KR102023735B1 - Notching Apparatus Having Integral Die and Stripper - Google Patents

Abstract

The present invention relates to a notching apparatus including an integrated die and a stripper, and more particularly, to an apparatus for notching an electrode of a battery cell, the apparatus including a punch for punching the electrode and moving up and down; Axially shaped guide posts to which upper portions of upper mechanism portions are connected such that the upper mechanism portions are vertically lowered; A lower mechanism portion connected to the lower portion of the guide posts, the lower mechanism portion including a die at a position corresponding to the punch of the upper mechanism portion; And a stripper positioned between the upper mechanism portion and the lower mechanism portion, connected to a guide post, and configured to press-fix an electrode for punching onto the lower mechanism portion. To provide.

Description

Notching Apparatus Having Integral Die and Stripper

The present invention relates to a notching device comprising an integral die and a stripper.

Recently, secondary batteries capable of charging and discharging have been widely used as energy sources of wireless mobile devices. In addition, the secondary battery has attracted attention as an energy source of electric vehicles, hybrid electric vehicles, etc. which are proposed as a solution for air pollution of conventional gasoline and diesel vehicles using fossil fuel. Therefore, the type of applications using the secondary battery is very diversified due to the advantages of the secondary battery, and it is expected that the secondary battery will be applied to many fields and products in the future.

Such secondary batteries may be classified into lithium ion batteries, lithium ion polymer batteries, lithium polymer batteries, etc. according to the composition of the electrode and the electrolyte, and among them, there is little possibility of leakage of the electrolyte, and the amount of lithium ion polymer batteries that are easy to manufacture is high. Growing. In general, the secondary battery is a cylindrical battery and a rectangular battery in which the electrode assembly is embedded in a cylindrical or rectangular metal can, and a pouch type battery in which the electrode assembly is embedded in a pouch type case of an aluminum laminate sheet according to the shape of the battery case. The electrode assembly embedded in the battery case is composed of a positive electrode, a negative electrode, and a separator structure interposed between the positive electrode and the negative electrode is a power generator capable of charging and discharging, between the long sheet type positive electrode and the negative electrode coated with the active material It is classified into a jelly-roll type wound through a separator, and a stack type or a composite (stack / folding type) structure in which a plurality of positive and negative electrodes of a predetermined size are sequentially stacked in a state of being interposed in a separator.

The electrode of the electrode assembly is manufactured by performing a notching process. In the notching process, in the notching die, an upper plate and a lower plate are mounted to the press, respectively, and the upper plate moves up and down to cut the electrodes. A punch is mounted on the upper plate of the notching die and a die is mounted on the lower plate of the notching die so that the punching of the electrode occurs when the punch and the die cross each other.

FIG. 1 schematically shows a conventional notching apparatus.

1, the conventional notching apparatus 10 is attached to the punch holder 13 and the upper base 11 which the punch 12 for punching the electrode 1 moves up and down.

The upper base 11 is fixed by the lower base 55 and the frame 30, and when the punch 12 descends, the stripper 70 descends downward from the side of the punch 12.

The stripper 70 presses the die holder 53 and the die 51 positioned on the lower base 55 and the lower base 55 at the bottom. The electrode 1 is fixed by the stripper 70 and has a structure in which the punch 12 punches the electrode 1 while penetrating through the hole of the die 51.

In the case of such a punching or notching process, a technique for securing a gap between the punch and the die of the notching die is required for smooth punching of the electrode, and the gap between the punch and the die is called mold clearance.

In the conventional notching mold, since the punch and the die are assembled through separate processing, it is difficult to secure the mold clearance by the processing error and the assembly error.

In addition, a problem arises in that the mold clearance is changed according to the assembling conditions of the notching dies.

The present invention aims to solve the problems of the prior art as described above and the technical problems that have been requested from the past.

Specifically, an object of the present invention is to solve the problem that the mold clearance is changed by the notching die, and a notching apparatus for notching the electrode by moving the members mounted with the punch vertically toward the electrode by moving along the guide posts. To provide.

Notching device comprising an integrated die and stripper according to the present invention for achieving this object,

As a device for notching the electrode of the battery cell,

An upper mechanism part including a punch for punching the electrode and moving up and down;

Axially shaped guide posts to which upper portions of upper mechanism portions are connected such that the upper mechanism portions are vertically lowered;

A lower mechanism portion connected to a lower portion of the guide posts, and having an electrode mounted thereon, the lower mechanism portion including a die at a position corresponding to the punch of the upper mechanism portion; And

A stripper positioned between the upper mechanism portion and the lower mechanism portion, connected to a guide post, and configured to press-fix an electrode for punching onto the lower mechanism portion;

It consists of a structure that includes.

That is, the notching device including the integrated die and stripper according to the present invention can improve the accuracy by integrally processing the stripper and die of the mold in order to prevent mold clearance caused by the assembly conditions and processing errors of the mold. have.

In one specific example, the upper mechanism portion,

Punches for punching electrodes;

A plate-shaped punch holder for fixing the punch; And

An upper base positioned on an upper portion of the plate-shaped punch holder and vertically moving;

It may include,

The lower mechanism part,

A die having a hole corresponding to the punch of the upper mechanism portion;

A die holder holding the die; And

A lower base supporting the die holder from below;

It may include.

According to the present invention, the stripper may be a structure that is integrally processed with the die so that the mold clearance does not change.

In this case, the stripper may have the same machining error as the die.

In this structure, the stripper can move up and down reciprocating with the upper mechanism part while the punch is penetrated.

At this time, the stripper may further include an inner stripper made of cemented carbide in a portion adjacent to the direction in which the punch moves.

In this case, the inner stripper can prevent the generation of frictional heat on the friction surface with the punch and prevent the deformation of the stripper and the punch.

In one specific example, the stripper may be a structure fixed to the guide post and connected through the upper mechanism portion and the lower mechanism portion.

In this case, the guide posts may be located at respective corner portions that are planar rectangular.

In addition, the guide posts may further include additional guide posts.

According to the invention, the punch can be fastened by bolts.

In a specific example, the punch can be coupled to the punch holder by a clamp.

In this structure, the punch may be a structure inserted into the die along the face of the stripper that is integrally processed with the die.

In some cases, the notching device may further include a back plate fixing the upper base.

The present invention provides a battery cell manufactured using the electrodes notched by the notching apparatus.

The present invention also provides a battery pack containing a battery cell.

The present invention also provides a device including the battery pack.

The device may be selected from the group consisting of a mobile phone, a portable computer, a wearable electronic device, a tablet PC, a smart pad, a netbook, a light electronic vehicle (LEV), an electric vehicle, a hybrid electric vehicle, and a power storage device.

Since the structure and fabrication method of such a device are known in the art, detailed description thereof will be omitted herein.

As described above, the notching device including the integrated die and stripper according to the present invention provides the effect of improving the accuracy by integrally processing the stripper and die of the mold.

In addition, the present invention provides a quality and cost saving effect of the battery cell by reducing the cost and improving the efficiency of the process by a simple structural change without adding other components.

1 is a schematic diagram of a conventional notching apparatus;
2 is a schematic diagram of a notching device including an integral die and a stripper according to one embodiment of the present invention;
3 is a schematic view of an upper mechanism portion constituting a notching apparatus according to one embodiment of the present invention of FIG. 2;
FIG. 4 is a schematic view of a lower mechanism part constituting the notching device according to one embodiment of the present invention of FIG. 2.

Hereinafter, although described with reference to the drawings according to an embodiment of the present invention, this is for easier understanding of the present invention, the scope of the present invention is not limited thereto.

FIG. 2 is a schematic diagram of a notching device including an integrated die and stripper according to one embodiment of the present invention, and FIG. 3 is a schematic view of an upper mechanism part constituting the notching device according to FIG. 4 is a schematic view of a lower mechanism part constituting the notching device according to FIG. 2.

2 to 4 together, the notching device 100 according to one embodiment of the present invention includes punches 111 and 112, and the upper mechanism portion 110, the upper mechanism portion 110 to move up and down Axial shape connecting through the lower mechanism portion 150, the upper mechanism portion 110 and the lower mechanism portion 150, including the dies 151, 152 at positions corresponding to the punches 111, 112 of Guide posts 130, and a stripper 170 positioned between the upper mechanism part 110 and the lower mechanism part 150.

The upper mechanism unit 110 includes punches 111 and 112 punching the electrode, a punch holder 113 and an upper base 115. The upper mechanism unit 110 moves up and down by receiving a driving force by a driving unit (not shown).

The punches 111 and 112 have different shapes, and two punches 111 and 112 are positioned above and below the longitudinal center line. The punches 111 and 112 are rectangular and 'c' shaped, respectively, in plan. The punches 111, 112 are inserted into the dies 151, 152 along the face of the inner strippers 172, 173 which are integrally machined with the dies 151, 152, respectively.

The lower mechanism part 150 corresponding to the upper mechanism part 110 is formed by cutting the dies 151 and 152, the die holder 153, and the lower base 155 having holes corresponding to the punches 111 and 112. It is configured to include.

The stripper 170 vertically reciprocates with the upper mechanism part 110 while the guide posts 130 penetrating the upper mechanism part 110 and the lower mechanism part 150 penetrate therethrough and the punches 111 and 112 penetrate. Move. The guide posts 130 pass through portions of the stripper 170 and the lower mechanism portion 150 corresponding to the through regions (the A regions) of the upper holder 113 of the upper mechanism portion 110.

The stripper 170 presses and fixes the electrode just before the electrode for punching is inserted into the dies 151 and 152 of the lower mechanism part 150, and the punches 111 and 112 punch when the electrode is fixed.

Since the stripper 170 generates frictional heat on the friction surface when the punches 111 and 112 reciprocate, the stripper 170 is made of cemented carbide in a portion where the punches 111 and 112 move and contact to prevent deformation. Inner strippers 172 and 173 are mounted. Inner strippers 172 and 173 are mounted to stripper 170 and positioned on top of dies 151 and 152.

The inner strippers 172 and 173 are integrally machined with the dies 151 and 152 so that the mold clearance does not change, and has the same processing error as the dies 151 and 152.

Guide posts 130 are located at respective corner portions that are planar and rectangular. The stripper 170 is fixed by the guide posts 130 and is connected through the upper mechanism part 110 and the lower mechanism part 150. Additional guide posts 131 connected to the upper base 115 and the lower base 155 are mounted to the outside of the guide posts 130 based on the center line on the plane.

Those skilled in the art to which the present invention pertains may make various applications and modifications within the scope of the present invention based on the above contents.

Claims (17)

As a device for notching the electrode of the battery cell,
An upper mechanism part including a punch for punching the electrode and moving up and down;
Axially shaped guide posts to which upper portions of upper mechanism portions are connected such that the upper mechanism portions are vertically lowered;
A lower mechanism portion connected to a lower portion of the guide posts, and having an electrode mounted thereon, the lower mechanism portion including a die at a position corresponding to the punch of the upper mechanism portion; And
A stripper positioned between the upper mechanism portion and the lower mechanism portion, connected to a guide post, and configured to press-fix an electrode for punching onto the lower mechanism portion;
It contains,
The upper mechanism portion,
Punches for punching electrodes;
A plate-shaped punch holder for fixing the punch; And
An upper base positioned on an upper portion of the plate-shaped punch holder and vertically moving;
Including,
The lower mechanism part,
A die having a hole corresponding to the punch of the upper mechanism portion;
A die holder holding the die; And
A lower base supporting the die holder from below;
Including,
The stripper moves up and down reciprocating with the upper mechanism part in the state that the punch penetrates,
The stripper further includes an inner stripper in which a portion adjacent to the direction in which the punch moves is made of cemented carbide,
The inner stripper is processed integrally with the die so that there is no change in mold clearance, and thus has the same processing error as the die,
And the punch is inserted into the die along the face of the inner stripper which is integrally machined with the die. delete delete delete delete delete delete The notching apparatus of claim 1, wherein the stripper moves along a guide post connected through the upper mechanism portion and the lower mechanism portion. 2. The notching device of claim 1, wherein the guide posts are located at respective corner portions that are planar and rectangular. The notching device according to claim 1, wherein the punch is fastened by bolts. The notching device of claim 1, wherein the punch is coupled to a punch holder by a clamp. delete 2. The notching device of claim 1, wherein the notching device further comprises a back plate that secures the upper base. delete delete delete delete

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