A die apparatus debonding device
By designing an adjustable-angle adhesive removal device, the problem of insufficient adhesive removal at the bending points of curved screens was solved, ensuring the quality of the finished product.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN ETMADE AUTOMATION EQUIP
- Filing Date
- 2025-07-03
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional adhesive removal devices cannot easily and conveniently adjust the irradiation angle, resulting in insufficient adhesive removal at the curved part of the screen, which affects the product yield.
A contouring device for adhesive removal was designed, including a housing and an adhesive removal irradiation component. The adhesive removal irradiation component is angle-adjustable, and the adhesive layer area can be accurately covered by adjusting the tilt angle of the irradiation unit.
This technology enables the complete removal of adhesive at the curved areas of curved screens, preventing residual support film or improper peeling and improving product qualification rate.
Smart Images

Figure CN224465438U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of curved screen processing equipment, and in particular to a debonding device for a profiling equipment. Background Technology
[0002] Curved screens are a display technology that introduces a certain curvature to the display surface compared to traditional flat screens. Their development stems from the maturity of flexible display panel technology. As consumers' demands for immersive visual experiences and high-end product designs continue to increase, curved screens are gradually being widely used in smartphones, wearable devices, televisions, and other fields. In terms of visual appeal, the curved structure provides a wider viewing angle and a stronger sense of immersion, resulting in a more immersive viewing experience. Secondly, in terms of industrial design, curved screens help to achieve a more futuristic and technologically advanced product appearance, enhancing the overall recognizability of the device. Furthermore, curved screens can effectively reduce light reflection at the screen edges, improving image uniformity and brightness consistency.
[0003] Currently, the curved screen bonding process used in the touch screen industry mainly involves attaching a support film and an optical adhesive to a flexible screen body. After the support film on the flexible screen body is clamped with the help of a jig, the screen body is shaped. After the flexible screen body is completely shaped, it needs to be irradiated with a de-adhesive lamp to make the adhesive layer lose its stickiness, so that the film can be easily peeled off. However, traditional de-adhesive lamp devices cannot easily and conveniently adjust the irradiation angle, resulting in insufficient de-adhesion of the adhesive at the curved part of the screen. If the support film is not completely de-adheded or is improperly peeled off, it can easily affect the yield of the finished product. Utility Model Content
[0004] The purpose of this utility model is to address the defects and shortcomings of the existing technology by providing a molding equipment adhesive removal device, which solves at least one of the above-mentioned technical problems and has the advantage of avoiding insufficient adhesive removal at the bending point of the curved screen.
[0005] To achieve the above objectives, this utility model provides a degumming device for a profiling equipment, comprising:
[0006] The box has an internal accommodating space and a through slot at the top that communicates with the accommodating space.
[0007] The adhesive removal irradiation assembly is disposed within the accommodating space and includes a mounting part and an irradiation part, wherein the irradiation part is rotatable and adjustable relative to the mounting part.
[0008] Optionally, the lighting section includes a mounting crossbar, the mounting section includes a base connected to the end of the mounting crossbar, the top of the mounting crossbar is provided with a lighting element, and the mounting crossbar is rotatably connected to the base.
[0009] Optionally, the base includes a mounting column disposed at the bottom of the housing and a mounting seat disposed on the side wall of the housing opposite to the mounting column.
[0010] Optionally, the bottom of the mounting column is provided with a first mounting connecting plate, the bottom of the first mounting connecting plate is provided with at least one first connecting through hole, the bottom of the box is provided with a first connecting hole corresponding to the first connecting through hole, the top of the first mounting connecting plate is provided with a reinforcing rib integrally formed with one side of the mounting column, and the side of the mounting column near the mounting crossbar is provided with a second connecting through hole.
[0011] Optionally, the mounting base includes a second mounting connecting plate and L-shaped brackets disposed on opposite sides of the second mounting connecting plate. The second mounting connecting plate is provided with a third connecting through hole, and the L-shaped brackets are provided with a fourth connecting through hole.
[0012] Optionally, one end of the mounting crossbar is provided with a second connecting hole corresponding to the second connecting through hole, and the other end of the mounting crossbar is provided with a third connecting hole corresponding to the third connecting through hole. The side wall of the housing is provided with a fourth connecting hole corresponding to the fourth connecting through hole. The first connector is connected to the second connecting hole by passing through the second connecting through hole, and the second connector is connected to the third connecting hole by passing through the third connecting through hole.
[0013] Optionally, both the first connecting through hole and the fourth connecting through hole are oval holes, and the first connector and the second connector are screws.
[0014] Optionally, the enclosure includes a bottom plate and a surrounding panel disposed on top of the bottom plate. The surrounding panel consists of four pieces that are sequentially joined end to end to enclose and cooperate with the bottom plate to form an accommodating space.
[0015] Optionally, the enclosure is provided with mounting through holes extending through its opposite ends, and an airtight aviation socket is embedded in the mounting through holes.
[0016] Optionally, the top of the housing is provided with an annular protrusion surrounding the through groove.
[0017] Compared with the prior art, the advantages of this application are:
[0018] This application proposes a technical solution including a housing and a glue-removing irradiation component. The housing forms an accommodating space, and a through slot is opened at the top to connect the space. The glue-removing irradiation component is arranged in the accommodating space and has an angle adjustment function. Specifically, it can be achieved by using a lamp part in conjunction with an installation part. The irradiation range can be changed by adjusting the tilt angle of the lamp part. When processing curved screen workpieces, the operator can adjust the irradiation angle according to the curvature of the screen to ensure that the ultraviolet light accurately covers the glue layer area. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the provided drawings without creative effort.
[0020] Figure 1 This is an isometric schematic diagram of an embodiment of the present utility model;
[0021] Figure 2 This is another isometric view of an embodiment of the present invention;
[0022] Figure 3 This is a top view schematic diagram of an embodiment of the present utility model;
[0023] Figure 4 This is a schematic diagram of the overall structure of an embodiment of the present utility model;
[0024] Figure 5 This is a schematic diagram of the structure of the hidden upper box in an embodiment of the present utility model;
[0025] Explanation of reference numerals in the attached figures:
[0026] 101. Box body; 102. Accommodation space; 103. Through groove; 104. Bottom plate; 105. Enclosure panel; 106. Annular protrusion;
[0027] 200. Debonding irradiation assembly; 201. Mounting crossbar; 203. Light fixture; 204. Mounting column; 204.1. Second connecting through hole; 205. First mounting connecting plate; 205.1. First connecting through hole; 208. Reinforcing rib; 210. Mounting base; 211. Second mounting connecting plate; 212. L-shaped bracket; 212.1. Fourth connecting through hole;
[0028] Airtight aviation socket;
[0029] 600, First transport assembly; 610, Second transport assembly; 620, Upper box; 630, Sealing protrusion. Detailed Implementation
[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0031] It should be noted that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," "back," "side," and "circumferential" used in this utility model to indicate the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. In addition, the terms "first" and "second" are only used to distinguish multiple parts or structures with the same or similar structures, and do not indicate any special limitation on the arrangement order or connection relationship.
[0032] Please refer to Figures 1 to 5 This utility model provides a de-adhesive removal device for contouring equipment. Traditional de-adhesive lamp devices suffer from inconvenient angle adjustment, making it difficult to fully de-adhesive in the curved areas of curved screens. Residual or improperly peeled support film directly affects product yield, and existing equipment cannot meet the de-adhesive removal requirements of complex curved structures.
[0033] To address the aforementioned problems, this application proposes a technical solution including a housing 101 and a degumming irradiation assembly 200. The housing 101 forms an accommodating space 102, with a through-slot 103 at the top connecting to this space. The degumming irradiation assembly 200 is arranged within the accommodating space 102 and has an angle adjustment function. The housing 101 refers to the shell structure supporting the functional assembly, specifically a combination of a metal frame and protective panels, providing a sealed environment for equipment operation. The accommodating space 102 refers to the functional area inside the housing 101, specifically formed by a base plate 104 and a surrounding plate 105, for accommodating the degumming irradiation assembly 200. The through-slot 103 refers to the through structure at the top of the housing 101, specifically a rectangular or circular opening, allowing the degumming assembly to adjust its angle through this opening. The degumming irradiation assembly 200 is a device that generates a degumming beam, specifically a lamp unit combined with a mounting unit, with the irradiation range changed by adjusting the tilt angle of the lamp unit. When processing curved screen workpieces, the operator adjusts the irradiation angle according to the curvature of the screen to ensure that the ultraviolet light accurately covers the adhesive layer area. In this embodiment, four adhesive-removing irradiation components 200 are provided, and each pair is used as a group to irradiate both sides of the curved screen.
[0034] In this embodiment, the illumination unit includes a mounting crossbar 201, and the mounting part includes a base connected to the end of the mounting crossbar 201. An illumination element 203 is disposed on the top of the mounting crossbar 201. The mounting crossbar 201 is rotatably connected to the base. The mounting crossbar 201 refers to a horizontal support member that supports the illumination element 203, and can be made of aluminum alloy profile or steel square tubing. Its top plane is used to fix the installation position of the illumination element 203. The base refers to the base structure that supports the mounting crossbar 201, and achieves axial rotational engagement with the mounting crossbar 201 through the cooperation of a rotating shaft and a shaft hole. The illumination element 203 refers to a light source module for emitting adhesive-removing light, and can be made of a UV-LED array or a laser emitter. Its illumination direction is parallel to the extension direction of the mounting crossbar 201. The rotatable connection refers to the mechanical structure where the mounting crossbar 201 and the base are engaged by a rotating shaft.
[0035] Specifically, the mounting crossbar 201 is rotatably connected to the base via a pivot structure at its end. When the illumination angle needs to be adjusted, the operator can manually rotate the mounting crossbar 201 to make it rotate around the axis of the base. The lamp element 203 is fixed to the top of the mounting crossbar 201, and its illumination direction changes synchronously with the rotation of the mounting crossbar 201. The base is fixed to the bottom of the housing 101 by bolts.
[0036] This application further proposes a base including a mounting column 204 disposed at the bottom of the housing 101 and a mounting seat 210 disposed on the side wall of the housing 101 opposite to the mounting column 204. The mounting column 204 is a support structure vertically fixed to the bottom of the housing 101, which can be made of metal cylinder or square column. Its function is to provide basic support for the adhesive removal irradiation component 200 and ensure the stability of the component when adjusting the angle. The mounting seat 210 is a fixing component fixed to the side wall of the housing 101 and symmetrically distributed with the mounting column 204. Its function is to provide another fixing point for the adhesive removal irradiation component 200. By adjusting the relative positional relationship between the mounting seat 210 and the mounting column 204, the irradiation angle can be flexibly adjusted.
[0037] This application further proposes that the bottom of the mounting column 204 is provided with a first mounting connecting plate 205, the bottom of the first mounting connecting plate 205 is provided with at least one first connecting through hole 205.1, the bottom of the box body 101 is provided with a first connecting hole (not shown in the figure) corresponding to the first connecting through hole 205.1, the top of the first mounting connecting plate 205 is provided with a reinforcing rib 208 integrally formed with one side of the mounting column 204, and the side of the mounting column 204 near the mounting crossbar 201 is provided with a second connecting through hole 204.1. The first mounting connecting plate 205 refers to a plate-like structure used to connect the mounting column 204 and the bottom of the box body 101. Specifically, it can be made by stamping metal sheet. Its function is to realize an adjustable fixed connection between the mounting column 204 and the box body 101 by cooperating with the first connecting through hole 205.1 and the first connecting hole at the bottom of the box body 101. The first connecting through hole 205.1 refers to the hole structure opened at the bottom of the first mounting connecting plate 205. Specifically, it can be a circular hole or an oval hole. Its function is to connect to the bottom of the box 101 through the connecting piece, so as to realize the position adjustment of the mounting column 204.
[0038] Among them, the reinforcing rib 208 refers to a raised structure integrally formed with the mounting column 204 and the first mounting connecting plate 205. Specifically, it can be formed by casting or welding processes. Its function is to increase the bending stiffness of the mounting column 204 by increasing the moment of inertia of the cross section of the connection part.
[0039] This application further proposes that the mounting base 210 includes a second mounting connecting plate 211 and L-shaped brackets 212 disposed on opposite sides of the second mounting connecting plate 211. The second mounting connecting plate 211 is provided with a third connecting through hole (not shown in the figure), and the L-shaped brackets 212 are provided with a fourth connecting through hole 212.1. Specifically, the second mounting connecting plate 211 is fastened to the third connecting hole (not shown in the figure) on the crossbar through the third connecting through hole, and the L-shaped brackets 212 on both sides are fastened to the fourth connecting hole (not shown in the figure) on the side wall of the housing 101 through the fourth connecting through hole 212.1. When it is necessary to adjust the irradiation angle, the fasteners at the second connecting through hole 204.1 and the third connecting through hole can be loosened to allow the mounting crossbar 201 to rotate. After the angle is adjusted to the correct position, they can be tightened again.
[0040] In this embodiment, one end of the mounting crossbar 201 is provided with a second connecting hole (not shown in the figure) corresponding to the second connecting through hole 204.1, and the other end of the mounting crossbar 201 is provided with a third connecting hole corresponding to the third connecting through hole. The side wall of the housing 101 is provided with a fourth connecting hole corresponding to the fourth connecting through hole 212.1. The first connecting member is connected to the second connecting hole by passing through the second connecting through hole 204.1, and the second connecting member is connected to the third connecting hole by passing through the third connecting through hole. Furthermore, the first connecting member and the second connecting member can be implemented using screws or bolts, and the angle adjustment is achieved by passing through the corresponding holes. Furthermore, the first connecting through hole 205.1 and the fourth connecting through hole 212.1 are both oval holes. An oval hole refers to an elliptical through hole extending along the length direction. Specifically, it can be implemented by machining to form an oblong hole structure. Its length direction allows the connecting member to move within a certain range, thereby adjusting the installation position.
[0041] This application further proposes that the enclosure 105 is provided with mounting through holes penetrating its opposite ends, and an airtight aviation socket 500 is embedded in the mounting through hole. The mounting through hole refers to a through-hole that penetrates the two side walls of the enclosure 105, which can be made by mechanical drilling or stamping. The airtight aviation socket 500 refers to an industrial-grade connector with a sealing structure, which can be made by a circular metal shell socket with a rubber sealing ring, and it is interference-fitted with the mounting through hole to form a sealing interface.
[0042] In this embodiment, the top of the housing 101 is provided with an annular protrusion 106 around the through groove 103, and also includes an upper housing 620, a first transport component 600, and a second transport component 610. The bottom of the upper housing 620 body 101 is provided with a sealing protrusion 630 corresponding to the annular protrusion 106. The second transport component 610 is used to adsorb the top of the curved screen from the first transport component 600 and transport it into the housing 101. The first transport component 600 can be an electric slide rail and a support plate, and the second transport component 610 can be an adsorption module. When the adhesive removal irradiation component 200 needs to remove adhesive from the curved screen, the upper housing 620 will descend and contact the top of the housing 101. The annular protrusion 106 and the sealing protrusion 630 cooperate to form a sealed space by the housing 101 and the upper housing 620. At this time, the adhesive removal irradiation component 200 removes adhesive from the curved screen.
[0043] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the substance of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. A degumming device for a profiling machine, characterized in that, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 2. The die forming apparatus of claim 1 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 3. The die set unclamping apparatus of claim 2 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 4. The die set unclamping apparatus of claim 3 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 5. The die set unclamping apparatus of claim 4 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 6. The die set unclamping apparatus of claim 5 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 7. The die set unclamping apparatus of claim 6 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 8. The die set unclamping apparatus of claim 1 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 9. The die set unclamping apparatus of claim 8 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); 10. The die set unclamping apparatus of claim 1 wherein, The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the through slot (103) of communicating with accommodating space (102); The utility model relates to a box body (101) is provided with accommodating space (102) in the inside, and the top is provided with the though