CN216773304U - Electricity core climbing mechanism - Google Patents

Abstract

The utility model relates to the technical field of battery cell processing, in particular to a battery cell jacking mechanism.A support frame is provided with two sliding frames which can horizontally slide on the support frame; the sliding frame is connected with a roller seat; the roller seat is rotatably connected with two rollers which are parallel to each other; a pressure plate connecting seat is arranged on the sliding frame; the pressing plate connecting base is rotatably connected with a pressing plate; the fixed plate is provided with a sliding frame power assembly capable of driving the sliding frame to horizontally move relative to the support frame. When the coating machine is used, the battery core freely rotates in the coating process, and the battery core does not need to be clamped by hands, so that the labor intensity is reduced, and the stability of the coating quality is improved.

Description

Electricity core climbing mechanism

Technical Field

The utility model relates to the technical field of battery cell processing, in particular to a battery cell jacking mechanism.

Background

In the processing process of a cylindrical battery cell, two ends of the outer circular wall of the battery cell need to be wrapped with adhesive films, the battery cell is firstly inserted into a clamp capable of rotating the battery cell in the existing battery cell film wrapping station, and then one end of a film material is tightly pressed on the battery cell and a rotating mechanism; the rotating mechanism drives the battery cell to rotate to coat the film, and the clamp needs manual feeding, so that the stability of the film coating cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cell jacking mechanism aiming at the defects and shortcomings of the prior art.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model relates to a cell jacking mechanism which comprises a fixed plate, a support frame connected to the fixed plate in a sliding manner and a lifting assembly capable of driving the support frame to do lifting motion on the fixed plate; two sliding frames capable of horizontally sliding on the supporting frame are arranged on the supporting frame; the sliding frame is connected with a roller seat; the roller seat is rotatably connected with two rollers which are parallel to each other; the sliding frame is provided with a pressure plate connecting seat; the pressing plate connecting seat is rotatably connected with a pressing plate; the fixed plate is provided with a sliding frame power assembly capable of driving the sliding frame to move horizontally relative to the support frame.

Furthermore, the lifting assembly comprises a linear module and a push block fixed at the bottom of the support frame; the bottom surface of the push block is an inclined surface; an inclined guide rail is fixed on the inclined surface in an inclined manner; and a first sliding block which is in sliding connection with the inclined guide rail is fixed on the sliding table of the linear module.

Further, the sliding frame power assembly comprises a spring and a push-out cylinder fixed on the fixed plate; a push plate is fixed at the piston rod end of the push-out cylinder; one end of the spring is fixed on the sliding frame; the other end of the spring is fixed on the support frame; and the pressure plate connecting seat is fixed on the sliding frame through the sliding frame connecting plate.

Further, a second guide rail is fixed on the carriage connecting plate; a second sliding block which is in sliding connection with the second guide rail is fixed on the pressure plate connecting seat; the sliding frame connecting plate is rotatably connected with an adjusting bolt; the adjusting bolt is in threaded connection with a threaded hole formed in the pressure plate connecting seat.

After adopting the structure, the utility model has the beneficial effects that: when the battery cell jacking mechanism is used, the fixing plate is fixed on the external rack; a lifting guide rail fixed on the fixed plate is in sliding connection with a lifting slide block on the support frame; one end of the battery cell is placed between the two rollers of one roller seat; the other end of the battery cell is placed between the two rollers of the other roller seat; the battery cell is supported and can rotate freely; the sliding frame power assembly pushes the sliding frame to move horizontally, so that the two pressing plates tightly press and position the battery cell; the lifting assembly can drive the support frame to do lifting motion, lifting of the roller and the pressing plate is achieved, the battery cell is pressed on an external rotating mechanism, and the rotating mechanism is started to perform film coating; the positions coated with the film are rolled by the rollers, so that the film coating quality is improved; the battery core freely rotates in the film coating process, and does not need to be clamped by hands, so that the labor intensity is reduced, and the stability of the film coating quality is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the support frame and the fixed plate after the sliding frame and the sliding frame power assembly are mounted;

FIG. 3 is a schematic view of the adjustable connection of the platen to the carriage attachment plate;

description of reference numerals:

1. a linear module; 101. a sliding table; 2. a first slider; 3. an inclined guide rail; 4. a push block;

5. a support frame; 6. a fixing plate; 7. pushing out the cylinder; 8. a roller; 9. a carriage;

10. a lifting slide block; 11. pushing the plate; 12. a lifting guide rail; 13. a pressure plate connecting seat; 14. pressing a plate;

15. a roller seat; 16. a spring; 17. a carriage connecting plate; 18. a second slider; 19. a second guide rail;

20. and adjusting the bolt.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 3, the cell jacking mechanism of the present invention includes a fixing plate 6, a support frame 5 slidably connected to the fixing plate 6, and a lifting assembly capable of driving the support frame 5 to perform a lifting motion on the fixing plate 6; two sliding frames 9 capable of horizontally sliding on the support frame 5 are arranged on the support frame 5; the sliding frame 9 is connected with a roller seat 15; the roller seat 15 is rotatably connected with two rollers 8 which are parallel to each other; a pressure plate connecting seat 13 is arranged on the sliding frame 9; the pressing plate connecting seat 13 is rotatably connected with a pressing plate 14; a sliding frame power assembly capable of driving the sliding frame 9 to horizontally move relative to the support frame 5 is arranged on the fixed plate 6; the fixed plate 6 is fixed on an external frame; a lifting guide rail 12 fixed on the fixed plate 6 is in sliding connection with a lifting slide block 10 on the support frame 5; one end of the battery core is placed between the two rollers 8 of one roller seat 15; the other end of the battery cell is arranged between the two rollers 8 of the other roller seat 15; the battery cell is supported and can rotate freely; the sliding frame power assembly pushes the sliding frame 9 to move horizontally, so that the two pressing plates 14 tightly press and position the battery cell;

the lifting assembly can drive the support frame 5 to do lifting motion, the lifting of the roller 8 and the pressing plate 14 is realized, the battery cell is pressed on an external rotating mechanism, and the rotating mechanism is started to coat the film; the electric core freely rotates in the coating process, and the electric core does not need to be clamped by hands, so that the labor intensity is reduced, and the stability of the coating quality is improved.

As a preferred mode of the utility model, the lifting assembly comprises a linear module 1 and a push block 4 fixed at the bottom of a support frame 5; the bottom surface of the push block 4 is an inclined surface; an inclined guide rail 3 is obliquely arranged on the inclined surface; a first sliding block 2 which is in sliding connection with an inclined guide rail 3 is fixed on a sliding table 101 of the linear module 1; support frame 5 and fixed plate 6 sliding connection, linear module 1 drive slip table 101 are the horizontal motion in-process, and first slider 2 slides along inclined guide 3, so ejector pad 4 and support frame 5 are elevating movement for fixed plate 6.

As a preferred mode of the utility model, the sliding frame power assembly comprises a spring 16 and a push-out cylinder 7 fixed on the fixed plate 6; a push plate 11 is fixed at the piston rod end of the push-out cylinder 7; one end of the spring 16 is fixed on the sliding frame 9; the other end of the spring 16 is fixed on the support frame 5; the pressure plate connecting seat 13 is fixed on the sliding frame 9 through a sliding frame connecting plate 17; under the action force of the spring 16, the sliding frame connecting plate 17 is pressed on the push plate 11 all the time; the push-out cylinder 7 can drive the sliding frame 9 to slide relative to the support frame 5 after being started, so that the pressing plates 14 can slide transversely, the battery cell is clamped and positioned by the two pressing plates 14, and the positioning precision of the coating is improved.

As a preferred aspect of the present invention, a second guide rail 19 is fixed to the carriage connecting plate 17; a second sliding block 18 which is in sliding connection with a second guide rail 19 is fixed on the pressure plate connecting seat 13; the sliding frame connecting plate 17 is rotatably connected with an adjusting bolt 20; the adjusting bolt 20 is in threaded connection with a threaded hole formed in the pressure plate connecting seat 13; after the adjusting bolt 20 is rotated, the pressing plate connecting seat 13 can slide on the sliding frame connecting plate 17, the initial position of the fine adjustment pressing plate 14 is adjusted, the pressure of the battery cell pressed on the two fine adjustment pressing plates 14 is adjusted, the battery cell is protected, and the battery cell is prevented from being pressed and deformed by the pressing plates 14.

When the utility model is used, the fixed plate is fixed on the external frame; a lifting guide rail fixed on the fixed plate is in sliding connection with a lifting slide block on the support frame; one end of the battery cell is placed between the two rollers of one roller seat; the other end of the battery cell is placed between the two rollers of the other roller seat; the battery cell is supported and can rotate freely; under the action of a spring, the sliding frame connecting plate is pressed on the push plate all the time; after the push-out cylinder is started, the sliding frame can be driven to slide relative to the support frame, so that the pressing plates can slide transversely, the battery cell is clamped and positioned by the two pressing plates, and the positioning precision of the coating film is improved; after the adjusting bolt is rotated, the pressing plate connecting seat can slide on the sliding frame connecting plate, the initial positions of the pressing plates are finely adjusted, and the pressure of the battery cell pressed on the two finely adjusted pressing plates is adjusted, so that the battery cell is protected, and the battery cell is prevented from being pressed and deformed by the pressing plates; in the process that the linear module drives the sliding table to do horizontal motion, the first sliding block slides along the inclined guide rail, so that the pushing block and the supporting frame do lifting motion relative to the fixed plate, the lifting of the roller and the pressing plate is realized, the battery cell is pressed on an external rotating mechanism, and the rotating mechanism is started to coat the film; the electric core freely rotates in the coating process, and the electric core does not need to be clamped by hands, so that the labor intensity is reduced, and the stability of the coating quality is improved.

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 climbing mechanism which characterized in that: the lifting device comprises a fixed plate (6), a support frame (5) connected to the fixed plate (6) in a sliding manner and a lifting component capable of driving the support frame (5) to do lifting motion on the fixed plate (6); two sliding frames (9) capable of horizontally sliding on the support frame (5) are arranged on the support frame (5); the sliding frame (9) is connected with a roller seat (15); the roller seat (15) is rotatably connected with two rollers (8) which are parallel to each other; a pressure plate connecting seat (13) is arranged on the sliding frame (9); the pressing plate connecting seat (13) is rotatably connected with a pressing plate (14); the fixed plate (6) is provided with a sliding frame power assembly capable of driving the sliding frame (9) to do horizontal motion relative to the support frame (5).

2. The cell jacking mechanism of claim 1, wherein: the lifting component comprises a linear module (1) and a push block (4) fixed at the bottom of the support frame (5); the bottom surface of the push block (4) is an inclined surface; an inclined guide rail (3) is fixed on the inclined surface in an inclined manner; a first sliding block (2) which is connected with the inclined guide rail (3) in a sliding mode is fixed on the sliding table (101) of the linear module (1).

3. The cell jacking mechanism of claim 1, wherein: the sliding frame power assembly comprises a spring (16) and a push-out cylinder (7) fixed on the fixed plate (6); a push plate (11) is fixed at the piston rod end of the push-out cylinder (7); one end of the spring (16) is fixed on the sliding frame (9); the other end of the spring (16) is fixed on the support frame (5); and the pressure plate connecting seat (13) is fixed on the sliding frame (9) through a sliding frame connecting plate (17).

4. The cell jacking mechanism of claim 3, wherein: a second guide rail (19) is fixed on the carriage connecting plate (17); a second sliding block (18) which is in sliding connection with a second guide rail (19) is fixed on the pressure plate connecting seat (13); the sliding frame connecting plate (17) is rotatably connected with an adjusting bolt (20); the adjusting bolt (20) is in threaded connection with a threaded hole formed in the pressure plate connecting seat (13).

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