unit (7) on which the desired pressing plate (74) is installed, (c) A step of installing the pressing plate workpiece positioning member unit (7) at a predetermined position on the lower plate mechanism (3), (d) With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered, The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e) Raise the upper plate mechanism (2) This separates the upper base plate (72), which is attached to the upper plate mechanism (2) and on which the desired pressing plate (74) is mounted, from the pressing plate workpiece positioning member unit (7). Subsequently, the process involves removing the workpiece positioning member (77) from the workpiece positioning member unit (7) for the pressing process, from which the upper substrate (72) has been removed. (f) A step of attaching and setting the desired workpiece (75) on the lower substrate (73) of the pressing plate workpiece positioning member unit (7), (g) The foil stamping transfer film material (61) is positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, The process involves pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61), As a result, a separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired drawing character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred. Subsequently, the process involves raising the upper plate mechanism (2), And, (h) A step of removing the desired workpiece (75a) on which the transfer film drawing characters and patterns have been transferred from the lower substrate (73), Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). A method for pressing and transferring a foil-stamped transfer film material onto a workpiece, characterized by the above.
36. Furthermore, (i) After step (h), in the pressing plate workpiece positioning member unit (7) having the lower substrate (73) and the workpiece mounting member (76), the lower end of the pressing plate workpiece positioning member (77) that was removed in step (e) is attached to the positioning member lower substrate receiving member (73a) of the lower substrate (73) and installed in an upright position. Subsequently, with the foil stamping transfer film material (61) no longer present, the upper plate mechanism (2) is lowered. The upper substrate receiving member (72a) of the upper substrate (72) on which the desired pressing plate (74) is installed is engaged with the upper end of the pressing plate workpiece positioning member (77), This completes the process of assembling and forming the pressing plate workpiece positioning member unit (7), which includes the upper substrate (72), the desired pressing plate (74), the lower substrate (73), and the pressing plate workpiece positioning member (77). And, (j) After step (i) above, raise the upper plate mechanism (2) From the upper plate base plate (21) of the upper plate mechanism (2), The upper substrate (72) of the pressing plate workpiece positioning member unit (7) is separated, A step of separating the press workpiece positioning member unit (7), which has the assembled upper substrate (72), the desired press workpiece (74), the lower substrate (73), and the press workpiece positioning member (77), from the upper plate mechanism (2), Equipped with, The method for pressing and transferring a foil stamping transfer film material onto a workpiece, as described in feature 35.
37. Using the foil stamping transfer film material pressing transfer processing apparatus described in claim 33, A method for pressing and transferring a foil stamping transfer film onto the surface of a desired workpiece (75), wherein a separated foil stamping transfer film material (61a) having a transfer film drawing character pattern formed separately from a foil stamping transfer film material (61) is transferred onto the surface of the workpiece (75), (a) A step of preparing the main body of the press transfer processing apparatus equipped with the upper platen mechanism (2) and the lower platen mechanism (3), (b) A step of preparing the pressing plate workpiece positioning member unit (7) on which the desired pressing plate (74) is installed, (c-1) The pressing plate workpiece positioning member unit (7) is placed on the positioning member unit mounting position located in the front direction in the front-rear and front-back longitudinal direction in the planar direction of the positioning member unit transport device (33) of the lower plate mechanism (3), Subsequently, the pressing plate workpiece positioning member unit (7), which is placed on the positioning member unit transport device (33), is moved in the rearward direction in the longitudinal direction in the planar direction by the drive of the positioning member unit transport device (33) to a desired position on the lower plate base (31), and then installed at that desired position. (d-2) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered. The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e-1) Raise the upper plate mechanism (2), This separates the upper substrate receiving member (72a), which is attached to the upper plate mechanism (2) and on which the desired pressing plate (74) is mounted, from the upper end of the pressing plate workpiece positioning member unit (7). Subsequently, the pressing plate workpiece positioning member unit (7), which does not have the upper base plate (72) on which the desired pressing plate (74) is attached, is moved forward in the planar front-rear direction of the positioning member unit transport device (33) to the positioning member unit mounting position on the lower plate base (31). Subsequently, the lower end of the workpiece positioning member (77) for the pressing plate is separated from the lower base plate receiving member (73a) of the pressing plate workpiece positioning member unit (7) from which the upper base plate (72) has been removed, thereby removing the workpiece positioning member (77) for the pressing plate from the pressing plate workpiece positioning member unit (7). (f-1) The desired workpiece (75) is attached to the workpiece mounting member (76) of the pressing plate workpiece positioning member unit (7), Subsequently, the pressing plate workpiece positioning member unit (7) on which the desired workpiece (75) is placed is moved in the rearward direction in the planar front-rear direction of the positioning member unit transport device (33) to transport it to the desired position on the lower plate base (31), and then installed at that desired position. (g-2) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, The process involves pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61), As a result, a separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired drawing character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred. Subsequently, the process involves raising the upper plate mechanism (2), (h-1) The pressing plate workpiece positioning member unit (7), on which the transfer film drawing characters and patterns have been transferred and the workpiece (75) has been placed, is moved forward in the planar front-back direction of the positioning member unit transport device (33) to the placement position on the lower plate base (31), Then, the process involves removing the desired workpiece (75a), on which the transfer film drawing characters and patterns have been transferred and formed at the placement position, from the workpiece mounting member (76). And, (i-2) After step (h-1), the pressing plate workpiece positioning member unit (7), which has the lower substrate (73) and the workpiece mounting member (76), is installed in an upright position by attaching the pressing plate workpiece positioning member (77), which was removed in step (e-1), to the positioning member lower substrate receiving member (73a) of the lower substrate (73). Subsequently, the pressing plate workpiece positioning member unit (7), which has the lower substrate (73), the workpiece mounting member (76), and the pressing plate workpiece positioning member (77), is moved in the front-to-back direction in the planar direction of the positioning member unit transport device (33) to transport it to the desired position on the lower plate base (31). Subsequently, the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64) is rotated, With the foil transfer film material (61) not interposed, the upper plate mechanism (2) is lowered to engage the upper base plate receiving member (72a), which is a positioning member of the upper base plate (72) on which the desired pressing plate (74) is installed, with the upper end of the pressing plate workpiece positioning member (77), thereby creating a pressing plate workpiece having the desired pressing plate (74), lower base plate (73), workpiece mounting member (76), and pressing plate workpiece positioning member (77). The process involves assembling and forming a workpiece positioning member unit (7), then assembling the desired pressing plate (74), lower base plate (73), workpiece mounting member (76), upper base plate (72), and pressing plate workpiece positioning member (77), and then moving the pressing plate workpiece positioning member unit (7), which has been assembled, in the front-to-back direction in the planar direction of the positioning member unit transport device (33) to transport it to the mounting position on the lower plate base (31). Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). A method for pressing and transferring a foil-stamped transfer film material onto a workpiece, characterized by the above.
38. A method for pressing and transferring a foil stamping transfer film onto the surface of a desired workpiece (75), wherein a separated foil stamping transfer film material (61a) having a transfer film drawing character pattern formed separately from a foil stamping transfer film material (61) is transferred onto the surface of the workpiece (75), (a) Steps to prepare the main body of the press transfer processing apparatus, Here, The main body of the press transfer processing device is (A) Upper panel mechanism (2), (B) Lower plate mechanism (3), (E) Foil stamping transfer film material supply mechanism (6), And, (F) Stand (9), Equipped with, Here, The upper panel mechanism (2) is fixed to the upper part of the frame (9), The lower panel mechanism (3) is fixed to the lower part of the frame (9), The foil stamping transfer film material supply mechanism (6) is installed in the upper plate mechanism (2), The lower plate mechanism (3) is configured to be located below the upper plate mechanism (2), The upper panel mechanism (2) is configured to be drivable in the vertical direction, The desired workpiece (75) is a workpiece with a desired three-dimensional shape having a desired three-dimensional shape, The foil stamping transfer film material (61) has a strip-like shape, (A) The upper plate mechanism (2) is Upper board (21) and Upper plate bottom plate (22) and Upper panel up and down drive electric cylinder (23), Upper panel fall prevention cylinder (24), Upper plate Z-axis lock cylinder (25), Equipped with, The aforementioned upper panel vertical drive electric cylinder (23) is attached to the frame (9), The upper panel substrate (21) is attached to a portion of the upper panel vertical drive electric cylinder (23), The upper panel fall prevention cylinder (24) is attached to the upper panel base plate (21), The upper panel Z-axis lock cylinder (25) is attached to the upper panel base plate (21), The upper panel bottom plate (22) is attached to the lower side of the upper panel base plate (21) by the upper panel fall prevention cylinder (24), The upper panel substrate (21) is configured to be attachable to the upper panel vertical drive electric cylinder (23), The upper panel vertical drive electric cylinder (23) drives the upper panel substrate (21) and the upper substrate (72) attached to the upper panel substrate (21), and The upper plate bottom plate (22) is also configured to be movable up and down. (E) The foil stamping transfer film material supply mechanism (6) is (E-a) Foil stamping transfer film material feeding mechanism (62) having the function of feeding the foil stamping transfer film material (61), And, (E-b) A foil stamping transfer film receiving mechanism (63) having the function of receiving and winding up the foil stamping transfer film material (61) that is fed from the foil stamping transfer film material feeding mechanism (62), Equipped with, (b) Steps to prepare the pressing plate workpiece positioning member unit (7), Here, (CD) The pressing plate workpiece positioning member unit (7) is, An upper base plate (72) that can be attached to and removed from below the upper plate mechanism (2), A lower base plate (73) that can be attached to and removed from the lower plate mechanism (3), A removable press-processing plate workpiece positioning member (77) for setting the relative position between the upper substrate (72) and the lower substrate (73), A pressing plate workpiece positioning member unit (7) having Equipped with, The upper substrate (72) has a positioning member upper substrate receiving member (72a) formed on the lower surface of the upper substrate, The lower substrate (73) has a positioning member lower substrate receiving member (73a) formed on the upper surface of the lower substrate, (CD) In the pressing plate workpiece positioning member (77), the pressing plate workpiece positioning member (77) has a plurality of pressing plate workpiece positioning members (77), Each pressing plate workpiece positioning member (77) has a column shape, a cylindrical rod shape, or a rectangular prism rod shape. The upper end of each pressing plate workpiece positioning member (77) engages with the positioning member upper substrate receiving member (72a) formed on the upper substrate (72), and is attached and detachably. Each pressing plate workpiece positioning member (77) has its other end, the lower end, engaged with the positioning member lower substrate receiving member (73a) formed on the lower substrate (73), and is attached and detachably mounted. During operation, each pressing plate workpiece positioning member (77) is configured to be drivable while detached from the upper substrate (72) and the lower substrate (73). Here, A desired pressing plate (74) is mounted and installed on the upper base plate (72) in a manner that allows for attachment and removal. The upper substrate (72) is configured to be attachable to and detachable from the upper platen mechanism (2) in a downward direction, and the desired workpiece (75) is configured to be attachable to and detachable from the lower substrate (73). The lower base plate (73) is configured to be attachable to and detachable from the lower plate mechanism (3) in an upward direction. At least one of the upper plate mechanism (2) and the lower plate mechanism (3) is configured to be drivable in the vertical direction. The upper plate mechanism (2) and the lower plate mechanism (3) are positioned opposite each other in the vertical direction and are configured separately. (c) A step of installing the pressing plate workpiece positioning member unit (7) at a predetermined position on the lower plate mechanism (3) of the pressing transfer processing apparatus body, (d) With the pressing plate workpiece positioning member unit (7) positioned between the upper plate mechanism (2) and the lower plate mechanism (3), and with no foil stamping transfer film material (61) interposed between the upper plate mechanism (2) and the lower plate mechanism (3), the upper plate mechanism (2) is lowered. The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e) Raise the upper plate mechanism (2) This separates the upper end of the pressing plate workpiece positioning member (77) from the upper base plate receiving member (72a) of the upper base plate (72) which is attached and fixed to the upper plate mechanism (2), and then removes and separates the lower end of the pressing plate workpiece positioning member (77) from the pressing plate workpiece positioning member unit (7) from which the upper base plate (72) has been removed, thereby removing the pressing plate workpiece positioning member (77) from the pressing plate workpiece positioning member unit (7). (f) A step of attaching and detachably mounting a desired workpiece (75) to the lower substrate (73) of the pressing plate workpiece positioning member unit (7), (g) The foil stamping transfer film material (61) is positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, The process involves pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61), As a result, a separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired drawing character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred. And, (h) A step of removing the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred from the lower substrate (73), Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). A method for pressing and transferring a foil-stamped transfer film material onto a workpiece, characterized by the above.
39. In the method for pressing and transferring a foil stamping transfer film material for a workpiece according to claim 38, (a) In the step of preparing the main body of the pressing transfer processing apparatus, The process includes preparing the main body of the pressing transfer processing apparatus, which is equipped with the upper platen mechanism (2) and the lower platen mechanism (3). (B) The lower plate mechanism (3) comprises a lower plate base (31), a movable lower plate (32), and a positioning member unit transport device (33), The lower base plate (31) is fixed and installed on the frame (9), The movable base plate (32) is installed on the base plate base (31), The movable lower plate (32) is configured to move in the front-to-back and vertical directions in the planar direction on the lower plate base (31) so that it can be installed at a desired position on the lower plate base (31). The positioning member unit transport device (33) includes a transport device member (331) and a transport device member drive motor (332) that drives the transport device member. The motor rotation shaft of the transport equipment member drive motor (332) is connected to the transport equipment member (331), The transport equipment member drive motor (332) is fixed to the lower base (31) and / or the frame (9), The transport device member (331) is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower base (31), The movable lower plate (32) is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower plate base (31) by the drive of the transport device member (331), As a result, the movable lower plate (32) is configured to move in the front-to-back and vertical directions in the planar direction by the drive of the positioning member unit transport device (33) and be installed at a desired position on the lower plate base (31). (b) A step of preparing the pressing plate workpiece positioning member unit (7) on which the desired pressing plate (74) is installed, (c-1) The pressing plate workpiece positioning member unit (7) on which the desired pressing plate (74) is installed is placed on the positioning member unit placement position located in the front direction in the front-rear and front-back longitudinal direction in the planar direction of the positioning member unit transport device (33) of the lower plate mechanism (3), Subsequently, the pressing plate workpiece positioning member unit (7), which is placed on the positioning member unit transport device (33), is moved in the rearward direction in the longitudinal direction in the planar direction by the drive of the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31) located below the upper plate mechanism (2), and then installed at the desired foil stamping position. This positions the pressing plate workpiece positioning member unit (7) between the upper plate mechanism (2) and the lower plate mechanism (3), (d) With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered, The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a manner that allows for attachment and removal. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e-1) Raise the upper plate mechanism (2) to separate the upper end of the pressing plate workpiece positioning member (77) from the positioning member upper plate receiving member (72a) of the upper plate (72), This process involves separating the upper base plate (72), which is attached and fixed to the upper plate mechanism (2), from the press-processing plate workpiece positioning member unit (7), which has the press-processing plate workpiece positioning member (77) and the lower base plate (73). Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72), The upper plate (72), separated from the workpiece positioning member (77) of the pressing plate workpiece positioning member unit (7), remains attached and fixed to the upper plate mechanism (2) in a manner that allows for attachment and removal. (e-2) The movable lower plate (32) on which the pressing plate workpiece positioning member unit (7), which does not have the upper base plate (72) on which the desired pressing plate (74) is attached and installed, is moved forward in the longitudinal direction in the planar direction by the positioning member unit transport device (33) to transport it to the positioning member unit mounting position on the lower plate base (31), Subsequently, at the positioning member unit mounting position, the lower end of the pressing plate workpiece positioning member (77) is separated and removed from the positioning member lower base plate receiving member (73a) of the lower base plate (73), thereby removing the pressing plate workpiece positioning member (77) from the pressing plate workpiece positioning member unit (7) from which the upper base plate (72) has been removed. (f-1) The pressing plate workpiece positioning member unit (7), which does not have an upper substrate (72) and a pressing plate workpiece positioning member (77), is mounted and installed by placing the desired workpiece (75) on the lower substrate (73). Subsequently, the process involves placing the desired workpiece (75) on the lower substrate (73), mounting the press workpiece positioning member unit (7) for the pressing process onto the movable lower plate (32), moving the positioning member unit transport device (33) in the rearward direction in the longitudinal direction of the plane, to transport it to the desired foil stamping position on the lower plate base (31), and then installing it at that desired foil stamping position. Here, the upper base plate (72) of the pressing plate workpiece positioning member unit (7) is attached and fixed to the upper plate mechanism (2) so as to be attachable and detachable, and the pressing plate workpiece positioning member (77) is kept in a detached state. (g) The foil stamping transfer film material (61) is positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75) placed and mounted on the lower substrate (73), The upper plate mechanism (2) is lowered, The process involves pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61), As a result, a separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired drawing character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred. Subsequently, the process involves raising the upper plate mechanism (2), (h-1) The movable lower plate (32), on which the desired workpiece (75a) with the transfer film drawing characters and patterns formed on it is placed and on which the pressing plate workpiece positioning member unit (7) is placed, is moved forward in the longitudinal direction in the planar direction by the positioning member unit transport device (33) to the position on the lower plate base (31), Then, the process involves removing the desired workpiece (75a), on which the transfer film drawing characters and patterns have been transferred and formed at the placement position, from the lower substrate (73). And, (i-1) After step (h-1), the lower end of the removed pressing plate workpiece positioning member (77) is attached to the positioning member lower base plate receiving member (73a) of the lower base plate (73) and installed in an upright position on the pressing plate workpiece positioning member unit (7) having the lower base plate (73). Subsequently, the movable lower plate (32), on which the pressing plate workpiece positioning member unit (7) having the lower substrate (73) and the pressing plate workpiece positioning member (77) is mounted, is moved in the rearward direction in the longitudinal direction in the planar direction by the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31). Subsequently, with the foil transfer film material (61) no longer interposed, the upper plate mechanism (2) is lowered to engage the upper substrate receiving member (72a), which is the positioning member of the upper substrate (72) on which the desired pressing plate (74) is installed, with the upper end of the pressing plate workpiece positioning member (77), thereby determining the position of the pressing plate workpiece having the desired pressing plate (74), the lower substrate (73), the upper substrate (72), and the pressing plate workpiece positioning member (77). The process involves assembling and forming a member unit (7), then assembling and forming the desired pressing plate (74), lower base plate (73), upper base plate (72), and pressing plate workpiece positioning member (77), and then moving the movable lower plate (32) on which the pressing plate workpiece positioning member unit (7) is mounted, in the forward direction in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to transport it to the mounting position on the lower plate base (31), Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). The method for pressing and transferring a foil-stamped transfer film material for a workpiece according to feature 38.
40. In the method for pressing and transferring a foil stamping transfer film material of a workpiece according to claim 38, (a) In the step of preparing the main body of the press transfer processing apparatus equipped with the upper platen mechanism (2) and the lower platen mechanism (3), (E) The foil stamping transfer film material supply mechanism (6) is (E-a) Foil stamping transfer film material feeding mechanism (62) having the function of feeding the foil stamping transfer film material (61), (E-b) A foil stamping transfer film receiving mechanism (63) having the function of receiving and winding up the foil stamping transfer film material (61) that is fed from the foil stamping transfer film material feeding mechanism (62), In addition, (E-c) A foil stamping transfer film material supply mechanism connecting plate that connects the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63), Equipped with, Here, the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feeding mechanism (62) in a form that is continuously wound in layers, is unfolded into a strip form and sent to the foil stamping transfer film material receiving mechanism (63), and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism (63). The foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) are fixed and held on the foil stamping transfer film material supply mechanism connecting plate, and are positioned opposite each other at a predetermined distance apart, and are configured to transport and stretch the foil stamping transfer film material (61). (E-a) The foil stamping transfer film material feeding mechanism (62) is A foil stamping transfer film material feeding mechanism holding member (621), A foil stamping transfer film material replacement member (622), Foil stamping transfer film material feed motor (623), A transient drum (624) for feeding foil transfer film material, It has a foil stamping transfer film material feed and press member (625) that has the function of pressing the foil stamping transfer film material in the direction of the desired workpiece, The foil stamping transfer film material feeding motor (623) is Foil stamping transfer film material feed motor body (623a), A foil stamping transfer film material feed motor bearing housing member (623b) connected to the shaft end of the foil stamping transfer film material feed motor body, The foil stamping transfer film material feed motor has a rotating shaft (623c) connected to the bearing housing member, The foil stamping transfer film material feed motor - rotating shaft (623c) has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material feed motor rotating shaft (623c) is connected to the foil stamping transfer film material feed motor body (623a) via the foil stamping transfer film material feed motor bearing housing member (623b), The foil stamping transfer film material (61) is detachably attached to the foil stamping transfer film material feed motor rotation shaft (623c), The foil stamping transfer film material feeding mechanism holding member (621) comprises a first central holding member (621a) and a first right holding member (621b) connected to one end of the first central holding member, The first central holding member has a first left holding member (621c) connected to the other end, The first right retaining member (621b) and the first left retaining member (621c) are positioned opposite each other with a distance corresponding to the length of the first central retaining member (621a). The first central holding member (621a) is installed parallel to the foil stamping transfer film material feed motor rotation shaft (623c), The left end of the transient drum (624) of the foil stamping transfer film material feeding mechanism is connected to and fixed to the first left holding member (621c). The right end of the transient drum (624) of the foil stamping transfer film material feeding mechanism is connected to and fixed to the first right holding member (621b). The first central holding member (621a) is fixed and held to the foil stamping transfer film material supply mechanism connecting plate. One end of the foil stamping transfer film material feed motor rotating shaft (623c) is connected to the foil stamping transfer film material feed motor bearing housing member (623b), The foil stamping transfer film material feed motor bearing housing member (623b) is held on the upper part of the first right holding member (621b), The other end of the foil stamping transfer film material feed motor rotation shaft (623c) is connected to and fixed to the first left holding member (621c) in a manner that allows for connection and disconnection. As a result, the foil stamping transfer film material feed motor (623) is mounted and held on the upper part of the first right holding member (621b) via the foil stamping transfer film material feed motor bearing housing member (623b). The first right holding member (621b), the foil stamping transfer film material feed motor rotation shaft (623c), and the foil stamping transfer film material feed mechanism transient drum (624) are installed parallel to each other. The foil stamping transfer film material replacement member (622) is A foil stamping transfer film material width adjustment member (622a), It has a foil stamping transfer film material replacement and fixing member (622b), The foil stamping transfer film material width adjustment member (622) is attached to the foil stamping transfer film material feed motor-rotating shaft (623c) and has the function of adjusting the width of the foil stamping transfer film material (61) and attaching it. The foil stamping transfer film material replacement fixing member (622b) is configured to be able to connect and lock the other end of the foil stamping transfer film material feed motor-rotating shaft (623c) to the first left holding member (621c), and to release the connection lock. The foil stamping transfer film material replacement member (622) is configured such that the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feed motor rotating shaft (623c), and with the width of the foil stamping transfer film material (61) adjusted to a desired width, one end of the foil stamping transfer film material replacement fixing member (622b) is connected and fixed to the upper part of the first left holding member (621c), and the other end of the foil stamping transfer film material replacement fixing member (622b) is configured to be able to be connected and locked to the other end of the foil stamping transfer film material feed motor rotating shaft (623c), and the connection lock can be released. As a result, the foil stamping transfer film material (61), which has a strip shape and is continuously wound in layers, is attached and detachably mounted to the foil stamping transfer film material feed motor rotating shaft (623c) by the foil stamping transfer film material replacement member (622). The foil stamping transfer film material (61), which is attached to the foil stamping transfer film material feed motor rotating shaft (623c), is configured to be supplied in a strip-like form from the foil stamping transfer film material replacement member (622) toward the foil stamping transfer film material feed presser member (625), The foil stamping transfer film material feed presser member (625) is installed below the foil stamping transfer film material feed mechanism holding member (621), The foil stamping transfer film material feeding and pressing member (625) is configured to be able to press the strip-shaped foil stamping transfer film material (61) that is fed from the foil stamping transfer film material (61) downwards. (E-b) The foil stamping transfer film material receiving mechanism (63) is A foil stamping transfer film material receiving mechanism holding member (631), Foil stamping transfer film material receiving motor (632), A second shaft member (634) having a second shaft (634c) for receiving foil transfer film material, A foil stamping transfer film material receiving and pressing member transient drum (636), A second axis synchronous rotation assist member (637) for receiving foil stamping transfer film material, A foil stamping transfer film material receiving and pressing member (635) having the function of pressing the foil stamping transfer film material in the direction of the desired workpiece, It has, The foil stamping transfer film material receiving second shaft synchronous rotation assist member (637) has the function of rotating the foil stamping transfer film material receiving second shaft (634c) in synchronization with the foil stamping transfer film material receiving motor (632), The foil stamping transfer film material receiving mechanism holding member (631) is It has a second central holding member (631a), a second right holding member (631b) connected to one end of the second central holding member, and a second left holding member (631c) connected to the other end of the second central holding member. The second right retaining member (631b) and the second left retaining member (631c) are positioned opposite each other with a distance corresponding to the length of the second central retaining member (631a). The second central holding member (631a) is installed on the foil stamping transfer film material supply mechanism connecting plate, and the second central holding member (631a) is fixed and installed in a position facing each other at a predetermined distance apart from the first central holding member (621a) of the foil stamping transfer film material feeding mechanism holding member (621). The aforementioned foil stamping transfer film material receiving motor (632) is Foil stamping transfer film material receiving motor body (632a), A foil stamping transfer film material receiving motor bearing housing member (632b) is connected to the shaft end of the foil stamping transfer film material receiving motor body (632a), The foil stamping transfer film material receiving motor has a rotating shaft (632c) connected to the bearing housing member (632b), The aforementioned foil stamping transfer film material receiving motor-rotating shaft (632c) has a cylindrical or cylindrical shape. One end of the foil stamping transfer film material receiving motor - rotating shaft (632c) is connected to the foil stamping transfer film material receiving motor - main body (632a) via the foil stamping transfer film material receiving motor - bearing housing member (632b), The second central holding member (631a) is installed parallel to the foil stamping transfer film material receiving motor rotation shaft (632c), The foil stamping transfer film material receiving motor (632) is attached to and held by the second right holding member (631b) via the foil stamping transfer film material receiving motor bearing housing member (632b), One end of the foil stamping transfer film material receiving motor rotating shaft (632c) is connected to the foil stamping transfer film material receiving motor bearing housing member (632b), and the foil stamping transfer film material receiving motor bearing housing member (632b) is connected to and fixed to the second right holding member (631b) and held in place. The other end of the foil stamping transfer film material receiving motor rotating shaft (632c) is connected to and fixed to the second left holding member (631c) and held in place. One end of the second shaft (634c) that receives the foil stamping transfer film material is rotatably held and installed on the second right holding member (631b), The other end of the second shaft (634c) that receives the foil stamping transfer film material is rotatably held and installed on the second left holding member (631c). The foil stamping transfer film material receiving second axis synchronous rotating member (637) is connected to the shaft end of the foil stamping transfer film material receiving rotating shaft (632c) and the shaft end of the foil stamping transfer film material receiving second axis (634c) so as to be able to rotate synchronously with each other. In this manner, the foil stamping transfer film material receiving motor rotation shaft (632c) and the foil stamping transfer film material receiving second shaft (634c) are held and installed on the foil stamping transfer film material receiving mechanism holding member (631) so as to be parallel to each other, and are connected so as to be rotatable in a synchronous manner. As a result, the foil stamping transfer film material receiving motor (632) is driven so that the foil stamping transfer film material receiving motor rotating shaft (632c) and the foil stamping transfer film material receiving second shaft (634c) are connected to each other so as to be rotatable in sync with each other. As a result, the foil stamping transfer film material (61), which is in the shape of a strip and is fed from the foil stamping transfer film material feeding mechanism (62), passes through the foil stamping transfer film material receiving and pressing member (635), passes through the foil stamping transfer film material receiving motor-rotating shaft (632c), and is wound up on the foil stamping transfer film material receiving second shaft (634c) so that it can be received. (b) Steps to prepare the pressing plate workpiece positioning member unit (7), (c) A step of installing the pressing plate workpiece positioning member unit (7) at a predetermined position on the lower plate mechanism (3) of the pressing transfer processing apparatus body, (d) With the pressing plate workpiece positioning member unit (7) positioned between the upper plate mechanism (2) and the lower plate mechanism (3), and with no foil stamping transfer film material (61) interposed between the upper plate mechanism (2) and the lower plate mechanism (3), the upper plate mechanism (2) is lowered. The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e) Raise the upper plate mechanism (2) This separates the upper base plate (72), which is attached and fixed to the upper plate mechanism (2), from the upper end of the pressing plate workpiece positioning member (77). Subsequently, the process involves removing the workpiece positioning member (77) from the workpiece positioning member unit (7) for the pressing process, from which the upper substrate (72) has been removed. (f) A step of attaching and detachably mounting a desired workpiece (75) to the lower substrate (73) of the pressing plate workpiece positioning member unit (7), (g-1) With the desired foil stamping transfer film material (61) mounted on the foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) so as to be detachable and removable, the foil stamping transfer film material (61) is positioned and interposed between the desired pressing plate (74) mounted on the upper substrate (72) and the desired workpiece (75), The foil stamping transfer film material feed press member (625) presses the strip-shaped foil stamping transfer film material (61) that is fed from the foil stamping transfer film material (61) downward toward the desired workpiece (75), With the foil stamping transfer film material receiving and pressing member (635) pressing the strip-shaped foil stamping transfer film material (61) downward toward the desired workpiece (75), The upper plate mechanism (2) is lowered, The process involves pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61), As a result, a separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired drawing character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred. And, (h) A step of removing the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred from the lower substrate (73), Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). The method for pressing and transferring a foil-stamped transfer film material for a workpiece according to feature 38.
41. In the method for pressing and transferring a foil stamping transfer film material of a workpiece according to claim 38, (a) In the step of preparing the main body of the press transfer processing apparatus equipped with the upper platen mechanism (2) and the lower platen mechanism (3), (E) The foil stamping transfer film material supply mechanism is (E-a) A foil stamping transfer film material feeding mechanism (62) that feeds the desired foil stamping transfer film material (61), (E-b) A foil stamping transfer film material receiving mechanism (63) that receives the foil stamping transfer film material (61) sent from the foil stamping transfer film material feeding mechanism (62), In addition, (E-d) A foil stamping transfer film material feeding mechanism (62) and a foil stamping transfer film material receiving mechanism (63) rotating device (64) that can rotate them to a desired angular position in the planar direction. Equipped with, Here, the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feeding mechanism (62) in a form that is continuously wound in layers, is unfolded into a strip form and sent to the foil stamping transfer film material receiving mechanism (63), and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism (63). The foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) are positioned opposite each other at a predetermined distance apart and are configured to transport and stretch the foil stamping transfer film material (61). (E-d) The foil stamping transfer film material feeding mechanism receiving mechanism rotating device (64) is Foil rotating device fixed base plate (641), Foil rotating device drive mechanism (642), And, The foil rotating device is equipped with a rotating mechanism (643), A through-hole (641a) of the foil rotating device fixing bottom plate (641) is formed in the central region of the foil rotating device fixing bottom plate (641). The upper plate mechanism (2) is installed in such a manner that it penetrates the fixed bottom plate through hole (641a) of the foil rotating device. (E-d-a) The foil rotating device drive mechanism (642) is Mounting frame (642a) for the motor drive mechanism of the foil rotating device, installed on the upper surface of the foil rotating device fixed base plate (641), The motor body (642b) of the foil rotating device drive mechanism drive motor is installed on the mounting frame (642a) for the foil rotating device drive mechanism drive motor, A motor bearing (642f) for the foil rotating device drive mechanism is connected to the motor body for the foil rotating device drive mechanism (642b). Foil rotating device drive mechanism drive motor - rotating shaft (642c), And, A gear member (642d) of the foil rotating device drive mechanism, which has a gear shape on its outer circumference, is installed at the tip of the motor for driving the foil rotating device drive mechanism - rotating shaft (642c), Equipped with, Here, the mounting base (642a) for the motor that drives the foil rotating device drive mechanism is fixed to the foil rotating device fixing base plate (641), The motor for the foil rotating device drive mechanism (642c) is mounted perpendicular to the fixed base plate (641) of the foil rotating device, and the motor for the foil rotating device drive mechanism (642b) is mounted perpendicular to the fixed base plate (641) of the foil rotating device. The outer peripheral gear member (642d) of the foil rotating device drive mechanism has a gear shape on its outer circumference. (E-d-b) The foil rotating device rotation mechanism (643) is A rotating plate (643a) for foil stamping transfer film material having a rotatable annular shape, The device comprises an annular rotating plate inner gear member (643b) installed in the inner circumferential region of the lower surface of the annular foil stamping transfer film material rotating plate (643a), The outer circumferential gear member (642d) of the foil rotating device drive mechanism and the inner circumferential gear member (643b) of the foil rotating device drive mechanism's rotating plate are engaged with each other, and the rotation of the motor body (642b) for driving the foil rotating device drive mechanism causes the outer circumferential gear member (642d) of the foil rotating device drive mechanism to rotate and the inner circumferential gear member (643b) of the rotating plate to rotate, thereby allowing the foil stamping transfer film material rotating plate (643a), on which the inner circumferential gear member (643b) is fixedly installed, to rotate to a desired position and stop at a desired position, thus enabling rotation and stopping. (E-a) The foil stamping transfer film material feeding mechanism (62) is fixed and installed in a predetermined position on the foil stamping transfer film material rotating plate (643a), (E-b) The foil stamping transfer film material receiving mechanism (63) is installed at a position opposite to the foil stamping transfer film material feeding mechanism (62) of the foil stamping transfer film material rotating plate (643a), (b) A step of preparing the pressing plate workpiece positioning member unit (7) on which the desired pressing plate (74) is installed, (c) A step of installing the pressing plate workpiece positioning member unit (7) at a predetermined position on the lower plate mechanism (3) of the pressing transfer processing apparatus body, (d-2) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered. The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e) Raise the upper plate mechanism (2) This separates the upper base plate (72) attached to the upper plate mechanism (2) from the upper end of the pressing plate workpiece positioning member (77), Subsequently, the process involves removing the workpiece positioning member (77) from the workpiece positioning member unit (7) for the pressing process, from which the upper substrate (72) has been removed. (f) A step of attaching and detachably mounting a desired workpiece (75) to the lower substrate (73) of the pressing plate workpiece positioning member unit (7), (g-2) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, This completes the process of pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61). As a result, the transfer film drawing character pattern, which matches the desired graphic character pattern formed on the desired pressing plate (74), is transferred and formed on the surface of the desired workpiece (75). Subsequently, the process involves raising the upper plate mechanism (2), And, (h) A step of removing the desired workpiece (75a) on which the transfer film drawing characters and patterns have been transferred from the lower substrate (73), Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). The method for pressing and transferring a foil-stamped transfer film material for a workpiece according to feature 38.
42. In the method for pressing and transferring a foil stamping transfer film material for a workpiece according to claim 38, (a) In the process of preparing the main body of the press transfer processing apparatus, (B) The lower plate mechanism (3) comprises a lower plate base (31) and a movable lower plate (32), The lower base plate (31) is fixed and installed on the frame (9), The movable lower plate (32) is installed above the lower plate base (31), The movable lower plate (32) is configured to be installable at a desired position on the lower plate base (31), (B) The lower plate mechanism (3) further comprises a positioning member unit transport device (33), The positioning member unit transport device (33) includes a transport device member (331) and a transport device member drive motor (332) that drives the transport device member. The motor rotation shaft of the transport equipment member drive motor (332) is connected to the transport equipment member (331), The transport equipment member drive motor (332) is fixed to the lower base (31) and / or the frame (9), The transport device member (331) is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower base (31), The movable lower plate (32) is configured to be movable in the front-rear and vertical directions in the planar direction of the upper surface of the lower plate base (31) by the drive of the transport device member (331), As a result, the movable lower plate (32) is configured to move in the front-to-back and vertical directions in the planar direction by the drive of the positioning member unit transport device (33) and be installed at a desired position on the lower plate base (31). (A) The upper plate mechanism (2) is Upper board (21) and Upper plate bottom plate (22) and Upper panel up and down drive electric cylinder (23), Upper panel fall prevention cylinder (24), Upper plate Z-axis lock cylinder (25), Equipped with, The aforementioned upper panel vertical drive electric cylinder (23) is attached to the frame (9), The upper panel substrate (21) is attached to a portion of the upper panel vertical drive electric cylinder (23), The upper panel fall prevention cylinder (24) is attached to the upper panel base plate (21), The upper panel Z-axis lock cylinder (25) is attached to the upper panel base plate (21), The upper panel bottom plate (22) is attached to the lower side of the upper panel base plate (21) by the upper panel fall prevention cylinder (24), The upper panel substrate (21) is configured to be attachable to the upper panel vertical drive electric cylinder (23), The upper panel's vertical drive electric cylinder (23) drives the upper panel's base plate (21) and the upper base plate (72) attached to the upper panel's base plate (21), and the upper panel's bottom plate (22) is also configured to be driveable vertically. (E) The foil stamping transfer film material supply mechanism is (E-a) A foil stamping transfer film material feeding mechanism (62) that feeds the desired foil stamping transfer film material (61), (E-b) A foil stamping transfer film material receiving mechanism (63) that receives the foil stamping transfer film material (61) sent from the foil stamping transfer film material feeding mechanism (62), (E-d) A foil stamping transfer film material feeding mechanism (62) and a foil stamping transfer film material receiving mechanism (63) rotating device (64) that can rotate them to a desired angular position in the planar direction, Equipped with, Here, the foil stamping transfer film material (61) is attached to the foil stamping transfer film material feeding mechanism (62) in a form that is continuously wound in layers, is unfolded into a strip form and sent to the foil stamping transfer film material receiving mechanism (63), and is configured to be received and wound up by the foil stamping transfer film material receiving mechanism (63). The foil stamping transfer film material feeding mechanism (62) and the foil stamping transfer film material receiving mechanism (63) are positioned opposite each other at a predetermined distance apart and are configured to transport and stretch the foil stamping transfer film material (61). (E-d) The foil stamping transfer film material feeding mechanism receiving mechanism rotating device (64) is Foil rotating device fixed base plate (641), Foil rotating device drive mechanism (642), And, The foil rotating device is equipped with a rotating mechanism (643), A through-hole (641a) of the foil rotating device fixing bottom plate (641) is formed in the central region of the foil rotating device fixing bottom plate (641). The upper plate mechanism (2) is installed in such a manner that it penetrates the fixed bottom plate through hole (641a) of the foil rotating device. (E-d-a) The foil rotating device drive mechanism (642) is Mounting frame (642a) for the motor drive mechanism of the foil rotating device, installed on the upper surface of the foil rotating device fixed base plate (641), The motor body (642b) of the foil rotating device drive mechanism drive motor is installed on the mounting frame (642a) for the foil rotating device drive mechanism drive motor, The motor body for the foil rotating device drive mechanism is connected to (642b) the motor bearing (642f) and the motor rotating shaft (642c) of the foil rotating device drive mechanism, And, A gear member (642d) of the foil rotating device drive mechanism, which has a gear shape on its outer circumference, is installed at the tip of the motor for driving the foil rotating device drive mechanism - rotating shaft (642c), Equipped with, Here, the mounting base (642a) for the motor that drives the foil rotating device drive mechanism is fixed to the foil rotating device fixing base plate (641), The motor for the foil rotating device drive mechanism (642c) is mounted perpendicular to the fixed base plate (641) of the foil rotating device, and the motor for the foil rotating device drive mechanism (642b) is mounted perpendicular to the fixed base plate (641) of the foil rotating device. The outer peripheral gear member (642d) of the foil rotating device drive mechanism has a gear shape on its outer circumference. (E-d-b) The foil rotating device rotation mechanism (643) is A rotating plate (643a) for foil stamping transfer film material having a rotatable annular shape, The device comprises an annular rotating plate inner gear member (643b) installed in the inner circumferential region of the lower surface of the annular foil stamping transfer film material rotating plate (643a), The outer circumferential gear member (642d) of the foil rotating device drive mechanism and the inner circumferential gear member (643b) of the rotating plate of the foil rotating device drive mechanism are engaged with each other, and the outer circumferential gear member (642d) of the foil rotating device drive mechanism rotates as the motor body (642b) drives the foil rotating device drive mechanism, and the inner circumferential gear member (643b) of the rotating plate rotates as well. As a result, the rotating plate (643a) of the foil stamping transfer film material, on which the internal gear member (643b) of the rotating plate is fixedly installed, is configured to rotate to a desired position and stop at a desired position, enabling rotation and stopping. (E-a) The foil stamping transfer film material feeding mechanism (62) is fixed and installed in a predetermined position on the foil stamping transfer film material rotating plate (643a), (E-b) The foil stamping transfer film material receiving mechanism (63) is installed at a position opposite to the foil stamping transfer film material feeding mechanism (62) of the foil stamping transfer film material rotating plate (643a), (b) A step of preparing the pressing plate workpiece positioning member unit (7) on which the desired pressing plate (74) is installed, Here, (CD) In the pressing plate workpiece positioning member unit (7), An upper plate (72) that can be attached to and removed from the upper plate mechanism (2) in the downward direction, A lower base plate (73) that can be attached to and removed from the upper part of the lower plate mechanism (3), A removable pressing plate workpiece positioning member (77) is provided to set the relative position between the desired pressing plate (74) and the desired workpiece (75). A workpiece mounting member (76) is installed above the lower substrate (73), A pressing plate workpiece positioning member unit (7) having Equipped with, The upper substrate (72) has a positioning member upper substrate receiving member (72a) formed on the lower surface of the upper substrate, The lower substrate (73) has a positioning member lower substrate receiving member (73a) formed on the upper surface of the lower substrate, (CD) The pressing plate workpiece positioning member (77) has a plurality of pressing plate workpiece positioning members (77), Each pressing plate workpiece positioning member (77) has a column shape, a cylindrical rod shape, or a rectangular prism rod shape. The upper end of each pressing plate workpiece positioning member (77) engages with the positioning member upper substrate receiving member (72a) formed on the upper substrate (72), and is attached and detachably. Each pressing plate workpiece positioning member (77) has its other end, the lower end, engaged with the positioning member lower substrate receiving member (73a) formed on the lower substrate (73), and is attached and detachably mounted. During operation, the upper end of each pressing plate workpiece positioning member (77) is detached from the upper base plate (72), and the lower end of each pressing plate workpiece positioning member (77) is detached from the lower base plate (73), and the device is configured to be drivable in this state. (CD) The desired pressing plate (74) is attached to the bottom surface of the upper base plate (72) of the pressing plate workpiece positioning member unit (7) in a manner that allows for attachment and removal. The desired workpiece (75) is attached to the lower base plate (73) of the pressing plate workpiece positioning member unit (7) in a manner that allows for attachment and removal. (CD) The pressing plate workpiece positioning member unit (7) is, Furthermore, the lower substrate (73) has a workpiece mounting plate (78) configured to allow adjustment of its position in the left-right lateral direction and the front-back vertical direction in the planar direction, The desired workpiece (75) is attached to the workpiece mounting plate (78) in a removable manner. As a result, The position of the workpiece mounting plate (78) is formed to be adjustable by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73). The relative position between the desired pressing plate (74) and the desired workpiece (75) attached to the workpiece mounting plate (78) is formed to be adjustable. (CD) In the pressing plate workpiece positioning member unit (7), The workpiece mounting plate (78) is (i) A left-right lateral adjustment mounting plate (78a) that can adjust the left-right lateral position in the planar direction, It has a front-to-back vertical adjustment mounting plate (78b) that can adjust the front-to-back vertical position in the planar direction, Here, (i-a) The left and right lateral adjustment mounting plate (78a) is installed on the lower base plate (73) so as to be movable and adjustable in the left and right lateral directions. The front-to-back vertical adjustment mounting plate (78b) is installed on the left-to-right horizontal adjustment mounting plate (78a) so as to be movable in the front-to-back vertical direction. The desired workpiece (75) is attached to the front and rear vertical adjustment mounting plate (78b) in a manner that allows for attachment and removal. Or, (i-b) The front-to-back vertical adjustment mounting plate (78b) is installed on the lower base plate (73) so as to be movable and adjustable in the left-to-right lateral direction, The left-right lateral adjustment mounting plate (78a) is installed on the front-rear vertical adjustment mounting plate (78b) so as to be movable in the front-rear vertical direction. The desired workpiece (75) is attached to the left and right lateral adjustment mounting plate (78a) in a manner that allows for attachment and removal. Or, The workpiece mounting plate (78) is (ii) Having a left-right lateral and front-back vertical adjustment mounting plate that can adjust the position in the left-right lateral and front-back vertical directions in the planar direction, In this way, the position of the workpiece mounting plate (78) is formed to be adjustable by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73). The relative position between the desired pressing plate (74) and the desired workpiece (75) attached to the workpiece mounting plate (78) is formed to be adjustable. (c-1) The pressing plate workpiece positioning member unit (7) is placed on the positioning member unit mounting position located in the front direction in the front-rear and front-back longitudinal direction in the planar direction of the positioning member unit transport device (33) of the lower plate mechanism (3), Subsequently, the pressing plate workpiece positioning member unit (7), which is placed on the positioning member unit transport device (33), is moved in the rearward direction in the longitudinal direction in the planar direction by the drive of the positioning member unit transport device (33) to a desired position on the lower plate base (31), and then installed at the desired foil stamping position. This positions the pressing plate workpiece positioning member unit (7) between the upper plate mechanism (2) and the lower plate mechanism (3), (c-2) In the pressing plate workpiece positioning member unit (7) located between the upper plate mechanism (2) and the lower plate mechanism (3), the position of the workpiece mounting plate (78) is adjusted by moving it in the front-to-back vertical direction and left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73), thereby fine-tuning the relative position between the desired pressing plate (74) and the workpiece mounting member (76). (d-2) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64) so that the foil stamping transfer film material (61) is not interposed. The upper platen mechanism (2) is lowered, and the upper surface of the upper base plate (72) of the pressing plate workpiece positioning member unit (7) is pressed and brought into contact with the upper platen bottom plate (22) of the upper platen mechanism (2). In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e-1) After step (d-2), a step of raising the upper plate mechanism (2), As a result, the upper base plate (72), which is attached to the upper plate mechanism (2) and on which the desired pressing plate (74) is mounted, is separated from the upper ends of each pressing plate workpiece positioning member (77) of the pressing plate workpiece positioning member unit (7). Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72), The upper substrate (72) remains attached to the upper panel mechanism (2) in a removable and fixed state. (e-2) The movable lower plate (32) on which the pressing plate workpiece positioning member unit (7), which does not have the upper base plate (72) on which the desired pressing plate (74) is attached and installed, is moved forward in the longitudinal direction in the planar direction by the positioning member unit transport device (33) to transport it to the positioning member unit mounting position on the lower plate base (31), Subsequently, at the positioning member unit mounting position, the lower ends of each of the pressing plate workpiece positioning members (77) are separated from the positioning member lower base plate receiving member (73a) of the lower base plate (73) of the pressing plate workpiece positioning member unit (7) from which the upper base plate (2) has been removed, thereby removing each of the pressing plate workpiece positioning members (77) from the pressing plate workpiece positioning member unit (7). (f-1) A workpiece mounting member (76) is installed on the lower substrate (73) of the press workpiece positioning member unit (7), which does not have the upper substrate (72) and the press workpiece positioning member (77), and a desired workpiece (75) is placed on and mounted therein. Subsequently, the pressing plate workpiece positioning member unit (7) on which the desired workpiece (75) is placed is moved in the rearward direction in the longitudinal direction of the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31), and then installed at the desired foil stamping position. Here, the upper base plate (72) of the pressing plate workpiece positioning member unit (7) is attached and fixed to the upper plate mechanism (2) so as to be attachable and detachable, while the plurality of pressing plate workpiece positioning members (77) remain in a detached state. (g-2) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, This completes the process of pressing the desired pressing plate (74) onto the desired workpiece (75) via the foil transfer film material (61). As a result, the transfer film drawing character pattern, which matches the desired graphic character pattern formed on the desired pressing plate (74), is transferred and formed on the surface of the desired workpiece (75). This prepares a desired workpiece (75a) on which a transfer film drawing character pattern is transferred and formed on the surface of the desired workpiece (75). Subsequently, the process involves raising the upper plate mechanism (2), (h-1) The pressing plate workpiece positioning member unit (7), on which the transfer film drawing characters and patterns have been transferred and the desired workpiece (75) has been placed, is moved forward in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to the placement position on the lower plate base (31), Then, the process involves removing the desired workpiece (75a), on which the transfer film drawing characters and patterns have been transferred and formed at the placement position, from the lower substrate (73). And, (i-2) After step (h-1), the pressing plate workpiece positioning member unit (7) having the lower base plate (73) is installed in an upright position by attaching the lower ends of each removed pressing plate workpiece positioning member (77) to the positioning member lower base plate receiving member (73a) of the lower base plate (73). Subsequently, the pressing plate workpiece positioning member unit (7), which has the lower substrate (73) and the respective pressing plate workpiece positioning members (77), is moved in the rearward direction in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31). Subsequently, the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64) is rotated, With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered to engage the upper base plate receiving member (72a), which is a positioning member of the upper base plate (72) on which the desired pressing plate (74) is installed, with the upper end of each of the pressing plate workpiece positioning members (77), thereby assembling and forming a pressing plate workpiece positioning member unit (7) having the upper base plate (72), the desired pressing plate (74), the lower base plate (73), and a plurality of pressing plate workpiece positioning members (77). Subsequently, the pressing plate workpiece positioning member unit (7), which is assembled from the desired pressing plate (74), lower base plate (73), upper base plate (72), and multiple pressing plate workpiece positioning members (77), is moved forward in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to the mounting position on the lower plate base (31). Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). The method for pressing and transferring a foil-stamped transfer film material for a workpiece according to feature 38.
43. In the method for pressing and transferring a foil stamping transfer film material for a workpiece according to claim 42, Furthermore, (j) The step of removing the pressing plate workpiece positioning member unit (7), which is formed by assembling the upper substrate (72), the lower substrate (73), the desired pressing plate (74), and the pressing plate workpiece positioning member (77), from the mounting position on the lower plate base (31), (b-3) A step of preparing another pressing plate workpiece positioning member unit (7) on which another desired pressing plate (74) is installed, Here, (CD) In the aforementioned other pressing plate workpiece positioning member unit (7), An upper plate (72) that can be attached to and removed from the upper plate mechanism (2) in the downward direction, A lower base plate (73) that can be attached to and removed from the upper part of the lower plate mechanism (3), A removable pressing plate workpiece positioning member (77) for setting the relative position between a desired pressing plate (74) and a desired workpiece (75), A workpiece mounting member (76) is installed above the lower substrate (73), Another pressing plate workpiece positioning member unit (7) having Equipped with, The upper substrate (72) has a positioning member upper substrate receiving member (72a) formed on the lower surface of the upper substrate, The lower substrate (73) has a positioning member lower substrate receiving member (73a) formed on the upper surface of the lower substrate, (CD) The pressing plate workpiece positioning member (77) has a plurality of pressing plate workpiece positioning members (77), Each pressing plate workpiece positioning member (77) has a column shape, a cylindrical rod shape, or a rectangular prism rod shape. The upper end of each pressing plate workpiece positioning member (77) engages with the positioning member upper substrate receiving member (72a) formed on the upper substrate (72), and is attached and detachably. Each pressing plate workpiece positioning member (77) has its other end, the lower end, engaged with the positioning member lower base plate receiving member (73a) formed on the lower base plate (73), and is attached and detachably mounted. During operation, the upper end of each pressing plate workpiece positioning member (77) is detached from the upper base plate (72), and the lower end of each pressing plate workpiece positioning member (77) is detached from the lower base plate (73), and the unit is configured to be drivable in this state, (CD) a desired pressing plate (74) is detachably attached to the bottom surface of the upper base plate (72) of the pressing plate workpiece positioning member unit (7), Another desired workpiece (75) is attached to the lower base plate (73) of the other pressing plate workpiece positioning member unit (7) in a manner that allows for attachment and removal. (c-3) The other pressing plate workpiece positioning member unit (7) is placed on the positioning member unit placement position located in the front direction in the front-rear and front-back longitudinal direction in the planar direction of the positioning member unit transport device (33) of the lower plate mechanism (3), Subsequently, the other pressing plate workpiece positioning member unit (7) placed on the positioning member unit transport device (33) is moved in the rearward direction in the longitudinal direction in the planar direction by the drive of the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31), and then installed at the desired foil stamping position. (d-3) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered. The upper surface of the upper base plate (72) of the other pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the other desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e-3) Raise the upper plate mechanism (2) This separates the upper base plate (72), which is attached to the upper plate mechanism (2) and on which the other desired pressing plate (74) is mounted, from the other pressing plate workpiece positioning member unit (7). Subsequently, the other pressing plate workpiece positioning member unit (7), which does not have the upper base plate (72) on which the other desired pressing plate (74) is attached, is moved forward in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to the positioning member unit mounting position on the lower plate base (31). Subsequently, the process involves removing the workpiece positioning member (77) from the other workpiece positioning member unit (7) for pressing, from which the upper substrate (72) has been removed. (f-3) Another desired workpiece (75) is attached and installed on the lower base plate (73) of the other pressing workpiece positioning member unit (7), Subsequently, the other pressing plate workpiece positioning member unit (7) on which the other desired workpiece (75) is placed is moved in the rearward direction in the longitudinal direction of the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31), and then installed at the desired foil stamping position. (g-3) Rotate the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64), With the foil stamping transfer film material (61) positioned and interposed between the other desired pressing plate (74) attached to the upper substrate (72) and the other desired workpiece (75), The upper plate mechanism (2) is lowered, This allows the other desired pressing plate (74) to press the other desired workpiece (75) through the foil transfer film material (61), As a result, the transfer film drawing character pattern, which matches the desired graphic character pattern formed on the other desired pressing plate (74), is transferred and formed on the surface of the other desired workpiece (75). Subsequently, the process involves raising the upper plate mechanism (2), (h-3) The other pressing plate workpiece positioning member unit (7), on which the transfer film drawing characters and patterns have been transferred and on which the other desired workpiece (75) has been placed, is moved forward in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to the placement position on the lower plate base (31), Then, the process involves removing the other desired workpiece (75a) on which the transfer film drawing characters and patterns have been transferred and formed at that position from the lower substrate (73). And, (i-3) After step (h-3), the lower end of the removed pressing plate workpiece positioning member (77) is attached to the positioning member lower base plate receiving member (73a) of the lower base plate (73) and installed upright on the other pressing plate workpiece positioning member unit (7) having the lower base plate (73). Subsequently, the other pressing plate workpiece positioning member unit (7), which has the lower substrate (73) and the pressing plate workpiece positioning member (77), is moved in the rearward direction in the longitudinal direction in the planar direction of the positioning member unit transport device (33) to transport it to the desired foil stamping position on the lower plate base (31). Subsequently, the foil stamping transfer film material feeding mechanism receiving mechanism rotating mechanism (64) is rotated, With the foil stamping transfer film material (61) not interposed, the upper plate mechanism (2) is lowered to engage the upper substrate receiving member (72a), which is the positioning member of the upper substrate (72) on which the other desired pressing plate (74) is installed, with the upper end of the pressing plate workpiece positioning member (77), thereby assembling and forming another pressing plate workpiece positioning member unit (7) having the other desired pressing plate (74), a lower substrate (73), an upper substrate (72), and a pressing plate workpiece positioning member (77). Subsequently, the process involves assembling the desired pressing plate (74), lower substrate (73), upper substrate (72), and pressing plate workpiece positioning member (77) to form the other pressing plate workpiece positioning member unit (7), and then moving the positioning member unit transport device (33) in the forward direction in the longitudinal direction in the planar direction to transport it to the mounting position on the lower plate base (31). Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the other desired stamping plate (74) is transferred and formed on the surface of the other desired workpiece (75). The method for pressing and transferring a foil stamping transfer film material onto a workpiece, as described in feature 42.
44. In the method for pressing and transferring a foil stamping transfer film material of a workpiece according to claim 38, (a) Steps to prepare the main body of the pressing transfer processing apparatus, (b) In the step of preparing the pressing plate workpiece positioning member unit (7), (CD) The pressing plate workpiece positioning member unit (7) is, Furthermore, the lower substrate (73) has a workpiece mounting plate (78) configured to allow adjustment of its position in the left-right lateral direction and the front-back vertical direction in the planar direction, The workpiece mounting plate (78) is (i) A left-right lateral adjustment mounting plate (78a) that can adjust the left-right lateral position in the planar direction, It has a front-to-back vertical adjustment mounting plate (78b) that can adjust the front-to-back vertical position in the planar direction, Here, (i-a) The left and right lateral adjustment mounting plate (78a) is installed on the lower base plate (73) so as to be movable and adjustable in the left and right lateral directions. The front-to-back vertical adjustment mounting plate (78b) is installed on the left-to-right horizontal adjustment mounting plate (78a) so as to be movable in the front-to-back vertical direction. The desired workpiece (75) is attached to the front and rear vertical adjustment mounting plate (78b) in a manner that allows for attachment and removal. Or, (i-b) The front-to-back vertical adjustment mounting plate (78b) is mounted on the lower base plate (73) so as to be movable and adjustable in the left-to-right lateral direction. The left-right lateral adjustment mounting plate (78a) is installed on the front-rear vertical adjustment mounting plate (78b) so as to be movable in the front-rear vertical direction. The desired workpiece (75) is attached to the left and right lateral adjustment mounting plate (78a) in a manner that allows for attachment and removal. Or, The workpiece mounting plate (78) is (ii) Having a left-right lateral and front-back vertical adjustment mounting plate that can adjust the position in the left-right lateral and front-back vertical directions in the planar direction, In this way, the position of the workpiece mounting plate (78) is formed to be adjustable by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73). The relative position between the desired pressing plate (74) and the desired workpiece (75) attached to the workpiece mounting plate (78) is formed to be adjustable. (CD) The pressing plate workpiece positioning member unit (7) further comprises a workpiece mounting member (76) installed above the lower base plate (73), The desired workpiece (75) is configured to be attachable to and detachable from the workpiece mounting member (76), (c) A step of installing the pressing plate workpiece positioning member unit (7) at a predetermined position on the lower plate mechanism (3) of the pressing transfer processing apparatus body, Here, the position of the workpiece mounting plate (78) is adjusted by moving it in the front-to-back vertical direction and the left-to-right horizontal direction in the planar direction of the upper surface of the lower base plate (73). This allows for fine adjustment of the relative position between the desired pressing plate (74) and the workpiece mounting member (76), (d) With the pressing plate workpiece positioning member unit (7) positioned between the upper plate mechanism (2) and the lower plate mechanism (3), and with no foil stamping transfer film material (61) interposed between the upper plate mechanism (2) and the lower plate mechanism (3), the upper plate mechanism (2) is lowered. The upper surface of the upper base plate (72) of the pressing workpiece positioning member unit (7) is pressed and brought into contact with the upper plate bottom plate (22) of the upper plate mechanism (2), In that pressed contact state, the upper substrate (72) is attached and fixed to the upper plate mechanism (2) in a way that allows it to be attached and removed. Here, the desired pressing plate (74) remains attached to the lower surface of the upper substrate (72). (e) Raise the upper plate mechanism (2) This separates the upper base plate (72), which is attached and fixed to the upper plate mechanism (2), from the upper end of the pressing plate workpiece positioning member (77). Subsequently, the process involves removing the workpiece positioning member (77) from the workpiece positioning member unit (7) for the pressing process, from which the upper substrate (72) has been removed. (f) A step of mounting and installing a desired workpiece (75) by placing it on the workpiece mounting member (76) which is installed on the lower substrate (73) of the pressing plate workpiece positioning member unit (7), so as to be able to attach and detach it. Here, the workpiece mounting plate (78) is placed on the lower substrate (73), and the workpiece mounting member (76) is placed on the workpiece mounting plate (78). (g) The foil stamping transfer film material (61) is positioned and interposed between the desired pressing plate (74) attached to the upper substrate (72) and the desired workpiece (75), The upper plate mechanism (2) is lowered, The process involves pressing the desired workpiece (75) with the desired pressing plate (74) via the foil transfer film material (61), As a result, a separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired drawing character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75), thereby forming the desired workpiece (75a) on which the transfer film drawing character pattern has been transferred. And, (h) A step of removing the desired workpiece (75a) on which the transfer film drawing characters and patterns have been transferred from the workpiece mounting member (76), Equipped with, A separated foil-stamping transfer film material (61a) having a transfer film drawing character pattern that matches the desired graphic character pattern formed on the desired stamping plate (74) is transferred and formed on the surface of the desired workpiece (75). The method for pressing and transferring a foil-stamped transfer film material for a workpiece according to feature 38.
45. The desired workpiece (75) has an overall three-dimensional shape and a surface shape that includes a curved surface and / or an uneven surface and / or a through-hole forming surface, The desired pressing plate (74) has a curved surface and / or an uneven surface that matches the surface shape of the desired workpiece, and the curved surface and / or uneven surface and / or through-hole forming surface has a desired graphic, letter, or pictographic pattern formed in an uneven shape. During operation, The desired pressing plate (74) is mounted below the upper plate mechanism (2), The desired workpiece (75) is mounted above the lower platen mechanism (3), The curved surface and / or uneven surface and / or through-hole forming surface of the desired pressing plate (74) and the curved surface and / or uneven surface and / or through-hole forming surface of the desired workpiece (75) are mounted in positions facing each other. With the desired pressing plate (74) attached to the upper platen mechanism (2) and the desired workpiece (73) attached to the lower platen mechanism (3), At least one of the upper platen mechanism (2) and the lower platen mechanism (3) is driven in the vertical direction so that the desired pressing platen (74) presses the desired workpiece (75) through the foil stamping transfer film material (61), The transfer film drawing character pattern (61a), separated from the foil stamping transfer film material (61) and matching the desired graphic character pattern formed on the desired pressing plate (74), is configured to be transferable onto the curved surface and / or uneven surface and / or through-hole forming surface of the desired workpiece (75). A method for pressing and transferring a foil-stamped transfer film material for a workpiece, as described in any one of claims 38 to 44.