Battery cell module code sticking structure

By designing a cell module labeling structure that automatically adjusts the position of the cell module, and using a transmission rod and an electric push rod in conjunction with a rubber pad, the problem of manual adjustment of the position of traditional cell components is solved. This achieves efficient automatic labeling and anti-slip shock absorption, improving production efficiency and safety.

CN224466328UActive Publication Date: 2026-07-07安徽巡鹰新能源集团有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
安徽巡鹰新能源集团有限公司
Filing Date
2025-06-23
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional battery cell components require manual adjustment by workers when they are conveyed to the marking machine, resulting in low efficiency and easy damage.

Method used

A battery cell module labeling structure was designed. The first and second transmission rods, together with an electric push rod, automatically adjust the position of the battery cell module and achieve efficient labeling through a laser marking machine. Rubber pads are used to provide anti-slip and shock absorption, and the adjustment components retract under the action of limit springs.

Benefits of technology

It enables efficient automatic adjustment and labeling of battery cell modules, improving production efficiency, avoiding damage caused by manual operation, and ensuring the safety and accuracy of battery cells.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of battery cell module pasting code structure, it is related to battery processing equipment technical field, including mounting bracket, the mounting bracket below is provided with conveyor belt, laser marking machine is provided on the mounting bracket, adjusting assembly for adjusting the position of battery cell module is provided on the mounting bracket, a pair of second through-slots are opened symmetrically on the mounting bracket, first through-slots are opened symmetrically on the both sides of mounting bracket, first transmission rod is slidably arranged in the second through-slot, second transmission rod is slidably arranged in the first through-slot, the first transmission rod is rotatably connected with the second transmission rod, electric push rod is fixedly installed on the mounting bracket, the output shaft of electric push rod is fixedly connected with one end of the first transmission rod;Limiting plate is fixedly arranged symmetrically on the both sides of mounting bracket, adjusting assembly is slidably arranged on the limiting plate, solve the position that battery cell assembly is conveyed to marking machine below and needs manual adjustment, there is the problem of low efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of battery processing equipment technology, specifically a cell module labeling structure. Background Technology

[0002] The main purpose of labeling battery cell modules is to identify, track, and manage relevant battery information. In the battery manufacturing and application process, labeling of battery cell modules is an important step in ensuring product traceability and safety.

[0003] The traditional method of labeling battery cells involves transporting the battery cell assembly to the bottom of the labeling machine via a conveyor, where workers manually position the battery cells and the labeling machine completes the labeling. This method has disadvantages such as low efficiency and susceptibility to damage. Therefore, there is an urgent need for a more practical and efficient labeling structure. Utility Model Content

[0004] This invention aims to solve at least one of the technical problems existing in the prior art. To this end, this invention proposes a cell module labeling structure, which solves the problem in the prior art where, after the cell assembly is conveyed to the marking machine, workers need to manually adjust the position of the cell assembly before the labeling machine completes the labeling, resulting in low efficiency and large errors.

[0005] To achieve the above objectives, this utility model proposes a battery cell module labeling structure, including a mounting frame, a conveyor belt below the mounting frame, a laser marking machine mounted on the mounting frame, and an adjustment component for adjusting the position of the battery cell module. A pair of second through slots are symmetrically opened on the mounting frame, and first through slots are symmetrically opened on both sides of the mounting frame. A first transmission rod is slidably disposed within the second through slot, and a second transmission rod is slidably disposed within the first through slot. The first and second transmission rods are rotatably connected. An electric push rod is fixedly mounted on the mounting frame, and a connecting block is fixedly disposed on the output shaft of the electric push rod. The connecting block is fixedly connected to one end of the first transmission rod. A push block is fixedly disposed at the end of the second transmission rod. Limit plates are symmetrically fixedly disposed on both sides of the mounting frame, and the adjustment component is slidably disposed on the limit plates. The push block is disposed near the adjustment component.

[0006] As a further embodiment of this utility model, a collection platform is provided at one end of the conveyor belt.

[0007] As a further embodiment of this utility model: a bracket is fixedly provided on the mounting frame, and the laser marking machine is fixedly provided on the bracket.

[0008] As a further embodiment of this utility model: the limiting plate is disposed below the first through groove.

[0009] As a further embodiment of this utility model: the adjustment component includes a slider, a connecting plate, a rubber pad, and a limiting spring; a pair of limiting grooves are provided on the limiting plate, and the slider is slidably connected to the limiting grooves.

[0010] As a further embodiment of this utility model: the limiting spring is disposed inside the limiting plate, one end of the limiting spring is fixedly connected to the limiting plate, the other end is fixedly connected to the slider, the connecting plate is fixedly disposed on the slider, and the rubber pad is fixedly disposed at the end of the connecting plate.

[0011] Compared with the prior art, the beneficial effects of this utility model are:

[0012] By setting up a first transmission rod, a second transmission rod, and an adjustment component, when the battery cell module is transported to the bottom of the mounting frame, the electric push rod is activated. The electric push rod pushes a pair of first transmission rods to slide in the second through slot. The first transmission rods push the second transmission rod to rotate while sliding along the first through slot into the mounting frame, thereby driving the push block to push the slider to slide along the limit plate. This causes a pair of rubber pads to move towards each other, realizing the adjustment of the battery cell module transported to the bottom of the mounting frame. After the labeling is completed, the electric push rod retracts, causing the push block to disengage from the slider. The adjustment component retracts under the elastic action of the limit spring, facilitating the next processing. Through the above settings, the position adjustment and labeling of the battery cell module can be achieved efficiently. Attached Figure Description

[0013] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0014] Figure 2 This is a schematic diagram of the structure of this utility model after removing the conveyor belt and the collection platform;

[0015] Figure 3 For the present utility model Figure 2 Enlarged diagram of point A.

[0016] In the diagram: 1. Mounting frame; 2. Conveyor belt; 3. Collection platform; 4. Laser marking machine; 5. Bracket; 6. Electric push rod; 7. First transmission rod; 8. Connecting block; 9. First through groove; 10. Rubber pad; 11. Second transmission rod; 12. Limiting groove; 13. Limiting spring; 14. Push block; 15. Slider; 16. Connecting plate; 17. Limiting plate; 18. Second through groove. Detailed Implementation

[0017] The technical solution of this utility model will be clearly and completely described below with reference to the embodiments. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0018] like Figure 1-3 As shown, a battery cell module coding structure includes a mounting frame 1, a conveyor belt 2 below the mounting frame 1, and a collection platform 3 at one end of the conveyor belt 2. The conveyor belt 2 is used to transport battery cell modules to be coded, and the collection platform 3 is used to collect the processed telecommunications modules. A laser marking machine 4 is mounted on the mounting frame 1 to apply codes to the telecommunications modules conveyed to the bottom of the mounting frame 1. A bracket 5 is fixedly mounted on the mounting frame 1, and the laser marking machine 4 is fixedly mounted on the bracket 5. An adjustment component is provided on the mounting frame 1 to adjust the position of the battery cell module to center it, facilitating coding processing. A pair of second through slots 18 are symmetrically opened on the mounting frame 1, and first through slots 9 are symmetrically opened on both sides of the mounting frame 1. A first transmission rod 7 is slidably arranged in the second through slot 18, and a second transmission rod 11 is slidably arranged in the first through slot 9. The first transmission rod 7 and the second through slot 18 are connected to each other. The transmission rod 11 is rotatably connected, and an electric push rod 6 is fixedly installed on the mounting frame 1. The output shaft of the electric push rod 6 is fixedly provided with a connecting block 8, and the connecting block 8 is fixedly connected to one end of the first transmission rod 7. A push block 14 is fixedly provided at the end of the second transmission rod 11. Limiting plates 17 are symmetrically fixed on both sides of the mounting frame 1. The limiting plates 17 are located below the first through groove 9. The adjustment component is slidably set on the limiting plates 17. The push block 14 is located near the adjustment component. When the electric push rod 6 is started, the electric push rod 6 pushes a pair of first transmission rods 7 to slide in the second through groove 18. While the first transmission rods 7 push the second transmission rod 11 to rotate, they slide along the first through groove 9 into the mounting frame 1, thereby driving the push block 14 to push the adjustment component to move in opposite directions, thereby adjusting the position of the battery cell module below the mounting frame 1. This is used in conjunction with the laser marking machine 4 to perform coding processing on the battery cell module.

[0019] In one embodiment of this invention, the adjustment assembly includes a slider 15, a connecting plate 16, rubber pads 10, and a limiting spring 13. A pair of limiting grooves 12 are provided on the limiting plate 17, and the slider 15 is slidably connected to the limiting grooves 12. The limiting spring 13 is disposed within the limiting plate 17, with one end fixedly connected to the limiting plate 17 and the other end fixedly connected to the slider 15. The connecting plate 16 is fixedly disposed on the slider 15, and the rubber pads 10 are fixedly disposed at the end of the connecting plate 16. The pusher 14 pushes the slider 15 to slide along the limiting plate 17, thereby causing the pair of rubber pads 10 to move towards each other. The movement continues until the battery cell assembly transported to the mounting frame 1 is adjusted. The rubber pad 10 provides good anti-slip and shock absorption, and can prevent excessive force from damaging the battery when adjusting the position of the battery cell assembly. During use, it can also be replaced with other materials that can achieve the same function as needed. After the labeling is completed, the electric push rod 6 retracts, causing the push block 14 to disengage from the slider 15. The adjustment component retracts under the elastic action of the limit spring 13. The battery cell module after labeling is completed enters the collection table 3 under the transport of the conveyor belt 2. The staff collects the processed battery cell module from one end of the collection table 3.

[0020] Working principle:

[0021] In use, the processed battery cell module is placed into one end of the conveyor belt 2. When the battery cell module is transported to the bottom of the mounting frame 1, the electric push rod 6 is activated. The electric push rod 6 pushes a pair of first transmission rods 7 to slide in the second through groove 18. The first transmission rods 7 push the second transmission rod 11 to rotate while sliding along the first through groove 9 into the mounting frame 1, thereby driving the push block 14 to push the slider 15 to slide along the limit plate 17, thereby driving a pair of rubber pads 10 to move towards each other until the battery cell assembly transported to the bottom of the mounting frame 1 is adjusted. Then, the laser marking machine 4 is activated to perform coding processing on the battery cell module. After coding is completed, the electric push rod 6 retracts, driving the push block 14 to disengage from the slider 15. The adjustment component retracts under the elastic action of the limit spring 13. The electric push rod 6 is controlled to achieve the slow retraction of the adjustment component. The battery cell module after coding is completed enters the collection table 3 under the transport of the conveyor belt 2.

[0022] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0023] The above description provides a detailed account of one embodiment of the present invention. However, this description is merely a preferred embodiment and should not be construed as limiting the scope of the present invention. All equivalent variations and improvements made within the scope of the claims of the present invention should still fall within the patent coverage of the present invention.

Claims

1. A cell module labeling structure, characterized in that, The device includes a mounting frame (1), a conveyor belt (2) below the mounting frame (1), a laser marking machine (4) on the mounting frame (1), an adjustment component for adjusting the position of the battery cell module on the mounting frame (1), a pair of second through slots (18) symmetrically opened on the mounting frame (1), first through slots (9) symmetrically opened on both sides of the mounting frame (1), a first transmission rod (7) slidably arranged in the second through slot (18), and a second transmission rod (11) slidably arranged in the first through slot (9). The first transmission rod (7) is rotatably connected to the second transmission rod (11). An electric push rod (6) is fixedly installed on the mounting frame (1). A connecting block (8) is fixedly provided on the output shaft of the electric push rod (6). The connecting block (8) is fixedly connected to one end of the first transmission rod (7). A push block (14) is fixedly provided at the end of the second transmission rod (11). Limit plates (17) are symmetrically fixed on both sides of the mounting frame (1). The adjustment component is slidably disposed on the limit plate (17).

2. The cell module labeling structure according to claim 1, characterized in that, A collection platform (3) is provided at one end of the conveyor belt (2).

3. The cell module labeling structure according to claim 1, characterized in that, A bracket (5) is fixedly installed on the mounting frame (1), and the laser marking machine (4) is fixedly installed on the bracket (5).

4. The cell module labeling structure according to claim 1, characterized in that, The limiting plate (17) is located below the first through groove (9).

5. The cell module labeling structure according to claim 1, characterized in that, The adjustment assembly includes a slider (15), a connecting plate (16), a rubber pad (10), and a limiting spring (13); a pair of limiting grooves (12) are provided on the limiting plate (17), and the slider (15) is slidably connected to the limiting grooves (12).

6. The cell module labeling structure according to claim 5, characterized in that, The limiting spring (13) is disposed inside the limiting plate (17). One end of the limiting spring (13) is fixedly connected to the limiting plate (17), and the other end is fixedly connected to the slider (15). The connecting plate (16) is fixedly disposed on the slider (15), and the rubber pad (10) is fixedly disposed at the end of the connecting plate (16).