KR20130036516A - Battery - Google Patents

Abstract

PURPOSE: A battery is provided to maintain structural stability while reducing a supporting element by including a cell-fixing structure and maximizing the cooling performance of a cell by removing a supporting member which covers the surface of the cell. CONSTITUTION: A battery comprises a plurality of pouch type cells(110',110) with a pair of electrodes(111); a support(113) which is mounted on the edge of the pouch; one or more coupling units which penetrate the support and fixated to the support. The support is formed from one material selected from steel, Al, and reinforced plastic. The edge part of the cell is folded once or more. The support is inserted to the folded part of the pouch edge.

Description

Battery {Battery}

The present invention relates to a battery in the form of a pouch cell.

A widely used form of the secondary battery is a form in which the cells forming the battery form a pouch, that is, a form consisting of a pouch cell. The pouch cell is literally made so that the electrode plates and the electrolyte are accommodated in a pouch, i.e., a bag, and in general, a pouch used in such a pouch cell is made of a flexible material. In the battery having a pouch cell form, since the pouch is made of a flexible material as described above, a configuration is provided such that a support member such as a separate case made of a hard material is provided for stable fixing to each cell.

On the other hand, when power is generated in a cell, heat generated by an electrochemical reaction is generated. If the heat remains in the cell, the temperature of the cell is increased to deteriorate operating conditions of the cell, thereby deteriorating power generation efficiency. have. However, in a pouch cell battery, a supporting member such as a case for fixing a cell as described above inevitably wraps a substantial portion of the surface of the cell, which prevents heat generated from the cell from being smoothly discharged to the outside, thereby cooling the cell. This is a factor that degrades performance.

Various techniques are disclosed in various aspects for cell cooling. Korean Patent Laid-Open Publication No. 2008-0054283 (hereinafter, referred to as Prior Art 1) discloses a heat dissipation plate of a battery cell covering a whole cell with a high thermal conductivity plate in order to increase heat dissipation of the cell. Korean Patent Publication No. 2010-0047210 (hereinafter, referred to as Prior Art 2) includes a cooling container accommodating a refrigerant and a battery body which is a small pack combining one or more battery cells or a plurality of battery cells, so that the cooling container and the battery body exchange heat smoothly. Disclosed is a battery cell / pack in which a cooling container in a form of contacting a battery body is combined. Korean Patent Laid-Open Publication No. 2010-0054684 (hereinafter, referred to as Prior Art 3) discloses a battery driving apparatus for driving a vehicle to force forced air to a battery cell using a housing and a cooling fan surrounding the battery cells.

Prior art 1 is to ensure that the heat sink is provided around the entire surface of the cell so that heat generated from the cell can be effectively dissipated to the outside through the heat sink. The method of the prior art 1 can be regarded as a concept already adopted by making the case of the pouch cell a material having high thermal conductivity, whereby the cooling efficiency as much as desired is not obtained.

Prior art 2 is to provide a cooling container containing a refrigerant to the battery body so that the heat is absorbed by the refrigerant, according to the prior art 2, the cooling efficiency will be improved because the refrigerant absorbs heat using the refrigerant, but the cooling vessel is more By providing the battery, the design of the battery becomes complicated and bulky.

Prior art 3 is to improve the heat exchange efficiency between the cell and the outside air by using forced air, and this method has already been used a lot for cooling the battery cell. However, similarly to the prior art 1, there is a problem in that the cell is surrounded by a support member such as a case there is a limit to increase the heat exchange efficiency with air.

1. Korean Patent Publication No. 2008-0054283 2. Korean Patent Publication No. 2010-0047210 3. Korean Patent Publication No. 2010-0054684

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to maximize the cooling performance by removing the support member covering the cell surface in the battery consisting of a pouch-type cell, The present invention provides a battery having a cell self-fixing structure so that structural stability is not degraded due to member removal.

The battery of the present invention for achieving the above object, a plurality of pouch-type cell 110 is provided with a pair of electrodes (111); A support (113) formed of a plate to support the cell (110) and provided at an edge of the pouch (112) of the cell (110); At least one connector 114 fixedly provided on the support 113 to penetrate the support 113 to connect adjacent cells 110; It is made, including.

At this time, the support 113 is preferably formed of at least one material selected from iron (steel), Al, reinforced plastic.

In addition, the support 113 is preferably provided on the side of the pair of corners facing each other in the direction perpendicular to the corner where the electrode 111 protrudes.

In addition, the cell 110 is formed in a form in which the edge of the pouch 112 is folded at least one or more times, and the support 113 is inserted into a portion where the edge of the pouch 112 is folded.

In addition, the connector 114A is formed in the form of a hollow pipe, the shaft 114A1 is penetrated through the hollow of the plurality of connectors 114A arranged side by side both ends of the plurality of cells 110 are fixed. It is preferable that the bond between them be made.

Alternatively, the connector 114B has a locking portion 114B1 formed in a form in which a part of the body protrudes or expands on one side thereof, and has a shape corresponding to the locking portion 114B1 on the other side thereof. The fitting portion 114B2 to which the fitting is coupled is formed, and the engaging portion of the other connector 114B disposed in parallel with and adjacent to the one connector 114B to the fitting portion 114B2 of one connector 114B. As the 114B1 is fitted and coupled, a plurality of cells 110 may be coupled to each other.

According to the present invention, in a battery composed of a pouch-type cell, by adopting the configuration of removing the support member covering the cell surface, the cell surface can be in direct contact with a heat exchange medium such as outside air, and the heat generated from the cell is radiated by a heat sink. By making it possible to directly exchange heat with the heat exchange medium without passing through other media such as the like, there is a great effect of maximizing the cooling performance of the cell.

In addition, in the present invention, instead of removing the support member for supporting the cell in this way, by inserting a high rigid material at the cell edge and having a connector to be fixed by itself, (structural stability can be increased but There is an effect of maintaining the structural stability while removing the support member (covering the cell surface to reduce the cooling efficiency).

1 is a pouch cell of the prior art and the present invention.
Figure 2 is a detailed view of the support of the present invention.
3 is an embodiment of a connector of the present invention.

Hereinafter, a battery having a cell self-fixing structure according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

1 shows a pouch cell of the prior art and the present invention. Figure 2 shows a detailed view of the support of the present invention, Figure 3 shows an embodiment of the connector of the present invention.

The battery according to the embodiment of the present invention, as described above, in order to eliminate the problem that the heat generated from the cell is not smoothly dissipated to the outside by the support member for fixing the cell covers the cell surface in the battery consisting of a pouch-type cell as described above will be. That is, the battery according to the embodiment of the present invention is basically a battery consisting of a pouch cell, and the biggest feature is that the support member such as a case for fixing the pouch cell is removed from the general pouch cell battery. In addition, in the battery according to the embodiment of the present invention, instead of removing the support member covering the surface of the cell, there is provided a configuration for stably fixing the cell without a conventional support member.

More specifically, it is as follows. Battery 100 according to an embodiment of the present invention is provided with a pair of electrodes 111 is made of a plurality of pouch-type cells 110 of the pouch 112 made of a flexible material packaging material is stacked. A typical conventional pouch cell 110 ′ is shown in FIG. 1A, since the edge portion is made of only the pouch 112 material (made of flexible material), so that it is very easily bent and deformable. Able to know.

At this time, in the battery 100 according to an embodiment of the present invention, the cell 110, in addition to the electrode 111 and the pouch 112, the support 113 and the connector as shown in Figure 1 (B) The cell self-fixing structure which further comprises 114 is provided. The support 113 is made of a material of high rigidity so as to stably support the cell 110 (since the support member made of a case shape in which the cell is accommodated to fix the cell in the conventional pouch cell is removed in the present invention). It is formed of a plate material is provided on the edge of the pouch (112). In addition, the connector 114 is to allow a plurality of the cells 114 are connected to each other, it is to be fixed to at least one or more on the support 113 through the support 113. That is, in the battery 100 according to the embodiment of the present invention, the adjacent cells 110 are formed to be connected by the connector 114.

As described above, since the support 113 should be able to stably support the cell 110 even after removing the support member of the conventional pouch cell, the support 113 is steel (steel), Al, reinforcement. It is preferable to be formed of a high rigid material such as plastic. Of course, it does not have to be made of any one of the above-described materials, and may be made of various materials, such as using iron and reinforced plastic together, and the degree of sufficient support of the cell 110 even if the materials are not listed above. If the material having a rigidity of the support 113 may be made of other materials.

In addition, although FIG. 4B shows that the support 113 is provided on a pair of corner sides facing each other in a direction perpendicular to the corner where the electrode 111 protrudes, of course, the electrode 111 is shown. ) May be further provided on the side of the corner facing the protruding corner is not limited in position. However, in order to maximize both ease of fabrication and structural stability, it is most preferable that the support 113 be disposed at a position as shown in FIG. 1 (B).

FIG. 2 illustrates one embodiment of how the support 113 is provided at the edge of the pouch 112 of the cell 110. Of course, in order to fix the support 113 to the edge of the pouch 112, the support 113 may be simply attached to the edge of the pouch 112. However, in order to increase structural stability, the method as shown in FIG. 2 is more preferable.

As described above, the pouch 112 is made of a flexible material that is easily deformed such as being folded or bent. When the end of the edge of the pouch 112 is folded using this material property, a space is created between the folded portions. At this time, if the support 113 is inserted into this space, the pouch 112 and the support 113 can be coupled more stably than simple bonding. That is, in more detail, the pouch 112 is formed in a shape in which the edge of the cell 110 is folded at least one or more times, and the support 113 is inserted into a portion where the edge of the pouch 112 is folded. It is to be provided.

2 illustrates a form in which the edge of the pouch 112 is folded twice, but the present invention is not limited thereto. However, when the edge of the pouch 112 is folded once, the support 113 may escape from the opposite side of the folded side, that is, the open side. When the edge of the pouch 112 is folded three or more times, the pouch 112 may be folded. ) Material tends to be wasted. Therefore, as shown in FIG. 2, the edge of the pouch 112 is folded twice so that the support 113 is stably fixed on the edge of the pouch 112 and waste of the material of the pouch 112 is generated. It can be minimized.

3 shows various embodiments of the connector. As described above, the connector 114 is provided through the support 113 to allow the cells 110 to be coupled by connecting the connector 114 to each other. The connector 114 may be formed in any form as long as it can play such a role, and FIG. 2 shows some of the specific examples, and of course, the present invention is limited to the embodiment shown in FIG. 2. no. Hereinafter, each embodiment will be described in more detail.

3 (A) shows the connector 114A of the first embodiment. In the first embodiment, the connector 114A is simply formed in the form of a pipe with a hollow. In this case, as shown in FIG. 3A, when the cells 110 are arranged side by side in parallel, the connectors 114A at positions corresponding to each other are also arranged in parallel in parallel, and the hollow formed in the connector 114A is disposed. They are also side by side to form a passage. At this time, both ends of the shaft 114A1 are fixed by penetrating through the hollows of the plurality of connectors 114A arranged side by side, thereby enabling the coupling between the plurality of cells 110. The fixing of both ends of the shaft 114A1 may be made by threading a part or the whole of the shaft 114A1 and bolting the both ends, as shown in FIG. 3 (A). . Alternatively, as shown in FIG. 3A, other methods may be fixed by forcibly fitting a fixing part having a diameter slightly smaller than the diameter of the shaft 114A1 to the end of the shaft 114A1. The present invention is not limited thereto, and any form may be employed as long as the structure can fix both ends of the shaft 114A1.

3B shows the connector 114B of the second embodiment. In the second embodiment, the connector 114B has a structure that can be connected to each other without a separate component. More specifically, the connector 114B of the second embodiment is formed with a locking portion (114B1) formed in a form in which a part of the body is protruded or expanded on one side, the other side in the form corresponding to the locking portion (114B1) Thus, the fitting portion 114B2 to which the locking portion 114B1 is fitted is formed. Thus, as shown in the enlarged view of FIG. 3 (B), the fitting portion 114B2 of one connector 114B of the other connector 114B is disposed side by side and adjacent to the one connector 114B. The engaging portion 114B1 is fitted to be coupled between the plurality of cells 110 is made. In FIG. 3B, the shape of the locking portion 114B1 is illustrated as extending from one end of the cylindrical body to form a truncated cone. Of course, the present invention is not limited thereto, and the locking portion 114B1 and If the fitting portion 114B2 is fitted to each other and can maintain the bonding force to maintain a firm connection state, it is natural that it may be modified in other forms.

Also in the second embodiment of FIG. 3B, as in the first embodiment of FIG. 3A, a hollow may be formed in the connector 114B. When the hollow is also formed in the connector 114B of the second embodiment, after connecting the connector 114B by fitting coupling as described above, as shown in FIG. 3 (A) (that is, the first embodiment) The shaft and the fixing part (as in) can be combined once more. In this way, a more firm bonding force can be obtained.

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 as defined by the appended claims. It goes without saying that various modifications can be made.

100: battery 110 (of the present invention): cell
111: electrode 112: pouch
113: support 114: connector
114A: Connector First Embodiment 114A1: Shaft
114B: Connector Second Embodiment
114B1: engaging portion 114B2: fitting portion

Claims (6)

A plurality of pouch-type cells provided with a pair of electrodes;
A supporter formed of a plate to support the cell and provided at an edge of the pouch of the cell;
At least one connector fixed to the support by penetrating the support to connect adjacent cells;
Battery comprising a.
The method of claim 1, wherein the support is
Battery formed of at least one material selected from steel (steel), Al, reinforced plastic.
The method of claim 1, wherein the support is
The battery is provided on the side of the pair of corners facing each other in the direction perpendicular to the protruding corner of the electrode.
The method of claim 1, wherein the cell
The edge of the pouch is formed at least once folded form, the battery is provided with the support is inserted in the folded portion of the pouch edge.
The method of claim 1, wherein the connector
It is formed in the form of a hollow pipe,
A battery is formed by coupling between the plurality of cells by fixing both ends through a hollow of a plurality of the connector in which a shaft is arranged side by side.
The method of claim 1, wherein the connector
On one side is formed a locking portion is formed to protrude or expand the body portion, the other side is formed in a shape corresponding to the locking portion is formed in the fitting portion is fitted to the engaging portion,
The battery is coupled to the plurality of the cells by fitting the engaging portion of the other connector arranged adjacent to and adjacent to the one connector in the fitting portion of one connector.

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