CN216354344U - Battery cell turnover mechanism - Google Patents
Battery cell turnover mechanism Download PDFInfo
- Publication number
- CN216354344U CN216354344U CN202122528018.7U CN202122528018U CN216354344U CN 216354344 U CN216354344 U CN 216354344U CN 202122528018 U CN202122528018 U CN 202122528018U CN 216354344 U CN216354344 U CN 216354344U
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- clamping
- fixed
- battery cell
- cell
- assembly
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model relates to the technical field of battery processing, in particular to a battery cell turnover mechanism which comprises a battery cell clamping component, a lifting module and a rotating component, wherein a stand column is used for clamping and fixing a battery cell; the sliding plate of the lifting module is fixedly connected with the rotating component. When the structure is used, the automatic overturning of the battery cell can be realized, the labor intensity is reduced, and the processing efficiency of the battery cell is improved.
Description
Technical Field
The utility model relates to the technical field of battery processing, in particular to a battery cell turnover mechanism.
Background
In the battery processing process, contents need to be printed on two sides of an on-line battery core respectively, so that the battery core is provided with an overturning station between two printing devices, and the battery core is placed in an on-line jig again after the reverse side of the battery core is opposite; the existing battery station is turned over manually, so that the efficiency is low and the labor intensity is high.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a cell overturning mechanism aiming at the defects and shortcomings in the prior art.
In order to achieve the purpose, the utility model adopts the technical scheme that:
the utility model relates to a cell overturning mechanism which comprises a cell clamping assembly, a lifting module and a rotating assembly, wherein an upright post is used for clamping and fixing a cell; the sliding plate of the lifting module is fixedly connected with the rotating assembly.
Further, the battery cell clamping assembly comprises a clamping fixing seat; the clamping fixing seats are symmetrically provided with telescopic clamping components; the telescopic clamping assembly comprises an air cylinder, a clamping fixing plate and a toe clamping air cylinder, wherein one end of the air cylinder is fixed on the clamping fixing seat, the other end of the air cylinder is fixed on the clamping fixing plate, and the toe clamping air cylinder is fixed on the clamping fixing plate; clamping plates are fixed on two clamping toes of the clamping toe cylinder; a guide rail is fixed on the clamping fixed seat; and sliding blocks matched with the guide rails are fixed on the clamping fixing plates.
Furthermore, the rotating assembly comprises a lifting frame fixed on the lifting module, a rotating module fixed on the lifting frame and a rotating shaft rotatably connected to the lifting frame; and the battery cell clamping assembly is fixed at one end of the rotating shaft through the connecting seat.
Further, the number of the cell clamping assemblies is two; two battery cell clamping assemblies are respectively fixed at two ends of the rotating shaft.
After adopting the structure, the utility model has the beneficial effects that: the utility model relates to a cell overturning mechanism which comprises a cell clamping assembly, a lifting module and a rotating assembly, wherein an upright post is used for clamping and fixing a cell; the sliding plate of the lifting module is fixedly connected with the rotating component. When the cell clamping device is used, the lifting module drives the rotating assembly to do lifting motion, the cell clamping assembly clamps and fixes the on-line cell, the lifting module drives the rotating assembly to ascend for a certain distance, the rotating assembly drives the cell clamping assembly to rotate for 180 degrees, the lifting module drives the rotating assembly to descend for a certain distance, the cell clamping assembly loosens the cell clamping, and the cell which is just overturned is placed on the line again; the structure can realize automatic overturning of the battery cell, reduce labor intensity and improve the processing efficiency of the battery cell.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of a rotating assembly;
fig. 3 is a schematic structural diagram of a cell clamping assembly;
description of reference numerals:
1. a column; 2. a lifting module;
3. a rotating assembly; 301. a motor; 302. a lifting frame; 303. a rotating shaft; 304. a connecting seat;
305. a drive belt;
4. a cell clamping assembly; 401. a clamping fixing seat; 402. clamping the fixing plate; 403. a toe clamping cylinder;
404. a splint; 405. a cylinder; 406. a slider; 407. a guide rail; A. and (5) battery cores.
Detailed Description
The utility model will be further described with reference to the accompanying drawings.
As shown in fig. 1 to 3, the battery cell turnover mechanism of the present invention includes a battery cell clamping assembly 4 for clamping and fixing a battery cell a by a column 1, a lifting module 2 fixed on the column 1, and a rotating assembly 3 for driving the battery cell clamping assembly 4 to rotate; the sliding plate of the lifting module 2 is fixedly connected with the rotating component 3; the lifting module 2 drives the rotating assembly 3 to do lifting motion, the cell clamping assembly 4 clamps and fixes the on-line cell A, the lifting module 2 drives the rotating assembly 3 to ascend for a certain distance, the rotating assembly 3 drives the cell clamping assembly 4 to rotate for 180 degrees, the lifting module 2 drives the rotating assembly 3 to descend for a certain distance, the cell clamping assembly 4 loosens to clamp the cell A, and the cell which is just overturned is placed on the line again; the structure can realize automatic overturning of the battery core A, reduce labor intensity and improve the processing efficiency of the battery core.
As a preferred mode of the present invention, the cell clamping assembly 4 includes a clamping fixing seat 401; the clamping fixing seats 401 are symmetrically provided with telescopic clamping components; the telescopic clamping assembly comprises an air cylinder 405 with one end fixed on the clamping fixed seat 401, a clamping fixed plate 402 fixed on the other end of the air cylinder 405 and a toe clamping air cylinder 403 fixed on the clamping fixed plate 402; clamping plates 404 are fixed on two clamping toes of the clamping toe air cylinder 403; a guide rail 407 is fixed on the clamping fixed seat 401; the clamping fixing plates 402 are fixed with sliding blocks 406 matched with the guide rails 407; after the lifting module 2 drives the cell clamping assemblies 4 to descend, the two telescopic clamping assemblies are respectively arranged on two sides of the cell A; then two cylinders 405 drive the clamping fixing plates 402 on both sides to approach to the battery cell a in the middle along the guide rail 407, and then the toe clamping cylinder 403 starts, and the clamping plate 404 clamps and fixes both surfaces of the battery cell a.
As a preferred mode of the present invention, the rotating assembly 3 comprises a lifting frame 302 fixed on the lifting module 2, a rotating module fixed on the lifting frame 302, and a rotating shaft 303 rotatably connected to the lifting frame 302; the battery cell clamping assembly 4 is fixed at one end of the rotating shaft 303 through a connecting seat 304; the rotating module consists of a motor 301, a driving belt pulley, a driven belt pulley and a transmission belt 305; the driven pulley is sleeved and fixed on the rotating shaft 303; after the motor 301 is started, the rotating shaft 303 is driven to rotate by the driving belt pulley, the driven belt pulley and the transmission belt 305, so that the rotation of the battery cell clamping assembly 4 is realized.
As a preferred mode of the present invention, the number of the cell clamping assemblies 4 is two; two battery cell clamping assemblies 4 are respectively fixed at two ends of the rotating shaft 303.
When the cell clamping device is used, the descending module drives the cell clamping components to descend, so that the two telescopic clamping components are respectively arranged on two sides of a cell; then two cylinders drive the centre gripping fixed plate of both sides to be close to the back to the electric core at middle part along the guide rail, press from both sides the toe cylinder and start, splint are fixed with the two surface centre gripping of electric core, the lift module drives the rotating assembly and rises a section of distance, after the motor starts, through driving pulley, driven pulley and driving belt drive the pivot rotation, realize that the rotation of electric core centre gripping subassembly rotates 180, the lift module drives the rotating assembly and descends a section of distance, electric core centre gripping subassembly loosens to electric core centre gripping, and place the electric core of just overturning on the line again; the structure can realize automatic overturning of the battery cell, reduce labor intensity and improve the processing efficiency of the battery cell.
The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present invention are included in the scope of the present invention.
Claims (4)
1. The utility model provides a battery core tilting mechanism which characterized in that: the battery cell clamping device comprises a stand column (1), a battery cell clamping assembly (4) for clamping and fixing a battery cell (A), a lifting module (2) fixed on the stand column (1) and a rotating assembly (3) for driving the battery cell clamping assembly (4) to rotate; and the sliding plate of the lifting module (2) is fixedly connected with the rotating component (3).
2. The cell turning mechanism of claim 1, wherein: the battery cell clamping assembly (4) comprises a clamping fixing seat (401); the clamping fixing seats (401) are symmetrically provided with telescopic clamping components; the telescopic clamping assembly comprises an air cylinder (405) with one end fixed on the clamping fixed seat (401), a clamping fixed plate (402) fixed at the other end of the air cylinder (405) and a toe clamping air cylinder (403) fixed on the clamping fixed plate (402); clamping plates (404) are fixed on two clamping toes of the clamping toe air cylinder (403); a guide rail (407) is fixed on the clamping fixed seat (401); and sliding blocks (406) matched with the guide rails (407) are fixed on the clamping fixing plates (402).
3. The cell turning mechanism of claim 1, wherein: the rotating assembly (3) comprises a lifting frame (302) fixed on the lifting module (2), a rotating module fixed on the lifting frame (302) and a rotating shaft (303) rotatably connected to the lifting frame (302); the battery cell clamping assembly (4) is fixed at one end of the rotating shaft (303) through the connecting seat (304).
4. The cell turning mechanism of claim 3, wherein: the number of the battery cell clamping assemblies (4) is two; two battery cell clamping assemblies (4) are respectively fixed at two ends of the rotating shaft (303).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122528018.7U CN216354344U (en) | 2021-10-20 | 2021-10-20 | Battery cell turnover mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122528018.7U CN216354344U (en) | 2021-10-20 | 2021-10-20 | Battery cell turnover mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN216354344U true CN216354344U (en) | 2022-04-19 |
Family
ID=81179603
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202122528018.7U Active CN216354344U (en) | 2021-10-20 | 2021-10-20 | Battery cell turnover mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN216354344U (en) |
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2021
- 2021-10-20 CN CN202122528018.7U patent/CN216354344U/en active Active
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