A new energy battery side plate film pasting device

An automated conveying system consisting of a support frame and a lead screw moving assembly, combined with a rotation and movement mechanism driven by a stepper motor and a servo motor, solves the problems of convenient conveying and film flattening in the battery side panel film application device, thereby improving work efficiency and film application effect.

CN224448314UActive Publication Date: 2026-07-03ZHEJIANG GUANHUA ELECTRICAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG GUANHUA ELECTRICAL CO LTD
Filing Date
2025-08-12
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing battery side panel film application devices are not convenient for transporting battery side panels for film application, which affects work efficiency, increases manual labor intensity, and makes it difficult to flatten the film, which may lead to air bubbles and affect the film application effect.

Method used

The conveying system, consisting of a support frame, a lead screw moving assembly, a dual-axis cylinder, and grippers, combined with a rotation and movement mechanism driven by a stepper motor and a servo motor, enables automated conveying of battery side panels and flattening of the membrane.

Benefits of technology

It enables convenient transport of battery side panels and automatic flattening of the film, reducing manual labor intensity, improving work efficiency, avoiding air bubbles, and enhancing the film application effect.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a new energy battery side plate pasting film device, including support frame and first screw rod moving component, the top of support frame is installed with first screw rod moving component, the side away from first screw rod moving component of support frame top is installed with support frame, the side away from support frame of support frame top is installed with first support, the side away from first support of support frame top is installed with conveyer, the installation of support frame top away from conveyer is installed with second support, the top of second support is installed with second screw rod moving component. The utility model not only realized battery side plate pasting film device convenient conveying battery side plate and carried out pasting film, reduced the labor intensity of artificial, improved the work efficiency of battery side plate pasting film device, but also realized battery side plate pasting film device convenient reciprocating movement to the film and carried out the flattening treatment, avoided the emergence bubble situation, improved the effect that battery side plate pasting film device pasted the film.
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Description

Technical Field

[0001] This utility model relates to the technical field of battery side panel film application devices, specifically a new energy battery side panel film application device. Background Technology

[0002] The side panel of a new energy battery is an important component of the battery module. It is mainly used to support and protect the internal cells and other components, while also providing mechanical protection and heat insulation. The side panel is usually made of high-strength aluminum alloy or other lightweight materials, which have excellent mechanical strength, corrosion resistance and conductivity. The new energy battery side panel film application device is an automated device used to apply protective film to the surface of the new energy battery side panel. It is mainly used to improve production efficiency and ensure the protective performance of the battery side panel.

[0003] As disclosed in the authorization announcement number CN221660089U, a new energy battery side panel film application device includes a worktable. A drive roller and a driven roller are rotatably mounted on both sides of the worktable, and the drive roller and the driven roller are connected by a conveyor belt. A first fixing plate is fixedly mounted on the top front side of the worktable, and a second fixing plate is fixedly mounted on the top rear side of the worktable. Cylinders are symmetrically embedded on the rear side of the first fixing plate, and a support plate is fixedly connected to the output end of the cylinder. A clamping block is symmetrically rotatably mounted on the rear side of the support plate. Support rods are symmetrically fixedly mounted on the front side of the second fixing plate, and a U-shaped frame is fixedly mounted on the front side of the second fixing plate. A rotating shaft is rotatably mounted through the U-shaped frame, and clamping blocks are fixedly connected to the front ends of the rotating shaft.

[0004] Although it achieves the goal of fitting the material cylinder onto the support rod, and then fixing the baffle to the support rod with studs, thus causing the material cylinder to abut against the baffle and the limiting ring, the depth of the studs entering the support rod can control the magnitude of the friction between the material cylinder and the baffle and the limiting ring. Then, two new energy batteries are placed between clamping blocks one and two, and a cylinder pushes the support plate backward, thereby clamping and fixing the new energy batteries through clamping blocks one and two. Motor two drives rotating shaft two to rotate, which in turn drives gear two to rotate. Gear two then drives gear one to rotate, thus... The gear drives the shaft to rotate, which in turn drives the clamping block to rotate. The clamping block then drives the new energy battery to rotate, allowing two new energy batteries to be coated simultaneously. A conveyor belt is included; after coating, a cylinder drives the support plate to reset, causing the new energy battery to fall onto the conveyor belt and move to the collection box. Simultaneously, the worker can proceed with the next coating operation. This invention has a simple structure, is easy to use, and effectively improves the efficiency of coating the side panels of new energy batteries, thereby significantly increasing production efficiency.

[0005] However, the existing battery side panel film application devices do not solve the problem that they are generally not conducive to the convenient transport of battery side panels for film application, which affects the labor intensity and working efficiency of the battery side panel film application devices. They are also not conducive to the convenient reciprocating movement of the battery side panel film application devices to flatten the film, which may cause air bubbles and affect the film application effect. Utility Model Content

[0006] The purpose of this utility model is to provide a new energy battery side panel film application device to solve the problems mentioned in the background art, such as the inconvenience of the battery side panel film application device in conveniently transporting the battery side panel for film application, which affects the labor intensity and working efficiency of the battery side panel film application device, and the inconvenience of convenient reciprocating movement of the battery side panel film application device to flatten the film, which may cause air bubbles and affect the film application effect.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a new energy battery side panel film application device, comprising a support frame and a first lead screw moving assembly. The first lead screw moving assembly is installed at the top of the support frame. A support frame is installed on the side of the top of the support frame away from the first lead screw moving assembly. A first bracket is installed on the side of the top of the support frame away from the support frame. A conveyor is installed on the side of the top of the support frame away from the first bracket. A second bracket is installed on the top of the support frame away from the conveyor. A second lead screw moving assembly is installed at the top of the second bracket. A support plate is installed at the output end of the second lead screw moving assembly. The support plate is slidably connected to the first bracket. A third lead screw moving assembly is installed on the side wall of the support plate.

[0008] Preferably, a connecting plate is installed at the output end of the third lead screw moving assembly, a dual-axis cylinder is installed at the bottom end of the connecting plate, a gripper is installed at the output end of each dual-axis cylinder, a stepper motor is installed at the center of the bottom end of the support frame, a support shaft is installed at the output end of the stepper motor, and the support shaft extends through the support frame to its outside.

[0009] Preferably, a rotating disk is installed at the top of the support shaft, and four sets of trays with equal spacing are installed at the top of the rotating disk. A power motor is installed on the side wall of the support frame, and a bidirectional threaded rod is installed at the output end of the power motor. The bidirectional threaded rod extends through the support frame to its outside, and threaded sleeves are symmetrically installed on the surface of the bidirectional threaded rod. The bidirectional threaded rod and the threaded sleeves are threadedly connected.

[0010] Preferably, a first shaft is movably mounted on both sides of the threaded sleeve, a connecting arm is fitted on the surface of each first shaft, and a second shaft is movably mounted on the side of each connecting arm away from the first shaft.

[0011] Preferably, a lower pressure plate is provided on the outside of the support frame, and all the connecting arms are connected to the lower pressure plate through a second shaft.

[0012] Preferably, a Z-shaped support arm is installed at the output end of the first lead screw moving assembly, a servo motor is installed at the bottom end of the Z-shaped support arm, a rotating shaft is installed at the output end of the servo motor, and the rotating shaft extends through the Z-shaped support arm to its outside.

[0013] Preferably, a connecting arm is fitted onto the surface of the rotating shaft, and a rotating shaft is movably mounted on the side of the connecting arm away from the rotating shaft.

[0014] Preferably, a support arm is fitted onto the surface of the rotating shaft, and a third shaft is movably fitted onto the side of the support arm away from the rotating shaft.

[0015] Preferably, a telescopic rod is mounted on the surface of the third shaft, and the telescopic rod extends through the Z-shaped support arm to its outside.

[0016] Preferably, a U-shaped frame is installed on the side wall of the telescopic rod, and rollers are movably installed on the surface of the U-shaped frame.

[0017] Compared with the prior art, the beneficial effects of this utility model are: the battery side panel film application device not only realizes the convenient delivery of battery side panels for film application, reducing manual labor intensity and improving the working efficiency of the battery side panel film application device, but also realizes the convenient reciprocating movement of the battery side panel film application device to flatten the film, avoiding air bubbles and improving the film application effect of the battery side panel film application device.

[0018] (1) The battery side panels are placed sequentially on the surface of the conveyor for conveying. When the conveyor reaches the designated position, the second lead screw moving assembly drives the support plate, the third lead screw moving assembly, the connecting plate, the dual-axis cylinder, and the gripper to move above it. The third lead screw moving assembly drives the connecting plate, the dual-axis cylinder, and the gripper to move to its surface. The dual-axis cylinder drives the two sets of grippers to move towards each other, so that the two sets of grippers clamp the battery side panels. The third lead screw moving assembly is opened in the reverse direction, so that the grippers and the battery side panels rise. The second lead screw moving assembly is opened in the reverse direction, so that the grippers and the battery side panels move to the surface of the tray. The third lead screw moving assembly is opened, so that the grippers and the battery side panels fall to the surface of the tray. The grippers are opened, so that the grippers place the battery side panels on the surface of the tray. The second lead screw moving assembly is opened in the reverse direction. The third lead screw moving assembly moves the connecting plate, dual-axis cylinder, and gripper to their initial positions for sequential clamping. A stepper motor drives the support shaft to rotate, which in turn rotates the rotating disk, tray, and battery side plate. This causes the battery side plate to rotate below the lower pressure plate, where a manual operator places the film on its surface. A power motor then drives a bidirectional threaded rod to rotate, causing two sets of threaded sleeves to move in opposite directions. These threaded sleeves, via the first shaft, drive the connecting arm to move in opposite directions. Supported by the second shaft, the connecting arm drives the second shaft and the lower pressure plate downwards, pressing the film onto the surface of the battery side plate. This system facilitates convenient transport of battery side plates for film application, reducing manual labor and improving the efficiency of the battery side plate application device.

[0019] (2) Open the first lead screw moving assembly. The first lead screw moving assembly drives the Z-shaped support arm to move up and down to the designated position. The servo motor drives the rotating shaft to rotate. The rotating shaft drives the connecting arm to rotate. The connecting arm drives the support arm to rotate through the rotating shaft. Under the limit of the Z-shaped support arm, the support arm drives the telescopic rod to move back and forth through the third shaft. The telescopic rod drives the U-shaped frame and roller to move back and forth, so that the roller moves back and forth to flatten the battery side panel after film application. This realizes the convenient back and forth movement of the battery side panel film application device to flatten the film, avoids the occurrence of air bubbles, and improves the film application effect of the battery side panel film application device. Attached Figure Description

[0020] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0021] Figure 2 This is a front view structural diagram of the present utility model;

[0022] Figure 3 This is a three-dimensional structural diagram of the dual-axis cylinder of this utility model.

[0023] Figure 4 This is a three-dimensional structural diagram of the support frame of this utility model;

[0024] Figure 5 This is a three-dimensional structural diagram of the support frame of this utility model;

[0025] Figure 6 This is a three-dimensional structural diagram of the Z-shaped support arm of this utility model.

[0026] In the diagram: 1. Support frame; 2. First lead screw moving assembly; 3. Support frame; 4. First bracket; 5. Conveyor; 6. Second bracket; 7. Second lead screw moving assembly; 8. Roller; 9. Z-shaped support arm; 10. Support plate; 11. Third lead screw moving assembly; 12. Servo motor; 13. Rotary shaft; 14. Rotating shaft; 15. Connecting plate; 16. Dual-axis cylinder; 17. Gripper; 18. Rotary disk; 19. Pallet; 20. Stepper motor; 21. Support shaft; 22. Power motor; 23. Bidirectional threaded rod; 24. Threaded sleeve; 25. First shaft; 26. Connecting arm; 27. Second shaft; 28. Connecting arm; 29. ​​Support arm; 30. Third shaft; 31. Telescopic rod; 32. U-shaped frame; 33. Lower pressure plate. Detailed Implementation

[0027] 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.

[0028] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.

[0029] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.

[0030] Example 1

[0031] Please see Figure 1-6 This utility model provides an embodiment of a new energy battery side panel film application device, comprising a support frame 1 and a first lead screw moving assembly 2. The first lead screw moving assembly 2 is installed at the top of the support frame 1. A support frame 3 is installed on the side of the top of the support frame 1 away from the first lead screw moving assembly 2. A first bracket 4 is installed on the side of the top of the support frame 1 away from the support frame 3. A conveyor 5 is installed on the side of the top of the support frame 1 away from the first bracket 4. A second bracket 6 is installed on the top of the support frame 1 away from the conveyor 5. A second lead screw moving assembly 7 is installed at the top of the second bracket 6. A support plate 10 is installed at the output end of the second lead screw moving assembly 7. The support plate 10 is slidably connected to the first bracket 4. A third lead screw moving assembly 11 is installed on the side wall of the support plate 10. A connecting plate 15 is installed at the output end of the moving component 11. A dual-axis cylinder 16 is installed at the bottom end of the connecting plate 15. Each output end of the dual-axis cylinder 16 is equipped with a gripper 17. A stepper motor 20 is installed at the center of the bottom end of the support frame 1. A support shaft 21 is installed at the output end of the stepper motor 20. The support shaft 21 extends through the support frame 1 to its outside. A rotating disk 18 is installed at the top of the support shaft 21. Four sets of trays 19 with equal spacing are installed at the top of the rotating disk 18. A power motor 22 is installed on the side wall of the support frame 3. A bidirectional threaded rod 23 is installed at the output end of the power motor 22. The bidirectional threaded rod 23 extends through the support frame 3 to its outside. Threaded sleeves 24 are symmetrically installed on the surface of the bidirectional threaded rod 23. The bidirectional threaded rod 23 and the threaded sleeves 24 are threadedly connected.

[0032] Both sides of the threaded sleeve 24 are movably mounted with a first shaft 25, and a connecting arm 26 is fitted on the surface of the first shaft 25. A second shaft 27 is movably mounted on the side of the connecting arm 26 away from the first shaft 25.

[0033] The support frame 3 is provided with a lower pressure plate 33 on its outside, and the connecting arms 26 are all connected to the lower pressure plate 33 through the second shaft 27;

[0034] When using the new energy battery side panel film application device, the battery side panels are manually placed on the surface of the conveyor 5 for conveying. When the panels are conveyed to the designated position, the second lead screw moving assembly 7 is activated. Supported by the second bracket 6, the second lead screw moving assembly 7 drives the support plate 10, the third lead screw moving assembly 11, the connecting plate 15, the dual-axis cylinder 16, and the gripper 17 to move above it. The third lead screw moving assembly 11 is then activated. Supported by the support plate 10, the third lead screw moving assembly 11 drives the connecting plate 15, the dual-axis cylinder 16, and the gripper 17 to move to its surface. The dual-axis cylinder 16, supported by the connecting plate 15, drives two sets of grippers 17 to move towards each other, causing the two sets of grippers 17 to clamp the battery side plate. The third lead screw moving assembly 11 is then opened in the reverse direction, causing the grippers 17 and battery side plate to rise. The second lead screw moving assembly 7 is then opened in the reverse direction, causing the grippers 17 and battery side plate to move to the surface of the tray 19. The third lead screw moving assembly 11 is then opened, causing the grippers 17 and battery side plate to descend to the surface of the tray 19. Finally, the grippers 17 are opened, placing the battery side plate on the surface of the tray 19. Reverse-open the second lead screw moving assembly 7 and the third lead screw moving assembly 11, causing the connecting plate 15, the dual-axis cylinder 16, and the gripper 17 to move to their initial positions and clamp in sequence. Turn on the stepper motor 20, which, supported by the support frame 1, drives the support shaft 21 to rotate. The support shaft 21 drives the rotating disk 18, the tray 19, and the battery side plate to rotate, causing the battery side plate to rotate below the lower pressure plate 33. The membrane is then manually placed on the surface of the battery side plate. Turn on the power motor 22, which, supported by the support frame 3, drives the bidirectional... The threaded rod 23 rotates, and under the threaded connection between the bidirectional threaded rod 23 and the threaded sleeve 24, the bidirectional threaded rod 23 drives the two sets of threaded sleeves 24 to move towards each other. The threaded sleeves 24 drive the connecting arm 26 to move towards each other through the first shaft 25. Under the support of the second shaft 27, the connecting arm 26 drives the second shaft 27 and the lower pressure plate 33 to move downward, so that the lower pressure plate 33 presses the film onto the surface of the battery side plate. This realizes the convenient delivery of the battery side plate for film application by the battery side plate film application device, reduces the labor intensity of manual labor, and improves the working efficiency of the battery side plate film application device.

[0035] The output end of the first lead screw moving assembly 2 is equipped with a Z-shaped support arm 9, the bottom end of the Z-shaped support arm 9 is equipped with a servo motor 12, the output end of the servo motor 12 is equipped with a rotating shaft 13, and the rotating shaft 13 extends through the Z-shaped support arm 9 to its outside.

[0036] A connecting arm 28 is fitted on the surface of the rotating shaft 13. A rotating shaft 14 is movably mounted on the side of the connecting arm 28 away from the rotating shaft 13. A support arm 29 is fitted on the surface of the rotating shaft 14. A third shaft 30 is movably fitted on the side of the support arm 29 away from the rotating shaft 14.

[0037] A telescopic rod 31 is mounted on the surface of the third shaft 30. The telescopic rod 31 extends through the Z-shaped support arm 9 to its outside. A U-shaped frame 32 is mounted on the side wall of the telescopic rod 31. A roller 8 is movably mounted on the surface of the U-shaped frame 32.

[0038] When it is necessary to flatten the battery side panel after film application, the first lead screw moving assembly 2 is activated. Under the support of the support frame 1, the first lead screw moving assembly 2 drives the Z-shaped support arm 9 to move up and down to the designated position. The servo motor 12 is activated. Under the support of the Z-shaped support arm 9, the servo motor 12 drives the rotating shaft 13 to rotate. The rotating shaft 13 drives the connecting arm 28 to rotate. The connecting arm 28 drives the support arm 29 to rotate through the rotating shaft 14. Under the limit of the Z-shaped support arm 9, the support arm 29 drives the telescopic rod 31 to reciprocate through the third shaft 30. The telescopic rod 31 drives the U-shaped frame 32 and the roller 8 to reciprocate, so that the roller 8 reciprocates to flatten the battery side panel after film application. This realizes the convenient reciprocating movement of the battery side panel film application device to flatten the film, avoids the formation of air bubbles, and improves the film application effect of the battery side panel film application device.

[0039] Work steps

[0040] When using the new energy battery side panel film application device, the battery side panels are manually placed on the surface of the conveyor 5 for conveying. When the panels are conveyed to the designated position, the second lead screw moving assembly 7 drives the support plate 10, the third lead screw moving assembly 11, the connecting plate 15, the dual-axis cylinder 16, and the gripper 17 to move above it. The third lead screw moving assembly 11 drives the connecting plate 15, the dual-axis cylinder 16, and the gripper 17 to move to its surface. The dual-axis cylinder 16 drives the two sets of grippers 17 to move towards each other, so that the two sets of grippers 17 clamp the battery side panels and open the third lead screw moving assembly in the opposite direction. Component 11 causes the gripper 17 and battery side plate to rise, opening the second lead screw moving assembly 7 in the reverse direction, moving the gripper 17 and battery side plate to the surface of the tray 19. The third lead screw moving assembly 11 then opens, causing the gripper 17 and battery side plate to descend to the surface of the tray 19. The gripper 17 then opens, placing the battery side plate on the surface of the tray 19. The second and third lead screw moving assemblies 7 and 11 then open in the reverse direction, moving the connecting plate 15, dual-axis cylinder 16, and gripper 17 to their initial positions for sequential clamping. Stepper motor 20 drives... The moving support shaft 21 rotates, causing the rotating disk 18, tray 19, and battery side plate to rotate, so that the battery side plate rotates to below the lower pressure plate 33. The membrane is then manually placed on the surface of the battery side plate. The power motor 22 drives the bidirectional threaded rod 23 to rotate, which in turn drives two sets of threaded sleeves 24 to move towards each other. The threaded sleeves 24, through the first shaft 25, drive the connecting arm 26 to move towards each other. The connecting arm 26 then drives the second shaft 27 and the lower pressure plate 33 to move downwards, causing the lower pressure plate 33 to press the membrane onto the surface of the battery side plate. When it is necessary to adjust... After the battery side panel is flattened after the film is applied, the first lead screw moving assembly 2 drives the Z-shaped support arm 9 to move up and down to the designated position. The servo motor 12 drives the rotating shaft 13 to rotate. The rotating shaft 13 drives the connecting arm 28 to rotate. The connecting arm 28 drives the support arm 29 to rotate through the rotating shaft 14. The support arm 29 drives the telescopic rod 31 to reciprocate through the third shaft 30. The telescopic rod 31 drives the U-shaped frame 32 and the roller 8 to reciprocate, so that the roller 8 reciprocates to flatten the battery side panel after the film is applied, thus completing the use of the battery side panel film application device.

[0041] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A new energy battery side plate film pasting device, characterized in that: The device includes a support frame and a first lead screw moving assembly. The first lead screw moving assembly is mounted on the top of the support frame. A support frame is mounted on the side of the top of the support frame away from the first lead screw moving assembly. A first bracket is mounted on the side of the top of the support frame away from the support frame. A conveyor is mounted on the side of the top of the support frame away from the first bracket. A second bracket is mounted on the top of the support frame away from the conveyor. A second lead screw moving assembly is mounted on the top of the second bracket. A support plate is mounted on the output end of the second lead screw moving assembly. The support plate is slidably connected to the first bracket. A third lead screw moving assembly is mounted on the side wall of the support plate.

2. The new energy battery side plate film pasting device according to claim 1, characterized in that: The output end of the third lead screw moving assembly is equipped with a connecting plate, the bottom end of the connecting plate is equipped with a dual-axis cylinder, the output ends of the dual-axis cylinder are each equipped with a gripper, a stepper motor is installed at the center of the bottom end of the support frame, the output end of the stepper motor is equipped with a support shaft, and the support shaft extends through the support frame to its outside.

3. The new energy battery side plate film pasting device according to claim 2, characterized in that: A rotating disk is installed at the top of the support shaft, and four sets of trays with equal spacing are installed at the top of the rotating disk. A power motor is installed on the side wall of the support frame, and a bidirectional threaded rod is installed at the output end of the power motor. The bidirectional threaded rod extends through the support frame to its outside. Threaded sleeves are symmetrically installed on the surface of the bidirectional threaded rod, and the bidirectional threaded rod is threadedly connected to the threaded sleeves.

4. The new energy battery side plate film pasting device according to claim 3, characterized in that: Both sides of the threaded sleeve are movably mounted with a first shaft, and a connecting arm is fitted on the surface of each first shaft. A second shaft is movably mounted on the side of each connecting arm away from the first shaft.

5. The new energy battery side plate film pasting device according to claim 4, characterized in that: The support frame is provided with a pressure plate on the outside, and the connecting arms are all connected to the pressure plate through a second shaft.

6. The new energy battery side plate film pasting device according to claim 5, characterized in that: The output end of the first lead screw moving assembly is equipped with a Z-shaped support arm, the bottom end of the Z-shaped support arm is equipped with a servo motor, the output end of the servo motor is equipped with a rotating shaft, and the rotating shaft extends through the Z-shaped support arm to its outside.

7. The new energy battery side plate film pasting device according to claim 6, characterized in that: The surface of the rotating shaft is fitted with a connecting arm, and a rotating shaft is movably mounted on the side of the connecting arm away from the rotating shaft.

8. The new energy battery side plate film pasting device according to claim 7, characterized in that: A support arm is fitted onto the surface of the rotating shaft, and a third shaft is movably fitted onto the side of the support arm away from the rotating shaft.

9. The new energy battery side plate film pasting device according to claim 8, characterized in that: A telescopic rod is mounted on the surface of the third shaft, and the telescopic rod extends through the Z-shaped support arm to its outside.

10. The new energy battery side plate film pasting device according to claim 9, characterized in that: A U-shaped frame is installed on the side wall of the telescopic rod, and rollers are movably installed on the surface of the U-shaped frame.