CN214477591U

CN214477591U - Battery cell packaging equipment

Info

Publication number: CN214477591U
Application number: CN202120507306.1U
Authority: CN
Inventors: 黄小龙; 徐启周; 杨滔; 王帆; 丁小萍
Original assignee: Dongguan Xindian Energy Co ltd
Current assignee: Dongguan Xindian Energy Co ltd
Priority date: 2021-03-10
Filing date: 2021-03-10
Publication date: 2021-10-22
Anticipated expiration: 2031-03-10

Abstract

The utility model discloses an electric core packaging device, which comprises a dividing plate, a feeding and discharging device, a liquid injection device, a standing device and a sealing device; the feeding and discharging device, the liquid injection device, the standing device and the sealing device are correspondingly arranged above the dividing plate, the feeding device is used as an initial position, and the liquid injection device, the standing device and the sealing device are uniformly arranged around the center of the dividing plate clockwise; the fixed tool that is used for clamping electric core is installed to the graduated disk, and the fixed tool of graduated disk transmission moves in unloader, priming device, the device and the closing device that stews clockwise circulation. The battery cell can be subjected to standing after liquid injection to eliminate bubbles and then is subjected to vacuumizing and sealing, so that the packaging yield is improved; and the production efficiency can be improved through the specific positions of the feeding and discharging device, the liquid injection device, the standing device and the sealing device which are reasonably arranged.

Description

Battery cell packaging equipment

Technical Field

The utility model relates to an electricity core production facility field technique especially indicates an electricity core encapsulation equipment.

Background

After the initial liquid filling and sealing, the cell is usually finished by automatic equipment after a series of operations such as piercing, air suction, sealing, edge cutting, etc. are required to be performed. However, the existing battery cell packaging equipment has unreasonable station arrangement; after the liquid injection of the battery core, directly conveying the battery core to a vacuumizing station for vacuumizing operation; during the vacuum-pumping operation, the vacuum-pumping operation often fails to meet the predetermined vacuum standard due to the bubbles, so that the yield of the cell package is not high.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention is directed to the deficiency of the prior art, and the main objective thereof is to provide a cell packaging device, which is reasonable in structure and arrangement, and can effectively solve the problem of low packaging yield of the existing packaging device.

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

a battery cell packaging device comprises a dividing plate, a feeding and discharging device, a liquid injection device, a standing device and a sealing device;

the feeding and discharging device, the liquid injection device, the standing device and the sealing device are correspondingly arranged above the dividing plate, the feeding device is used as an initial position, and the liquid injection device, the standing device and the sealing device are uniformly arranged around the center of the dividing plate clockwise;

the fixed jig that is used for clamping electric core is installed to the graduated disk, the fixed jig of graduated disk transmission clockwise cyclic movement in unloader, priming device, the device and the closing device of stewing.

As a preferred embodiment: the dividing plate is provided with an indexer, and an output shaft of the indexer is connected to the center of the dividing plate.

As a preferred embodiment: the index plate is arranged in a circular shape, and the fixed jig is arranged on the edge of the index plate.

As a preferred embodiment: the fixed jig comprises a jig base and a plurality of fixed clamping blocks;

every two fixing clamping blocks are used as a group, and the two fixing clamping blocks are arranged at intervals to form a clamping space for fixing the battery cell;

one of the two fixed clamping blocks in each group is used as a fixed end and fixedly arranged on the jig base, and the other fixed clamping block is used as a movable end and movably arranged on the base.

As a preferred embodiment: the fixed clamping blocks as the moving ends are connected with a pull rod, and the fixed clamping blocks of the moving ends can be simultaneously driven to move when the pull rod is pulled.

As a preferred embodiment: the feeding and discharging device comprises a conveyor belt for conveying the battery cell, a plurality of feeding and discharging clamping blocks for grabbing the battery cell and a feeding and discharging displacement mechanism for driving the feeding and discharging clamping blocks to displace;

the conveyer belt is installed beside the indexing disc, the feeding and discharging displacement mechanism is installed above the indexing disc, and the feeding and discharging displacement mechanism can selectively drive the feeding and discharging clamping blocks to reciprocate between the conveyer belt and the fixed jig.

As a preferred embodiment: the sealing device comprises

The cavity is sealed,

the sealing jig comprises a left sealing clamping block, a right sealing clamping block, a left pre-sealing clamping block and a right pre-sealing clamping block; the left sealing clamping block and the left pre-sealing clamping block are vertically overlapped and movably arranged, the right sealing clamping block and the right pre-sealing clamping block are vertically overlapped and movably arranged, and a sealing area is enclosed by the left sealing clamping block, the left pre-sealing clamping block, the right sealing clamping block and the right pre-sealing clamping block; the left sealing clamping block and the right sealing clamping block are provided with elastic clamping blocks with elastic acting force, and the elastic clamping blocks are positioned in the sealing area;

and the vacuum pumping heads are arranged in the seal cavity, and one vacuum pumping head correspondingly extends into a seal area surrounded by the seal jig.

As a preferred embodiment: one side of the elastic clamping block is connected with a spring, and the other end of the spring is correspondingly connected with the left sealing clamping block and the right sealing clamping block.

As a preferred embodiment: the other side surface of the elastic clamping block is provided with a concave position, and the concave position forms a vertical surface and a first inclined surface;

the bottom of the two sides of the vacuum pumping head is provided with a second inclined plane, and the inclination angles of the second inclined plane and the first inclined plane are the same.

As a preferred embodiment: the standing device comprises a vertical transmission mechanism and a standing cavity, the output end of the vertical transmission mechanism is connected to the top of the standing cavity, and an opening is formed in the bottom of the standing cavity.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

the battery cell filling and sealing device mainly comprises a feeding and discharging device, a liquid injection device, a standing device and a sealing device which are reasonably arranged, wherein a dividing plate drives a fixed jig to clockwise circularly move in the feeding and discharging device, the liquid injection device, the standing device and the sealing device to complete a series of operations of liquid injection, standing, sealing and the like of a battery cell; the battery cell can be subjected to standing after liquid injection to eliminate bubbles and then is subjected to vacuumizing and sealing, so that the packaging yield is improved; in addition, the production efficiency can be improved through the specific positions of the feeding and discharging device, the liquid injection device, the standing device and the sealing device which are reasonably arranged;

secondly, the structure of the sealing jig is improved, and elastic clamping blocks with elastic acting force are arranged on the left sealing clamping block and the right sealing clamping block; when the vacuum pumping head performs air pumping in the battery core and moves upwards to be separated from the battery core, the sheath of the battery core can be tightly attached to the surface of the vacuum pumping head under the action of the elastic clamping block; and finally, when the vacuum pumping head is completely separated from the battery core, the elastic clamping block instantly seals the sheath, so that the possibility that external air enters the interior of the battery core is reduced, and the production yield of the battery core is improved.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic perspective view of a cell packaging apparatus according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of a fixing jig according to a preferred embodiment of the present invention;

fig. 3 is a schematic structural view of a loading and unloading device according to a preferred embodiment of the present invention;

fig. 4 is a schematic structural diagram of a standing device according to a preferred embodiment of the present invention;

FIG. 5 is a partial cross-sectional view of the closure of the preferred embodiment of the present invention;

fig. 6 is a cross-sectional view of a sealing jig according to a preferred embodiment of the present invention.

The attached drawings indicate the following:

10. index plate 11 and indexer

12. Fixing jig 121 and jig base

122. Fixed clamp block 123 and pull rod

124. Spring 125, vertical travel bar

20. Loading and unloading device 21 and conveyor belt

22. Feeding and discharging clamping block 221 and left clamping block

222. Right clamping block 223 and first clamping driving mechanism

224. Second material clamping driving mechanism 23 and feeding and discharging displacement mechanism

231. A first vertical displacement plate 232 and a first horizontal displacement plate

30. Liquid injection device 31 and transverse liquid injection transmission mechanism

32. Liquid injection moving frame 33 and vertical liquid injection transmission mechanism

34. Liquid injection head 40, standing device

41. Vertical transmission mechanism 42 and standing cavity

50. Sealing device 51 and sealing cavity

511. First displacement mechanism 52 and sealing jig

521. Left sealing clamping block 522 and right sealing clamping block

523. Left pre-sealing clamping block 524 and right pre-sealing clamping block

525. Elastic clamping block 5251 and spring

5252. Vertical surface 5253, first inclined surface

526. First transmission 527 and second transmission

528. Third gear 529, fourth gear

53. Vacuum pumping head 531, second inclined plane.

Detailed Description

Referring to fig. 1 to 6, a specific structure of a preferred embodiment of the present invention is shown, which is a battery cell packaging apparatus, including an index plate 10, a loading and unloading device 20, a liquid injection device 30, a standing device 40, and a sealing device 50.

In the embodiment of the present application, an indexer 11 is mounted on the bottom of the indexing disk 10, and an output shaft of the indexer 11 is connected to the central position of the indexing disk 10 and drives the indexing disk 10 to rotate. The indexing disc 10 is arranged in a circular shape, a fixing jig 12 for clamping the battery core is installed at the edge of the indexing disc 10, and the fixing jig 12 is arranged according to the number of the loading and unloading device 20, the liquid injection device 30, the standing device 40 and the sealing device 50; namely, four fixed jigs 12 are uniformly distributed on the edge of the dividing plate 10; the feeding and discharging device 20, the liquid injection device 30, the standing device 40 and the sealing device 50 are correspondingly arranged above the dividing plate 10, the feeding and discharging device 20 is used as an initial position, and the liquid injection device 30, the standing device 40 and the sealing device 50 are uniformly arranged around the center of the dividing plate 10 clockwise; each corresponding fixed jig 12 is driven by the index plate 10 to rotate, and the feeding device 20 rotates clockwise as an initial position and returns to the feeding device through the liquid injection device 30, the standing device 40 and the sealing device 50 in sequence to complete liquid injection, standing and sealing operations. By reasonably arranging the loading and unloading device 20, the liquid injection device 30, the standing device 40 and the sealing device 50, the dividing plate 10 drives the fixed jig 12 to clockwise circularly move in the loading and unloading device 20, the liquid injection device 30, the standing device 40 and the sealing device 50 to complete a series of operations such as liquid injection, standing and sealing of the battery cell; the battery cell can be subjected to standing after liquid injection to eliminate bubbles and then is subjected to vacuumizing and sealing, so that the packaging yield is improved; and moreover, the production efficiency can also be improved through the specific positions of the feeding and discharging device 20, the liquid injection device 30, the standing device 40 and the sealing device 50 which are reasonably arranged.

As mentioned above, the fixing jig 12 includes a jig base 121 and a plurality of fixing blocks 122; specifically, every two fixing clamp blocks 122 are used as a group, and the two fixing clamp blocks 122 are arranged at intervals to form a clamping space for fixing the battery cell; each group of two fixed clamping blocks 122, one of which is used as a fixed end and fixedly arranged on the jig base 121, and the other of which is used as a movable end and movably arranged on the base; the fixed clamping blocks 122 as the moving ends are connected with a pull rod 123, and when the pull rod 123 is pulled, the fixed clamping blocks 122 of the moving ends can be simultaneously driven to move to change the size of the clamping space to clamp the battery cell. The pull rod 123 is sleeved with a spring 124, one end of the spring 124 abuts against the jig base 121, and the other end abuts against the fixed clamping block 122 with the head end or the tail end as a fixed end; when the acting force of the pull rod 123 is released, the plurality of fixed clamping blocks 122 serving as the movable ends can move towards one side of the fixed clamping blocks 122 serving as the fixed ends to reduce the clamping space, so that the effect of elastically clamping the battery cell is achieved. The bottom of the jig base 121 is provided with a vertical moving rod 125, and the index plate 10 is provided with a vertical through hole; this fixed tool 12 inserts in the vertical through-hole through vertical carriage rod 125, during the use, can change the height between fixed tool 12 and the graduated disk 10 through the position of adjusting vertical carriage rod 125 to accord with the demand that the operation was sealed to the not co-altitude electric core of clamping.

The feeding and discharging device 20 includes a conveyor belt 21 for conveying the cells, a plurality of feeding and discharging clamping blocks 22 for grabbing the cells, and a feeding and discharging displacement mechanism 23 for driving the feeding and discharging clamping blocks 22 to displace, in this embodiment, the conveyor belt 21 is installed beside the index plate 10, the conveyor belt 21 is the prior art, and will not be described in detail herein; the feeding and discharging displacement mechanism 23 is installed above the index plate 10, and the feeding and discharging displacement mechanism 23 can selectively drive the feeding and discharging clamping block 22 to move back and forth between the conveyor belt 21 and the fixed jig 12 to complete the feeding and discharging operation.

Specifically, the feeding and discharging displacement mechanism 23 includes a first vertical displacement mechanism, a first vertical displacement plate 231, a first horizontal displacement mechanism, and a first horizontal displacement plate 232; the output end of the first vertical displacement mechanism is connected with the first vertical displacement plate 231 and drives the first vertical displacement plate 231 to vertically displace; the first lateral displacement mechanism is mounted at the bottom of the first vertical displacement plate 231, and the first lateral displacement plate 232 is movably mounted at the bottom of the first vertical displacement plate 231; the output end of the first transverse displacement mechanism is connected to the first transverse displacement plate 232 and drives the first transverse displacement plate 232 to move; that is, the first vertical displacement plate 231 is vertically moved up and down, and the first lateral displacement plate 232 is laterally moved back and forth. The feeding and discharging clamping block 22 is installed at the bottom of the first transverse displacement plate 232, so that after the feeding and discharging clamping block 22 is transversely moved forwards and vertically moved downwards to be close to the conveyor belt 21 to grab the battery cell and return to the position above the fixed jig 12, the battery cell is vertically moved downwards to be placed on the fixed jig 12, the feeding process is basically the same, and the description is not repeated here. The first vertical displacement mechanism and the first horizontal displacement mechanism preferably employ air cylinders, so that the overall structure of the loading and unloading device 20 can be simplified.

As mentioned above, the feeding and discharging clamping block 22 includes a plurality of left clamping blocks 221 and a plurality of right clamping blocks 222, and a clamping space for clamping the battery cell is formed by one left clamping block 221 and one right clamping block 222; the left material clamping blocks 221 are connected to the first material clamping driving mechanism 223, and the right material clamping blocks 222 are connected to the second material clamping driving mechanism 224, so as to realize automatic clamping.

This priming device 30 is including transversely annotating liquid drive mechanism 31, a plurality of notes liquid and remove frame 32, a plurality of vertical notes liquid drive mechanism 33 and a plurality of notes liquid head 34, in this application embodiment, should annotate liquid and remove frame 32 movable mounting in transversely annotating liquid drive mechanism 31, each notes liquid removes frame 32 and installs a vertical infusion drive mechanism, and each vertical notes liquid drive mechanism 33 is installed one and is annotated liquid head 34, should annotate liquid head 34 and pass through the external liquid of pipeline.

The standing device 40 comprises a vertical transmission mechanism 41 and a standing cavity 42, wherein the output end of the vertical transmission mechanism 41 is connected to the top of the standing cavity 42, and the bottom of the standing cavity 42 is provided with an opening; when the device works, the vertical transmission mechanism 41 drives the standing cavity 42 to move downwards, and the fixed jig 12 is accommodated in the standing cavity 42; and then left standing in the rest chamber 42 for a predetermined time to remove bubbles of the liquid in the cell.

The sealing device 50 includes a sealing cavity 51, a plurality of sealing jigs 52 and a plurality of vacuum pumping heads 53, in the embodiment of the present application, the plurality of sealing jigs 52 are all installed in the sealing cavity 51, and each sealing jig 52 includes a left sealing clamp block 521, a right sealing clamp block 522, a left pre-sealing clamp block 523 and a right pre-sealing clamp block 524; the left sealing clamping block 521 and the left pre-sealing clamping block 523 are vertically stacked and movably arranged, the right sealing clamping block 522 and the right pre-sealing clamping block 524 are vertically stacked and movably arranged, and a sealing area is enclosed by the left sealing clamping block 521, the left pre-sealing clamping block 523, the right sealing clamping block 522 and the right pre-sealing clamping block 524; the left sealing clamping block 521 and the right sealing clamping block 522 are provided with an elastic clamping block 525 with elastic acting force, and the elastic clamping block 525 is positioned in the sealing area; the number of the corresponding vacuum pumping heads 53 is adapted to the number of the sealing jigs 52, and one vacuum pumping head 53 correspondingly extends into a sealing area surrounded by one sealing jig 52. Specifically, when the vacuum pumping head 53 performs air pumping in the battery cell and moves upwards to be separated from the battery cell, the sheath of the battery cell can be tightly attached to the surface of the vacuum pumping head 53 by the action of the elastic clamping block 525; finally, when the vacuum pumping head 53 is completely separated from the battery core, the elastic clamping block 525 instantaneously seals the sheath, so that the possibility that external air enters the interior of the battery core is reduced, and the production yield of the battery core is improved.

As described above, the bottom of the sealing cavity 51 is provided with an opening, and the plurality of sealing jigs 52 and the plurality of vacuum pumping heads 53 installed in the sealing cavity 51 can be exposed from the opening; when the index plate 10 drives the fixing jig 12 to move to the area where the sealing device 50 is located, the fixing jig 12 can enter the sealing cavity 51 through the opening thereof so that the sealing device 50 can perform a series of operations such as piercing, air-extracting and sealing on the battery cell clamped in the fixing jig 12. Specifically, the sealing cavity 51 is connected with a first displacement mechanism 511, and the first displacement mechanism 511 drives the sealing cavity 51 to move vertically to approach or depart from the fixed jig 12; generally, the first displacement mechanism 511 preferably adopts an air cylinder, and the telescopic rod of the air cylinder is connected to the sealing cavity 51 to drive the sealing cavity 51 to move vertically; in addition, the transmission can also be performed by adopting a mode of a motor and a transmission rod, and the method is not limited to the mode.

More specifically, one side of the elastic clamping block 525 is connected to a spring 5251, and the other end of the spring 5251 is correspondingly connected to the left sealing clamping block 521 and the right sealing clamping block 522; the other side of the elastic clamping block 525 is provided with a concave position, and the concave position forms a vertical surface 5252 and a first inclined surface 5253; the bottom of the vacuum pumping head 53 is provided with a second inclined surface 531 at both sides, and the inclination angle of the second inclined surface 531 is the same as that of the first inclined surface 5253. Therefore, when the vacuum pumping head 53 performs vacuum pumping on the battery cell, the battery cell sheath can always abut against the surface of the vacuum pumping head 53 under the action of the elastic clamping block 525, so that air enters the battery cell from a gap of the battery cell to influence the pumping effect during vacuum pumping; in the process that the vacuum pumping head 53 moves away from the battery cell, the opening of the battery cell is gradually reduced by means of the specific structures of the first inclined surface 5253 and the second inclined surface 531; finally, when the vacuum pumping head 53 is completely separated from the battery cell, the two elastic clamping blocks 525 instantly seal the opening of the battery cell to complete the sealing operation.

As mentioned above, the left sealing clamping blocks 521 are connected to the first transmission mechanism 526, and the right sealing clamping blocks 522 are connected to the second transmission mechanism 527; the first transmission mechanism 526 and the second transmission mechanism 527 respectively transmit the left sealing clamping block 521 and the right sealing clamping block 522 to move so as to change the size of the sealing area. The left pre-sealing clamping blocks 523 are connected with a third transmission mechanism 528, the right pre-sealing clamping blocks 524 are connected with a fourth transmission mechanism 529, and the third transmission mechanism 528 and the fourth transmission mechanism 529 respectively transmit the left pre-sealing clamping blocks 523 and the right pre-sealing clamping blocks 524 to move so as to change the size of the sealing area. Specifically, the first transmission mechanism 526 includes a motor and a screw rod, and an output end of the motor is connected to the screw rod; this left seal clamp splice 521 is provided with and supplies the screw to pass to establish and can drive the screw that its removed, and when motor drive screw rotated, can drive a plurality of left seal clamp splices 521 simultaneous movement simultaneously. The second, third and

fourth gear mechanisms

527, 528, 529 are of the same construction as the first gear mechanism 526 and will not be described in detail here.

The utility model discloses a design focus lies in: the battery cell filling and sealing device mainly comprises a feeding and discharging device, a liquid injection device, a standing device and a sealing device which are reasonably arranged, wherein a dividing plate drives a fixed jig to clockwise circularly move in the feeding and discharging device, the liquid injection device, the standing device and the sealing device to complete a series of operations of liquid injection, standing, sealing and the like of a battery cell; the battery cell can be subjected to standing after liquid injection to eliminate bubbles and then is subjected to vacuumizing and sealing, so that the packaging yield is improved; in addition, the production efficiency can be improved through the specific positions of the feeding and discharging device, the liquid injection device, the standing device and the sealing device which are reasonably arranged;

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a battery cell encapsulation equipment which characterized in that: comprises a dividing plate, a feeding and discharging device, a liquid injection device, a standing device and a sealing device;

2. The cell encapsulation equipment of claim 1, wherein: the dividing plate is provided with an indexer, and an output shaft of the indexer is connected to the center of the dividing plate.

3. The cell encapsulation equipment of claim 1, wherein: the index plate is arranged in a circular shape, and the fixed jig is arranged on the edge of the index plate.

4. The cell encapsulation equipment of claim 1, wherein: the fixed jig comprises a jig base and a plurality of fixed clamping blocks;

5. The cell encapsulation equipment of claim 4, wherein: the fixed clamping blocks as the moving ends are connected with a pull rod, and the fixed clamping blocks of the moving ends can be simultaneously driven to move when the pull rod is pulled.

6. The cell encapsulation equipment of claim 1, wherein: the feeding and discharging device comprises a conveyor belt for conveying the battery cell, a plurality of feeding and discharging clamping blocks for grabbing the battery cell and a feeding and discharging displacement mechanism for driving the feeding and discharging clamping blocks to displace;

7. The cell encapsulation equipment of claim 1, wherein: the sealing device comprises

The cavity is sealed,

8. The cell encapsulation equipment of claim 7, wherein: one side of the elastic clamping block is connected with a spring, and the other end of the spring is correspondingly connected with the left sealing clamping block and the right sealing clamping block.

9. The cell encapsulation equipment of claim 7, wherein: the other side surface of the elastic clamping block is provided with a concave position, and the concave position forms a vertical surface and a first inclined surface;

10. The cell encapsulation equipment of claim 7, wherein: the standing device comprises a vertical transmission mechanism and a standing cavity, the output end of the vertical transmission mechanism is connected to the top of the standing cavity, and an opening is formed in the bottom of the standing cavity.