Mark forming device
By combining anti-counterfeiting mark forming units with the imprint, the problem of the imprint lacking anti-counterfeiting function is solved, and the security and reliability of the mark are improved, preventing the mark from being illegally copied or tampered with.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING DONGMA SEAL TECHNOLOGY CO LTD
- Filing Date
- 2025-06-12
- Publication Date
- 2026-06-09
Smart Images

Figure CN224335316U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of imprint formation, specifically to an imprint formation device. Background Technology
[0002] With the continuous development of technology, there are more and more ways to form marks. For example, marks can be formed by stamping and printing. Stamping generally involves pressing a mold against a substrate (such as paper). The mold has raised characters with ink on them. When the characters on the mold are pressed against the substrate, a mark is formed on the substrate.
[0003] In the existing technology, the imprint formed by the stamp does not have anti-counterfeiting function, thus posing a technical problem of low security in the use of stamps. Summary of the Invention
[0004] This invention provides a mark forming device to solve the technical problem that the marks formed by the mold in the prior art do not have anti-counterfeiting functions, thus resulting in low security of the mark.
[0005] The above-mentioned objectives of this utility model can be achieved by the following technical solutions:
[0006] This utility model provides a mark forming device, including at least one mold and an anti-counterfeiting mark forming unit; the mold has a cover end, the cover end has an imprint; the imprint is protruding on the cover end; the anti-counterfeiting mark forming unit is connected to the mold and has an anti-counterfeiting mark forming end.
[0007] According to one embodiment of the present invention, the anti-counterfeiting mark forming unit has a receiving cavity and a stamping opening; the receiving cavity is located inside the anti-counterfeiting mark forming unit; the stamping opening is located at the anti-counterfeiting mark forming end and can communicate with the receiving cavity; the imprint is disposed in the receiving cavity, and the imprint is located at the stamping opening.
[0008] According to one embodiment of this utility model, the anti-counterfeiting mark forming unit includes an ink cartridge, a drive motor, and a control mechanism; the ink cartridge includes an ink storage mechanism and an anti-counterfeiting mark printing nozzle; the drive motor has an output shaft; the output shaft is coaxially connected to the ink storage mechanism, and the drive motor can drive the ink storage mechanism to rotate; the ink storage mechanism has a receiving cavity and a printing opening; the receiving cavity is located inside the ink storage mechanism; the printing opening is located at the end of the ink storage mechanism opposite to the drive motor and can communicate with the receiving cavity; the printing mold can... The anti-counterfeiting mark is movably disposed within the accommodating cavity; the anti-counterfeiting mark printing nozzle is disposed on the edge of the printing opening; the anti-counterfeiting mark forming end is the end of the anti-counterfeiting mark printing nozzle that is away from the ink storage mechanism; the anti-counterfeiting mark forming end has an ink jet hole; when the print is in contact with the cover carrier, there is a gap between the anti-counterfeiting mark forming end and the cover carrier, and it can rotate relative to the printing mold; the control mechanism can control the rotation of the drive motor and can control the anti-counterfeiting mark printing nozzle, so that the ink jet hole can spray ink onto the cover carrier.
[0009] According to one embodiment of the present invention, the anti-counterfeiting mark printing forming unit further includes a mold switching mechanism, which is movably disposed in the accommodating cavity; there are multiple molds, and the multiple molds are connected to the mold switching mechanism; wherein, the mold switching mechanism can drive the multiple molds to move through the movably disposed mechanism, so that one of the multiple molds is switched to the stamping opening.
[0010] According to one embodiment of the present invention, the mold switching mechanism has multiple receiving holes, and one mold is correspondingly received in one of the receiving holes.
[0011] According to one embodiment of the present invention, the mold switching mechanism is spherical.
[0012] According to one embodiment of the present invention, it further includes a marking positioning light source disposed on the ink storage mechanism. The marking positioning light source can emit light to a first area of the cover carrier, the first area being the area where a mark is to be formed.
[0013] According to one embodiment of the present invention, the imprint positioning light source is a ring-shaped light source, located at one end of the ink storage mechanism away from the drive motor, and arranged around the imprint opening.
[0014] According to one embodiment of the present invention, the ring-shaped light source is a laser light source.
[0015] According to one embodiment of the present invention, a distance detection unit is further included, which is disposed on the ink storage mechanism and located at the edge of the printing opening, and is electrically connected to the control mechanism, and can detect the distance between the print and the cover carrier; the imprint positioning light source is electrically connected to the control mechanism; the control mechanism can turn off the imprint positioning light source when the distance is less than a preset distance, or turn on the imprint positioning light source when the distance is greater than the preset distance.
[0016] According to one embodiment of the present invention, a vibration sensor is further included, which is disposed on the ink storage mechanism and electrically connected to the control mechanism, and can detect the vibration value of the ink storage mechanism; the control mechanism activates the drive motor when the vibration value is greater than a preset vibration value.
[0017] The features and advantages of this imprint forming device are:
[0018] By combining the design of the imprint mold and the anti-counterfeiting mark forming unit, the anti-counterfeiting function is added to the traditional stamping. The imprint mold can be a traditional physical imprint mold with a stamping end and an inscription on it. The anti-counterfeiting mark forming unit is connected to the imprint mold and equipped with an anti-counterfeiting mark forming end. During use, not only can the imprint be stamped onto the carrier using the imprint mold, but the anti-counterfeiting mark forming unit can also add special anti-counterfeiting marks in the same or adjacent areas. The resulting mark retains the imprint of the physical stamp while adding a difficult-to-counterfeit anti-counterfeiting mark, thus significantly improving the security and reliability of the mark and effectively preventing the risk of the mark being illegally copied or tampered with. 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 some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0020] Figure 1 This is an exploded view of the imprint forming device of this utility model;
[0021] Figure 2 A perspective view of the marking device of this utility model from one angle;
[0022] Figure 3 Another perspective view of the imprint forming device of this utility model;
[0023] Figure 4 A cross-sectional view of the marking forming device of this utility model.
[0024] Figure label:
[0025] 100. Imprint; 110. Stamping end; 111. Imprint; 200. Anti-counterfeiting mark forming unit; 210. Ink cartridge; 211. Ink storage mechanism; 2111. Receiving cavity; 2112. Stamping opening; 212. Anti-counterfeiting mark printing nozzle; 2121. Anti-counterfeiting mark forming end; 220. Drive motor; 221. Output shaft; 230. Imprint switching mechanism; 231. Receiving hole; 300. Mark positioning light source; 400. Distance detection unit. Detailed Implementation
[0026] 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.
[0027] It should be noted that in the description of this utility model, the terms "first," "second," etc., are used only for descriptive purposes and to distinguish similar objects; there is no sequential order between them, nor should they be construed as indicating or implying relative importance. Furthermore, in the description of this utility model, unless otherwise stated, "at least one" means one or more, and "multiple" means two or more. The use of the term "may" is intended to indicate that any attribute described that is included in "may" is optional.
[0028] In this embodiment, unless otherwise explicitly specified and limited, the terms "set," "install," "connect," "link," and "fix" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this embodiment based on the specific circumstances.
[0029] like Figures 1 to 4 As shown, this utility model provides a mark forming device, including at least one mold 100 and an anti-counterfeiting mark forming unit 200; the mold 100 has a stamping end 110, and the stamping end 110 has an imprint 111; the imprint 111 is protruding on the stamping end 110; the anti-counterfeiting mark forming unit 200 is connected to the mold 100 and has an anti-counterfeiting mark forming end 2121.
[0030] In practical implementation, by combining the design of the imprint 100 and the anti-counterfeiting mark forming unit 200, the effect of adding anti-counterfeiting function on the basis of traditional stamping is achieved. The imprint 100 can be a traditional physical imprint 100 with an imprint end 110 and an imprint 111 protruding on the imprint end 110. The anti-counterfeiting mark forming unit 200 is connected to the imprint 100 and equipped with an anti-counterfeiting mark forming end 2121. In use, not only can the imprint 111 be stamped on the carrier by the imprint 100, but also special anti-counterfeiting marks can be added in the same or adjacent areas by the anti-counterfeiting mark forming unit 200. The mark formed in this way not only maintains the mark stamped by the physical seal, but also adds anti-counterfeiting marks that are difficult to imitate, thereby significantly improving the security and reliability of the mark and effectively preventing the risk of the mark being illegally copied or tampered with.
[0031] In this embodiment, the imprint 100 can be a conventional imprint 100. For example, the imprint 100 can be part of a seal, which may include the imprint 100 and a handle connected to the imprint 100 for the user to hold. The anti-counterfeiting mark forming unit 200 can be a printer capable of printing anti-counterfeiting marks in the prior art. The anti-counterfeiting mark forming end 2121 can be located at the lower end of the anti-counterfeiting mark forming unit 200. The anti-counterfeiting mark can be an existing anti-counterfeiting ring code.
[0032] According to one embodiment of the present invention, the anti-counterfeiting mark forming unit 200 has a receiving cavity 2111 and a stamping opening 2112; the receiving cavity 2111 is located inside the anti-counterfeiting mark forming unit 200; the stamping opening 2112 is located at the anti-counterfeiting mark forming end 2121 and can communicate with the receiving cavity 2111; the mold 100 is disposed in the receiving cavity 2111, and the imprint 111 is located at the stamping opening 2112.
[0033] In practice, the above-mentioned structural design not only ensures that the printing mold 100 can accurately contact the printing substrate during use, but also has a compact overall structure, effectively saving space and making it easy to carry and use in daily life.
[0034] In this embodiment, the imprint 100 may be located at the bottom of the anti-counterfeiting mark forming unit 200. The stamp opening 2112 may be located at the lower end of the anti-counterfeiting mark forming unit 200. The imprint 111 may extend out of the stamp opening 2112.
[0035] According to one embodiment of the present invention, the anti-counterfeiting mark forming unit 200 includes an ink cartridge 210, a drive motor 220, and a control mechanism; the ink cartridge 210 includes an ink storage mechanism 211 and an anti-counterfeiting mark printing nozzle 212; the drive motor 220 has an output shaft 221; the output shaft 221 is coaxially connected to the ink storage mechanism 211, and the drive motor 220 can drive the ink storage mechanism 211 to rotate; the ink storage mechanism 211 has a receiving cavity 2111 and a printing opening 2112; the receiving cavity 2111 is located inside the ink storage mechanism 211; the printing opening 2112 is located at the end of the ink storage mechanism 211 away from the drive motor 220, and can communicate with the receiving cavity 2111. The cavity 2111; the printing mold 100 is movably disposed in the cavity 2111; the anti-counterfeiting mark printing nozzle 212 is disposed on the edge of the printing opening 2112; the anti-counterfeiting mark forming end 2121 is the end of the anti-counterfeiting mark printing nozzle 212 that is away from the ink storage mechanism 211; the anti-counterfeiting mark forming end 2121 has an ink jet hole; when the print 111 is in contact with the cover carrier, there is a gap between the anti-counterfeiting mark forming end 2121 and the cover carrier, and it can rotate relative to the printing mold 100; the control mechanism can control the drive motor 220 to rotate, and can control the anti-counterfeiting mark printing nozzle 212, so that the ink jet hole can spray ink on the cover carrier.
[0036] In practice, when the imprint 111 comes into contact with the cover carrier, the imprint is applied. Due to this contact, the imprint 100 is essentially temporarily fixed to the cover carrier. Simultaneously or after the imprint, the drive motor 220 can be activated. Once activated, the drive motor 220 rotates, causing the ink storage mechanism 211 to rotate, which in turn rotates the anti-counterfeiting mark printing nozzle 212. Since the imprint 100 is essentially temporarily fixed to the cover carrier, it does not rotate during the ink storage mechanism 211 and the printing nozzle's rotation to print the anti-counterfeiting mark. Therefore, the imprint from the imprint 100 will not be affected or become smudged. This ensures both the normal use of the imprint 100 (without smudges) and the precise application of the anti-counterfeiting mark to a designated position on the cover carrier via rotational printing. This effectively combines traditional seal imprints with anti-counterfeiting markings, enhancing the security and anti-counterfeiting capabilities of the mark.
[0037] In this embodiment, the drive motor 220 may be located above the ink cartridge 210. The ink cartridge 210 may be located below the drive motor 220. The ink storage mechanism 211 may be a vertically arranged columnar structure, and the ink storage mechanism 211 has an ink storage cavity inside. The ink storage mechanism 211, the anti-counterfeiting mark printing nozzle 212, and the control mechanism may be existing technologies. The ink storage mechanism 211 may have a mounting slot. The anti-counterfeiting mark printing nozzle 212 may be located in the mounting slot.
[0038] According to one embodiment of the present invention, the anti-counterfeiting mark forming unit further includes a mold switching mechanism 230, which is movably disposed in the receiving cavity 2111; there are multiple molds 100, and the multiple molds 100 are connected to the mold switching mechanism 230; wherein, the mold switching mechanism 230 is movably disposed to drive the multiple molds 100 to move, so that one of the multiple molds 100 is switched to the stamping opening 2112.
[0039] In specific implementation, an imprint switching mechanism 230 is added to the anti-counterfeiting mark forming unit. This imprint switching mechanism 230 is movably disposed in the receiving cavity 2111 and connected to multiple imprints 100. Through the movable setting of the imprint switching mechanism 230, it can move any one of the multiple imprints 100 to the stamping opening 2112, realizing the formation of anti-counterfeiting marks for different imprints 100 on the same device. This design is not only convenient to use in the case of limited space, but also particularly suitable for occasions that require the management of multiple seals. For example, a company may have multiple seals, including contract seals, official seals, and financial seals. This multi-imprint 100 switching mechanism allows one device to meet the anti-counterfeiting needs of multiple seals, greatly improving the utilization rate and management efficiency of the device.
[0040] According to one embodiment of the present invention, the mold switching mechanism 230 has a plurality of receiving holes 231, and a mold 100 is correspondingly received in one receiving hole 231.
[0041] In practice, by setting multiple receiving holes 231 in the mold switching mechanism 230, each mold 100 can be individually received in a corresponding receiving hole 231, which effectively saves space.
[0042] According to one embodiment of the present invention, the mold switching mechanism 230 is spherical.
[0043] In practice, by designing the mold switching mechanism 230 as a spherical shape, a mechanical rotation switching function is achieved. Due to the characteristics of the spherical structure, smooth rotation can be achieved without additional bearings or other parts. This not only simplifies the overall structure but also saves space and improves the compactness and ease of use of the equipment.
[0044] According to one embodiment of the present invention, it also includes a marking positioning light source 300, which is disposed on the ink storage mechanism 211. The marking positioning light source 300 can emit light to a first area of the carrier, which is the area where the marking is to be formed.
[0045] In practice, the light emitted by the imprint positioning light source 300 illuminates the area on the cover carrier where the imprint is to be formed. The user can clearly identify the correct imprinting position; that is, the position illuminated by the light is the position to be imprinted, thus effectively preventing mis-imprinting due to inaccurate positioning. If this setting is not adopted, since the imprint forming device itself is larger than the actual imprint formed, when the imprint forming device is placed on the cover carrier, it will block a large area on the cover carrier, including the area where the imprint is to be formed and the area where the imprint is not to be formed. This can easily lead to the imprint being formed in the wrong position, thus increasing the risk of mis-imprinting.
[0046] According to one embodiment of the present invention, the imprint positioning light source 300 is a ring-shaped light source located at one end of the ink storage mechanism 211 away from the drive motor 220 and arranged around the imprint opening 2112.
[0047] In practice, the annular marking positioning light source 300 can form a light ring that circles the area to be marked on the carrier, thus clearly indicating the exact position to be marked. In this way, users can see the specific position to be marked very intuitively, avoiding the problem of marking the wrong position due to inaccurate positioning. Especially when the device is large and the obstruction area is wide, the design of the annular light source significantly improves the accuracy and convenience of marking.
[0048] According to one embodiment of this utility model, the ring-shaped light source is a laser light source.
[0049] In practice, the halo formed by the laser light source can clearly mark the area to be stamped on the carrier.
[0050] According to one embodiment of the present invention, a distance detection unit 400 is further included, which is disposed on the ink storage mechanism 211 and located at the edge of the printing opening 2112, and is electrically connected to the control mechanism, and can detect the distance between the printing 111 and the printing carrier; the printing positioning light source 300 is electrically connected to the control mechanism; the control mechanism can turn off the printing positioning light source 300 when the distance is less than a preset distance, or turn on the printing positioning light source 300 when the distance is greater than the preset distance.
[0051] In practice, the distance detection unit 400 is installed on the ink storage mechanism 211 and located at the edge of the printing opening 2112, and is electrically connected to the control mechanism. It can detect the distance between the print 111 and the cover carrier. The imprint positioning light source 300 is also electrically connected to the control mechanism, so that the control mechanism can turn off the imprint positioning light source 300 when the distance between the print 111 and the cover carrier is less than a preset distance, or turn on the imprint positioning light source 300 when the distance is greater than the preset distance. This design helps to turn off the imprint positioning light source 300 in time when it is not needed, thereby saving energy, extending the working time of the equipment and reducing energy consumption.
[0052] According to one embodiment of the present invention, a vibration sensor is also included, which is disposed on the ink storage mechanism 211 and electrically connected to the control mechanism, and can detect the vibration value of the ink storage mechanism 211; the control mechanism turns on the drive motor 220 when the vibration value is greater than the preset vibration value.
[0053] In practice, the vibration sensor is installed on the ink storage mechanism 211 and electrically connected to the control mechanism, and can detect the vibration value of the ink storage mechanism 211. When the control mechanism detects that the vibration value is greater than the preset vibration value, it turns on the drive motor 220, thereby starting the anti-counterfeiting mark printing function. This means that even if the user does not directly touch the mark forming device, but generates vibration by tapping the table or other actions, the formation of the anti-counterfeiting mark can be triggered, thereby increasing the convenience of operation.
[0054] How to use:
[0055] 1. Placement of the cover carrier:
[0056] Place the documents or papers to be stamped flat on the table, ensuring the surface is clean and free of impurities.
[0057] II. Select Imprint 100:
[0058] Rotate the mold switching mechanism 230, select the appropriate mold 100, and confirm that it has been switched to the stamping opening 2112.
[0059] III. Location Markings:
[0060] Place the imprint forming device above the cover carrier to ensure that the imprint positioning light source 300 accurately illuminates the area to be imprinted.
[0061] IV. Stamping Operation:
[0062] Press the lower end of the imprint forming device onto the cover carrier until the imprint 111 of the impression 100 comes into contact with the document or paper to be imprinted.
[0063] As needed, vibration can be generated by tapping the table or other means, and the vibration sensor will automatically start the drive motor 220 after detecting that the vibration value exceeds the preset vibration value.
[0064] The drive motor 220 drives the ink storage mechanism 211 to rotate, and the anti-counterfeiting mark printing nozzle 212 begins to spray ink at the designated position to form an anti-counterfeiting mark.
[0065] The above are only a few embodiments of this utility model. Those skilled in the art can make various modifications or variations to the embodiments of this utility model based on the content disclosed in the application documents without departing from the spirit and scope of this utility model.
Claims
1. An imprint forming apparatus, characterized by, The application relates to a security mark forming unit (200) and a plurality of stamping dies (100). The security mark forming unit (200) comprises a driving motor (220), an ink box (210) and a stamping die switching mechanism (230). The driving motor (220) has an output shaft (221). The ink box (210) comprises an ink storage mechanism (211) and a security mark printing nozzle (212); the ink storage mechanism (211) is coaxially connected with the output shaft (221) of the driving motor (220) and has a containing cavity (2111) and a stamping opening (2112); the containing cavity (2111) is located in the interior of the ink storage mechanism (211); the stamping opening (2112) is located at the end of the ink storage mechanism (211) which is away from the driving motor (220) and can communicate with the containing cavity (2111); the security mark printing nozzle (212) is arranged on the edge of the stamping opening (2112) and has a security mark forming end (2121) which has an ink jet hole. The stamping die switching mechanism (230) is movably arranged in the containing cavity (2111) and connected with the plurality of stamping dies (100) and can drive the plurality of stamping dies (100) to move so that one of the plurality of stamping dies (100) is switched to the stamping opening (2112). The stamping die (100) has a stamping end (110) which has an imprint (111); the imprint (111) is protruded on the stamping end (110).
2. The imprint forming device of claim 1, wherein The stamping die switching mechanism (230) has a plurality of containing holes (231) and one stamping die (100) is contained in one containing hole (231).
3. The imprint forming device of claim 1, wherein The stamping die switching mechanism (230) is spherical.