CN206532832U - Laminating machine - Google Patents

Abstract

The application is related to laminating equipment technical field, more particularly to a kind of laminating machine.It includes lamination device, the first feeding device and the second feeding device for capturing pole piece, and first feeding device and the second feeding device be located at the opposite sides of lamination device respectively, lamination device includes base station and rotates the lamination platform being connected with base station, lamination platform can form the first lamination position towards the first feeding device in rotation process, with the second lamination position towards the second feeding device, at the first lamination position, lamination platform is used for the pole piece for being stacked the crawl of the first feeding device, at second lamination position, lamination platform is used for the pole piece for being stacked the crawl of the second feeding device.So design substantially reduces the movement travel of lamination platform, so as to substantially increase lamination efficiency.

Description

Laminating machine

Technical field

The application is related to laminating equipment technical field, more particularly to a kind of laminating machine.

Background technology

At present, because laminated cell relative volume around battery core haves the advantages that high magnification, high-energy-density, and the laminated battery Core can also be fabricated to various special-shaped batteries according to different demands, therefore, in industry generally make battery using laminated cell.

But due to the lamination platform in laminating machine frequently with rectilinear movement to carry out the stacked of pole piece, specifically, in lamination , can be first by the position where lamination platform translation to anode pole piece, to carry out the stacked of anode pole piece in the production process of battery core； Anode pole piece complete it is stacked after, then lamination platform is moved straightly to the position where cathode pole piece, to carry out cathode pole piece It is stacked.This mode needs lamination platform moving to another position completely from a position, therefore, substantially prolongs folded The movement travel of piece platform, so as to reduce lamination efficiency.

Utility model content

This application provides a kind of laminating machine, it is possible to increase lamination efficiency.

This application provides a kind of laminating machine, it includes lamination device, the first feeding device and the second feeding device,

The first feeding device and the second feeding device be used to capture pole piece, and the first feeding device and Second feeding device is located at the opposite sides of the lamination device respectively,

The lamination device includes base station and rotates the lamination platform being connected with the base station, and the lamination platform is being rotated During can form the first lamination position towards the first feeding device, and towards the second of the second feeding device Lamination position, at the first lamination position, the lamination platform is used for the pole piece for being stacked the first feeding device crawl, At the second lamination position, the lamination platform is used for the pole piece for being stacked the second feeding device crawl.

Preferably, the lamination device also includes being used for fixing the first geometrical clamp and the second geometrical clamp of pole piece, and described the One geometrical clamp and second geometrical clamp are separately positioned on the opposite sides of the rotating shaft of the lamination platform.

Preferably, in addition to barrier film conveyer, one end of the barrier film of the barrier film conveyer transmission can It is connected with the lamination platform, and the barrier film can also be sequentially stacked in institute in the rotation process of the lamination platform State between the two neighboring pole piece on lamination platform.

Preferably, at least one of the first feeding device and the second feeding device include rotation section and with institute At least two clamping jaws of rotation section connection are stated, rotation direction of each clamping jaw along the rotation section is arranged successively, at described turn During dynamic portion is rotated, each clamping jaw can capture the pole piece, and the pole piece can be discharged into the lamination On device.

Preferably, the lamination device also includes transfer mechanism, the first feeding device and the second feeding device At least one of the transfer mechanism is provided between the lamination platform, the transfer mechanism can in moving process Tab position and transmitting place are formed, at the tab position, the transfer mechanism is used to receive the first feeding device Or the pole piece of the second feeding device crawl, at the transmitting place, the transfer mechanism is used for the pole piece that will be received It is sent to the lamination platform.

Preferably, the transfer mechanism includes slide rail and the transfer platform being slidably mounted on the slide rail, the transfer Platform can form the tab position and the transmitting place on the slide rail.

Preferably, the transfer mechanism also includes connecting portion, and the connecting portion is slidably connected with the slide rail, the transfer Platform is slidably mounted on the slide rail by the connecting portion, and the connecting portion is rotated with the transfer platform and is connected, in institute In the rotation process for stating transfer platform, the transfer platform can form the first operating position towards the lamination platform, with And towards the second operating position of the feeding device.

Preferably, the quantity of the transfer platform is multiple.

Preferably, when multiple described transfer at least one of platforms are in first operating position, described in remaining Transfer at least one of platform and be in second operating position.

The technical scheme that the application is provided can reach following beneficial effect：

Lamination platform in laminating machine provided herein can be rotated relative to base station, be filled with being formed towards the first feeding The second lamination position for first lamination position and orientation the second feeding device put, at the first lamination position, lamination platform is used In the pole piece of stacked first feeding device crawl, at second lamination position, lamination platform is grabbed for being stacked the second feeding device The pole piece taken.It is connected by the way that lamination platform is rotated with base station, during lamination is carried out, it is not necessary to by whole lamination platform From a position translation to another position, it is only necessary to the lamination platform is rotated relative to base station, i.e., can form the first lamination Position and second lamination position, substantially reduce the movement travel of lamination platform, so as to improve lamination efficiency.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary, this can not be limited Application.

Brief description of the drawings

The structural representation of one state of the laminating machine that Fig. 1 is provided by the embodiment of the present application；

The structural representation of another state of the laminating machine that Fig. 2 is provided by the embodiment of the present application；

The structural representation of another state of the laminating machine that Fig. 3 is provided by the embodiment of the present application；

The structural representation of lamination platform in the laminating machine that Fig. 4 is provided by the embodiment of the present application.

Reference：

10a- the first feeding devices；

10b- the second feeding devices；

100- rotation sections；

The clamping jaws of 101- first；

The clamping jaws of 102- second；

11- lamination devices；

110- base stations；

111- lamination platforms；

The geometrical clamps of 112- first；

The geometrical clamps of 113- second；

114a- first transfers mechanism；

114b- second transfers mechanism；

1140- slide rails；

1141- transfers platform；

1142- connecting portions；

12- barrier film conveyers；

2- barrier films.

Accompanying drawing herein is merged in specification and constitutes the part of this specification, shows the implementation for meeting the application Example, and be used to together with specification to explain the principle of the application.

Embodiment

The application is described in further detail below by specific embodiment and with reference to accompanying drawing.

As shown in Figures 1 to 4, the embodiment of the present application provides a kind of laminating machine, and the processing that can be applied to laminated cell is set In standby.The laminating machine includes lamination device 11, the first feeding device 10a and the second feeding device 10b, the first feeding device 10a It is used to capture pole piece with the second feeding device 10b, and the first feeding device 10a and the second feeding device 10b are respectively positioned at folded The opposite sides of sheet devices 11., should and lamination device 11 includes base station 110 and rotates the lamination platform 111 being connected with base station 110 Lamination platform 111 can form the first lamination position towards the first feeding device 10a in rotation process, and be taken towards second Expect device 10b second lamination position, at the first lamination position, lamination platform 111 is grabbed for being stacked the first feeding device 10a The pole piece taken, at second lamination position, lamination platform 111 is used for the pole piece for being stacked the second feeding device 10b crawls.

In the present embodiment, it is connected, during lamination is carried out, is not required to by the way that lamination platform 111 is rotated with base station 110 By whole lamination platform 111 from a position translation to another position, it is only necessary to make the lamination platform 111 with respect to base station 110 rotate, i.e., can form the first lamination position and second lamination position, substantially reduce the movement travel of lamination platform 111, So as to improve lamination efficiency.

Further, since the lamination platform of laminating machine of the prior art carries out the stacked of pole piece frequently with rectilinear movement, , it is necessary to which whole lamination platform is moved into another lamination position completely from a lamination position in the production process of laminated cell, Therefore, size of the pole piece in the direction of motion of lamination platform drastically influence lamination efficiency.Specifically, pole piece is in lamination Size in the direction of motion of platform is bigger, then size of the lamination platform in its direction of motion is also bigger, so as to cause this to fold The movement travel of piece platform is longer, then causes the lamination efficiency of the laminating machine lower.And in the present embodiment, the lamination platform 111 can form the first lamination position and second lamination position in rotation process, it is not necessary to by whole lamination platform 111 from one Individual position translation is to another position, therefore, when the laminating machine in using the present embodiment carries out lamination, as long as ensureing that lamination is put down The rotational angle and angular speed of platform 111 are certain, then the size of pole piece is to influence lamination platform 111 and correspondence mechanism (for example The clamping jaw of feeding device) size, lamination efficiency can't be made to occur larger variation.

Above-mentioned lamination device 11 may also include the first geometrical clamp 112 and the second geometrical clamp 113 for fixing pole piece, and this One geometrical clamp 112 and the second geometrical clamp 113 are separately positioned on the opposite sides of the rotating shaft of lamination platform 111, with respectively to pole piece Opposite end be clamped so that the pole piece is clamped on lamination platform 111.

Specifically, with reference to the position of lamination platform 111 as shown in Figure 1, definable is compared to the second feeding device 10b more It is the first geometrical clamp 112 close to the first feeding device 10a geometrical clamp, and compared to the first feeding device 10a closer to second Feeding device 10b geometrical clamp is the second geometrical clamp 113.Wherein, folded when the lamination platform 111 is in as shown in Figure 2 first During piece position, one end that the second geometrical clamp 113 clamps the pole piece of the first feeding device 10a crawls can be first passed through, is then passed through again First geometrical clamp 112 clamps the other end of the pole piece, and so operation can ensure that the pole piece of the first feeding device 10a crawls can Stable is clamped on lamination platform 111.When lamination platform 111 is in second lamination position as shown in Figure 3, it can first pass through First geometrical clamp 112 clamps one end of the pole piece of the second feeding device 10b crawls, is then clamped again by the second geometrical clamp 113 The other end of the pole piece, can so ensure the pole piece of the second feeding device 10b crawls stably can be clamped in lamination platform On 111.

Preferably, as shown in figure 4, the quantity of the first geometrical clamp 112 and the second geometrical clamp 113 can be multiple, so not The probability that pole piece comes off from lamination platform 111 can be only reduced, but also the pole piece that is stacked on lamination platform 111 can be ensured Planarization, so as to effectively improve lamination effect.

When the laminating machine in the present embodiment is used to produce laminated cell, the pole piece of above-mentioned first feeding device 10a crawls Can be the first pole piece, and the pole piece of the second feeding device 10b crawls can be and opposite polarity second pole piece of the first pole piece.Its In, in order to avoid the first pole piece on lamination platform 111 is contacted with the second pole piece, the laminating machine in the present embodiment may also include every From film conveyer 12, one end of the barrier film 2 of the barrier film conveyer 12 transmission can be connected with lamination platform 111, and Barrier film 2 can also be sequentially stacked the two neighboring pole piece on lamination platform 111 in the rotation process of lamination platform 111 Between, i.e.,：It is stacked between the first pole piece on lamination platform 111 and the second pole piece, to prevent the first pole piece and the second pole piece Contact, the situation for causing laminated cell normally to use.

Specifically, the process that the barrier film 2 is stacked between the first pole piece on lamination platform 111 and the second pole piece can For：

After lamination platform 111 has been stacked the first pole piece in the first lamination position, the lamination platform 111 can be from the first lamination Position is rotated to second lamination position, during lamination platform 111 turns to second lamination position from the first lamination position, Barrier film 2 can be swung with the rotation of lamination platform 111 to the direction where second lamination position, when the lamination platform 111 When turning to second lamination position, the barrier film 2 can be covered on the first pole piece on lamination platform 111, then again folded The stacked of the second pole piece is carried out on piece platform 111, that is to say, that second pole piece be now stacked on lamination platform 111 every From on film 2；

After lamination platform 111 has been stacked the second pole piece in second lamination position, the lamination platform 111 can be from second lamination Position is rotated to the first lamination position, now turns to the mistake of the first lamination position from second lamination position in lamination platform 111 Cheng Zhong, barrier film 2 can be swung with the rotation of lamination platform 111 to the direction where the first lamination position, when the lamination is flat When platform 111 turns to the first lamination position, the barrier film 2 can be covered on the second pole piece on lamination platform 111, Ran Houzai The stacked of the first pole piece is carried out on lamination platform 111, that is to say, that first pole piece is now stacked on lamination platform 111 Barrier film 2 on.

Wherein, the lamination platform 111 is reciprocal as procedure described above is carried out, you can realize the making of laminated cell.By making With the laminating machine of the present embodiment, the movement travel of lamination platform 111 is substantially reduced, so as to improve lamination efficiency.

Further, since the lamination platform of laminating machine of the prior art carries out the stacked of pole piece frequently with rectilinear movement, , it is necessary to which whole lamination platform is moved into another lamination position completely from a lamination position in the production process of laminated cell, The movement travel of the lamination platform is so extended, so that rubbing between adding the roll shaft of barrier film and barrier film conveyer Wiping degree, then adds the risk of isolation membrane coat dry linting.And in the present embodiment, the lamination platform 111 is in rotation process In can form the first lamination position and second lamination position, it is not necessary to by whole lamination platform 111 from a position translation to Another position, substantially reduces the movement travel of lamination platform 111, it therefore reduces barrier film 2 and barrier film conveyer Friction level between 12 roll shaft, reduces the risk of the coating dry linting of barrier film 2.

In one embodiment of the application, at least one of the first feeding device 10a and the second feeding device 10b bag Rotation section 100 and at least two clamping jaws being connected with rotation section 100 are included, rotation direction of each clamping jaw along rotation section 100 is arranged successively Cloth, during being rotated in rotation section 100, each clamping jaw can capture pole piece, and pole piece can be discharged into lamination device 11 On.So design realizes sharing for the feeding time in reclaiming process, the overall beat of feeding device is improved, so as to improve The feeding efficiency of feeding device, can then improve the lamination efficiency of laminating machine.Preferably, pole is captured in one of each clamping jaw During piece, the pole piece of crawl can be discharged on lamination position by one of remaining clamping jaw.

Referring to figs. 1 to the specific embodiment shown in Fig. 3, the first feeding device 10a and the second feeding device 10b include turning Dynamic portion 100 and the clamping jaw being connected with rotation section 100, the quantity of the clamping jaw is two, and one is the first clamping jaw 101, and another is Second clamping jaw 102, the first clamping jaw 101 and the second clamping jaw 102 are separately positioned on the opposite sides of the rotating shaft of rotation section 100. One clamping jaw 101 has been captured after pole piece, and the rotation section 100 can turn clockwise 180 ° in the presence of motor, to have captured First clamping jaw 101 of pole piece turns to the position towards lamination device 11, and the pole piece is discharged into lamination device 11 by preparation.With This simultaneously, the second clamping jaw 102 then turn to crawl pole piece position, prepare crawl pole piece, grab pole in the second clamping jaw 102 Piece, and after pole piece is discharged into lamination device 11 by the first clamping jaw 101, the rotation section 100 can 180 ° of rotate counterclockwise, by second Clamping jaw 102 turns to the position towards lamination device 11, and the first clamping jaw 101 then transfers back to the position of crawl pole piece.The feeding Device can back and forth carry out feeding, blowing process in this manner.

In one embodiment of the application, lamination device 11 also includes transfer mechanism, the first feeding device 10a and second At least one of feeding device 10b has the transfer mechanism between lamination platform 111.The transfer mechanism is in moving process Tab position and transmitting place can be formed, at tab position, transfer mechanism is used to receive the first feeding device 10a or second The pole piece of feeding device 10b crawls, at transmitting place, transfer mechanism is used to the pole piece received being sent to lamination platform 111.In the present embodiment, by setting transfer mechanism between feeding device and lamination platform 111, it is possible to decrease lamination platform 111 Arrangement difficulty between feeding device, so that the position relationship between feeding device and lamination device 11 is more flexible, Being capable of reasonable utilization space.

Specifically, the transfer mechanism can be two, and one is the first transfer mechanism 114a, and another is the second transfer mechanism 114b.First transfer mechanism 114a may be provided between the first feeding device 10a and lamination platform 111, the first transfer mechanism 114a can form the first tab position and the first transmitting place in moving process, and first transfer mechanism 114a connects first The pole piece of the first feeding device 10a crawls can be received at piece position, by the first feeding received at the first transmitting place The pole piece of device 10a crawls is sent to lamination platform 111, it is necessary to which explanation, the first transfer mechanism 114a is in the first transfer It can be close at position with the lamination platform 111 in the first lamination position, to facilitate the pole for capturing the first feeding device 10a Piece is transferred to lamination platform 111.And the second transfer mechanism 114b may be provided at the second feeding device 10b and lamination platform 111 it Between, second transfer mechanism 114b can form the second tab position and the second transmitting place in moving process, second shifting Rotation mechanism 114b can receive the pole piece of the second feeding device 10b crawls at the second tab position, at the second transmitting place The the second feeding device 10b received the pole pieces captured are sent to lamination platform 111, it is necessary to explanation, second transfer Mechanism 114b can be close at the second transmitting place with the lamination platform 111 in second lamination position, to facilitate second The pole piece of feeding device 10b crawls is transferred to lamination platform 111.

Preferably, above-mentioned transfer mechanism includes slide rail 1140 and the transfer platform 1141 being slidably mounted on slide rail 1140, Transfer platform 1141 can form tab position and transmitting place on slide rail 1140.When transfer platform 1141 slides into contact pin position When putting place, the transfer platform 1141 is used for the pole piece for receiving the crawl of feeding device, when the transfer platform 1141 slides into transfer position Put, the transfer platform 1141 is used to the pole piece received being sent to lamination platform 111.It should be noted that the transfer platform 1141 can be close at transmitting place with lamination platform 111, to facilitate the pole piece by crawl to be transferred to lamination platform 111.Its In, the pole piece of crawl can be fixed on by the transfer platform 1141 during transfer by the way of vacuum suction, To facilitate transfer pole piece.Specifically, when transfer platform 1141 receives the pole piece of feeding device crawl in tab position, the shifting The vacuum mechanism turned in platform 1141 is opened, so that the absorption of pole piece tightly is on transfer platform 1141, when transfer platform 1141 At transmitting place, and when being close to lamination platform 111, pole piece can be transferred to lamination platform 111, the lamination platform 111 can Pole piece is fixedly clamped by clamping jaw, to realize the stacked of lamination, after lamination platform 111 fixes pole piece, the transfer platform Vacuum mechanism in 1141 can be closed.And in order to avoid the transfer platform 1141 hinders lamination to turn to another lamination position, The transfer platform 1141 can be slided after lamination fixes pole piece to the direction away from lamination platform 111, to facilitate the lamination to put down Platform 111 turns to next tab position.

Further, transfer mechanism also includes connecting portion 1142, and connecting portion 1142 is slidably connected with slide rail 1140, and transfer Platform 1141 is slidably mounted on slide rail 1140 by connecting portion 1142.Wherein, the connecting portion 1142 and 1141 turns of platform of transfer Dynamic connection, in the rotation process of transfer platform 1141, transfer platform 1141 can form the first work towards lamination platform 111 Make position, and towards the second operating position of feeding device.It is connected by the way that transfer platform 1141 is rotated with connecting portion 1142, The movement travel of transfer platform 1141 is substantially reduced, so as to improve transfer efficiency, the lamination of laminating machine can be then improved Efficiency.

It should be noted that when transfer platform 1141 turns to the first operating position towards lamination platform 111, and this When transfer platform 1141 is slid at lamination platform 111 under the driving of motor along slide rail 1140, you can form transmitting place； When transfer platform 1141 turns to the first operating position towards feeding device, and the transfer platform 1141 is in the driving of motor Under along slide rail 1140 slide at feeding device when, you can formed tab position.

In the preferred embodiment of the application, the quantity of the transfer platform 1141 can be multiple.Further, many When at least one of individual transfer platform 1141 is in the first operating position, at least one of remaining transfer platform 1141 is in Second operating position.So design realizes sharing for the transfer time during transfer, improves the overall section of transfer mechanism Clap, so as to improve the transfer efficiency of transfer mechanism, can then improve the lamination efficiency of laminating machine.

The preferred embodiment of the application is the foregoing is only, the application is not limited to, for the skill of this area For art personnel, the application can have various modifications and variations.It is all within spirit herein and principle, made any repair Change, equivalent substitution, improvement etc., should be included within the protection domain of the application.

Claims (9)

1. a kind of laminating machine, it is characterised in that including lamination device, the first feeding device and the second feeding device,

The first feeding device and the second feeding device are used to capture pole piece, and the first feeding device and second Feeding device is located at the opposite sides of the lamination device respectively,

The lamination device includes base station and rotates the lamination platform being connected with the base station, and the lamination platform is in rotation process In can form the first lamination position towards the first feeding device, and towards the second lamination of the second feeding device Position, at the first lamination position, the lamination platform is used for the pole piece for being stacked the first feeding device crawl, in institute State at second lamination position, the lamination platform is used for the pole piece for being stacked the second feeding device crawl.

2. laminating machine according to claim 1, it is characterised in that the lamination device also includes being used for fixing the of pole piece One geometrical clamp and the second geometrical clamp, first geometrical clamp and second geometrical clamp are separately positioned on turning for the lamination platform The opposite sides of axle.

3. laminating machine according to claim 1, it is characterised in that also including barrier film conveyer, the barrier film is passed Sending one end of the barrier film of device transmission can be connected with the lamination platform, and the barrier film can also be flat in the lamination In the rotation process of platform, it is sequentially stacked between the two neighboring pole piece on the lamination platform.

4. laminating machine according to claim 1, it is characterised in that the first feeding device and the second feeding device At least one of include rotation section and at least two clamping jaws that are connected with the rotation section, each clamping jaw is along the rotation section Rotation direction arrange successively, the rotation section rotate during, each clamping jaw can capture the pole piece, and energy It is enough that the pole piece is discharged into the lamination device.

5. laminating machine according to any one of claim 1 to 4, it is characterised in that the lamination device also includes transfer Mechanism, is set between at least one of the first feeding device and the second feeding device and the lamination platform Transfer mechanism is stated, the transfer mechanism can form tab position and transmitting place in moving process, in the tab position Place, the transfer mechanism is used for the pole piece for receiving the first feeding device or the second feeding device crawl, is moved described Send at position, the transfer mechanism is used to the pole piece received being sent to the lamination platform.

6. laminating machine according to claim 5, it is characterised in that the transfer mechanism includes slide rail and is slidably mounted on institute The transfer platform on slide rail is stated, the transfer platform can form the tab position and transfer position on the slide rail Put.

7. laminating machine according to claim 6, it is characterised in that the transfer mechanism also includes connecting portion, the connection Portion is slidably connected with the slide rail, and the transfer platform is slidably mounted on the slide rail by the connecting portion, the connection Portion rotates with the transfer platform and is connected, in the rotation process of the transfer platform, and the transfer platform can form direction First operating position of the lamination platform, and towards the second operating position of the feeding device.

8. laminating machine according to claim 7, it is characterised in that the quantity of the transfer platform is multiple.

9. laminating machine according to claim 8, it is characterised in that be at least one of multiple described transfer platforms During first operating position, at least one of remaining described transfer platform is in second operating position.