CN-224222365-U - Shaping device for battery electrode lug

Abstract

A shaping device for battery lugs comprises a workbench, a turntable device arranged on the workbench, a first shaping device and a second shaping device, wherein a motor in the turntable device is fixed in the shell and penetrates through the shell, a connecting hole is further formed in the turntable, the connecting hole on the turntable corresponds to the connecting hole on the connecting end of the motor, the motor drives the turntable to synchronously rotate along a preset direction, the first shaping device comprises a supporting component, a telescopic component and the first shaping component, the telescopic component drives the first shaping component to carry out telescopic movement, the first shaping component comprises a first shaping body and an adjusting plate, insertion holes are formed in two opposite side walls of the first shaping body respectively, at least three groups of adjusting grooves are formed in the insertion holes at two opposite ends of the insertion holes respectively, the adjusting plate is matched with the adjusting grooves, the second shaping device is matched with the first shaping device, the shaping of the battery lugs with different thicknesses in the production process is realized, the operation is convenient, and the production cost is reduced.

Inventors

• WU BAICAI

Assignees

• 欧特能源(江门)有限公司

Dates

Publication Date

20260512

Application Date

20250527

Claims (10)

1. 1. A shaping device for battery lugs is characterized by comprising A work table (10); The turntable device (20) is arranged on the workbench (10), the turntable device (20) comprises a shell (21), a motor (22) arranged in the shell (21) and a turntable (23) fixed on the motor (22), the motor (22) is fixed in the shell (21) and penetrates through the shell (21), a connecting hole (231) is further formed in the turntable (23), the connecting hole (231) formed in the turntable (23) corresponds to the connecting hole in the connecting end of the motor (22), the motor (22) drives the turntable (23) to synchronously rotate along the preset direction, and a limiting groove (232) is further formed in the side wall of the turntable (23); The first shaping device (30) is connected to the workbench (10), the first shaping device (30) comprises a supporting component (31), a telescopic component (32) fixed to the supporting component (31) and a first shaping component (33) connected to the telescopic component (32), the telescopic component (32) drives the first shaping component (33) to perform telescopic movement, the first shaping component (33) comprises a first shaping body (331) and an adjusting plate (332), insertion holes (331D) are respectively formed in two opposite side walls of the first shaping body (331), at least three groups of adjusting grooves (331F) are respectively formed in insertion holes (331E) in two opposite ends of the insertion holes (331D), and the adjusting plate (332) is matched with the adjusting grooves (331F); The second shaping device (40) is connected to the turntable device (20), the second shaping device (40) is matched with the first shaping device (30), and the second shaping device (40) comprises a telescopic component (32) and a second shaping component (42) connected to the telescopic component (32).
2. 2. The shaping device for battery tabs according to claim 1, characterized in that a connection location (331A) is provided on the a-side of the first shaping body (331), said connection location (331A) being connected with the telescopic end of the telescopic assembly (32).
3. 3. The shaping device for battery tabs according to claim 2, characterized in that the connection site (331A) is further provided with at least three sets of connection holes (231), and the connection holes (231) on the connection site (331A) correspond to the connection holes of the telescopic ends of the telescopic components (32).
4. 4. The shaping device for battery tabs according to claim 1, characterized in that the B side of the first shaping body (331) is provided with an adaptation groove (331G) of a battery cup and a tab shaping hole (331H), the tab shaping hole (331H) is communicated with the adjustment groove (331F), and the adaptation groove (331G) accommodates the battery cup inside.
5. 5. The shaping device for battery tabs according to claim 1, characterized in that a connection site (331A) is also provided on the D side of the second shaping assembly (42), a connection hole (231) is also provided on the connection site (331A), and the connection hole (231) of the connection site (331A) on the second shaping assembly (42) corresponds to the connection hole (231) of the telescopic end of the telescopic assembly (32).
6. 6. The shaping device for battery tabs according to claim 5, characterized in that at least three sets of said connection holes (231) are also provided on said connection sites (331A) on said second shaping assembly (42).
7. 7. Shaping device for battery tabs according to claim 6, characterized in that on the C-side of the second shaping assembly (42) an adjusting shaping mechanism (421) is provided.
8. 8. The shaping device for battery tabs according to claim 7, characterized in that the adjustment shaping mechanism (421) comprises at least three removable adjustment shaping blocks (4211).
9. 9. The shaping device for battery tabs according to claim 8, characterized in that a fixing hole (42A) is provided at a junction of the second shaping assembly (42) on the C side corresponding to the adjusting shaping mechanism (421), the fixing hole (42A) is also provided on one side wall of the adjusting shaping block (4211), and a rotary joint (42111) is further provided on the other side wall of the adjusting shaping block (4211), and the rotary joint (42111) is respectively in threaded connection with the fixing hole (42A) on the adjusting shaping block (4211) and the fixing hole (42A) on the C side of the second shaping assembly (42).
10. 10. Shaping device for battery tabs according to claim 5, characterized in that the second shaping assembly (42) is also provided with an adaptation groove (331G) on the C-side.

Description

Shaping device for battery electrode lug Technical Field The application relates to the technical field of batteries, in particular to a shaping device for battery lugs. Background With the development of electronic technology, the lithium ion battery has the advantages of high specific power, long cycle life, good safety performance, no pollution and the like, so that the lithium ion battery is widely applied and is divided into a positive electrode and a negative electrode, wherein the tab is a metal conductor for leading out the positive electrode and the negative electrode from the battery core; in the conventional battery manufacturing process, the tab of the battery is usually required to be shaped, so that the tab is shaped into a vertical state from the bent shape; in the prior art, to the tab of different thickness, need use the plastic device of many sets of different specifications to satisfy the plastic of the tab of different thickness, can't directly carry out the plastic to the tab of different thickness through a set of battery tab plastic device, the operation is very inconvenient, has increased manufacturing cost. Disclosure of utility model The embodiment of the utility model provides a shaping device for battery lugs, which realizes the shaping of battery lugs with different thicknesses in the production process of batteries, is convenient to operate and reduces the production cost. In order to achieve the above purpose, the present application adopts the following technical scheme: a shaping device for battery lugs is characterized by comprising A work table; The turntable device is arranged on the workbench and comprises a shell, a motor arranged in the shell and a turntable fixed on the motor, wherein the motor is fixed in the shell and penetrates through the shell, a connecting hole is further formed in the turntable, the connecting hole formed in the turntable corresponds to the connecting hole formed in the connecting end of the motor, the motor drives the turntable to synchronously rotate along a preset direction, and a limiting groove is further formed in the side wall of the turntable; The first shaping device comprises a supporting component, a telescopic component fixed on the supporting component and a first shaping component connected with the telescopic component, the telescopic component drives the first shaping component to perform telescopic motion, the first shaping component comprises a first shaping body and adjusting plates, insertion holes are respectively formed in two opposite side walls of the first shaping body, at least three groups of adjusting grooves are respectively formed in insertion holes at two opposite ends of the insertion holes, and the adjusting plates are matched with the adjusting grooves; The second shaping device is connected to the turntable device and matched with the first shaping device, and comprises a telescopic assembly and a second shaping assembly connected to the telescopic assembly. In some alternative embodiments, a connection location is provided on the a side of the first body, the connection location being connected to the telescoping end of the telescoping assembly. In some alternative embodiments, at least three groups of connecting holes are further formed in the connecting position, and the connecting holes in the connecting position correspond to the connecting holes of the telescopic end of the telescopic assembly. In some optional embodiments, a battery cup adapting groove and a tab shaping hole are formed on the side B of the first shaping body, the tab shaping hole is communicated with the adjusting groove, and the battery cup is accommodated in the adapting groove. In some optional embodiments, a connection position is also provided on the D side of the second shaping component, and a connection hole is also provided on the connection position, where the connection hole of the connection position on the second shaping component corresponds to the connection hole of the telescopic end of the telescopic component. In some alternative embodiments, at least three sets of said attachment holes are also provided in said attachment locations on said second shaping assembly. In some alternative embodiments, the second shaping assembly is provided with an adjusting shaping structure on the C-side. In some alternative embodiments, the adjustment and shaping mechanism includes at least three removable adjustment and shaping blocks. In some optional embodiments, a fixing hole is provided at a connection portion on the side of the second shaping component C corresponding to the adjusting shaping mechanism, the fixing hole is also provided on one side wall of the adjusting shaping block, and a rotary joint is further provided on the other side wall of the adjusting shaping block, and the rotary joint is respectively in threaded connection with the fixing hole on the adjusting shaping block and the fixing hole on the side of the second