CN220636025U - Aluminum foil shaping assembly and aluminum foil cladding device - Google Patents

Abstract

The application discloses aluminium foil plastic subassembly and aluminium foil cladding device relates to battery processing technology field. The aluminum foil shaping assembly comprises a mounting seat, a first propulsion assembly and a second propulsion assembly, wherein the first propulsion assembly and the second propulsion assembly are arranged on the mounting seat, and the propulsion direction of the first propulsion assembly is perpendicular to the propulsion direction of the second propulsion assembly; the first propulsion assembly comprises a bracket arranged on the mounting seat, a first propulsion driving piece arranged on the bracket, and a shaping head connected with the first propulsion driving piece; the second propulsion component is connected with a clamp, so that the second propulsion component drives the clamp to correspond to the shaping head or deviate from the shaping head, wherein the clamp is internally used for placing a battery and an aluminum foil, so that the aluminum foil is pre-fixed on the battery through the shaping head, and the aluminum foil is shaped. By adopting the mode, the aluminum foil can be subjected to preset shaping so as to improve the effect of the aluminum foil cladding battery.

Description

Aluminum foil shaping assembly and aluminum foil cladding device

Technical Field

The application relates to the technical field of battery processing, in particular to an aluminum foil shaping assembly and an aluminum foil cladding device.

Background

With the development of new energy automobiles, the innovation of the battery assembly of the new energy automobiles becomes an important branch in the field. The new energy automobile battery assembly consists of a lower box body, a battery, a control circuit, a battery cover cap and the like, and is used for supplying needed energy for automobiles. Compared with a fuel automobile, the new energy automobile battery assembly has a certain amount of battery radiation, and the battery assembly is intangibly threatening to drivers and passengers. In order to solve the above problems, aluminum foil is generally disposed on the outer surface of the battery to improve the radiation resistance of the battery, so that the radiation of the battery received by the human body is in a safe and stable interval, the safety of a driver and passengers is ensured, and the problem of mutual interference caused by radiation during use of the battery can be prevented.

Meanwhile, when a battery is mounted in a digital product, in order to make the battery have a larger capacity in a limited space, aluminum foil is often used instead of a plastic case to wrap the battery.

At present, when the aluminum foil is arranged on the outer surface of the battery, the aluminum foil is coated in a manual mode, the relative position between the aluminum foil and the battery cannot be ensured, and the final coating effect is affected.

Disclosure of Invention

An object of the application is to provide an aluminium foil plastic subassembly and aluminium foil cladding device, can advance the location plastic to the aluminium foil to promote the effect of aluminium foil cladding battery.

Embodiments of the present application are implemented as follows:

in one aspect of the embodiments of the present application, an aluminum foil shaping assembly is provided, which includes a mounting seat, and a first propulsion assembly and a second propulsion assembly that are disposed on the mounting seat, wherein a propulsion direction of the first propulsion assembly is perpendicular to a propulsion direction of the second propulsion assembly; the first propulsion assembly comprises a bracket arranged on the mounting seat, a first propulsion driving piece arranged on the bracket, and a shaping head connected with the first propulsion driving piece; the second propulsion component is connected with a clamp, so that the second propulsion component drives the clamp to correspond to the shaping head or deviate from the shaping head, wherein the clamp is internally used for placing a battery and an aluminum foil, so that the aluminum foil is pre-fixed on the battery through the shaping head, and the aluminum foil is shaped.

Optionally, the second propulsion assembly includes setting up second propulsion driving piece, slide rail on the mount pad, and with slide rail sliding connection's mounting panel, the anchor clamps set up on the mounting panel, second propulsion driving piece with the mounting panel is connected, so as to drive the mounting panel is relative slide rail slides.

Optionally, a third propulsion assembly corresponding to the fixture is further arranged on the mounting plate, and the third propulsion assembly comprises a third propulsion driving piece arranged on the mounting plate and a pushing block connected with the third propulsion driving piece, so that the battery in the fixture is pushed by the pushing block.

Optionally, the fixture comprises an installation part, and a positioning part and a limiting part which are arranged on the installation part, wherein the number of the limiting parts is two, and the two limiting parts are respectively arranged opposite to the positioning part, so that the positioning part and the limiting part are enclosed to form a limiting area; the shaping head comprises a base body, a pressing head and baffle plates, wherein the pressing head and the baffle plates are arranged on the base body, the baffle plates are arranged on two opposite sides of the pressing head, the pressing head corresponds to the positioning part, and the baffle plates correspond to the limiting part.

Optionally, the positioning part is provided with an arc groove, the pressure head is provided with an arc protrusion corresponding to the arc groove, and the inner side of the baffle is provided with a guide surface so that the aluminum foil is bent according to a preset shape.

In another aspect of the embodiments of the present application, an aluminum foil cladding apparatus is provided, including a workbench, an aluminum foil cladding assembly and an aluminum foil shaping assembly as described above, wherein the aluminum foil cladding assembly and the aluminum foil shaping assembly are respectively disposed on the workbench correspondingly.

Optionally, the aluminum foil cladding assembly includes setting up the positioning seat on the workstation, and set up tool and roll extrusion subassembly on the positioning seat, roll extrusion subassembly is used for carrying out the roll extrusion cladding to battery and the aluminum foil that puts into in the tool.

Optionally, the rolling assembly comprises a vertical frame arranged on the positioning seat, a lifting cylinder arranged on the vertical frame, and a rolling module connected with the lifting cylinder.

Optionally, the roll extrusion module include the cylinder body, and with cylinder body sliding connection's connecting block, be provided with the gyro wheel on the connecting block, the gyro wheel can with the tool contact to the roll extrusion battery and the aluminium foil in the tool.

Optionally, the jig comprises a positioning block and a positioning groove formed in the positioning block, wherein notches are formed in two opposite sides of the positioning block, and the notches are communicated with the positioning groove.

The beneficial effects of the embodiment of the application include:

the aluminum foil shaping assembly and the aluminum foil cladding device provided by the embodiment of the application, through the mount pad to and set up first propulsion unit and the second propulsion unit on the mount pad, when needs load battery and aluminum foil, make the second propulsion unit act, with the anchor clamps that are connected with the second propulsion unit release, thereby conveniently put into battery and aluminum foil, later rethread second propulsion unit drive anchor clamps get back to initial position can. After the clamp returns, the clamp corresponds to the shaping head of the first propulsion assembly, and at the moment, the shaping head is driven to be pressed downwards through the first propulsion driving piece, so that the shaping head is combined with the clamp, and the aluminum foil can be shaped through the shaping head while being pre-fixed with the battery. By adopting the above form, the aluminum foil can be subjected to preset shaping, the form of the aluminum foil and the relative position of the aluminum foil and the battery are ensured, and the effect of the aluminum foil coated battery is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an aluminum foil shaping assembly according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of pre-fixing an aluminum foil and a battery according to an embodiment of the present application;

fig. 3 is a second schematic structural diagram of an aluminum foil shaping assembly according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural view of a second propulsion assembly and a third propulsion assembly according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an aluminum foil wrapping assembly according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of the lifting cylinder and the rolling module according to the embodiment of the present application;

fig. 7 is a schematic structural diagram of a fixture according to an embodiment of the present application.

Icon: 100-an aluminum foil shaping assembly; 103-a battery; 105-aluminum foil; 110-a mounting base; 120-a first propulsion assembly; 122-a stent; 124-a first propulsion drive; 126-shaping head; 1262-matrix; 1264-indenter; 1266-baffles; 130-a second propulsion assembly; 132-a second propulsion drive; 134-slide rails; 136-mounting plates; 140-clamping; 142-a mounting portion; 144-a positioning part; 146-limit part; 150-a third propulsion assembly; 152-a third propulsion drive; 154-pushing block; 200-an aluminum foil cladding assembly; 210-positioning seats; 220-jig; 222-positioning blocks; 224-notch; 230-a roll-bar assembly; 232-a stand; 234-lifting cylinder; 236-a rolling module; 2362-cylinder body; 2364-connecting blocks; 2366-roller.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present application, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "outer", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that is commonly put when the product of the application is used, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the device or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1 and 2, the present embodiment provides an aluminum foil shaping assembly 100, which includes a mounting base 110, and a first propulsion assembly 120 and a second propulsion assembly 130 disposed on the mounting base 110, wherein a propulsion direction of the first propulsion assembly 120 is perpendicular to a propulsion direction of the second propulsion assembly 130; the first propulsion assembly 120 includes a bracket 122 disposed on the mount 110, a first propulsion drive 124 disposed on the bracket 122, and a swage head 126 coupled to the first propulsion drive 124; the second pushing assembly 130 is connected with a clamp 140, so that the second pushing assembly 130 drives the clamp 140 to correspond to the shaping head 126 or deviate from the shaping head 126, wherein the clamp 140 is used for placing the battery 103 and the aluminum foil 105, so that the aluminum foil 105 is pre-fixed on the battery 103 through the shaping head 126, and the aluminum foil 105 is shaped.

Specifically, the pushing direction of the first pushing component 120 may face the direction of the mounting seat 110, and the first pushing component 120 is connected with the mounting seat 110 through the bracket 122, so that a certain distance is provided between the first pushing driving member 124 and the mounting seat 110, so as to ensure the reliability of the movement stroke when the first pushing driving member 124 drives the shaping head 126 to move. In addition, the pushing direction of the second pushing assembly 130 may be toward the plane of the mounting base 110, and when the battery 103 and the aluminum foil 105 need to be placed in the fixture 140, the fixture 140 is pushed out by the second pushing assembly 130, that is, in a state deviated from the shaping head 126. When the aluminum foil 105 and the shaping head 126 need to be pre-fixed, the second pushing assembly 130 retracts the clamp 140, that is, the state corresponding to the shaping head 126, so that the aluminum foil 105 and the battery 103 can be pressed and fixed when the shaping head 126 is pressed down.

According to the aluminum foil shaping assembly 100 provided by the embodiment of the application, through the mounting seat 110, and the first pushing assembly 120 and the second pushing assembly 130 arranged on the mounting seat 110, when the battery 103 and the aluminum foil 105 need to be loaded, the second pushing assembly 130 is enabled to act so as to push out the clamp 140 connected with the second pushing assembly 130, so that the battery 103 and the aluminum foil 105 can be conveniently placed in, and then the clamp 140 is driven to return to the initial position through the second pushing assembly 130. After the clamp 140 returns, the clamp 140 corresponds to the shaping head 126 of the first propulsion assembly 120, and at this time, the first propulsion driving member 124 drives the shaping head 126 to press down, so that the shaping head 126 and the clamp 140 are engaged, and the aluminum foil 105 and the battery 103 are pre-fixed, and at the same time, the aluminum foil 105 can be shaped through the shaping head 126. By adopting the above form, the aluminum foil 105 can be subjected to pre-positioning shaping, the form of the aluminum foil 105 and the relative position of the aluminum foil and the battery 103 are ensured, and the effect of the aluminum foil 105 wrapping the battery 103 is improved.

As shown in fig. 3 and 4, the second propulsion assembly 130 includes a second propulsion driving member 132 disposed on the mounting base 110, a sliding rail 134, and a mounting plate 136 slidably connected to the sliding rail 134, and a clamp 140 disposed on the mounting plate 136, where the second propulsion driving member 132 is connected to the mounting plate 136 to drive the mounting plate 136 to slide relative to the sliding rail 134.

Specifically, when the second pushing driving member 132 pushes the mounting plate 136 to slide relative to the sliding rail 134, the fixture 140 disposed on the mounting plate 136 moves synchronously with the mounting plate 136, so as to achieve the purpose of driving the fixture 140 to move. The first propulsion driving member 124 and the second propulsion driving member 132 may be cylinders, linear motors, or the like, which is not particularly limited in the embodiment of the present application.

As shown in fig. 4, a third propulsion assembly 150 corresponding to the fixture 140 is further provided on the mounting plate 136, and the third propulsion assembly 150 includes a third propulsion driving member 152 provided on the mounting plate 136, and a pushing block 154 connected to the third propulsion driving member 152, so as to push the battery 103 in the fixture 140 through the pushing block 154.

Specifically, after the battery 103 and the aluminum foil 105 are placed in the fixture 140, in order to ensure the certainty of the positions of the battery 103 and the aluminum foil 105 relative to the fixture 140, the problem of improper placement is avoided, and the battery 103 or the aluminum foil 105 is prevented from being distorted due to stress during the pressing process of the shaping head 126. The third pushing driving member 152 pushes the pushing block 154 to move towards the position of the clamp 140, so as to play a limiting role. By adopting the form, the reliability during pre-fixing and shaping is guaranteed. The third propulsion driving member 152 may be an air cylinder, a linear motor, or the like, which is not particularly limited in the embodiment of the present application. In addition, it should be noted that, the aluminum foil 105 is already integrally bent into a rectangular frame structure in the initial state, when the battery 103 and the aluminum foil 105 are placed relatively, the aluminum foil 105 needs to be broken off from the edge, then sleeved on the battery 103, and when the battery 103 and the aluminum foil 105 are positioned by the push block 154, the aluminum foil 105 has a certain supporting strength as a frame structure, which is beneficial to ensuring the stability of alignment and matching.

As shown in fig. 1 and 4, the fixture 140 includes a mounting portion 142, and a positioning portion 144 and a limiting portion 146 disposed on the mounting portion 142, where the limiting portion 146 is disposed in two and opposite to the positioning portion 144, so that the positioning portion 144 and the limiting portion 146 enclose a limiting area; shaping head 126 includes a base 1262, a pressing head 1264 and a baffle 1266, which are disposed on base 1262, wherein baffle 1266 is disposed on two opposite sides of pressing head 1264, pressing head 1264 corresponds to positioning portion 144, and baffle 1266 corresponds to limiting portion 146.

Specifically, the fixture 140 is connected with the mounting plate 136 through the mounting portion 142, and the fixture 140 forms a limiting area for limiting the battery 103 through the mutual cooperation of the positioning portion 144 and the limiting portion 146, the positioning portion 144 limits one side of the battery 103, the limiting portion 146 limits the other two sides of the battery 103, and meanwhile, the omnibearing limiting effect on the battery 103 can be realized by means of the limiting of the push block 154. The aluminum foil 105 placed on the battery 103 can also play a limiting role while limiting the battery 103. After the positions of the battery 103 and the aluminum foil 105 are in place, the pressing head 1264 corresponds to the positioning part 144 by pressing down the shaping head 126, so that the battery 103 can be prevented from being crushed due to overlarge stress while shaping the aluminum foil 105, and a protection effect can be achieved. The baffle 1266 is located at the outer side of the limiting portion 146, and plays a role in guiding and shaping the aluminum foil 105, and the aluminum foil 105 can be extruded between the limiting portion 146 and the baffle 1266 beyond the battery 103 by pressing the shaping head 126 downwards, so as to further shape the aluminum foil 105, thereby facilitating the subsequent coating operation.

In an alternative embodiment of the present application, the positioning portion 144 is provided with an arc groove, the pressure head 1264 is provided with an arc protrusion corresponding to the arc groove, and the inner side of the baffle 1266 is provided with a guiding surface, so that the aluminum foil 105 is bent according to a preset shape.

With the adoption of the mode, in the pressing process of the shaping head 126, the joint of the aluminum foil 105 and the battery 103 can be concentrated at the lowest part of the arc-shaped groove, so that the effect of pre-fixing due to uneven battery 103 is avoided. Meanwhile, by arranging the guide surface in the baffle 1266, the aluminum foil 105 can be provided with a bending part which is convenient to correspond to the edge of the battery 103, so that the matching degree of the aluminum foil 105 and the battery 103 is higher, and the subsequent coating effect is convenient to enhance.

As shown in fig. 5, the embodiment of the application further provides an aluminum foil wrapping device, which includes a workbench (not shown in the drawing), an aluminum foil wrapping assembly 200, and the aluminum foil shaping assembly 100 in the foregoing embodiment, wherein the aluminum foil wrapping assembly 200 and the aluminum foil shaping assembly 100 are respectively and correspondingly disposed on the workbench. Thus, after the pre-fixing of the battery 103 and the aluminum foil 105 is completed, the subsequent coating operation can be directly performed through the aluminum foil coating assembly 200. The aluminum foil cladding apparatus includes the same structure and advantages as the aluminum foil shaping assembly 100 of the previous embodiment. The structure and advantageous effects of the aluminum foil shaping assembly 100 have been described in detail in the foregoing embodiments, and are not described in detail herein.

With continued reference to fig. 5, the aluminum foil wrapping assembly 200 includes a positioning seat 210 disposed on a table, and a jig 220 and a rolling assembly 230 disposed on the positioning seat 210, wherein the rolling assembly 230 is used for rolling and wrapping the battery 103 and the aluminum foil 105 placed in the jig 220.

Specifically, when the battery 103 is coated, the pre-fixed battery 103 and the aluminum foil 105 need to be placed together in the jig 220, and when the battery 103 is placed, the pre-fixed position of the aluminum foil 105 and the battery 103 needs to be placed downward, that is, the pre-fixed position is attached to the bottom of the jig 220. Thus, the opposite sides of the aluminum foil 105 are in the state of fig. 7. In the above state, the aluminum foil 105 is rolled by the rolling assembly 230 to achieve the required coating purpose, and the coated aluminum foil 105 has a high degree of adhesion with the battery 103, so that edge tilting of the aluminum foil 105 can be avoided, that is, opposite edges of the aluminum foil 105 are located on the same plane.

As shown in fig. 6, the rolling assembly 230 includes a stand 232 provided on the positioning base 210, a lifting cylinder 234 provided on the stand 232, and a rolling module 236 connected to the lifting cylinder 234.

Specifically, when the battery 103 is placed in the jig 220, the rolling module 236 needs to have a certain distance from the jig 220, so as to ensure that the battery 103 is placed smoothly. After the battery 103 is put in, the lifting cylinder 234 can drive the rolling module 236 to press down, so that the rolling module 236 can perform the rolling cladding operation.

With continued reference to fig. 6, the rolling module 236 includes a cylinder body 2362 and a connection block 2364 slidably connected to the cylinder body 2362, and a roller 2366 is disposed on the connection block 2364, and the roller 2366 can contact the fixture 220 to roll the battery 103 and the aluminum foil 105 in the fixture 220.

Specifically, in the embodiment of the present application, the cylinder body 2362 is similar to the arrangement form of the clamping jaw cylinder, that is, the connecting block 2364 can move relative to the cylinder body 2362, and the two connecting blocks 2364 can be relatively close to or far away from each other, and when the roller 2366 is arranged on the connecting block 2364, the roller 2366 can be driven to move. In practical application, the rollers 2366 are made of flexible materials, when the lifting cylinder 234 drives the rolling module 236 to press down, the rollers 2366 are in contact with the jig 220, and under the driving of the cylinder body 2362, the two rollers 2366 are close to each other and roll the aluminum foil 105, and after the aluminum foil 105 is attached to the battery 103, the rollers can be rolled back and forth for several times to ensure good positioning and coating of the aluminum foil 105.

As shown in fig. 7, the jig 220 includes a positioning block 222 and a positioning groove formed on the positioning block 222, and two opposite sides of the positioning block 222 are also formed with a notch 224, where the notch 224 is communicated with the positioning groove.

Specifically, the positioning block 222 positions the battery 103 through the positioning groove, after the battery 103 is coated, in order to facilitate the taking out of the battery 103, the battery 103 can be taken out of the notch 224, which facilitates the taking and placing operation of the battery 103 and is beneficial to reducing the operation difficulty.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. The aluminum foil shaping assembly is characterized by comprising a mounting seat, a first propulsion assembly and a second propulsion assembly, wherein the first propulsion assembly and the second propulsion assembly are arranged on the mounting seat, and the propulsion direction of the first propulsion assembly is perpendicular to the propulsion direction of the second propulsion assembly;

the first propulsion assembly comprises a bracket arranged on the mounting seat, a first propulsion driving piece arranged on the bracket, and a shaping head connected with the first propulsion driving piece;

the second propulsion component is connected with a clamp, so that the second propulsion component drives the clamp to correspond to the shaping head or deviate from the shaping head, wherein a battery and an aluminum foil are placed in the clamp, the aluminum foil is pre-fixed on the battery through the shaping head, and the aluminum foil is shaped.

2. The aluminum foil shaping assembly of claim 1, wherein the second propulsion assembly includes a second propulsion drive disposed on the mount, a slide rail, and a mounting plate slidably coupled to the slide rail, the clamp being disposed on the mounting plate, the second propulsion drive being coupled to the mounting plate to drive the mounting plate to slide relative to the slide rail.

3. The aluminum foil shaping assembly of claim 2, wherein a third propulsion assembly is further provided on the mounting plate corresponding to the fixture, the third propulsion assembly including a third propulsion drive provided on the mounting plate, and a push block connected to the third propulsion drive to push the battery in the fixture through the push block.

4. The aluminum foil shaping assembly of claim 3, wherein the clamp includes a mounting portion, and a positioning portion and a limiting portion disposed on the mounting portion, the limiting portion being disposed in two and each being disposed opposite to the positioning portion such that the positioning portion and the limiting portion enclose a limiting area; the shaping head comprises a base body, a pressing head and baffle plates, wherein the pressing head and the baffle plates are arranged on the base body, the baffle plates are arranged on two opposite sides of the pressing head, the pressing head corresponds to the positioning part, and the baffle plates correspond to the limiting part.

5. The aluminum foil shaping assembly of claim 4, wherein the positioning portion is provided with an arc-shaped groove, the pressing head is provided with an arc-shaped protrusion corresponding to the arc-shaped groove, and a guide surface is arranged on the inner side of the baffle plate to bend the aluminum foil according to a preset shape.

6. An aluminum foil cladding apparatus, comprising a workbench, an aluminum foil cladding assembly and an aluminum foil shaping assembly as claimed in any one of claims 1-5, wherein the aluminum foil cladding assembly and the aluminum foil shaping assembly are respectively correspondingly arranged on the workbench.

7. The aluminum foil cladding apparatus of claim 6, wherein said aluminum foil cladding assembly comprises a positioning seat disposed on said work table, and a jig and a rolling assembly disposed on said positioning seat, said rolling assembly being used for rolling cladding of a battery and aluminum foil placed in said jig.

8. The aluminum foil cladding apparatus of claim 7, wherein said rolling assembly comprises a stand provided on said positioning base, a lifting cylinder provided on said stand, and a rolling module connected to said lifting cylinder.

9. The aluminum foil cladding apparatus of claim 8, wherein said rolling die set comprises a cylinder body and a connection block slidably connected with said cylinder body, said connection block being provided with rollers capable of contacting said jig to roll said battery and aluminum foil in said jig.

10. The aluminum foil cladding apparatus according to any one of claims 7 to 9, wherein said jig comprises a positioning block, and positioning grooves provided on the positioning block, notches are further provided on opposite sides of the positioning block, and said notches are in communication with said positioning grooves.