Paperboard security fastener assembly mechanism
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 浙江劲刚机械有限公司
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-09
Smart Images

Figure CN224335229U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a cardboard anti-counterfeiting buckle assembly mechanism. Background Technology
[0002] In some cardboard box products (such as wine boxes), anti-counterfeiting features need to be added. This usually requires assembling corresponding anti-counterfeiting buckles (or buttons, etc., usually made of plastic) at the slots or openings in the cardboard. The anti-counterfeiting buckles are fed to the equipment one by one by a vibratory feeder, and then the corresponding assembly mechanism assembles the anti-counterfeiting buckles into the corresponding positions on the cardboard. The anti-counterfeiting buckles can be snapped into or embedded into the corresponding positions on the cardboard (such as slots or openings), or additional glue can be applied to the cardboard (such as by spraying glue, marking lines, or applying glue) so that the anti-counterfeiting buckles can also be adhered to the side of the cardboard. Efficiently and stably assembling the supplied anti-counterfeiting buckles is crucial. Utility Model Content
[0003] In view of the technical problems existing in the background art, the present invention aims to provide a cardboard anti-counterfeiting buckle assembly mechanism with a new assembly method that can be selected.
[0004] To solve the above technical problems, the present invention adopts the following technical solution: a cardboard anti-counterfeiting buckle assembly mechanism, including a material receiving and transfer assembly base, characterized in that: the material receiving and transfer assembly base is provided with a recessed step, the side of the recessed step is provided as a translation input inlet, the upper side of the recessed step is provided as an upper output plate outlet, and the space between the translation input inlet and the upper output plate outlet is a buckle body transfer and retention stepped cavity.
[0005] The following optimizations or supplementary explanations can be made to the above technical solutions.
[0006] For example, the receiving and transferring assembly base has a horizontal movement path, a vertical movement path, and a longitudinal movement path.
[0007] For example, the receiving and transferring assembly base is configured on a longitudinal guide rail, which is mounted on a lifting bracket. The lifting bracket is mounted on a transverse support, which is configured on a transverse guide rail. The lifting bracket is equipped with a longitudinal drive device, which is connected to the receiving and transferring assembly base. The transverse support is equipped with a vertical lifting drive device, which is connected to the lifting bracket. The transverse support is also connected to a transverse drive device, which is mounted on the frame. The transverse guide rail is also mounted on the frame. For instance, the longitudinal drive device includes a longitudinal drive motor, which is connected to the receiving and transferring assembly base via a lead screw and nut transmission mechanism. The transverse drive device includes a transverse drive motor, which is connected to the transverse support via a lead screw and nut transmission mechanism. The vertical lifting drive device includes a lifting drive motor or a lifting drive cylinder. Each motor is a servo motor.
[0008] For example, the receiving and transferring assembly base is equipped with a material support platform and a floating limit block. The top of the material support platform is equipped with a material support surface, and the floating limit block has a limiting and blocking side. The limiting and blocking side cooperates to surround the edge of the material support surface. The limiting and blocking side and the material support surface together form the recessed step. The floating limit block is equipped with a downward floating buffer spring, which is set on the receiving and transferring assembly base.
[0009] Further optimizations include a material support platform fixedly installed on the receiving and transfer assembly base, a notch on the floating limit block with the inner wall of the notch serving as a limiting and stopping side, a compression spring for the downward floating buffer spring connected between the floating limit block and the receiving and transfer assembly base, and a lifting floating structure for the floating limit block; the floating limit block is equipped with an upward floating limit part on the receiving and transfer assembly base; and the translational input inlet is located on the left or right side of the recessed step.
[0010] It can also be optimized by providing suction air holes for connecting air sources on the material support surface of the material support platform, and a floating limit block fitted on the lower part of the material support platform, which cooperates with the lower lifting guide of the material support platform; the upper limit part is located between the material support platform and the floating limit block.
[0011] The cardboard anti-counterfeiting buckle assembly mechanism has a buckle feeding station and a buckle mounting station. The receiving and transferring assembly base is set up to move and change positions between each station. The buckle feeding station is equipped with a feeding track. The translation input inlet on the receiving and transferring assembly base is connected to the output port of the feeding track at the buckle feeding station. The buckle mounting station is equipped with a cardboard buckle mounting stop. The upper plate-out outlet on the receiving and transferring assembly base at the buckle mounting station is located below the cardboard buckle mounting stop.
[0012] In addition, a lifting paper pressing component is provided above the cardboard fastening stop position, and the lifting paper pressing component is driven by a lifting paper pressing drive component; the lifting paper pressing component also has a buckle body clearance space. The cardboard fastening stop position is located on the cardboard longitudinal conveying path, which is equipped with cardboard support rails arranged side by side on the left and right sides. The cardboard longitudinal conveying path is also equipped with a cardboard longitudinal push head, which is driven by a longitudinal push paper push drive component; the cardboard support rail is equipped with cardboard longitudinal left and right side stops, which are set on the cardboard support rail; a cardboard deceleration brush is also provided above the cardboard support rail, and the cardboard deceleration brush is located at the cardboard fastening stop position.
[0013] Additional optimizations include a fastener gluing station with a downward-facing gluing component. A receiving and conveying assembly base is located at the fastener gluing station, its recessed step positioned below the gluing component. The fastener gluing station is connected between the fastener feeding station and the fastener mounting station. The feeding track is equipped with a vibratory feeder, and its output port is also equipped with a material control stop. The swing-type material control stop is connected to a reciprocating swing material control drive component. The output port of the feeding track is also connected to a pressure guide plate, which is positioned above the recessed step.
[0014] The beneficial effects of this utility model are as follows: In this anti-counterfeiting buckle assembly mechanism, the translational input receiving port facilitates the translational entry of the anti-counterfeiting buckle into the recessed step of the receiving and conveying assembly seat. The receiving and conveying assembly seat then receives the anti-counterfeiting buckle material and conveys it to the cardboard. The anti-counterfeiting buckle is output from the upper output plate outlet on the upper side of the recessed step, forming a bottom-mounted assembly structure. This structure provides a new assembly method, which can stably receive the anti-counterfeiting buckle as it is translated and output upwards to be assembled onto the cardboard, thus improving efficiency. Attached Figure Description
[0015] The following description, in conjunction with the accompanying drawings, details the embodiments and working principles of this utility model.
[0016] Figure 1 This is a top view of the structure of this utility model.
[0017] Figure 2 for Figure 1 A 3D diagram, with some parts of the structure hidden.
[0018] Figure 3 for Figure 2 A partial structural diagram on the right side of the middle section.
[0019] Figure 4 for Figure 3 A schematic diagram of the intermediate material receiving and transfer assembly base without anti-counterfeiting buckles.
[0020] Figure 5 for Figure 4 A structural diagram from another angle.
[0021] Figure 6 for Figure 1 A schematic diagram of the structure on the left side of the middle section.
[0022] Figure 7 for Figure 6 A structural diagram from another angle.
[0023] Figure 8 for Figure 3 A schematic diagram of the structure of the intermediate material receiving and transfer assembly base.
[0024] Figure 9 for Figure 8 Another structural diagram from a different angle.
[0025] Figure 10 for Figure 9 Exploded view of part of the structure.
[0026] In the picture:
[0027] 1. Cardboard anti-counterfeiting buckle assembly mechanism; 10. Anti-counterfeiting buckle; 11. Recessed step; 12. Horizontal input inlet; 13. Upper output plate outlet; 14. Buckle body transfer and retention stepped cavity; 15. Cardboard;
[0028] 21. Longitudinal guide rail; 22. Lifting support; 23. Lateral support; 24. Transverse guide rail; 25. Longitudinal drive device; 26. Lifting and vertical movement drive device; 27. Lateral drive device; 28. Frame;
[0029] 3. Material receiving and transfer assembly base; 31. Material support platform; 32. Floating limit block; 33. Material support surface; 34. Limiting and blocking side; 35. Lower floating buffer spring; 36. Upward step; 37. Material suction air hole; 38. Air inlet; 39. Downward step;
[0030] 40. Material feeding baffle; 41. Fastener body feeding station; 42. Fastener body gluing station; 43. Fastener body mounting station; 44. Feeding track; 45. Vibratory feeder; 46. Fastener body gluing component; 48. Material control baffle; 49. Reciprocating oscillating material control drive component;
[0031] 5. Paperboard longitudinal conveying path; 50. Paperboard material support longitudinal rail; 52. Paperboard fastening and stopping position; 54. Paperboard longitudinal push head; 55. Longitudinal push paper drive component; 56. Paperboard longitudinal left and right side guards; 57. Paperboard deceleration brush; 58. Lifting paper pressing component; 59. Lifting paper pressing drive component. Detailed Implementation
[0032] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the implementation of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0033] Referring to the accompanying drawings, the cardboard anti-counterfeiting buckle assembly mechanism in this embodiment includes a receiving and transferring assembly base 3 for receiving the anti-counterfeiting buckle 10 material (i.e., the buckle body) and transferring it onto a cardboard 15 for assembly. The receiving and transferring assembly base 3 is equipped with a recessed step 11; a translational input inlet 12 is provided on the side of the recessed step 11 so that the anti-counterfeiting buckle can be translated into the recessed step 11; an upper output plate outlet 13 is provided on the upper side of the recessed step 11 so that the anti-counterfeiting buckle 10 can be output upwards from the recessed step 11 for assembly; between the translational input inlet 12 and the upper output plate outlet 13 is a buckle body transfer and retention step cavity 14, which is used to match the anti-counterfeiting buckle body. After the anti-counterfeiting buckle is translated into the cardboard, it will be temporarily stored in the buckle body transfer and retention step cavity 14 (of the receiving and transferring assembly base 3) until it is output upwards for assembly.
[0034] Its working principle is as follows: When the anti-counterfeiting buckle is input by translation, it will be received and transferred by the receiving and transfer assembly seat 3 of the anti-counterfeiting buckle assembly mechanism and assembled onto the cardboard. The anti-counterfeiting buckle enters the recessed step 11 (the buckle body transfer and retention step cavity 14) of the receiving and transfer assembly seat 3 from the translation input inlet 12. Then, the receiving and transfer assembly seat 3 transfers the anti-counterfeiting buckle through corresponding movement to cooperate in completing the assembly of the anti-counterfeiting buckle 10 onto the corresponding cardboard 15.
[0035] In this anti-counterfeiting buckle assembly mechanism, the translational input receiving port facilitates the translational entry of the anti-counterfeiting buckle into the recessed step 11 of the receiving and transferring assembly seat 3. The receiving and transferring assembly seat 3 then receives the anti-counterfeiting buckle material and transfers it to the cardboard. The anti-counterfeiting buckle is output from the upper output plate outlet 13 on the upper side of the recessed step 11, forming a bottom-mounted assembly structure. This structure provides a new assembly method, which can stably receive the anti-counterfeiting buckle as it is translated and output upwards to be assembled onto the cardboard, making it more stable and thus improving efficiency.
[0036] Based on the above embodiments, the following optimizations or further explanations can be made.
[0037] For example, the receiving and transferring assembly base 3 has a horizontal movement path, a vertical movement path, and a longitudinal movement path. That is, the receiving and transferring assembly base 3 can move horizontally left and right, longitudinally forward and backward, and vertically up and down (lifting). The corresponding movement path drive transmission method is relatively mature. This method has a higher degree of freedom and can meet the needs of different cardboard specifications, assembly positions, and workstation layouts.
[0038] In the figure, the receiving and transferring assembly seat 3 is configured on the longitudinal guide rail 21, which is set on the lifting bracket 22. The receiving and transferring assembly seat 3 moves forward and backward (longitudinally) along the longitudinal guide rail 21 on the lifting bracket 22, and moves vertically up and down (lifting) together with the lifting bracket 22. The lifting bracket 22 is set on the transverse moving bracket 23, which is configured on the transverse guide rail 24. The transverse moving bracket 23 moves horizontally left and right along the transverse guide rail 24, and the lifting bracket 22 moves horizontally left and right together with the transverse moving bracket 23. For example, the lifting support 22 is equipped with a longitudinal movement drive device 25, which is connected to the receiving and transferring assembly seat 3. The longitudinal movement drive device 25 drives the receiving and transferring assembly seat 3 to move back and forth (longitudinally) on the lifting support 22. The transverse support 23 is equipped with a lifting and vertical movement drive device 26, which is connected to the lifting support 22. The lifting and vertical movement drive device 26 drives the lifting support 22 to move vertically (up and down) on the transverse support 23. The transverse support 23 is also connected to a transverse movement drive device 27, which is mounted on the frame 28. The transverse guide rail 24 is mounted on the frame 28. The transverse movement drive device 27 drives the transverse support 23 (on the frame 28 along the transverse guide rail 24) to move laterally left and right.
[0039] Among them, there are many driving methods, which are also relatively mature. In the figure, the longitudinal drive device 25 includes a longitudinal drive motor, which is connected to the receiving and conveying assembly base 3 through a lead screw and nut transmission mechanism, etc. The transverse drive device 27 includes a transverse drive motor, which is connected to the transverse support 23 through a lead screw and nut transmission mechanism, etc. The lifting and vertical drive device 26 includes a lifting drive motor or a lifting drive cylinder; each motor is a servo motor, which has relatively high transmission accuracy and controllable and adjustable travel distance.
[0040] For example, the receiving and transferring assembly base 3 is equipped with a material support platform 31 and a floating limit block 32. The material support platform 31 can support the anti-counterfeiting buckle to cooperate with material receiving and assembly. The floating limit block 32 can be used to limit the anti-counterfeiting buckle on the material support platform 31 so that the anti-counterfeiting buckle can be smoothly placed when it is delivered to the material support platform 31. The floating limit block 32 can move up and down (lift and lower) relative to the material receiving and transferring assembly base 3. When the material receiving and transferring assembly base 3 (and the material support platform 31 and the floating limit block 32 above it) rise to cooperate with assembly, the anti-counterfeiting buckle will move up and the floating limit block 32 can also move down relative to ensure that the anti-counterfeiting buckle moves up smoothly and is output. There are several ways to make the floating limit block 32 float (up and down) on the receiving and transferring assembly base 3. It can be driven by a power source to float; or, as shown in the figure, the floating limit block 32 can be equipped with a downward floating buffer spring 35. The downward floating buffer spring 35 provides the upward elastic force of the floating limit block 32, so that when the floating limit block 32 is obstructed as it rises with the receiving and transferring assembly base 3 (such as when the floating limit block 32 contacts the cardboard or other components above), the floating limit block 32 can directly and smoothly descend relative to the receiving and transferring assembly base 3 and descend smoothly through the spring buffer. During the descent of the receiving and transferring assembly base 3, the floating limit block 32 can use the elastic force to rise and reset, forming a concave step 11. This structure is more efficient and does not require additional control of its lifting and lowering. The downward floating buffer spring 35 can be set on the receiving and transferring assembly base 3, and a guide post can be set on the receiving and transferring assembly base 3 for the downward floating buffer spring 35 to be sleeved and installed. The floating limit block 32 has a guide hole connected to the guide post. The top of the material support platform 31 is provided with a material support surface 33, which cooperates to support the anti-counterfeiting buckle. The floating limit block 32 has a limiting and blocking side 34, which cooperates to limit and block the anti-counterfeiting buckle so that it can be smoothly transferred and input into place. The limiting and blocking side 34 surrounds the edge of the material support surface 33. When the floating limit block 32 descends relative to the receiving and transferring assembly seat 3, the limiting and blocking side 34 will also descend. The material support surface 33 at the top of the material support platform 31 can smoothly assemble the anti-counterfeiting buckle. The limiting and blocking side 34 and the material support surface 33 enclose to form the recessed step 11 (including the buckle body transfer and retention stepped cavity 14).
[0041] Further optimization involves fixing the material support platform 31 onto the receiving and transfer assembly base 3. The floating limit block 32 has a notch, the inner wall of which serves as a limiting and stopping side 34. The notch can be U-shaped. The downward floating buffer spring 35 can be a compression spring, connected between the floating limit block 32 and the receiving and transfer assembly base 3, resulting in a relatively compact structure. The floating limit block 32 employs a lifting floating structure. Additionally, the floating limit block 32 is equipped with an upward floating limit part on the receiving and transfer assembly base 3, which limits the upward position of the floating limit block 32, ensuring a stable combined structure. The translational input inlet 12 is located to the left or right of the recessed step 11.
[0042] In addition, the material receiving surface 33 of the material receiving platform 31 is also provided with a suction air hole 37. The suction air hole 37 is used to connect to an air source to suck up and release the anti-counterfeiting buckle. The material receiving platform 31 is more stable during the process of transferring the anti-counterfeiting buckle with the receiving assembly base 3, avoiding accidental drop or displacement, and increasing assembly stability. An air channel can be set inside the material receiving platform 31, which is connected to an air source by an air inlet 38 to connect to the suction air hole 37 for operation. The floating limit block 32 can be fitted onto the material support platform 31, such as the lower part of the material support platform 31. The floating limit block 32 and the lower part of the material support platform 31 are coordinated for lifting and lowering, forming a concave step 11. The floating limit block 32 floats and rises stably, and the structure is relatively simple and compact. The upper limit part is located between the material support platform 31 and the floating limit block 32. For example, the upper limit part includes an upward step 36 and a downward step 39. The upward step 36 is located on the floating limit block 32 (such as its lower part), and the downward step 39 is located on the material support platform 31 (such as its upper part). The upward step 36 is located below the downward step 39. When the upward step 36 rises, it is limited and blocked by the downward step 39.
[0043] The cardboard anti-counterfeiting buckle assembly mechanism includes a buckle feeding station 41 and a buckle mounting station 43.
[0044] The receiving and transferring assembly base 3 is designed to move and reposition itself between various workstations. It can switch positions between workstations such as the fastener feeding station 41 and the fastener mounting station 43 to remain at the appropriate workstation for operation. The fastener feeding station 41 is equipped with a feeding track 44. The translational input inlet 12 on the receiving and transferring assembly base 3 connects to the output port of the feeding track 44 at the fastener feeding station 41. When the receiving and transferring assembly base 3 is at the fastener feeding station 41, the feeding track 44... The anti-counterfeiting buckle is moved and input into the feed inlet 12 and then into the recessed step 11. The buckle body mounting station 43 is equipped with a cardboard buckle mounting stop 52. The upper output plate outlet 13 of the receiving and transferring assembly seat 3 at the buckle body mounting station 43 is positioned below the cardboard buckle mounting stop 52. When the receiving and transferring assembly seat 3 is at the buckle body mounting station 43, the receiving and transferring assembly seat 3 rises to cooperate in outputting the anti-counterfeiting buckle upward through the upper output plate outlet 13 and assembling it onto the cardboard waiting at the cardboard buckle mounting stop 52.
[0045] In addition, a lifting paper-pressing component 58 (such as a lifting action paper-pressing block) is provided above the cardboard fastening stop 52. The lifting paper-pressing component 58 is driven by a lifting paper-pressing drive component 59 (such as a cylinder or motor). The lifting paper-pressing drive component 59 drives the lifting paper-pressing component 58 to cooperate with the lifting action at the cardboard fastening stop 52, so as to press the cardboard during the assembly process, allowing the anti-counterfeiting buckle at the bottom of the cardboard to be smoothly installed upwards into the cardboard (its mounting hole), preventing the cardboard from being lifted and shifted. The lifting paper-pressing component 58 also has buckle body clearance space (such as clearance groove, clearance hole, etc.) to avoid interference and obstruction of the anti-counterfeiting buckle installation. The lifting paper-pressing component 58 can be closer to the cardboard mounting hole and other positions, so that the edge of the anti-counterfeiting buckle is installed into the cardboard more accurately. Further optimization can be achieved by setting the cardboard clamping stop 52 on the cardboard longitudinal conveying path 5, combining the cardboard conveying structure. For example, the cardboard longitudinal conveying path 5 is equipped with cardboard support rails 50 arranged side by side, and the cardboard longitudinal conveying path 5 is also equipped with a cardboard longitudinal pusher head 54. The cardboard longitudinal pusher head 54 is driven by a longitudinal pusher paper drive component 55 (such as a cylinder or motor, such as a servo motor driven by a belt drive mechanism 53). The longitudinal pusher paper drive component 55 drives the cardboard longitudinal pusher head 54 to push the cardboard... The cardboard on the longitudinal support rail 50 is pushed longitudinally. The cardboard support rail 50 is equipped with left and right side guides 56 for longitudinal cardboard movement. These guides limit the cardboard movement on the left and right sides during the longitudinal pushing process, preventing the cardboard from deviating. For example, the left and right side guides 56 can be set on the cardboard support rail 50 to adjust left and right along with it to meet the needs of different cardboard specifications. In addition, a cardboard deceleration brush 57 is also provided above the cardboard support rail 50. The cardboard deceleration brush 57 is positioned at the cardboard fastening stop position 52. When the cardboard is pushed longitudinally to the cardboard fastening stop position 52, the cardboard deceleration brush 57 stabilizes the cardboard, preventing positional deviation. This provides good assistance to the speed efficiency, stability, and anti-counterfeiting buckle assembly of the cardboard during longitudinal pushing.
[0046] In addition, the cardboard anti-counterfeiting buckle assembly mechanism also has a buckle body gluing station 42, which is equipped with a buckle body gluing component 46 (such as a glue spray gun or glue dispensing gun). The buckle body gluing component 46 is used to apply glue downwards. The receiving and transferring assembly seat 3 is located at the buckle body gluing station 42, and the recessed step 11 of the receiving and transferring assembly seat 3 is located below the buckle body gluing component 46. The buckle body gluing component 46 can apply glue downwards to the anti-counterfeiting buckle body on the receiving and transferring assembly seat 3 (its recessed step 11). After gluing, the anti-counterfeiting buckle can also be glued to the cardboard during assembly, making the connection and assembly relatively more secure. The receiving and transferring assembly seat 3 can also switch positions by moving and passing through or stopping at the buckle body gluing station 42 in order to cooperate with the buckle body gluing at this station. The fastener gluing station 42 is connected between the fastener feeding station 41 and the fastener mounting station 43. The receiving and transferring assembly seat 3 first receives the anti-counterfeiting fastener material at the fastener feeding station 41, then moves to the fastener gluing station 42 to apply glue to the fastener, and then moves to the fastener mounting station 43 to assemble the anti-counterfeiting fastener onto the cardboard. After the assembly is completed, the receiving and transferring assembly seat 3 descends back to the fastener feeding station 41 to start the next cycle.
[0047] Additionally, the anti-counterfeiting buckle (i.e., the buckle body) can be supplied by the vibratory feeder 45 to the feeding track 44. This is a mature technology. The feeding track 44 can be set as a grooved slide that matches the buckle body. The upper side of the grooved slide has a cover plate to limit the buckle body from falling out. In addition, the output port of the feeding track 44 is also equipped with a material control bar 48. The action of the material control bar 48 is used to open and block the output port of the feeding track 44 so that the anti-counterfeiting buckle is output more stably from the output port of the feeding track 44, and it is not easy for it to be over-produced or jammed. It can also be used as a material control output switch for the feeding track 44. For example, the material control lever 48 adopts a swing-type structure. The swing-type material control lever 48 is connected to the reciprocating swing material control drive component 49 (such as a cylinder or motor). The reciprocating swing material control drive component 49 drives the material control lever 48 to swing back and forth to control the material. In addition, the output port of the feeding track 44 is also connected to the pressure guide plate 40. The pressure guide plate 40 is arranged above the recessed step 11. When the anti-counterfeiting buckle is output from the output port of the feeding track 44 and passes through the translation input inlet 12 into the recessed step 11 of the receiving and transferring assembly seat 3, the pressure guide plate 40 presses down on it from above to limit the anti-counterfeiting buckle so that it can smoothly connect and transition out and avoid upward displacement and detachment during the process of moving out and entering.
Claims
1. A cardboard anti-counterfeiting buckle assembly mechanism, comprising a receiving and transferring assembly base (3), characterized in that: The receiving and transferring assembly base (3) is equipped with a recessed step (11). The side of the recessed step (11) is set as a translational input inlet (12). The upper side of the recessed step (11) is set as the upper loading plate outlet (13). The transition cavity (14) between the translation input inlet (12) and the upper discharge plate outlet (13) is a stepped cavity for the fastener body.
2. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 1, characterized in that: The receiving and transferring assembly base (3) has a horizontal movement path, a vertical movement path and a longitudinal movement path.
3. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 1, characterized in that: The receiving and transferring assembly base (3) is configured on the longitudinal guide rail (21), the longitudinal guide rail (21) is configured on the lifting bracket (22), the lifting bracket (22) is configured on the transverse support (23), and the transverse support (23) is configured on the transverse guide rail (24). The lifting support (22) is equipped with a longitudinal movement drive device (25), which is connected to the receiving and conveying assembly base (3) for transmission. The horizontal moving support (23) is equipped with a lifting and vertical moving drive device (26), which is connected to the lifting support (22) in a transmission manner. The transverse support (23) is also connected to a transverse drive device (27), which is mounted on the frame (28), and the transverse guide rail (24) is mounted on the frame (28).
4. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 3, characterized in that: The longitudinal drive device (25) includes a longitudinal drive motor, which is connected to the receiving and conveying assembly base (3) via a lead screw and nut transmission mechanism. The lateral drive device (27) includes a lateral drive motor, which is connected to the lateral support (23) via a lead screw and nut transmission mechanism. The lifting and vertical movement drive device (26) includes a lifting drive motor or a lifting drive cylinder; each motor is a servo motor.
5. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 1, characterized in that: The receiving and transferring assembly base (3) is equipped with a material support platform (31) and a floating limit block (32). The top of the material support platform (31) is provided with a material support surface (33). The floating limit block (32) has a limiting and blocking side (34), which cooperates to surround the edge of the material support surface (33), and the limiting and blocking side (34) and the material support surface (33) enclose to form the recessed step (11).
6. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 5, characterized in that: The floating limit block (32) is equipped with a downward floating buffer spring (35), which is set on the receiving and transferring assembly seat (3).
7. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 5, characterized in that: The material support platform (31) is fixedly installed on the material receiving and transfer assembly base (3). The floating limit block (32) has a notch, and the inner wall of the notch is set as the limiting stop side (34).
8. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 6, characterized in that: The lowering buffer spring (35) is a compression spring. The lowering buffer spring (35) is connected between the floating limit block (32) and the receiving and transferring assembly seat (3). The floating limit block (32) adopts a lifting floating structure. The floating limit block (32) is equipped with an upper floating limit part on the receiving and transferring assembly seat (3).
9. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 1, characterized in that: The translational input inlet (12) is located to the left or right of the recessed step (11).
10. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 5, characterized in that: The material support surface (33) of the material support platform (31) is also provided with a suction air hole (37) for connecting an air source.
11. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 8, characterized in that: The floating limit block (32) is fitted on the lower part of the material support platform (31), and the floating limit block (32) is in cooperation with the lower lifting guide of the material support platform (31); The upward limit section is located between the material support platform (31) and the floating limit block (32).
12. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 1, characterized in that: It has a fastener feeding station (41) and a fastener mounting station (43). The material receiving and transfer assembly base (3) is set up to move and reposition between various workstations. The fastener feeding station (41) is equipped with a feeding track (44). The translational input inlet (12) on the receiving and transferring assembly base (3) connects with the output port of the feeding track (44) at the fastener feeding station (41). The fastener mounting station (43) is equipped with a cardboard fastener mounting stop (52). The upper plate outlet (13) on the receiving and transferring assembly seat (3) at the fastener plate mounting station (43) is located below the cardboard fastener stopping position (52).
13. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 12, characterized in that: Above the cardboard buckle stop (52) is a lifting paper pressing component (58), which is connected to a lifting paper pressing drive component (59).
14. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 13, characterized in that: The lifting paper pressing component (58) also has a buckle clearance space.
15. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 12, characterized in that: The cardboard fastening stop (52) is located on the cardboard longitudinal conveying path (5). The cardboard longitudinal conveying path (5) is equipped with cardboard support rails (50) arranged side by side on the left and right. The cardboard longitudinal conveying path (5) is also equipped with a cardboard longitudinal push head (54). The cardboard longitudinal push head (54) is connected to a longitudinal paper pushing drive component (55).
16. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 15, characterized in that: The cardboard feeding longitudinal rail (50) is equipped with left and right side stops (56) for longitudinal cardboard movement. The left and right side guides (56) for longitudinal movement of the cardboard are set on the longitudinal rail (50) for cardboard feeding.
17. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 15, characterized in that: Above the cardboard feeding longitudinal rail (50) is a cardboard deceleration brush (57), which is located at the cardboard fastening stop position (52).
18. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 12, characterized in that: It also has a fastener gluing station (42), which is equipped with a fastener gluing component (46) that applies glue downwards. The receiving and transfer assembly seat (3) has its recessed step (11) located below the fastener gluing component (46) at the fastener gluing station (42). The fastener gluing station (42) is connected and configured between the fastener feeding station (41) and the fastener mounting station (43).
19. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 12, characterized in that: The feeding track (44) is equipped with a vibratory feeder (45), and the output port of the feeding track (44) is also equipped with a material control stop (48).
20. The cardboard anti-counterfeiting buckle assembly mechanism as described in claim 19, characterized in that: The material control stop (48) is connected to the reciprocating swing material control drive component (49) for transmission. The output port of the feeding track (44) is also connected to the pressure output baffle (40), which is positioned above the recessed step (11).