KR101766966B1 - Pouch folding apparatus of secondary battery - Google Patents

Abstract

The present invention relates to a pouch folding apparatus for a secondary battery, which is capable of realizing an accurate shape that meets the manufacturing dimensions of a product when both wings of a pouch for sealing an electrode assembly of a secondary battery are folded. The first folding unit folds the pouch wings of the rechargeable battery accommodating the electrode assembly by 90 degrees. The second folding unit folds the pouch wings folded at 90 degrees at 180 degrees. The third folding unit folds the pouch wings folded at 180 degrees at 270 degrees. And includes a folding unit. The first folding unit is composed of a plurality of unit rollers arranged along a path through which the pouch is fed. The unit roller includes an upper roller positioned at an upper portion of the pouch and having a truncated cone shape, and a lower roller positioned at a lower portion of the pouch and having a flange at one end thereof, wherein the upper roller and the lower roller are disposed in parallel. At this time, the angle between the front surface of the upper roller and the oblique surface becomes smaller as the pouch is conveyed in the conveying direction.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pouch folding apparatus for a secondary battery,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pouch folding apparatus for a secondary battery, and more particularly, to a secondary pouch folding apparatus for folding both wings of a pouch for sealing an electrode assembly of a secondary battery.

As technology development and demand for mobile devices and automotive / electric power storage devices (ESS) increase, the demand for batteries as energy sources is rapidly increasing, and accordingly, a lot of researches on batteries that can meet various demands have been conducted have.

Typically, in terms of the shape of a battery, there is a high demand for a prismatic secondary battery and a pouch-type secondary battery which can be applied to products such as mobile phones with a small thickness, and has advantages such as high energy density, discharge voltage, There is a high demand for lithium secondary batteries such as lithium ion batteries and lithium ion polymer batteries.

In order to form the pouch-type lithium secondary battery, the electrode assembly in which the positive electrode, the separator, and the negative electrode are laminated or laminated and wound is placed in a pouch-like pouch. When the upper and lower pouch film is heated and fused at the open edge of the pouch, a sealed pouch type bare cell battery is produced.

The pouch used in the pouch-type battery is generally composed of a metal foil layer and a multi-layered film of a synthetic resin layer covering the metal foil layer. When the pouch is used, the weight of the battery can be significantly reduced. Aluminum is usually used as the metal forming the foil in the multilayer film pouch. The polymer film forming the inner layer of the pouch protects the metal foil from the electrolyte and prevents shorting between the positive and negative electrodes and the electrode tabs.

 However, if there is no separate insulation operation at the edge of the pouch, the metal foil layer forming the pouch film intermediate layer is a small part but exposed. Therefore, in order to form the core pack cell in the bare cell state, the metal foil is still exposed to the edge of the pouch even when the edges of both sides are folded and the protection circuit board is attached to the electrode tab side.

When the core foil battery is charged directly into the hard case or the battery box of the product with the metal foil exposed, the metal foil of the pouch foil can be connected to the cathode of the battery through the hard case, circuitry in the battery box, and other conductors . Alternatively, electrical connection can be made between the metal foil of the pouch film, the conductor of the protection circuit board, the conductor of the hard case or the battery box, and the battery cathode.

In any of these cases, the copper tab or the current collector of the aluminum and the negative electrode forming the metal foil of the pouch film is directly or indirectly connected, and the aluminum foil of the pouch film may corrode due to the electrochemical action. In particular, The corrosion can be accelerated in an environment in which there is leakage of the electrolyte component or moisture.

If the aluminum foil, which acts as a barrier to water and oxygen, is still corroded, the polymer layer of the pouch membrane alone can not prevent the influx of moisture and oxygen to a sufficient degree. The battery can cause an abnormality if the pouch is blocked. That is, when the organic electrolyte of the electrolyte separator is evaporated or external moisture or oxygen is introduced, an abnormal phenomenon such as swelling in the pouch may occur, resulting in disposal of the battery, deterioration of performance, and shortened life span.

In order to solve such a problem, a method of folding both wings of the core pack cell when the wing is folded is used. However, as the thickness of the battery has recently become smaller, a width of 1 mm or less is required to be overlapped in the process of folding in a multi-stage manner. In addition, problems caused by unfavorable defects may be exposed, and in some cases, the product may be discarded due to defective appearance of the product.

Korean Patent Publication No. 2003-0093362 (November 11, 2003)

The present invention provides a pouch folding apparatus for a secondary battery that can meet the manufacturing dimensions of a product when folding both wings of a pouch for sealing an electrode assembly of a secondary battery, It has its purpose.

In addition, the present invention can prevent the metal foil exposed through both wings of the pouch from being electrically connected to other metal constituting the electrode through the protective circuit board, the conductor in the hard case, and the like, The present invention further provides a pouch folding apparatus for a secondary battery having improved safety.

In order to achieve the above object, according to the present invention, there is provided a pouch folding apparatus for a secondary battery, comprising: a first folding unit for folding a pouch wing of a rechargeable battery accommodating an electrode assembly by 90 degrees; a second folding unit for folding pouch wings And a third folding unit that folds the folded pouch 180 degrees at 270 degrees.

The first folding unit is composed of a plurality of unit rollers arranged along a path through which the pouch is fed. The unit roller includes an upper roller positioned at an upper portion of the pouch and having a truncated cone shape, and a lower roller positioned at a lower portion of the pouch and having a flange at one end thereof, wherein the upper roller and the lower roller are disposed in parallel. At this time, the angle between the front surface of the upper roller and the oblique surface becomes smaller as the pouch is conveyed in the conveying direction.

The second folding unit is constituted by a plurality of unit rollers arranged along a path through which the pouch is fed. The unit roller includes an upper roller positioned at an upper portion of the pouch and having a flange formed at one end thereof, and a lower roller positioned at a lower portion of the pouch and having a truncated cone shape, wherein the upper roller and the lower roller intersect. At this time, the angle between the front surface of the lower roller and the oblique surface becomes smaller as the pouch is conveyed.

The second folding unit may further include a stripper provided at one side of the lower roller and serving as a folding guide of the pouch wing. The upper end of the stripper may have a shape wrapping a side surface of the lower roller.

The third folding unit is constituted by a plurality of unit rollers arranged along a path through which the pouch is fed. The unit roller includes an upper roller positioned at an upper portion of the pouch and having a truncated cone shape, and a lower roller positioned at a lower portion of the pouch and having a flange at one end thereof, wherein the upper roller and the lower roller are disposed in parallel. At this time, the angle between the front surface of the upper roller and the oblique surface becomes smaller as the pouch is conveyed in the conveying direction.

Meanwhile, the pouch folding apparatus for a secondary battery according to the present invention may include a first compression unit for pressing the pouch folded 180 degrees by the second folding unit, and a second compression unit for pressing the folded pouch wing by the third folding unit And may further comprise a second compression unit.

The present invention constructed as described above is characterized in that a plurality of unit rollers provided in the folding unit are arranged along the conveying path of the pouch and the upper roller and the lower roller constituting the unit roller are arranged or arranged so as to be parallel to each other, The battery pouch wings can be automatically folded to the desired dimensions. Particularly, it is possible to reduce the difference in level of the folded pouch wings, thereby improving the quality of the secondary battery.

The folding line of the pouch wing may be straightened by using a stripper which acts as a folding guide when folding or pressing the pouch wing.

1 and 2 are a perspective view and a front view of a pouch folding device of a secondary battery according to an embodiment of the present invention.
3 is a perspective view of a first folding unit of a pouch folding apparatus of a secondary battery according to an embodiment of the present invention.
Fig. 4 is a sectional view of first to fourth unit rollers constituting the first folding unit shown in Fig. 3; Fig.
5 is a perspective view of a second folding unit of a pouch folding apparatus of a secondary battery according to an embodiment of the present invention.
6 is a sectional view of fifth to eighth unit rollers constituting the second folding unit shown in Fig.
FIG. 7 is a perspective view of a first compression unit of a pouch folding apparatus of a secondary battery according to an embodiment of the present invention; FIG.
FIG. 8 is a perspective view of a third folding unit of a pouch folding apparatus of a secondary battery according to an embodiment of the present invention; FIG.
Fig. 9 is a sectional view of eleventh to fourteenth unit rollers constituting the third folding unit shown in Fig. 8; Fig.
10 is a perspective view of a second compression unit of a pouch folding apparatus of a secondary battery according to an embodiment of the present invention.
11 is a sectional view of the 15th to 18th unit rollers constituting the second compression unit shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to the accompanying drawings, embodiments of the present invention will be described in detail. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A pouch folding apparatus for a secondary battery according to an embodiment of the present invention includes a pair of blades (not shown) provided on a path for transferring a secondary battery (B in Fig. 4) accommodating an electrode assembly (not shown) (Hereinafter referred to as " pouch wing " in Fig. 4).

1 and 2, the pouch folding apparatus for a secondary battery according to the present embodiment includes three folding units 100 to 300 arranged along a path through which the secondary battery B is conveyed, Units (400, 500).

The folding units 100 to 300 include a first folding unit 100 that folds the pouch wings W at 90 degrees, a second folding unit 200 that folds the pouch wings W folded at 90 degrees to 180 degrees, And a third folding unit 300 folding the folded pouch wings W at 270 degrees.

The compression units 400 and 500 comprise a first compression unit 400 for pressing the pouch wings W folded 180 degrees by the second folding unit 200 and a second compression unit 400 for pouching the pouch wings W folded 270 by the third folding unit 300. [ And a second compression unit 500 for compressing the wafers W.

As described above, the first to third folding units 100 to 300 are sequentially disposed along the transport direction of the secondary battery B, the first compression unit 400 includes the second folding unit 200, 3 folding unit 300 and the second compression unit 500 is positioned behind the third folding unit 300. [

3 to 11, three folding units 100 to 300 and two compression units 400 and 500 will be described in more detail.

As shown in FIGS. 3 and 4, the first folding unit 100 is composed of four unit rollers 110 to 140 arranged along a path (arrow direction in FIG. 3) on which the pouch is fed. The unit rollers 110 to 140 are formed of a pair of upper and lower spaced apart and arranged in parallel. The unit roller provided on the drawing side of the first folding unit 100 is referred to as a first unit roller 110 and the unit roller provided on the drawing side is referred to as a fourth unit roller 140. [

The first unit roller 110 is composed of a first upper roller 110a and a first lower roller 110b. The first upper roller 110a and the first lower roller 110b have a cylindrical shape with a predetermined length. Unlike the first upper roller 110a, the first lower roller 110b has a flange .

The second to fourth unit rollers 120 to 140 have the same shape. That is, the second to fourth upper rollers 120a to 140a are in the shape of a truncated cone (a cone is a three-dimensional body composed of the remaining portion after removing a portion having a vertex when the cone is cut into a plane parallel to the bottom surface thereof) (120b to 140b) have a cylindrical shape with a flange at the tip.

The outer circumferential surface of each of the second to fourth upper rollers 120a to 140a is formed as an oblique surface so as to fold the pouch wing W. At this time, Is a ₁ , a ₂ , and a ₃ , a ₁ > a ₂ > a ₃ is satisfied. In other words, the angles (a ₁ , a ₂ , a ₃ ) of the second to fourth upper rollers 120a to 140a decrease from the second upper roller 120a to the fourth upper roller 140a.

Thus, the included angle (a _1, a _2, a ₃₎ the pouch wings (W) in the course of passing through the case of forming becomes small second to fourth units of rollers (120 to 140) of the upper roller (120a ~ 140a) (See Fig. 4).

Referring to FIGS. 5 and 6, the second folding unit 200 includes four unit rollers 210 to 240 disposed along a path (arrow direction in FIG. 5) on which the pouch is fed. In addition, the unit rollers 210 to 240 are formed as a pair which are spaced apart from each other and arranged so as to intersect with each other.

The fifth unit roller 210 includes a fifth cylindrical upper roller 210a having a flange at its tip and a fifth cylindrical lower roller 210b disposed at a right angle to the fifth upper roller 210a do.

The sixth to eighth upper rollers 220a to 240a of the sixth to eighth unit rollers 220 to 240 have a cylindrical shape with a flange at the tip thereof and the sixth to eighth lower rollers 220b to 240b have a cylindrical shape, To 8th upper rollers 220a to 240a.

The outer circumferential surfaces of the sixth to eighth lower rollers 220b to 240b are formed as an oblique surface so that the pouch wings W can be folded. A ₄ , a ₅ and a ₆ formed by the oblique surfaces of the sixth to eighth lower rollers 220b to 240b become smaller from the sixth lower roller 220b toward the eighth lower roller 240b .

When the angle a ₄ , a ₅ , a _{6 of the} lower rollers 220b to 240b is formed to be small, the pouch wings W are prevented from passing through the sixth to eighth unit rollers 220 to 240, (See Fig. 6).

Meanwhile, the second folding unit 200 may further include a stripper 250 serving as a folding guide. The stripper 250 is provided at one side (front side) of the lower rollers 210b to 240b and has a shape to wrap the side surfaces of the lower rollers 210b to 240b. More specifically, the stripper 250 is provided at the corners formed by the fifth to eighth upper rollers 210a to 240a and the fifth to eighth lower rollers 210b to 240b. The upper end of the stripper 250 is spaced apart from the flanges of the fifth to eighth upper rollers 210a to 240a by one layer of the thickness of the pouch wing W and the lower end of the sixth to eighth lower rollers 220b to 240b The starting point of the oblique surface is spaced apart from the top of the stripper 250 by about one layer of the thickness of the pouch wing W. The stripper 250 induces the pouch blade W to be folded 180 degrees by making the pouch blade W come into close contact with the oblique faces of the lower rollers 220b to 240b. In addition, the stripper 250 serves as a reference for forming a folding line of the pouch wing W, and prevents the pouch wing W from being pushed to the side of the pouch fold line or the opposite side thereof, thereby achieving a straight line.

7, the first compression unit 400 is constituted by sixth and seventh unit rollers 410 and 420 arranged along a path (arrow direction in FIG. 7) on which the pouch is fed. The ninth and tenth unit rollers 410 and 420 are ninth and tenth upper rollers 410a and 420a and ninth and tenth lower rollers 410b and 420b which are vertically spaced and arranged in parallel .

The first compression unit 400 described above presses the pouch wing W folded 180 degrees by the second folding unit 200 to prevent the folded wing from spreading.

Referring to FIGS. 8 and 9, the third folding unit 300 includes four unit rollers 310 to 340 disposed along a path (arrow direction in FIG. 8) on which the pouch is fed. Further, the unit rollers 310 to 340 are formed of a pair of upper and lower spaced apart and arranged in parallel.

The eleventh unit roller 310 is constituted by a cylindrical eleventh upper roller 310a having a flange at the tip thereof and an eleventh lower roller 310b having a cylindrical shape arranged in parallel with the eleventh upper roller 310a .

The twelfth to fourteenth upper rollers 320a to 340a of the twelfth to fourteenth unit rollers 320 to 340 are frustum shaped and the twelfth to fourteenth lower rollers 320b to 340b are twelve And are arranged in parallel with the first and second flanges 320a to 340a and have a flange at the tip thereof.

The outer circumferential surfaces of the twelfth to fourteenth upper rollers 320a to 340a are formed as an oblique surface so that the pouch wings W can be folded. A ₇ , a ₈ and a ₉ formed by the oblique surfaces of the upper surfaces of the 12th to 14th upper rollers 320a to 340a become smaller from the 12th lower roller 320b to the 14th lower roller 340b .

When the angle a ₇ , a ₈ , a _{9 of the} upper rollers 320a to 340a is reduced, the pouch wings W are moved in the process of passing through the twelfth to fourteenth unit rollers 320 to 340, (See Fig. 9).

10 and 11, the second compression unit 500 includes fifteenth to eighteenth unit rollers 510 to 540 arranged along a path (direction of arrow in FIG. 10) on which the pouch is fed, And a stripper 550 serving as a folding guide. In addition, the fifteenth to eighteenth unit rollers 510 to 540 are formed as a pair which are spaced apart from each other and arranged so as to cross each other.

The fifteenth unit roller 510 is constituted by a cylindrical first roller member 510a having a flange at its tip and a cylindrical lower roller member 510b disposed at a right angle with the first roller member 510a do.

The 16th to 18th upper rollers 520a to 540a of the 16th to 18th unit rollers 520 to 540 have a cylindrical shape with a flange at the tip thereof and the 16th to 18th lower rollers 520b to 540b have a cylindrical shape To 18th upper rollers 520a to 540a.

The outer circumferential surfaces of the sixteenth to eighteenth lower rollers 520b to 540b are formed as an oblique surface so that the pouch wings W can be folded. In addition, the stripper 550 has a shape wrapping the side surfaces of the lower rollers 510b to 540b.

The second compression unit 500 described above prevents the folded wing from being stretched by pressing the pouch wing W to 270 degrees or more during the passage of the pouches through the fifteenth to eighteen unit rollers 510 to 540. [ do. Particularly, when the stripper 550 is used, since the pouch wings W are in close contact with the oblique surfaces of the lower rollers 520b to 540b, the fold lines of the pouch wings W can be straight. The stripper 550 is provided at a corner formed by the 15th to 18th upper rollers 510a to 540a and the 15th to 18th lower rollers 510b to 540b. The upper end of the stripper 550 is spaced apart from the flange of the 15th to 18th upper rollers 510a to 540a by one layer of the pouch wing W and the lower end of the 16th to 18th lower rollers 520b to 540b The oblique surface is spaced apart from the inner surface of the stripper 550 by about two times the thickness of the pouch wing (W).

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Those skilled in the art will understand. Therefore, the scope of protection of the present invention should be construed not only in the specific embodiments but also in the scope of claims, and all technical ideas within the scope of the same shall be construed as being included in the scope of the present invention.

100: first folding unit 200: second folding unit
300: third folding unit 400: first compression unit
500: second compression unit B: secondary battery
W: Pouch wing

Claims (12)

An apparatus for folding a pouch wing (W) of a secondary battery containing an electrode assembly,
A first folding unit (100) for folding the pouch wings (W) at 90 degrees;
A second folding unit (200) folding the folded pouch wings (W) at 180 degrees;
A third folding unit 300 folding the folded pouch wings 180 by 270 degrees; And
And a compression unit (500) for pressing the pouch wing (W) folded 270 degrees by the third folding unit (300)
The second folding unit 200 includes fifth to eighth unit rollers 210 to 240 disposed along a path through which the pouch is fed,
The fifth unit roller 210 includes a fifth upper roller 210a having a flange formed at an upper portion of the pouch and a flange formed at one end thereof and a cylindrical fifth lower roller 210b arranged to cross the fifth upper roller 210a, Roller 210b,
The sixth to eighth unit rollers 220 to 240 include sixth to eighth upper rollers 220a to 240a which are positioned on the upper portion of the pouch and have a flange at one end thereof, And sixth frustoconical lower rollers 220b to 240b arranged to intersect with the eighth upper rollers 220a to 240a. The upper and lower surfaces of the sixth to eighth lower rollers 220b to 240b, The angle between the bevel surfaces is made smaller as the pouch is conveyed in the conveying direction,
A stripper 250 is provided at a corner formed by the fifth to eighth upper rollers 210a to 240a and the fifth to eighth lower rollers 210b to 240b as a folding guide of the pouch wing W The upper end of the stripper 250 is spaced apart from the flanges of the fifth to eighth upper rollers 210a to 240a by one layer of the pouch wings W and the sixth to eighth lower rollers 220b 240b are spaced apart from the upper end of the stripper 250 by about one layer of the thickness of the pouch wing W,
The compression unit 500 comprises fifteenth to eighteenth unit rollers 510 to 540 disposed along a path through which the pouch is fed,
The fifteenth unit roller 510 includes a fifth upper roller 510a having a flange formed at an upper portion of the pouch and a flange formed at one end thereof and a cylindrical fifth lower roller 510b arranged to cross the fifth upper roller 510a, Roller 510b,
The sixteenth to eighteenth unit rollers 520 to 540 include the sixteenth to eighteenth upper rollers 520a to 540a which are positioned on the upper portion of the pouch and have flanges at one end thereof, And sixteenth to eighteenth lower rollers 520b to 540b of a truncated cone shape arranged to intersect with the eighteenth upper rollers 520a to 540a,
A stripper 550 serving as a folding guide of the pouch wing W is provided at a corner formed by the 15th to 18th upper rollers 510a to 540a and the 15th to 18th lower rollers 510b to 540b The upper end of the stripper 550 is spaced apart from the flange of the 15th to 18th upper rollers 510a to 540a by one layer of the pouch wing W and the 16th to 18th lower rollers 520b 540b are spaced apart from the inner surface of the stripper 550 by a distance of about two layers of the pouch wings W. The pouch folding apparatus of claim 1,
The method according to claim 1,
The first folding unit 100 includes a plurality of unit rollers 110 to 140 disposed along a path through which the pouch is fed,
The unit rollers 110 to 140 include upper rollers 110a to 140a positioned at the upper portion of the pouch and having a truncated cone shape and lower rollers 110b to 140b having flanges formed at a lower portion of the pouch, The upper rollers 110a to 140a and the lower rollers 110b to 140b are arranged in parallel,
Wherein the angle between the front surface of the upper rollers (110a to 140a) and the oblique surface is smaller as the pouch is conveyed in the conveying direction of the pouch.
delete delete The method according to claim 1,
Wherein an upper end of the stripper (250) is shaped to wrap a side surface of the lower roller (210b to 240b).
The method according to claim 1,
The third folding unit 300 includes a plurality of unit rollers 310 to 340 disposed along a path through which the pouch is fed,
The unit rollers 310 to 340 include upper rollers 310a to 340a which are located on the upper portion of the pouch and have a truncated cone shape and lower rollers 310b to 340b which are located below the pouch and have a flange at one end thereof The upper rollers 310a to 340a and the lower rollers 310b to 340b are arranged in parallel,
Wherein the angle between the front surface of the upper rollers (310a to 340a) and the oblique surface is smaller as the pouch is conveyed in the direction of conveyance of the pouch.
The method according to claim 1,
Further comprising a compression unit (400) for pressing the pouch wing (W) folded 180 degrees by the second folding unit (200).
The method of claim 7,
The compression unit 400 includes a plurality of unit rollers 410 and 420 arranged along a path through which the pouch is fed,
The unit rollers 410 and 420 include upper rollers 410a and 420a disposed on the pouches and lower rollers 410b and 420b disposed below the pouches.
Wherein the upper rollers (410a, 420a) and the lower rollers (410b, 420b) are arranged in parallel.
delete delete delete The method according to claim 1,
Wherein the upper end of the stripper (550) is shaped to wrap the side surfaces of the lower rollers (510b to 540b).

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