A pressing device for processing paper products

The paper product processing equipment achieves automated integration of stacking, pressing and cooling, solving the problems of high labor intensity and low efficiency caused by manual handling in the existing technology, and improving the efficiency of paper product processing.

CN224408637UActive Publication Date: 2026-06-26FUJIAN SENCAI TIMES TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUJIAN SENCAI TIMES TECHNOLOGY CO LTD
Filing Date
2025-08-05
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In the current paper product processing, stacking, pressing, and cooling require manual handling, which increases the workload and reduces the efficiency of equipment transfer and paper product processing. This, combined with the increased workload of workers, leads to a decrease in processing efficiency.

Method used

A pressing device for paper product processing was designed. By integrating the stacking plate, pressing device and cooling equipment, the stacking, pressing and cooling are automated in a production line by moving the stacking plate and pushing the pusher plate, reducing manual handling.

Benefits of technology

It reduced the workload of staff, improved the processing efficiency of paper products, and realized the automated integrated operation of stacking, pressing and cooling.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to paper product processing technical field, especially paper product processing's compression device of a kind of, including roll conveyor, cooling equipment, compression device, stack material plate and push plate, stack material plate, compression device and roll conveyor are sequentially arranged, cooling equipment is connected on roll conveyor, push plate is located in one side of compression device, by the above structure integration setting, through the movement of stack material plate and the pushing of push plate avoid manual long-time handling paper product, reduce working intensity, improve the processing efficiency of paper product.
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Description

Technical Field

[0001] This utility model relates to the field of paper product processing technology, and in particular to a pressing device for paper product processing. Background Technology

[0002] Current paper product pressing technology typically involves workers stacking coated cardboard raw materials layer by layer on a positioning plate. Once a certain quantity is stacked, the raw materials are transferred to a pressing machine for pressing. After pressing, the paper products need to be manually unloaded and transferred to a cooling device for rapid cooling to allow the adhesive on the surface of the paper products to solidify. In this method, because the stacked cardboard raw materials have a certain weight, they need to be transferred between the pressing device, the positioning plate, and the cooling device. This prolonged handling not only increases the workload of workers but also reduces the processing efficiency of paper products. Therefore, there is an urgent need for a pressing device for paper product processing that can integrate stacking, pressing, and cooling to reduce manual handling, lower workload, and improve the efficiency of paper product processing. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide a pressing device for paper product processing that can integrate stacking, pressing and cooling, reduce manual handling, reduce labor intensity and improve the efficiency of paper product processing.

[0004] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a pressing device for paper product processing, comprising:

[0005] A base, on which a worktable is mounted;

[0006] The stacking plate is located on the opposite side of the X direction of the workbench. The stacking plate is movably connected to the base along the Y direction or in the opposite direction of the Y direction. The stacking plate is equipped with a vertically reverse movement limiting device, which is used to limit the two adjacent sides of the cardboard raw material. A connecting plate is provided on one side of the stacking plate.

[0007] The driving component is connected to the connecting plate and is used to drive the limit device to move.

[0008] The moving device is used to drive the stacking plate to move;

[0009] The pressing device is located on the opposite side of the stacked plate in the X direction. The pressing device includes a top plate, a bottom plate, a pressing plate and a first cylinder. The bottom plate is connected to the base and is connected to the top plate through a support column. The top plate is equipped with a first cylinder. The cylinder body axis of the first cylinder is vertical. The pressing plate is connected to the piston rod of the first cylinder.

[0010] The push plate is located on the X-direction side of the base plate and is movable to the base along the X-direction or in the opposite direction of the X-direction.

[0011] The hydraulic cylinder is connected to the base, and its axial direction is X. The push plate is connected to the piston rod of the hydraulic rod.

[0012] The moving device drives the stacking plate to switch between the first and second states;

[0013] In the first state, the stack plate is located on the opposite side of the push plate in the Y direction;

[0014] In the second state, the stacking plate is located between the push plate and the bottom plate;

[0015] Roller conveyor, roller conveyor connected to base, roller conveyor conveying direction is X-axis reverse, roller conveyor starting end is located on the X-axis reverse side of base plate;

[0016] The cooling equipment is connected to the roller conveyor and is used to cool the paper products pressed by the pressing device. The cooling equipment includes a cooling channel and a cooling pipe. A cooling fan is provided on each side of the cooling channel, and an exhaust fan is provided at the top of the cooling channel. The cooling pipe is located below the roller conveyor, and nozzles are provided on the pipe wall of the cooling pipe, with the nozzles facing the roller conveyor. The cooling pipe is connected to an external cold source.

[0017] Furthermore, the limiting device is an L-shaped plate, the driving component is a second cylinder, the second cylinder is connected to the connecting plate, the cylinder body axis of the second cylinder is in the vertical direction, and the upper part of the L-shaped plate is connected to the piston rod of the second cylinder.

[0018] Furthermore, the moving device includes a fixed plate, a lead screw shaft, and a drive motor. Two fixed plates are connected to the base, and the lead screw shaft is connected between the two fixed plates. The axial direction of the lead screw shaft is Y-direction. The drive motor is connected to one of the fixed plates and is driven by the lead screw shaft. The stacking plate is slidably connected to the lead screw shaft.

[0019] Furthermore, a limit switch is installed on one of the fixed plates.

[0020] Furthermore, the pressing plate and the support plate are slidably connected.

[0021] The beneficial effects of this utility model are as follows: Compared with the prior art, by integrating the roller conveyor, cooling equipment, pressing device and stacking plate into one unit, the movement of the stacking plate and the pushing of the pusher plate avoid the need for manual handling of paper products for a long time, reducing the workload and improving the processing efficiency of paper products. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the structure of a pressing device for paper product processing according to a specific embodiment of the present invention;

[0023] Figure 2 This is a side view of a pressing device for paper product processing, which is a specific embodiment of this utility model.

[0024] Label Explanation

[0025] 1. Base; 11. Workbench;

[0026] 2. Stacking plate; 21. Limiting device; 22. Connecting plate;

[0027] 3. Driving components;

[0028] 4. Moving device; 41. Fixed plate; 411. Limit switch; 42. Drive motor; 43. Lead screw shaft;

[0029] 5. Pressing device; 51. Top plate; 52. Bottom plate; 521. Support column; 53. Pressing plate; 54. First cylinder;

[0030] 6. Push plate;

[0031] 7. Hydraulic cylinder;

[0032] 8. Roller conveyor;

[0033] 9. Cooling equipment; 91. Cooling channel; 911. Cooling fan; 912. Exhaust fan; 92. Cooling pipe; 921. Nozzle. Detailed Implementation

[0034] To explain in detail the technical content, objectives, and effects of this utility model, the following description is provided in conjunction with the embodiments and accompanying drawings.

[0035] Please refer to Figures 1 to 2 A pressing device for paper product processing, comprising:

[0036] Base 1, with a worktable 11 mounted on it;

[0037] Stacking plate 2 is located on the opposite side of the X direction of the workbench 11. Stacking plate 2 is movably connected to the base 1 along the Y direction or in the opposite direction of the Y direction. Stacking plate 2 is provided with a vertically reverse movement limiting device 21. The limiting device 21 is used to limit the two adjacent sides of the cardboard raw material. A connecting plate 22 is provided on one side of stacking plate 2.

[0038] Drive component 3 is connected to the connecting plate 22 and is used to drive the limiting device 21 to move.

[0039] Moving device 4, which is used to drive the stack plate 2 to move;

[0040] The pressing device 5 is located on the opposite side of the stacking plate 2 in the X direction. The pressing device 5 includes a top plate 51, a bottom plate 52, a pressing plate 53 and a first cylinder 54. The bottom plate 52 is connected to the base 1 and is connected to the top plate 51 through a support column 521. The top plate 51 is provided with the first cylinder 54. The cylinder body axis of the first cylinder 54 is vertical. The pressing plate 53 is connected to the piston rod of the first cylinder 54.

[0041] Push plate 6 is located on the X-direction side of the base plate 52 and is movable to the base 1 along the X-direction or in the opposite direction of the X-direction.

[0042] Hydraulic cylinder 7 is connected to base 1. The axis of hydraulic cylinder 7 is X-direction. Push plate 6 is connected to piston rod of hydraulic rod.

[0043] The moving device 4 drives the stacking plate 2 to switch between the first state and the second state;

[0044] In the first state, the stack plate 2 is located on the opposite side of the push plate 6 in the Y direction;

[0045] In the second state, the stack plate 2 is located between the push plate 6 and the bottom plate 52;

[0046] Roller conveyor 8 is connected to base 1. The conveying direction of roller conveyor 8 is reverse X-axis. The starting end of roller conveyor 8 is located on the reverse X-axis side of base plate 52.

[0047] Cooling device 9 is connected to roller conveyor 8. Cooling device 9 is used to cool the paper products pressed by pressing device 5. Cooling device includes cooling channel 91 and cooling pipe 92. Cooling fan 911 is provided on each side of cooling channel 91. Exhaust fan 912 is provided at the top of cold zone channel. Cooling pipe 92 is located below roller conveyor 8. Spray nozzle 921 is provided on the pipe wall of cooling pipe 92. Spray nozzle 921 faces roller conveyor 8. Cooling pipe 92 is connected to external cold source.

[0048] In the above embodiments, it should be noted that a glue roller machine is provided on the X-direction side of the workbench 11. The glue roller machine coats the cardboard raw material with glue. The operator sits on the workbench 11 and places the glue-coated cardboard raw material on the stacking plate 2. The stacking is performed by the limiting device 21. After the stacking is completed, the moving device 4 moves the stacking plate 2 to the second state. Then, the driving component 3 drives the limiting device 21 to rise. The hydraulic rod drives the push plate 6 to push the stacked cardboard raw material onto the bottom plate 52, avoiding the need for manual handling to the pressing device 5 in the prior art. Then, the first cylinder 54 drives the pressing plate 53 to press the cardboard raw material. During the pressing process, the stacking plate 2 returns to the first state to continue stacking. After the pressing is completed, wait for the next push plate 6 to push the paper... The cardboard material is pushed onto the base plate 52, and then pushed onto the roller conveyor 8. The roller conveyor transports the cardboard material to the cooling channel. The cooling pipe 92 sprays cold air onto the cardboard material through the nozzle 921. The cold air rises, and the cooling fan 911 of the cooling channel 91 blows the cold air onto the cardboard material, so that the cold air covers the bottom, sides and top of the cardboard material, removing the heat from the cardboard material. Then, the cooling fan 911 on the cooling channel 91 is used for exhaust, thereby rapidly cooling the cardboard material. Compared with the prior art, by integrating the roller conveyor, cooling equipment 9, pressing device 5 and stacking plate 2, the manual handling of paper products for a long time is avoided, the labor intensity is reduced and the processing efficiency of paper products is improved.

[0049] As an optional implementation, the limiting device 21 is an L-shaped plate, the driving component 3 is a second cylinder, the second cylinder is connected to the connecting plate 22, the cylinder body axis of the second cylinder is in the vertical direction, and the upper part of the L-shaped plate is connected to the piston rod of the second cylinder.

[0050] In the above embodiments, the second cylinder drives the L-shaped plate to abut against the upper part of the stacking plate 2, and then the edge of the paperboard material abuts against the inner side of the L-shaped plate, thereby limiting and stacking the paperboard material.

[0051] As an optional implementation, the moving device 4 includes a fixed plate 41, a lead screw shaft 43, and a drive motor 42. The two fixed plates 41 are connected to the base 1, and the lead screw shaft 43 is connected between the two fixed plates 41. The axial direction of the lead screw shaft 43 is Y-direction. The drive motor 42 is connected to one of the fixed plates 41 and is driven by the lead screw shaft 43. The stacking plate 2 is slidably connected to the lead screw shaft 43.

[0052] In the above embodiments, the stacking plate 2 can be moved back and forth by the operator operating the control button of the drive motor 42. The control button can be set on the workbench 11.

[0053] As an alternative implementation, a limit switch 411 is provided on one of the fixed plates 41.

[0054] In the above embodiments, the limit switch 411 provided on the fixed plate 41 causes the drive motor 42 to stop rotating when the connecting plate 22 of the stacking plate 2 touches the limit switch 411. At this time, the stacking plate 2 is in the second state, which improves the accuracy of the pusher plate 6 pushing the cardboard material onto the bottom plate 52. When the stacking plate 2 needs to return to the first state, the operator can use the button to drive the motor 42 to move the stacking plate 2 to the first state.

[0055] As an optional implementation, the pressing plate 53 is slidably connected to the support plate.

[0056] In the above embodiments, the pressing plate 53 is slidably connected to the support column 521, thereby increasing the stability of the pressing plate 53.

[0057] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent modifications made based on the content of this utility model specification and drawings, or direct or indirect applications in related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A pressing device for paper product processing, characterized in that, include: A base, on which a worktable is mounted; The stacking plate is located on the opposite side of the X direction of the workbench. The stacking plate is movably connected to the base along the Y direction or in the opposite direction of the Y direction. The stacking plate is equipped with a vertically reverse movement limiting device, which is used to limit the two adjacent sides of the cardboard raw material. A connecting plate is provided on one side of the stacking plate. The driving component is connected to the connecting plate and is used to drive the limit device to move. The moving device is used to drive the stacking plate to move; The pressing device is located on the opposite side of the stacked plate in the X direction. The pressing device includes a top plate, a bottom plate, a pressing plate and a first cylinder. The bottom plate is connected to the base and is connected to the top plate through a support column. The top plate is equipped with a first cylinder. The cylinder body axis of the first cylinder is vertical. The pressing plate is connected to the piston rod of the first cylinder. The push plate is located on the X-direction side of the base plate and is movable to the base along the X-direction or in the opposite direction of the X-direction. The hydraulic cylinder is connected to the base, and its axial direction is X. The push plate is connected to the piston rod of the hydraulic rod. The moving device drives the stacking plate to switch between the first and second states; In the first state, the stack plate is located on the opposite side of the push plate in the Y direction; In the second state, the stacking plate is located between the push plate and the bottom plate; Roller conveyor, roller conveyor connected to base, roller conveyor conveying direction is X-axis reverse, roller conveyor starting end is located on the X-axis reverse side of base plate; The cooling equipment is connected to the roller conveyor and is used to cool the paper products pressed by the pressing device. The cooling equipment includes a cooling channel and a cooling pipe. A cooling fan is provided on each side of the cooling channel, and an exhaust fan is provided at the top of the cooling channel. The cooling pipe is located below the roller conveyor, and nozzles are provided on the pipe wall of the cooling pipe, with the nozzles facing the roller conveyor. The cooling pipe is connected to an external cold source.

2. The pressing device for paper product processing according to claim 1, characterized in that, The limiting device is an L-shaped plate, the driving component is a second cylinder, the second cylinder is connected to the connecting plate, the cylinder body axis of the second cylinder is vertical, and the upper part of the L-shaped plate is connected to the piston rod of the second cylinder.

3. The pressing device for paper product processing according to claim 1, characterized in that, The moving device includes a fixed plate, a lead screw shaft, and a drive motor. Two fixed plates are connected to the base, and the lead screw shaft is connected between the two fixed plates. The axis of the lead screw shaft is in the Y direction. The drive motor is connected to one of the fixed plates and is driven by the lead screw shaft. The stacking plate is slidably connected to the lead screw shaft.

4. The pressing device for paper product processing according to claim 3, characterized in that, One of the mounting plates is equipped with a limit switch.

5. The pressing device for paper product processing according to claim 1, characterized in that, The pressing plate and the support plate are slidably connected.