KR101367198B1 - Housing structure for holding a plurality of soft-package secondary battery cells - Google Patents

Abstract

The housing structure holding the plurality of soft package cells includes at least one divider having a plurality of pointed first protrusions disposed spaced apart from the soft package cell. If one of the soft package batteries breaks and expands, the failed soft package secondary battery is pierced by a pointed protrusion, thereby releasing the internal pressure of the failed soft package secondary battery. Thus, if one of the flexible package batteries fails, the remaining good flexible package secondary battery is not adversely affected, thereby improving the safety of the battery pack.

Description

HOUSING STRUCTURE FOR HOLDING A PLURALITY OF SOFT-PACKAGE SECONDARY BATTERY CELLS

The present invention relates to a battery housing structure, and more particularly, to a housing structure for holding a plurality of soft package secondary batteries.

Conventional batteries are mainly provided with a number of single secondary cells connected in series or in parallel to have high output capacity.

As shown in FIG. 1, the conventional battery pack 10 includes a housing 11 in which a chamber 111 holding a plurality of soft packaged secondary batteries 12 is formed. Each flexible package secondary battery 12 includes a positive terminal 121 and a negative terminal 122. The positive electrode terminal 121 is electrically connected by a positive electrode conductive bar used as the positive electrode output electrode of the entire battery pack 10, and the negative electrode terminal 122 serves as a negative electrode output electrode of the entire battery pack 10. It is electrically connected by a conductive rod.

If a failure such as a short circuit occurs in the soft package secondary battery 12, it will cause the soft package secondary battery 12 to expand. Thus, each soft package secondary cell 12 is designed to have two opposing facets to release the cell internal pressure when expansion occurs. For example, as shown in FIG. 2, when one of the soft package secondary batteries 12 densely arranged in the housing 11 fails and expands, the expanded soft package 123 is adjacent to the soft package. Pressing the secondary battery 12 will damage it, which will adversely affect the safety of the entire battery 10.

The present invention seeks to eliminate and / or mitigate the above-mentioned disadvantages.

It is a primary object of the present invention to maintain a plurality of flexible package secondary batteries that do not adversely affect the remaining good flexible package secondary batteries when one of the flexible package secondary batteries fails, thereby improving the safety of the battery pack. It is to provide a housing structure.

In order to achieve the above object, according to the present invention, there is provided a housing structure for holding a plurality of soft package secondary batteries, each soft package secondary battery comprising two opposing deformation surfaces, and the housing structure having a plurality of A chamber for holding a flexible package secondary cell, wherein the chamber is formed with at least one divider, the divider comprising a first side on which a strained side of one of the flexible package secondary cells lies, and a neighboring flexible package 2 The opposite second surface on which the deformation surface of the secondary battery is placed, the first recess formed on the first surface, and formed at the bottom of the first recess, are spaced apart from the deformation surface and drilled the deformation surface. A plurality of pointed first protrusions to be used, a second recess formed on the second surface, and formed at the bottom of the second recessed surface and spaced apart from the deformation surface and deformed A housing structure is provided for holding a plurality of soft packaged secondary batteries, the plurality of flexible packaged secondary cells including a plurality of pointed second protrusions used to drill a face.

Preferably, the pointed first protrusion is disposed inside the first recess and the pointed second protrusion is disposed inside the second recess.

Preferably, the pointed first protrusion extends from the bottom of the first recess toward the first face and the pointed second protrusion extends from the bottom of the second recess toward the second face.

Preferably, the pointed first and second protrusions are conical structures.

Preferably, each pointed first and second protrusion is an angled conical structure in which a groove is formed around its periphery.

According to the present invention, when one of the flexible package secondary batteries fails, a housing for holding a plurality of flexible package secondary batteries that does not adversely affect the remaining good flexible package secondary batteries, thereby improving the safety of the battery pack. You can provide a structure.

1 is a perspective view of a housing structure for holding a plurality of conventional flexible package cells.
FIG. 2 shows one of the flexible package cells held in the housing of FIG. 1. FIG.
3 is an exploded view of a housing structure for holding a plurality of soft package secondary batteries according to a first embodiment of the present invention.
4 is a perspective assembly view of FIG. 3.
5 is a top view of a housing structure for holding a plurality of soft package secondary cells according to a first embodiment of the present invention in which the soft package cells do not expand.
6 is a top view of a housing structure for holding a plurality of soft package secondary cells according to a first embodiment of the present invention in which the soft package cells are expanded;
7 is a perspective view showing another embodiment of a housing structure for holding a plurality of soft package cells according to the present invention.
8 is a top view showing a housing structure for holding a plurality of soft package cells according to a second embodiment of the present invention.

The invention will be apparent from the following description, taken in conjunction with the accompanying drawings, which illustrate, by way of example only, a preferred embodiment according to the invention.

3 to 5, there is shown a housing structure 40 for holding a plurality of flexible package secondary batteries 20 according to a first embodiment of the present invention, each of the flexible package secondary batteries ( 20 includes two opposing deformable surfaces 21, a positive terminal 22 and a negative terminal 23. All positive terminal 22 is electrically connected by a positive electrode conductive bar 31 which serves as a positive output terminal, and all negative terminal 23 by a negative electrode conductive bar 32 which serves as a negative output terminal It is electrically connected.

The housing structure 40 includes a chamber 41 holding a plurality of soft package secondary batteries 20, and the divider 42 is formed at three equidistant distances in the chamber 41. Each divider 42 has a first side 421 on which the deformable surface 21 of one of the soft package secondary batteries 20 rests, and a deformed surface 21 of the neighboring soft package secondary battery 20. ) Is formed on the opposing second surface 422, the first recess 423 formed on the first surface 421, and the bottom 4231 of the first recess 423, and the deformation surface 21. A plurality of pointed first protrusions 424 and a second recessed portion 425 formed on the second surface 422, and are arranged to be spaced apart from the distance L1 and used to drill the deformation surface 21; 2 includes a plurality of pointed second protrusions 426 formed at the bottom 4251 of the recess 425 and spaced apart from the deformation surface 21 at a distance L2 and used to drill the deformation surface 21. . The sharp first protrusion 424 of this embodiment is a conical structure and is disposed within the first recess 423 (ie, the end of the sharp first protrusion 424 does not protrude from the edge of the first face 421). ), The sharp first protrusion 424 extends from the bottom 4231 of the first recess 423 toward the first surface 421. The sharp second protrusion 426 of this embodiment is conical and is disposed inside the second recess 425 (ie, the end of the sharp first protrusion 426 does not protrude from the edge of the second face 422). ), The pointed second protrusion 426 extends from the bottom 4251 of the second recess 425 toward the second face 422.

Referring to FIG. 5, under normal conditions, the flexible package secondary battery 20 does not expand, and the deformation surface 21 thereof is not deformed. At this time, the peripheral edge 211 of the deformation surface 21 of the flexible package secondary battery 20 is in contact with the first surface 421 or the second surface 422 of the individual divider 42, the deformation surface 21 A portion 212 of the deformable surface 21 located within the peripheral edge 211 of s is positioned at a distance L1 or L2 from the sharp first protrusion 424 or the sharp second protrusion 426.

As shown in FIG. 6, when one of the flexible package secondary batteries 20 fails and expands (as shorted), the deformation surface 21 of the failed flexible package secondary battery will be deformed. At this time, the peripheral edge 211 of the deformation surface 21 of the failed soft package secondary battery 20 is constrained by the first surface 421 or the second surface 422 of the individual divider 42, however, The portion 212 inside the peripheral edge 211 of the deformation surface 21 will expand. When the expansion reaches a predetermined level, the deforming surface 21 of the failed soft package secondary battery 20 contacts the pointed first protrusion 424 or the pointed second protrusion 426, causing the failed soft package 2 to fail. The internal pressure of the secondary battery 20 will be released.

Thus, if one of the flexible package secondary batteries 20 fails, the remaining good flexible package secondary battery 20 will not be adversely affected, thereby improving the safety of the battery pack.

Referring to FIG. 7, another embodiment of a divider 42 is shown, wherein the sharp first protrusion 427 or the sharp second protrusion (not shown) of the divider 42 is grooved 4271 around its periphery. This formed angled conical structure improves the structural strength of the sharp first protrusion 427.

Referring to FIG. 8, there is shown a housing structure 40A that holds a plurality of soft package secondary cells 20 in accordance with a second embodiment of the present invention, where the divider 42A is used to define the chamber 41A. Disposed in the chamber 41A of the housing structure 40A so as to divide into two halves, and the divider 42A also has a first face 421A, a second face 422A, a first recess 423A, a plurality of A sharp first protrusion 424A, a second recess 425A and a plurality of sharp second protrusions 426A are provided.

While various embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that various modifications may be made without departing from the scope of the present invention.

20: flexible package secondary battery
21: deformation surface
22: positive terminal
23: negative terminal
40: housing structure
41: chamber
42: dividers
421: first page
422: second side
423: first recessed portion
424: pointed first protrusion
425: second recessed portion
426: pointed second protrusion
4231, 4251: Floor
L1, L2: distance

Claims (5)

A housing structure 40 for holding a plurality of soft package secondary battery 20,
Each of the soft package secondary cells 20 includes two opposing deformable surfaces 21,
The housing structure 40 includes a chamber 41 holding the plurality of soft package secondary batteries 20,
At least one divider 42 is formed in the chamber 41,
The divider 42 may include a first surface 421 on which the deformation surface 21 of one of the flexible package secondary batteries 20 is placed,
An opposing second surface 422 on which the deformation surface 21 of the neighboring flexible package secondary battery 20 is placed,
A first recess 423 formed on the first surface 421,
A plurality of sharp first protrusions formed on the bottom 4231 of the first concave portion 423 and spaced apart from the deformation surface 21 at a distance L1 and used to drill the deformation surface 21. 424,
A second recess 425 formed on the second surface 422,
A plurality of sharp second protrusions formed on the bottom 4251 of the second concave portion 425 and spaced apart from the deformation surface 21 at a distance L2 and used to drill the deformation surface 21; Including 426,
The pointed first protrusion 424 extends from the bottom 4231 of the first recess 423 toward the first face 421, and the pointed second protrusion 426 extends from the second surface ( A housing structure for holding a plurality of soft packaged secondary batteries extending from the bottom (4251) of the second recess (425) towards the 422. delete delete The housing structure of claim 1, wherein the pointed first and second protrusions (424, 426) are conical structures. The housing structure of claim 1, wherein each of the pointed first and second protrusions is an angled conical structure in which grooves are formed around the periphery thereof.

Images