CN219278801U - Battery cell blanking conveying mechanism - Google Patents

Abstract

The utility model belongs to the technical field of automatic production of battery cells, and discloses a battery cell blanking conveying mechanism which comprises a support, wherein a movable seat is movably arranged on the support, a sucker is arranged on the movable seat, a transmission belt is arranged on the support, a brake plate is arranged on the movable seat, a movable plate is rotatably arranged on the brake plate, a clamping plate is rotatably arranged on the movable plate, an extruding plate is movably arranged on the clamping plate, a supporting bar is arranged on the clamping plate, a limiting block is arranged on the supporting bar, a supporting block is arranged on the transmission belt, and the supporting bar is slidably arranged on the supporting block. According to the utility model, through the arrangement of the clamping plates and the extrusion plates, when the battery cells fall on the transmission belt, the extrusion plates support the battery cells with different sizes, the battery cells are limited under the elastic force of the compression springs, the battery cells are prevented from falling from the air in the process of resetting the suckers, the safety of the battery cells is protected, and meanwhile, the positions of the battery cells on the transmission belt are righted, so that the normal operation of the automatic production process is ensured.

Description

Battery cell blanking conveying mechanism

Technical Field

The utility model belongs to the technical field of automatic production of battery cells, and particularly relates to a battery cell blanking conveying mechanism.

Background

The battery core is a component part of the lithium ion rechargeable battery, the battery core is obtained by removing the protection circuit board, the battery core is an electric storage part in the rechargeable battery, and the quality of the battery core directly determines the quality of the rechargeable battery.

In the prior art, the battery cell is produced through automation equipment, and the battery cell after production needs to be adsorbed on a transmission belt through a sucker to be convenient for subsequent packaging and detection, but the following problems can occur in the process:

1. when the battery cell is adsorbed by the sucker and needs to be put down, the battery cell is limited by no limiting force, and the situation that the battery cell cannot fall down in time usually exists, so that the battery cell cannot fall down accurately at a designated position when the battery cell falls down;

2. when the battery cell falls on the transmission belt, the transmission belt is not provided with a centralizing mechanism for centralizing the battery cell, so that the detection and packaging of the battery cell on an automatic production line are not facilitated.

Therefore, a battery cell blanking conveying mechanism is needed to meet the demands of people.

Disclosure of Invention

The utility model provides a battery cell blanking conveying mechanism which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an electricity core unloading transport mechanism, includes the support, movable mounting has the movable seat on the support, installs the sucking disc on the movable seat, installs the conveyer belt on the support, install the brake block on the movable seat, rotate on the brake block and install the fly leaf, rotate on the fly leaf and install the splint, movable mounting has the stripper plate on the splint, installs the support bar on the splint, installs the stopper on the support bar, installs the supporting shoe on the conveyer belt, support bar slidable mounting is on the supporting shoe, and the stopper contacts with the supporting shoe.

Preferably, the brake plate is provided with a rotating shaft, the clamping plate is provided with a mounting shaft block, and two ends of the movable plate are respectively rotatably mounted on the rotating shaft and the mounting shaft block.

Preferably, the two ends of the movable plate are provided with rotating holes, and the rotating shaft and the mounting shaft block are respectively and rotatably mounted in the two rotating holes.

Preferably, the clamping plate is provided with a telescopic sliding shaft in a sliding manner, the extruding plate is arranged at one end of the telescopic sliding shaft, the other end of the telescopic sliding shaft is provided with a baffle plate, and the baffle plate is contacted with the clamping plate.

Preferably, the clamping plate is provided with a telescopic hole, and the telescopic sliding shaft is slidably arranged in the telescopic hole.

Preferably, the support block is provided with a sliding hole, and the support bar is slidably arranged in the sliding hole.

Preferably, the telescopic sliding shaft is movably sleeved with a compression spring, one end of the compression spring is arranged on the clamping plate, and the other end of the compression spring is arranged on the extrusion plate.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The clamping plates and the extrusion plates are arranged, so that the clamping plates are driven to mutually approach and slide in the process that the sucker on the movable seat adsorbs the battery cells to descend onto the transmission belt, when the battery cells just fall onto the transmission belt, the extrusion plates are matched to support the battery cells with different sizes, the battery cells are limited under the action of the elasticity of the compression springs, the battery cells are prevented from falling from the air in the process of resetting the sucker, the safety of the battery cells is protected, and meanwhile, the position of the battery cells on the transmission belt is righted, so that the normal running of the automatic production process is ensured;

(2) Through compression spring's setting, realize righting and centre gripping to not equidimension's electric core under compression spring's elasticity effect to the practicality and the extensive suitability of structure have been improved.

Drawings

Fig. 1 is a schematic perspective view of a battery cell blanking conveying mechanism according to the present utility model;

fig. 2 is a schematic diagram of a partial structure of a discharging and conveying mechanism for a battery cell according to the present utility model;

fig. 3 is a schematic structural diagram of a movable plate of a battery cell blanking conveying mechanism according to the present utility model;

fig. 4 is a schematic diagram of a partial cross-sectional structure of a clamping plate of a discharging and conveying mechanism for a battery cell according to the present utility model.

Reference numerals illustrate:

1. a bracket; 2. a movable seat; 3. a suction cup; 4. a transmission belt; 5. a brake plate; 6. a movable plate; 7. a clamping plate; 8. a support bar; 9. a support block; 10. a limiting block; 11. an extrusion plate; 12. a rotation hole; 13. a rotating shaft; 14. installing a shaft block; 15. a sliding hole; 16. a telescopic slide shaft; 17. a baffle; 18. a telescopic hole; 19. compressing the spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 4, the embodiment provides a battery core blanking conveying mechanism, which comprises a bracket 1, movable mounting has movable seat 2 on the support 1, install sucking disc 3 on the movable seat 2, install transmission band 4 on the support 1, install brake block 5 on the movable seat 2, install fly leaf 6 on the brake block 5, install splint 7 on the fly leaf 6, movable mounting has stripper plate 11 on splint 7, install support bar 8 on splint 7, install stopper 10 on support bar 8, install supporting shoe 9 on the transmission band 4, support bar 8 slidable mounting is on supporting shoe 9, stopper 10 contacts with supporting shoe 9, the battery core is absorbed the back through sucking disc 3 to the battery core of production, through the sliding belt battery core of movable seat 2 to take away on transmission band 4, in-process, the movable seat 2 slides and drives the brake block 5 and slide, the fly leaf 6 moves near each other, the movable block 6 is close to each other and is moved and is driven splint 7 and install 8 on splint 7 and is installed the support bar 8 and be close to each other at slide hole 15 down, install the electric core and close to each other at the electric core, thereby the transmission band 11 is just to the transmission band is just opposite to the transmission band, the transmission band is guaranteed to the core is carried out to the transmission limiting principle when the battery core is just carried out, and the slip is just opposite to the transmission band 11 is just carried out to the core is detected, and is kept away from the side 3, and is opposite to the transmission band is guaranteed, and the transmission band is carried out the electric core is carried out, and is just to the electric core is far away from the electric core is opposite to the transmission band is produced on the electric core is produced.

Referring to fig. 1 to 3, in the present utility model, a rotation shaft 13 is installed on a brake plate 5, an installation shaft block 14 is installed on a clamping plate 7, both ends of a movable plate 6 are rotatably installed on the rotation shaft 13 and the installation shaft block 14, respectively, and the installation of the movable plate 6 is facilitated by the installation shaft block 14 and the rotation shaft 13.

Referring to fig. 1 to 3, in the present utility model, both ends of the movable plate 6 are provided with the rotation holes 12, the rotation shaft 13 and the installation shaft block 14 are rotatably installed in the two rotation holes 12, respectively, the rotation holes 12 restrict the movement of the movable plate 6, and the movable plate 6 can only rotate on the rotation shaft 13 and the installation shaft block 14.

Referring to fig. 1 to 4, in the present utility model, a telescopic sliding shaft 16 is slidably mounted on a clamping plate 7, a squeeze plate 11 is mounted at one end of the telescopic sliding shaft 16, a blocking piece 17 is mounted at the other end of the telescopic sliding shaft 16, the blocking piece 17 contacts with the clamping plate 7, and the sliding of the telescopic sliding shaft 16 is prevented from being separated from the clamping plate 7 by the arrangement of the blocking piece 17.

Referring to fig. 1-4, in the present utility model, the clamping plate 7 is provided with a telescopic hole 18, the telescopic sliding shaft 16 is slidably mounted in the telescopic hole 18, the telescopic hole 18 limits the movement of the telescopic sliding shaft 16, and the telescopic sliding shaft 16 can only slide in the telescopic hole 18.

Referring to fig. 1-2, in the present utility model, the support block 9 is provided with a sliding hole 15, the support bar 8 is slidably mounted in the sliding hole 15, the sliding hole 15 restricts the movement of the support bar 8, and the support bar 8 can only slide in the sliding hole 15.

Referring to fig. 1-3, in the utility model, the telescopic sliding shaft 16 is movably sleeved with the compression spring 19, one end of the compression spring 19 is arranged on the clamping plate 7, the other end of the compression spring 19 is arranged on the extrusion plate 11, and through the arrangement of the compression spring 19, the electric cores with different sizes are righted and clamped under the elastic force of the compression spring 19, so that the practicability and wide applicability of the structure are improved.

After the production of the battery cell is completed, the produced battery cell is absorbed through the sucker 3 in an electric control manner, the battery cell is conveyed and taken away by the sliding driving of the movable seat 2 on the conveying belt 4, in the process, the movable seat 2 slides to drive the brake plate 5 to slide, the brake plate 5 slides to drive the movable plate 6 to move close to each other, the movable plate 6 moves close to each other to drive the clamping plate 7 and the supporting bar 8 arranged on the clamping plate 7 to slide close to each other under the limiting action of the sliding hole 15, the clamping plate 7 slides close to each other to drive the extruding plate 11 to slide close to each other, so that when the battery cell just falls on the conveying belt 4, the extruding plate 11 clamps the battery cell to limit the battery cell, thereby ensuring that the battery cell slides from the sucker 3, ensuring the safety of the battery cell, and simultaneously righting the battery cell in the process, facilitating the detection and packaging on the subsequent automatic production line, when the movable seat 2 is reset, the driving structures are far away from each other to slide and loosen the battery core according to the principle, so that the battery core is transmitted on the transmission belt 4 for packaging and detection, in the process, the installation of the movable plate 6 is facilitated through the installation shaft block 14 and the rotation shaft 13, the rotation hole 12 limits the movement of the movable plate 6, the movable plate 6 can only rotate on the rotation shaft 13 and the installation shaft block 14, the telescopic sliding shaft 16 is prevented from being separated from the clamping plate 7 in the sliding process of the telescopic sliding shaft 16 through the arrangement of the blocking piece 17, the telescopic sliding shaft 16 is limited to move by the telescopic sliding shaft 18, the sliding hole 15 limits the movement of the supporting bar 8, the supporting bar 8 can only slide in the sliding hole 15, the battery cores with different sizes are righted and clamped under the elastic action of the compression spring 19 through the arrangement of the compression spring 19, thereby improving the practicality and wide applicability of the structure.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. The utility model provides a electricity core unloading transport mechanism, includes support (1), movable mounting has movable seat (2) on support (1), installs sucking disc (3) on movable seat (2), installs conveyer belt (4), its characterized in that on support (1): install brake block (5) on movable seat (2), rotate on brake block (5) and install fly leaf (6), rotate on fly leaf (6) and install splint (7), movable mounting has stripper plate (11) on splint (7), install support bar (8) on splint (7), install stopper (10) on support bar (8), install supporting shoe (9) on conveyer belt (4), support bar (8) slidable mounting is on supporting shoe (9), stopper (10) contact with supporting shoe (9).

2. The die blanking transfer mechanism of claim 1, wherein: the brake plate (5) is provided with a rotating shaft (13), the clamping plate (7) is provided with a mounting shaft block (14), and two ends of the movable plate (6) are respectively rotatably mounted on the rotating shaft (13) and the mounting shaft block (14).

3. The die blanking transfer mechanism of claim 1, wherein: both ends of the movable plate (6) are provided with rotating holes (12), and the rotating shaft (13) and the mounting shaft block (14) are respectively and rotatably mounted in the two rotating holes (12).

4. The die blanking transfer mechanism of claim 1, wherein: the clamping plate (7) is provided with a telescopic sliding shaft (16) in a sliding mode, the extruding plate (11) is arranged at one end of the telescopic sliding shaft (16), the other end of the telescopic sliding shaft (16) is provided with a baffle (17), and the baffle (17) is in contact with the clamping plate (7).

5. The die blanking transfer mechanism of claim 1, wherein: the clamping plate (7) is provided with a telescopic hole (18), and the telescopic sliding shaft (16) is slidably arranged in the telescopic hole (18).

6. The die blanking transfer mechanism of claim 1, wherein: the support block (9) is provided with a sliding hole (15), and the support bar (8) is slidably arranged in the sliding hole (15).

7. The die blanking transfer mechanism of claim 4, wherein: the telescopic sliding shaft (16) is movably sleeved with a compression spring (19), one end of the compression spring (19) is installed on the clamping plate (7), and the other end of the compression spring (19) is installed on the extrusion plate (11).

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