CN218568929U - Soft packet of lithium cell hem device - Google Patents

Abstract

The utility model discloses a soft package lithium battery flanging device, including hem locating component and pushing down the subassembly, hem locating component includes lifting unit, first locating piece and second locating piece, and the lifting unit is used for placing the battery, and first locating piece and second locating piece are used for bearing the weight of battery both sides limit respectively; the pressing component comprises a pressing strip and a pressing driving part, and the pressing driving part is used for driving the pressing strip to move towards the battery, so that the lifting part is driven by the pressing strip to perform pressing movement between the first positioning part and the second positioning part. The utility model discloses a set up hem locating component and push down the subassembly to can bear the location to the battery through the lift piece, and carry out the hem location to the both sides limit of battery through first setting element and second setting element, drive the layering through pushing down the driving piece at last and push down to the battery on the lift piece, so, can once only realize the hem operation on battery both sides limit, thereby improve hem efficiency, and guaranteed the hem uniformity of battery.

Description

Soft packet of lithium cell hem device

Technical Field

The utility model relates to a battery manufacturing field especially relates to a soft packet of lithium cell hem device.

Background

In soft packet of lithium cell production manufacturing process, need carry out the hem technology to the plastic-aluminum membrane limit of soft packet of lithium cell both sides, the unilateral hem can only be realized at every turn to current hem device, then need carry out the hem operation of opposite side again to the battery relocation, and the hem uniformity of battery both sides is hardly guaranteed moreover to this kind of hem mode not only hem inefficiency, leads to the hem quality of battery not good.

Therefore, how to design a battery flanging device capable of completing the flanging operation of two side edges of a battery at one time so as to improve the battery flanging efficiency and ensure the flanging consistency of the battery is a problem that needs to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing one kind and can once accomplish the hem operation on battery both sides limit to improve the soft packet of lithium cell hem device of battery hem efficiency.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a soft packet of lithium cell hem device includes: the folding positioning assembly comprises a lifting piece, a first positioning piece and a second positioning piece, the lifting piece is arranged between the first positioning piece and the second positioning piece in a lifting mode, a battery placing area is arranged on the lifting piece, and the first positioning piece and the second positioning piece are respectively used for bearing batteries on the battery placing area; the pressing component comprises a pressing strip and a pressing driving piece, the pressing driving piece is connected with the pressing strip, the pressing strip is arranged above the battery placing area, the pressing driving piece is used for driving the pressing strip to move in the direction of the battery placing area, and therefore the pressing strip drives the lifting piece to move between the first positioning piece and the second positioning piece in a pressing mode.

In one embodiment, the lifting member includes a lifting base and a first lifting cylinder, the lifting base is connected to the first lifting cylinder, and the battery placement area is disposed on the lifting base.

In one embodiment, the first positioning element comprises a first side plate, the first side plate is arranged on one side of the lifting base, and a first folding clamping groove is formed in one side of the first side plate, which faces the battery placing area.

In one embodiment, the second positioning element comprises a second side plate and a pushing cylinder, the second side plate is slidably disposed on one side of the lifting base, the second side plate is connected with the pushing cylinder, a second folding slot is formed in one side, facing the battery placement area, of the second side plate, and the second folding slot is aligned with the first folding slot.

In one embodiment, the push-down driver is a push-down cylinder.

In one embodiment, the battery placing area comprises a battery placing area, and the battery placing area is provided with a pressing component, a battery placing area and a lifting module, wherein the pressing component is arranged on the battery placing area, and the lifting module is connected with the pressing component and used for driving the pressing component to move towards the battery placing area in a lifting mode.

In one embodiment, the lifting module comprises a supporting seat, a sliding plate and an elastic member, the supporting seat is disposed on one side of the first positioning member, the sliding plate is slidably disposed on the supporting seat, one end of the elastic member is connected to the sliding plate, the other end of the elastic member is connected to the pressing strip, the pressing driving member is disposed on the sliding plate, and the sliding plate is configured to drive the pressing strip to perform lifting movement towards the battery placement area.

In one embodiment, the lifting module further comprises a second lifting cylinder, the second lifting cylinder is disposed on the supporting base, and the second lifting cylinder is connected to the sliding plate.

In one embodiment, the lifting module further includes a limiting member disposed on a surface of the supporting base facing the sliding plate.

In one embodiment, the lifting module further comprises a buffer member, and the buffer member is disposed on a surface of the support seat facing the sliding plate.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a soft packet of lithium cell hem device is through setting up hem locating component and push down the subassembly, thereby can bear the location to the battery through the lift piece, and bear and the hem location to the both sides limit of battery simultaneously through first setting element and second setting element, drive the layering through pushing down at last and place the battery in the district to the battery and push down, when pushing down, the lift piece drives the battery and places the battery downstream in the district, so, can once only realize location and the hem operation on battery both sides limit, thereby improve hem efficiency, and the hem uniformity of battery has been guaranteed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below.

Fig. 1 is a schematic structural view of a soft package lithium battery folding device in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a folding positioning assembly of the soft package lithium battery folding device in FIG. 1;

fig. 3 is a left side view structure diagram of the folding positioning assembly of the soft package lithium battery folding device in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Referring to fig. 1, 2 and 3, a soft package lithium battery folding device 10 includes: the folding positioning assembly 100 comprises a lifting piece 110, a first positioning piece 120 and a second positioning piece 130, the lifting piece 110 is arranged between the first positioning piece 120 and the second positioning piece 130 in a lifting way, a battery placing area is arranged on the lifting piece 110, and the first positioning piece 120 and the second positioning piece 130 are respectively used for bearing batteries 20 on the battery placing area; the pressing assembly 200 comprises a pressing strip 210 and a pressing driving member 220, the pressing driving member 220 is connected with the pressing strip 210, the pressing strip 210 is disposed above the battery placement area, and the pressing driving member 220 is used for driving the pressing strip 210 to move towards the battery placement area, so that the pressing strip 210 drives the lifting member 220 to perform pressing movement between the first positioning member 120 and the second positioning member 130.

It should be noted that, when performing the folding operation of the two side edges of the battery 20, the battery 20 needs to be first conveyed to the battery placing area on the lifting member 110 by the manipulator; the first positioning element 120 and the second positioning element 130 are respectively located at two sides of the battery placement area, so that two side edges of the battery 20 can be respectively positioned and supported by the first positioning element 120 and the second positioning element 130, thereby realizing the supporting operation of the battery 20, and in addition, the folded edge width of the battery 20 can be limited by the first positioning element 120 and the second positioning element 130; the lifting piece 110 is arranged between the first positioning piece 120 and the second positioning piece 130 in a lifting mode, the pressing driving piece 220 is connected with the pressing strip 210, the pressing strip 210 is arranged above the battery placing area, and therefore the pressing strip 210 can be driven by the pressing driving piece 220 to perform pressing movement towards the direction of the battery placing area, after the pressing strip 210 is contacted with the upper surface of the battery 20 on the battery placing area, the pressing strip 210 presses the battery 20 downwards, the lifting piece 110 also moves downwards, the first positioning piece 120 and the second positioning piece 130 are kept motionless, two side edges of the battery 20 are folded upwards along with the downward movement of the lifting piece 110, and therefore the edge folding operation of the two side edges of the battery 20 is completed, and therefore the edge folding operation of the two side edges of the battery 20 can be achieved at one time, the edge folding efficiency of the battery 20 is improved, and the edge folding consistency of the battery 20 is guaranteed.

In one embodiment, the lifting member 110 includes a lifting base 111 and a first lifting cylinder 112, the lifting base 111 is connected to the first lifting cylinder 112, and the battery receiving area is disposed on the lifting base 111.

It should be noted that the lifting member 110 further includes a guide rod and a guide sleeve, the lifting base 111 includes a fixing plate and a lifting plate, the fixing plate is disposed below the lifting plate, the first positioning member 120 is disposed on the fixing plate, the first lifting cylinder 112 is disposed on a surface of the fixing plate away from the lifting plate, the guide sleeve is disposed on the fixing plate, correspondingly, a through hole is disposed on the fixing plate, the guide sleeve and the through hole are disposed in alignment, and the guide rod is slidably disposed through the guide sleeve and the through hole. When the pressing strip 210 is driven by the pressing driving piece 220 to press down the battery on the lifting plate, the first lifting cylinder 112 retracts to drive the lifting plate to move downwards, and at the moment, the guide rod slides downwards along the guide sleeve, so that the lifting plate can move more stably, and the phenomenon that the lifting plate shakes greatly in the edge folding process is avoided, thereby ensuring the edge folding consistency of two side edges of the battery 20; the initial state of the first lifting cylinder 112 is half of the initial state, when the pressing bar 210 presses the battery 20 downwards, the first lifting cylinder 112 is in a fully retracted state, after the flanging operation is completed, the pressing bar 210 moves towards the direction far away from the battery 20, the first lifting cylinder 112 starts to extend out to jack up the lifting plate, at the moment, two folded edges of the battery 20 completely leave the first positioning element 120 and the second positioning element 130, and finally, the battery 20 which is subjected to flanging is conveyed to the next station through the manipulator.

As shown in fig. 2 and fig. 3, in an embodiment, the first positioning element 120 includes a first side plate 121, the first side plate 121 is disposed on one side of the lifting base 111, and a first flanging clamping groove is formed on one side of the first side plate 121 facing the battery placing region.

It should be noted that the first side plate 121 is fixedly disposed on one side of the lifting base 111, wherein the lifting base 111 includes a fixed plate and a lifting plate, and the first side plate 121 is fixedly mounted on the fixed plate, so that the lifting plate can move up and down relative to the first side plate 121; first hem draw-in groove has been seted up towards the battery on one side of placing the district to first curb plate 121, and the width of first hem draw-in groove is the width that battery 20 needs the hem, and battery 20 is placed and is placed the district back, and one side of battery 20 then takes on first hem draw-in groove.

Further, the second positioning element 130 includes a second side plate 131 and a pushing cylinder 132, the second side plate 131 is slidably disposed on one side of the lifting base 111, the second side plate 131 is connected to the pushing cylinder 132, a second folding slot is disposed on one side of the second side plate 131 facing the battery placement area, and the second folding slot is aligned with the first folding slot.

It should be noted that, a second flanging clamping groove is formed in one side of the second side plate 131 facing the battery placement area, the width of the second flanging clamping groove is the same as that of the first flanging clamping groove, and the second flanging clamping groove is aligned with the first flanging clamping groove, so that when flanging is performed, the consistency of two flanging sides of the battery 20 can be ensured; specifically, the second side plate 131 is in an initial state far away from the lifting base 111, when the manipulator carries the battery 20 and places the battery in the battery placement area, one side of the battery 20 is lapped on the first flanging slot, and then the pushing cylinder 132 is extended out to drive the second side plate 131 to move towards the direction close to the lifting base 111 until the other side of the battery 20 is lapped on the second flanging slot, so that the positioning of the two sides of the battery 20 is completed;

in an embodiment, soft packet of lithium cell hem device 10 still includes lifting module 300, and lifting module 300 is connected with pushing down subassembly 200, and lifting module 300 is used for driving and pushes down subassembly 200 and place the district's direction to the battery and carry out elevating movement.

It should be noted that, the lifting module 300 is connected to the pressing assembly 200, so that the pressing assembly 200 can be driven by the lifting module 300 to move a distance toward the battery placement region, thereby preventing the pressing driving member 220 in the pressing assembly 200 from directly driving the pressing bar 210 to press down the battery 20 in the battery placement region at a position higher than the battery 20, which is likely to cause the indentation of the upper surface of the battery 20 due to the excessive pressing force of the battery 20.

Further, the lifting module 300 includes a supporting seat 310, a sliding plate 320 and an elastic member 330, the supporting seat 310 is disposed on one side of the first positioning member 120, the sliding plate 320 is slidably disposed on the supporting seat 310, one end of the elastic member 330 is connected to the sliding plate 320, the other end of the elastic member 330 is connected to the pressing bar 210, the pressing driving member 220 is disposed on the sliding plate 320, and the sliding plate 320 is used for driving the pressing bar 210 to perform lifting movement towards the direction of the battery placement area.

It should be noted that the sliding plate 320 is slidably disposed on the supporting seat 310, specifically, the sliding plate 320 is in an "L" shape, and 2 sliding blocks are disposed on short sides of the sliding plate 320, for example, the sliding blocks are fixed on the sliding plate 320 by screws such as bolts or screws, so that the subsequent sliding blocks can be conveniently detached and replaced after being worn; correspondingly, supporting seat 310 includes riser and roof, and the riser setting is on one side of first locating part 120, and the roof installation is fixed at the top of riser, and the riser is provided with sliding guide towards the one side of sliding plate 320, and the corresponding cooperation of sliding guide on sliding block on the sliding plate 320 and the supporting seat 310, when sliding plate 320 carries out elevating movement, the sliding block slowly moves along sliding guide, so, can improve the stability that sliding plate 320 removed. The number of the elastic members 330 is 2, the 2 elastic members 330 are respectively arranged on two sides of the sliding plate 320, similarly, two sides of the sliding plate 320 are provided with elastic member fixing blocks, one end of each elastic member 330 is fixedly mounted on the elastic member fixing block, and the other end of each elastic member 330 is connected with the pressing strip 210; correspondingly, a row of mounting holes are respectively formed in two sides of the upper plane of the sliding plate 320, so that the mounting position of the elastic element fixing block on the sliding plate 320 can be adjusted, and the front and rear positions of the pressing strip 210 relative to the battery 20 on the battery placement area can be adjusted. In this embodiment, the elastic member 330 is a spring, and the spring is disposed between the sliding plate 320 and the pressing bar 210, so that the elastic member can play a role of buffering during the pressing process, and prevent the pressing bar 210 from pressing the battery 20 due to an excessive pressing force of the pressing driving member 220.

Furthermore, the pressing driving part 220 is arranged on the sliding plate 320, the sliding plate 320 is used for driving the pressing strip 210 to perform lifting movement towards the direction of the battery placing area, the sliding plate 320 is provided with a position avoiding area, the sliding plate 320 is also provided with a fixed seat for installing and fixing the pressing driving part 220, the position avoiding area is positioned in the middle of the fixed seat, the pressing driving part 220 is installed and fixed on the fixed seat, and the driving end of the pressing driving part 220 penetrates through the position avoiding area and is connected with the pressing strip 210 below the sliding plate 320, so that the overall structure of the soft package lithium battery flanging device 10 can be more compact, and the continuity of pressing operation is improved; in this embodiment, the pressing driving member 220 is a pressing cylinder, when the pressing operation is performed, the sliding plate 320 drives the pressing bar 210 to move toward the battery 20 on the battery placement area, and the pressing bar 210 is just in contact with the upper surface of the battery 20, the pressing cylinder extends to drive the pressing bar 210 to press the battery 20 downward, and meanwhile, the spring is stretched and generates an opposite force, so as to play a role in buffering, and prevent the pressing bar 210 from pressing the upper surface of the battery 20 due to an excessive pressing force.

In one embodiment, the lifting module 300 further includes a second lifting cylinder 340, the second lifting cylinder 340 is disposed on the supporting base 310, and the second lifting cylinder 340 is connected to the sliding plate 320.

It should be noted that, the supporting seat 310 includes a vertical plate and a top plate, the top plate is disposed on the top of the vertical plate, the second lifting cylinder 340 is disposed on the top plate, the driving end of the second lifting cylinder 340 is connected to the sliding plate 320, and the second lifting cylinder 340 can drive the sliding plate 320 to move up and down. After the positioning of the two sides of the battery 20 is completed, the second lifting cylinder 340 drives the sliding plate 320 to move towards the battery 20, so that the pressing strip 210 contacts the upper surface of the battery 20, then the pressing strip 210 is driven to press the battery 20 downwards by pressing the driving member 220, the first lifting cylinder 112 changes from a half-extended initial state to a fully retracted state while pressing downwards, so as to drive the battery 20 on the lifting base 111 to move downwards, the two sides of the battery 20 clamped on the first positioning member 120 and the second positioning member 130 are folded upwards, after the folding operation is completed, the components return to the initial state, and the battery 20 is transported to the next station by the manipulator.

In one embodiment, the lifting module 300 further includes a limiting member 350, and the limiting member 350 is disposed on one surface of the supporting base 310 facing the sliding plate 320.

It should be noted that the limiting member 350 is a limiting column, one end of the limiting column is fixedly installed on the top plate of the supporting seat 310, the limiting end of the limiting column faces the sliding plate 320, after the edge folding operation is completed, the second lifting cylinder 340 drives the sliding plate 320 to move upwards, and the limiting column is used for limiting the rising of the sliding plate 320.

In one embodiment, the lifting module 300 further includes a buffer 360, and the buffer 360 is disposed on a surface of the supporting base 310 facing the sliding plate 320.

The buffer member 360 is a hydraulic buffer, one end of the hydraulic buffer is fixed to the top plate of the support base 310, a buffer post of the hydraulic buffer faces one surface of the sliding plate 320, and the buffer post is made of rubber, so that the sliding plate 320 contacts with the buffer post during the ascending of the sliding plate 320, thereby performing a shock absorption and buffering function.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a soft packet of lithium cell hem device which characterized in that includes:

the folding positioning assembly comprises a lifting piece, a first positioning piece and a second positioning piece, the lifting piece is arranged between the first positioning piece and the second positioning piece in a lifting manner, a battery placing area is arranged on the lifting piece, and the first positioning piece and the second positioning piece are respectively used for bearing batteries on the battery placing area; and

the pressing component comprises a pressing strip and a pressing driving piece, the pressing driving piece is connected with the pressing strip, the pressing strip is arranged above the battery placing area, the pressing driving piece is used for driving the pressing strip to move in the direction of the battery placing area, and therefore the pressing strip drives the lifting piece to perform pressing movement between the first positioning piece and the second positioning piece.

2. The edge folding device for the soft package lithium battery of claim 1, wherein the lifting member comprises a lifting base and a first lifting cylinder, the lifting base is connected with the first lifting cylinder, and the battery placing area is arranged on the lifting base.

3. The soft package lithium battery edge folding device as claimed in claim 2, wherein the first positioning piece comprises a first side plate, the first side plate is arranged on one side of the lifting base, and a first edge folding clamping groove is formed in one side of the first side plate, which faces the battery placing area.

4. The edge folding device for the soft package lithium battery of claim 3, wherein the second positioning element comprises a second side plate and a pushing cylinder, the second side plate is slidably disposed on one side of the lifting base and connected with the pushing cylinder, a second edge folding clamping groove is formed in one side of the second side plate, which faces the battery placing area, and the second edge folding clamping groove is aligned with the first edge folding clamping groove.

5. The edge folding device for the soft package lithium battery as claimed in claim 1, wherein the pressing driving member is a pressing cylinder.

6. The soft-package lithium battery flanging device according to any one of claims 1 to 5, further comprising a lifting module, wherein the lifting module is connected with the pressing assembly, and the lifting module is used for driving the pressing assembly to perform lifting movement towards the battery placing area.

7. The soft-package lithium battery edge folding device according to claim 6, wherein the lifting module comprises a supporting seat, a sliding plate and an elastic member, the supporting seat is disposed on one side of the first positioning member, the sliding plate is slidably disposed on the supporting seat, one end of the elastic member is connected to the sliding plate, the other end of the elastic member is connected to the pressing strip, the pressing driving member is disposed on the sliding plate, and the sliding plate is used for driving the pressing strip to perform lifting movement toward the battery placement area.

8. The edge folding device for the soft package lithium battery of claim 7, wherein the lifting module further comprises a second lifting cylinder, the second lifting cylinder is disposed on the supporting base, and the second lifting cylinder is connected with the sliding plate.

9. The edge folding device for the soft-package lithium battery as claimed in claim 8, wherein the lifting module further comprises a limiting member disposed on a surface of the supporting seat facing the sliding plate.

10. The edge folding device for the soft package lithium battery as claimed in claim 8, wherein the lifting module further comprises a buffer member disposed on a surface of the support base facing the sliding plate.

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