CN217544682U - High-speed lamination device - Google Patents

Abstract

The utility model belongs to the technical field of the lamination machine technique and specifically relates to indicate a high-speed lamination device, the on-line screen storage device comprises a base, install in the lift actuating mechanism of base, hold the lamination platform of being connected and set up in the elevating system that opens and shuts of base with lift actuating mechanism, the elevating system that opens and shuts is including installing in the lift drive assembly of base, hold the lift seat of being connected with lift drive assembly's lift, locate the drive assembly that opens and shuts of lift seat, hold two of being connected with the end that opens and shuts of the drive assembly that opens and shuts and press the driver and press two of holding respectively with two of pressing the driver and be connected and press the claw, the lamination platform is located between two pressure claws, the drive assembly that opens and shuts is used for driving two and presses the driver and is close to or keep away from each other. The utility model discloses a lift and the opening and shutting of pressing the claw carry out reasonable coordination work, have realized the action of high-speed lamination, come control pressure claw through pressing the driver and compress tightly the packing force of pole piece, the hole is adjustable to the packing force, avoids crushing the pole piece or the problem of pressing the not tight pole piece, has improved the quality of lamination.

Description

High-speed lamination device

Technical Field

The utility model belongs to the technical field of the lamination machine technique and specifically relates to indicate a high-speed lamination device.

Background

The manufacturing process of the soft package battery core package is located at the middle front section of the total manufacturing process section of the soft package battery, and is an indispensable process in the production of the soft package battery. Because each core pack is manufactured by a plurality of lamination cycles, and each core pack is manufactured by a large amount of time, the core pack manufacturing process becomes one of the bottlenecks of capacity improvement in the whole process section. The existing lamination mechanism in the market has a complex structure and low lamination efficiency, and is difficult to meet the market demand. Therefore, the drawbacks are obvious, and a solution is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a high-speed lamination device.

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

the utility model provides a high-speed lamination device, its includes the base, install in the lift actuating mechanism of base, with the lamination platform that lift actuating mechanism's lift end is connected and set up in the elevating system that opens and shuts of base, the elevating system that opens and shuts is including installing in the lift drive assembly of base, with the lift seat that lift drive assembly's lift end is connected, set up in the drive assembly that opens and shuts of lift seat, with two press the driver of the end connection that opens and shuts of drive assembly and press the claw with two press the end connection that press of driver respectively, the lamination platform is located between two pressure claws, the drive assembly that opens and shuts is used for driving two and presses the driver and be close to or keep away from each other.

Further, the lifting seat is connected with the side wall of the lamination table in a sliding mode.

Further, the pressing driver is connected with the lifting seat in a sliding mode through a sliding block.

Furthermore, the opening and closing driving assembly comprises an opening and closing rotating driver arranged on the lifting seat, two driving wheels respectively rotatably connected to the lifting seat, a driving belt sleeved outside the two driving wheels, and two connecting pieces respectively connected with the upper side and the lower side of the driving belt, wherein the rotating end of the opening and closing rotating driver is connected with one of the driving wheels, and the two pressing drivers are respectively connected with the two connecting pieces.

Furthermore, the lifting driving assembly comprises a lifting rotating driver arranged on the base, a rotary table connected with the rotating end of the lifting rotating driver, an eccentric shaft arranged on the rotary table, a driving part in driving connection with the eccentric shaft and a lifting rod connected to the driving part, the middle part of the lifting rod penetrates through the base and is in sliding connection with the base, and the top of the lifting rod is connected with the lifting seat.

Furthermore, the driving piece is provided with a driving sliding groove, the eccentric shaft extends into the driving sliding groove, and the eccentric shaft is connected with the inner wall of the driving sliding groove in a sliding mode.

Furthermore, the pressing driver comprises a mounting seat connected with the opening and closing end of the opening and closing driving component, an air cylinder arranged on the mounting seat and a pressing seat arranged on a piston rod of the air cylinder, and the pressing claw is arranged on the pressing seat.

Further, press the driver still including installing in the pressure regulating mechanism of mount pad, the pressure regulating end of pressure regulating mechanism is used for pressing the seat with pressing and contradicts.

Further, pressure regulating mechanism includes the pressure regulating seat of being connected with the mount pad, with the screw rod of pressure regulating seat threaded connection and install the conflict piece in the top of screw rod, conflict piece is used for pressing the seat conflict with pressing.

Furthermore, the number of the opening and closing lifting mechanisms is two, the two opening and closing lifting mechanisms are arranged in parallel.

The utility model has the advantages that: in practical application, after the two pressing claws are in an open state and pole pieces are placed on the lamination table, the opening and closing driving assembly drives the two pressing claws at the two ends of the two pressing drivers to approach, so that the two pressing claws are respectively positioned above the two ends of the pole pieces, the lifting driving assembly drives the lifting seat to jointly drive the two pressing drivers and the two pressing claws to descend until the two pressing claws respectively press the two ends of the pole pieces on the lamination table, in the process, the pressing drivers can regulate and control the pressing force of the pressing claws to press the pole pieces, then the next pole piece is stacked on the upper pole piece of the lamination table and positioned above the pressing claws, the opening and closing driving assembly drives the two pressing drivers to jointly open the two pressing claws, the lifting driving assembly drives the lifting seat to jointly drive the two pressing drivers and the two pressing claws to ascend and reset, meanwhile, the lifting driving mechanism drives the lamination table to descend by the height of one pole piece, then the opening and closing driving assembly drives the two pressing drivers to jointly drive the lifting seat to jointly drive the two pressing drivers and the two pressing claws to descend until the two pressing claws respectively stack the pole pieces on the lamination table, and the battery cell can be rapidly stacked on the lamination table in a circular manner. The utility model discloses a compact structure carries out reasonable coordination work through the lift of pressing the claw and opening and shutting, has realized the action of high-speed lamination, controls through pressing the driver and presses the claw to compress tightly the packing force of pole piece, and the adjustable hole of packing force avoids appearing weighing wounded the pole piece or pressing the problem of not tight pole piece, has improved the quality of lamination, and the during operation noise is low, and stability is high.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the present invention.

Fig. 2 is a schematic structural view of the opening and closing lifting mechanism of the present invention.

Description of reference numerals:

1. a base; 2. a lifting drive mechanism; 3. a lamination table; 4. an opening and closing lifting mechanism; 41. a lift drive assembly; 411. a lifting and rotating driver; 412. rotary disc (ii) a; 413. an eccentric shaft; 414. a drive member; 415. a lifting rod; 416. a drive chute; 42. a lifting seat; 43. an opening and closing drive assembly; 431. an opening and closing rotation driver; 432. a driving wheel; 433. a transmission belt; 434. a connecting member; 44. pressing the driver; 441. a mounting seat; 442. a cylinder; 443. a pressing seat; 444. a pressure regulating mechanism; 445. a pressure regulating seat; 446. a screw; 447. a contact member; 45. pressing claws; 5. a slide block.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 and 2, the utility model provides a pair of high-speed lamination device, it includes base 1, install in the lift actuating mechanism 2 of base 1, with the lamination platform 3 that lift end connection of lift actuating mechanism 2 and set up in the elevating mechanism 4 that opens and shuts of base 1, the elevating mechanism 4 that opens and shuts is including installing in the lift actuating component 41 of base 1, the lift seat 42 of being connected with the lift end of lift actuating component 41, set up in the drive component 43 that opens and shuts of lift seat 42, press the driver 44 and press two claws 45 of being connected with two pressing ends that press driver 44 respectively with two of opening and shutting drive component 43 open and shut, lamination platform 3 is located between two pressing claws 45, drive component 43 that opens and shuts is used for driving two and presses driver 44 and is close to each other or keep away from.

In practical application, after the two pressing claws 45 are in an open state and pole pieces are placed on the lamination table 3, the opening and closing driving assembly 43 drives the two pressing claws 45 at two ends of the two pressing drivers 44 to close, so that the two pressing claws 45 are respectively positioned above two ends of the pole pieces, the lifting driving assembly 41 drives the lifting seat 42 to be connected with the two pressing drivers 44 and the two pressing claws 45 to descend until the two pressing claws 45 respectively press two ends of the pole pieces on the lamination table 3, in the process, the pressing drivers 44 can regulate and control the pressing force of the pressing claws 45 for pressing the pole pieces, then the next pole piece is stacked on the upper pole piece of the lamination table 3 and is positioned above the pressing claws 45, then the opening and closing driving assembly 43 drives the two pressing drivers 44 to open together with the two pressing claws 45, the lifting driving assembly 41 drives the lifting seat 42 to be connected with the two pressing drivers 44 and the two pressing claws 45 to ascend and reset, meanwhile, the lifting driving mechanism 2 drives the lamination table 3 to descend by the height of one pole piece, then the opening and closing driving assembly 43 drives the two pressing drivers 44 to be connected with the two pressing claws 45 to ascend and return, and the two pressing claws 45 to be connected with the lifting seat, and the two pressing claws 42 to be connected with the electric core driving assembly to be connected with the lifting seat to be connected with the two pressing claws 45 to be stacked on the lamination table 3, and to realize the quick stacking operation of the lamination table. The utility model has compact structure, carries out reasonable coordination work through the lifting and the opening and the closing (closing and opening) of the pressing claw 45, realizes the action of high-speed lamination, controls the pressing force of the pressing claw 45 to compress the pole piece through the pressing driver 44, has adjustable holes of the pressing force, avoids the problem of damaging or not pressing the pole piece, and improves the quality of the lamination; the lamination speed can reach 0.3 s/piece, the highest can reach 0.2 s/piece, and the noise is low and the stability is high during working.

In this embodiment, the lifting seat 42 is slidably connected to the side wall of the lamination table 3, so that the lifting stability of the lifting seat 42 is improved.

In this embodiment, the pressing actuator 44 is slidably connected to the lifting base 42 via the slider 5; in the process that the opening and closing driving assembly 43 drives the pressing driver 44 to move together with the pressing claws 45, the sliding block 5 moves together with the pressing driver 44 and the pressing claws 45 along the lifting seat 42, so that the moving stability of the pressing claws 45 is improved.

In this embodiment, the opening and closing driving assembly 43 includes an opening and closing rotation driver 431 installed on the lifting seat 42, two driving wheels 432 respectively rotatably connected to the lifting seat 42, a transmission belt 433 sleeved outside the two driving wheels 432, and two connecting pieces 434 respectively connected to the upper side and the lower side of the transmission belt 433, wherein the rotation end of the opening and closing rotation driver 431 is connected to one of the driving wheels 432, and the two pressing drivers 44 are respectively connected to the two connecting pieces 434; specifically, the opening and closing rotation driver 431 may employ a motor. In practical application, the opening and closing rotation driver 431 drives the transmission wheel 432 to rotate, the rotating transmission wheel 432 drives the transmission belt 433 to rotate, the rotating transmission belt 433 drives the two pressing drivers 44 to move close to or open from each other, so that the synchronism is good and the work is stable.

In this embodiment, the lifting driving assembly 41 includes a lifting rotation driver 411 installed on the base 1, a turntable 412 connected to a rotation end of the lifting rotation driver 411, an eccentric shaft 413 disposed on the turntable 412, a driving member 414 connected to the eccentric shaft 413 in a driving manner, and a lifting rod 415 connected to the driving member 414, wherein a middle portion of the lifting rod 415 penetrates through the base 1 and is slidably connected to the base 1, and a top portion of the lifting rod 415 is connected to the lifting base 42; specifically, the lifting and rotating driver 411 may be a motor, the driving member 414 is provided with a driving sliding slot 416, the eccentric shaft 413 protrudes into the driving sliding slot 416, and the eccentric shaft 413 is slidably connected to an inner wall of the driving sliding slot 416.

In practical applications, the lifting/lowering rotation driver 411 drives the rotating disc 412 to rotate, the rotating disc 412 drives the eccentric shaft 413 to rotate around the central axis of the rotating disc 412, the rotating eccentric shaft 413 moves in the driving sliding slot 416 of the driving member 414 and abuts against the inner wall of the driving sliding slot 416 to drive the driving member 414 to lift and lower along with the lifting rod 415, and the lifting rod 415 is lifted and lowered to drive the lifting seat 42 to lift and lower, so as to achieve lifting and lowering of the pressing claw 45. The eccentric shaft 413 and the driving sliding chute 416 work together to realize the cyclic lifting work of the pressing claw 45.

In this embodiment, the pressing actuator 44 includes a mounting seat 441 connected to the opening/closing end of the opening/closing driving unit 43, a cylinder 442 mounted on the mounting seat 441, and a pressing seat 443 mounted on a piston rod of the cylinder 442, and the pressing claw 45 is mounted on the pressing seat 443. In practical application, the air cylinder 442 drives the pressing seat 443 and the pressing claw 45 to ascend and descend; the pressing force of the pressing claw 45 pressing the pole piece is controlled by controlling the air pressure of the air cylinder 442.

In this embodiment, the pressing driver 44 further includes a pressure regulating mechanism 444 installed on the mounting seat 441, and a pressure regulating end of the pressure regulating mechanism 444 is used for abutting against the pressing seat 443; the descending position of the mounting seat 441 is limited by the pressure regulating mechanism 444 so as to control the pressing claw 45 to press the pressing force of the pole piece.

In this embodiment, the pressure regulating mechanism 444 includes a pressure regulating seat 445 connected to the mounting seat 441, a screw 446 connected to the pressure regulating seat 445 through a thread, and an abutting member 447 installed on the top of the screw 446, wherein the abutting member 447 is configured to abut against the pressing seat 443. By rotating the screw rod 446, the effective length of the screw rod 446 is adjusted, so that the height position of the abutting piece 447 is adjusted, and then the height position of the abutting piece 447 in contact with the pressing seat 443 is adjusted, so that the pressing force of the pressing claw 45 is adjusted

In this embodiment, the number of the opening and closing lifting mechanisms 4 is two, and the two opening and closing lifting mechanisms 4 are arranged in parallel. Two elevating system 4 synchronous workings that open and shut to the stability and the quality of lamination have been improved.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. A high speed lamination device, characterized by: including the base, install in the lift actuating mechanism of base, with the lamination platform that lift actuating mechanism's lift end is connected and set up in the elevating system that opens and shuts of base, the elevating system that opens and shuts is including installing in the lift drive subassembly of base, with the lift seat that lift drive subassembly's lift end is connected, set up in the drive subassembly that opens and shuts of lift seat, with two press the driver that open and shut end connection of drive subassembly was connected and press the claw with two press the end connection of pressing of driver respectively, the lamination platform is located between two pressure claws, the drive subassembly that opens and shuts is used for driving two and presses the driver and be close to each other or keep away from.

2. A high speed lamination assembly according to claim 1, wherein: the lifting seat is connected with the side wall of the lamination table in a sliding mode.

3. A high speed lamination assembly according to claim 1, wherein: the pressing driver is connected with the lifting seat in a sliding mode through the sliding block.

4. A high speed lamination assembly according to claim 1, wherein: the opening and closing driving assembly comprises an opening and closing rotating driver arranged on the lifting seat, two driving wheels respectively rotatably connected to the lifting seat, a driving belt sleeved outside the two driving wheels, and two connecting pieces respectively connected with the upper side and the lower side of the driving belt, the rotating end of the opening and closing rotating driver is connected with one of the driving wheels, and the two pressing drivers are respectively connected with the two connecting pieces.

5. A high speed lamination assembly according to claim 1, wherein: the lifting driving assembly comprises a lifting rotating driver arranged on the base, a rotary table connected with the rotating end of the lifting rotating driver, an eccentric shaft arranged on the rotary table, a driving piece in driving connection with the eccentric shaft and a lifting rod connected to the driving piece, the middle of the lifting rod penetrates through the base and is in sliding connection with the base, and the top of the lifting rod is connected with the lifting seat.

6. A high speed lamination assembly according to claim 5, wherein: the driving piece is provided with a driving sliding groove, the eccentric shaft extends into the driving sliding groove, and the eccentric shaft is connected with the inner wall of the driving sliding groove in a sliding mode.

7. A high speed lamination assembly according to claim 1, wherein: the pressing driver comprises a mounting seat connected with the opening and closing end of the opening and closing driving component, a pressing seat arranged on an air cylinder of the mounting seat and a piston rod of the air cylinder, and the pressing claw is arranged on the pressing seat.

8. A high speed lamination assembly according to claim 7, wherein: the pressing driver further comprises a pressure regulating mechanism arranged on the mounting seat, and the pressure regulating end of the pressure regulating mechanism is used for abutting against the pressing seat.

9. A high speed lamination assembly according to claim 8, wherein: the pressure regulating mechanism comprises a pressure regulating seat connected with the mounting seat, a screw rod connected with the pressure regulating seat in a threaded manner and a butting piece arranged at the top of the screw rod, wherein the butting piece is used for butting against the pressing seat.

10. A high speed lamination assembly according to any one of claims 1 to 9, wherein: the number of the opening and closing lifting mechanisms is two, and the two opening and closing lifting mechanisms are arranged in parallel.

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