KR101419557B1 - Large area battery for prevention of volume increment - Google Patents

Abstract

The present invention relates to a light-area cell for preventing a component, and a light-area cell for preventing a component according to the present invention is a light-area cell comprising: a folded cell; An aluminum pouch for closing the cells by unit; And a heat bonding member for interconnecting the opposed inner walls of the aluminum pouches by thermal bonding; .

According to the present invention, the opposite inner walls of the exterior material such as the pouch are coupled to each other by a physical method or the like to prevent the phenomenon of parts inside the cell.

Cell, Light Area, Cell, Component Phenomena, Thermal Adhesion

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a light-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a light-area cell for preventing a component, and more particularly, to a light-area cell for preventing a component from developing due to gas generated during a process of charging the battery.

Generally, automobiles using internal combustion engines using gasoline or heavy oil as the main fuel have a serious influence on pollution such as air pollution. Therefore, in recent years, efforts have been made to develop an electric vehicle or a hybrid vehicle in order to reduce pollution.

In particular, an electric vehicle is an automobile that uses a battery engine operated by electric energy output from a battery. Such an electric vehicle uses a battery in which a plurality of cells capable of charging and discharging are packed as a main power source, so that there is no exhaust gas and noise is very small.

Furthermore, batteries used for HEV (Hybrid Electric Vehicle) or PHEV (Plug-in Hybrid Electric Vehicle), which require high capacity and high output power, are exposed to hydrogen, oxygen gas, This swelling phenomenon occurs.

Particularly, in the case of an optical area cell, the phenomenon of a cell component is concentrated on a central portion of the cell, and the increase in thickness of the cell and the lifting phenomenon inside the cell There was a problem of getting worse.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a device for preventing component parts, which can prevent component development inside a cell by mutually joining opposing inner walls of exterior materials such as pouches, .

According to an aspect of the present invention, there is provided a light area cell comprising: a folded cell; An aluminum pouch for closing the cells by unit; And a heat bonding member for interconnecting the opposed inner walls of the aluminum pouches by thermal bonding; And a control unit.

The heat-bonding member of the present invention is characterized in that it connects the opposite inner walls of the aluminum pouch through holes formed in the cell.

The heat-bonding member of the present invention is characterized in that at least one is interposed.

The heat-bonding member in the present invention is characterized in that both opposite outer walls of the cell and the opposite inner walls of the corresponding aluminum pouches are interconnected.

Further, the thermal bonding member in the present invention is characterized by being a polymer.

According to an aspect of the present invention, there is provided a light area cell comprising: a folded cell; And an aluminum pouch for finishing the cells on a unit basis and fusing opposing inner walls to interconnect the cells.

Further, the aluminum pouch according to the present invention is characterized in that the aluminum pouch is connected to the inner wall facing through the hole formed in the cell.

In the present invention, at least one hole is formed.

The above-mentioned light-area cell for preventing parts of the present invention has the effect of preventing the phenomenon of parts inside the cells by connecting the opposite inner walls of the casing materials such as pouches by a physical method or the like.

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

≪ Example 1 >

1 and 2, the light-area cell 100 includes a cell 110, an aluminum pouch 120, and a thermal bonding member 130. The light-

At least one hole 112 is formed through the upper and lower surfaces of the cell 110 in a folded state. The hole 112 connects the upper and lower inner walls of the aluminum pouch 120 to the thermal bonding member 130 in order to thermally adhere the aluminum pouch 120 to the aluminum pouch 120, In the present embodiment.

Further, although the holes 112 are illustrated as being formed in a direction perpendicular to the cells 110, they may be formed in a horizontal direction.

The aluminum pouch 120 is an exterior material that finishes the cell 110 by unit. In this embodiment, one cell 110 is closed, and the number of cells 110 per unit is increased or decreased. This is possible.

The thermal bonding member 130 is bonded to a polymer or the like that can be thermally adhered to each other in order to interconnect the opposite inner walls of the aluminum pouch 120.

That is, the thermal bonding member 130 is inserted into the hole 112 formed in the cell 110 so as to be thermally adhered to the aluminum pouch 120, and then the cell 110 is closed with the aluminum pouch 120 The aluminum pouch 120 and the cell 110 are bonded to each other by applying heat locally to the center portion of the aluminum pouch 120.

Therefore, in the light-area cell 100 for preventing parts in the present embodiment, the hole 112 is formed in the center of the unit cell 110, and then the aluminum pouch 120 After the heat bonding member 130 is inserted and the aluminum pouch 120 is closed and the central portion of the aluminum pouch 120 adjacent to the heat bonding member 130 is heated, the heat bonding member 130 melts, To heat the opposing inner walls of the aluminum pouch 120.

≪ Example 2 >

3 and 4, the light-area cell 200 includes a cell 210, an aluminum pouch 220, and a thermal bonding member 230, (220) has the same structure and function as those of the previous embodiment, and thus a detailed description thereof will be omitted.

The cell 210 is provided in a folded state and is connected to the upper and lower outer walls and upper and lower spaces formed on the upper and lower inner walls of the aluminum pouch 220 facing each other by a thermal bonding member 230 for thermal bonding, It is preferable that the development is positioned so as to coincide with the central portion of the aluminum pouch 220 that is relatively easy to deform.

The thermal bonding member 230 may be a polymer or the like which is positioned in a space between the opposite outer walls of the cell 210 and the opposite inner walls of the aluminum pouch 220, .

That is, the heat-bonding member 230 is interposed between the upper and lower spaces with respect to the cell 210 located inside the aluminum pouch 220, and then the aluminum pouch 220 is closed with the aluminum 210, The aluminum pouch 220 and the cell 210 are bonded to each other by locally applying heat to the central portion of the pouch 220.

At this time, the thermal bonding member 230 may be bonded to the upper and lower surfaces of the cell 210 by chemical or physical methods using an adhesive or the like, and then the upper and lower inner walls of the aluminum pouch 220 may be thermally bonded .

Therefore, in the light-area cell 200 for preventing parts in the present embodiment, the thermal bonding member 230 is first joined to both outer walls of the unit cell 210 by a chemical or physical method and then closed with an aluminum pouch 220 The central portion of the aluminum pouch 220 adjacent to the thermal bonding member 230 is heated to melt the thermal bonding member 230 so that the opposite inner wall of the aluminum pouch 220 and both outer walls of the cell 210 are thermally bonded I will.

≪ Example 3 >

5 and 6, the light-area battery 300 for preventing parts according to the present embodiment includes a cell 310 and an aluminum pouch 320.

At least one hole 312 passing through the upper and lower surfaces of the cell 310 is formed in a folded state. At this time, the hole 312 connects the aluminum pouches 320 to partially heat the upper and lower inner walls of the aluminum pouch 320 to be thermally adhered to each other. The aluminum pouch 320 has a relatively easily deformed aluminum pouch 320 In the present embodiment.

Further, although the holes 312 are formed to extend in a direction perpendicular to the cells 310, they may be formed in a horizontal direction.

The aluminum pouch 320 is an exterior material that melts and connects the upper and lower inner walls while closing the cell 310 by units. In this embodiment, one cell 310 is closed, The number can be increased or decreased.

At this time, since the aluminum pouch 320 melts itself, the aluminum pouch 320 deforms at the melted part, and it is possible to change the material other than aluminum.

Therefore, in the light-area cell 300 for preventing parts in the present embodiment, the hole 312 is formed in the central part of the unit cell 310, the aluminum pouch 320 is closed, and the center part of the aluminum pouch 320 And the opposite inner walls of the aluminum pouch 320 are melted through the holes 312 to heat-bond the aluminum pouches 320 together.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

1 is an exploded perspective view showing a light-area cell for preventing components according to a first embodiment of the present invention.

2 is a side cross-sectional view of the above-described light preventing area light battery.

3 is an exploded perspective view showing a light-area cell for preventing parts according to a second embodiment of the present invention.

Fig. 4 is a side cross-sectional view of the above-mentioned component-preventing light area battery.

5 is an exploded perspective view showing a light-area cell for preventing parts according to a third embodiment of the present invention.

6 is a side cross-sectional view of the above-mentioned component-preventing light area battery.

Description of the Related Art

100, 200 and 300: batteries 110, 210 and 310:

120, 220, 320: aluminum pouches 130, 230:

Claims (8)

In a light area cell, A folded cell; An aluminum pouch for closing the cells by unit; And A thermal bonding member interconnecting the opposed inner walls of the aluminum pouches by thermal bonding; Lt; / RTI > Wherein the thermal bonding member connects the opposite inner walls of the aluminum pouch with holes formed in the cell. delete The method according to claim 1, Wherein at least one of the thermal bonding members is interposed. delete The method according to claim 1, Wherein the thermal bonding member is a polymer. In a light area cell, A folded cell; And And an aluminum pouch for finishing the cells by unit and fusing opposite mutually opposite inner walls and interconnecting them, Wherein the aluminum pouch connects the opposing inner wall through holes formed in the cell. delete The method according to claim 6, Wherein at least one of the holes is formed.

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