KR100696841B1 - Battery pack - Google Patents

Abstract

Provided is a battery pack to allow the electrolyte solution of a bare cell to be discharged to other position in case of the leakage of the electrolyte solution to the circuit board of the upper part of a separator. The battery pack comprises at least one bare cell; a separator(120) of a certain width which is located on the upper surface of the at least one bare cell; and a circuit board which is installed on the separator and is connected to the bare cell by a conducting wire, wherein a slope(121a) is formed on the separator to allow electrolyte solution to flow rapidly in a certain direction when the electrolyte solution of a cell intrudes the circuit board of the upper part of the separator, and at least one discharge hole(124) is formed at the end part of the slope to allow the electrolyte solution to be discharged to the bare cell part.

Description

Battery pack {Battery pack}

1 is a perspective view of a battery pack according to the present invention.

2A and 2B are a plan perspective view and a bottom perspective view of the spacer plate of the battery pack according to the present invention.

3 is a cross-sectional view taken along line 3-3 of FIG. 2A.

<Description of Symbols for Main Parts of Drawings>

100; Battery pack according to the present invention

110; Bare cell 120; Spacing

121; Plane 121a; incline

122; Curved surface 123; Vertical

124; Discharge hole 125; Protruding jaw

130; Lead 140; Circuit board

The present invention relates to a battery pack, and more particularly, to a battery pack that can be quickly discharged to another position when the electrolyte of the bare cell is leaked toward the circuit board of the upper part of the spacer plate.

In general, a battery pack includes a soft pack in which a protection circuit is installed in a bare cell and tubed, and a hard pack in which a protection circuit is mounted in a bare cell and finished in a hard case. hard pack). In addition, a form in which only a protection circuit is mounted on the bay cell is also called a core pack. In the following description, the soft pack, the hard pack, and the core pack are collectively referred to as a battery pack. Of course, the bare cell refers to the battery itself is not equipped with a protection circuit or the like.

In addition, the bare cells used in the battery pack are classified into square, pouch, and cylindrical shapes according to their shapes. A large number of cylindrical bare cells are mainly used in a battery pack such as a notebook which requires a large capacity. Of course, the notebook battery pack is equipped with a plurality of cylindrical bare cells connected in series and in parallel to implement a high capacity. In addition, a plurality of spacers having a predetermined width are disposed on the bare cells connected in series and parallel, and a circuit board on which a protection circuit is formed is positioned. In addition, the circuit board and the bare cell are electrically connected by a plurality of conductive wires. Here, the spacer serves to insulate the circuit board from the bare cell and to stably support the circuit board.

However, such a conventional battery pack may leak electrolyte from the bare cell due to overcharging or any cause. The leaked electrolyte may flow along the surface of the case and the bare cell and eventually flow to the circuit board and the spacer plate. Thus, when the electrolyte reaches the circuit board and the spacer plate, the protection circuit of the circuit board is damaged. Of course, there is a problem causing electrical short.

In addition, since the spacer is located on the bottom surface of the circuit board, the electrolyte flowing to the circuit board does not flow well to another position due to the spacer board and is positioned on the circuit board for a long time. Therefore, there is a problem that the damage and the short phenomenon of the circuit board is further accelerated by the spacer plate as described above.

In addition, due to damage of the circuit board, the charge and discharge control of the bare cell may not be properly performed, thus leading to a dangerous situation, and also a risk of fire due to an electrical spark phenomenon.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to provide a battery pack that can be quickly discharged to another position when the electrolyte of the bare cell is leaked toward the circuit board of the upper part of the spacer plate have.

In order to achieve the above object, the present invention provides at least one bare cell, a separation plate having a predetermined width located on an upper surface of at least one of the bare cells, and a circuit board installed on the separation plate and connected to the bare cell at the same time. In the battery pack, the spacer is formed in the inclined surface so that the electrolyte quickly flows in a predetermined direction when the electrolyte of the bare cell invaded toward the circuit board of the upper portion of the spacer plate, the electrolyte is near the end of the inclined surface At least one discharge hole may be formed to discharge toward the bare cell.

Here, the spacer plate is a plane of a predetermined area located on the top surface of the bare cell, a curved surface formed on one side of the plane and at the same time surrounding the side of the bare cell, and at least one extending from the curved surface to a predetermined height It includes a vertical plate.

In addition, the vertical plate may be the same top surface and the plane.

In addition, the inclined surface and the discharge hole may be formed in the plane.

In addition, the spacer plate may further include a protruding jaw protruding a predetermined length downward from the outer circumferential edge of the discharge hole.

In addition, the protruding jaw may have a circular ring shape.

As described above, the battery pack according to the present invention further includes an inclined surface and at least one discharge hole formed on the upper surface of the spacer plate, so that when the electrolyte leaked from the bare cell invades the upper surface of the circuit board and the spacer plate, The electrolyte is quickly discharged back to the bare cell by the inclined surface and the discharge hole structure.

In addition, in the battery pack according to the present invention, since the protrusion jaw is formed at the lower end of the discharge hole formed in the spacer plate, the electrolyte solution leaked from the lower portion to the upper portion of the spacer plate does not flow.

In addition, the battery pack according to the present invention includes a plane in which the spacer plate is located on the top surface of the bare cell and a curved surface surrounding the side of the bare cell, whereby the spacer plate is stably positioned on the bare cell.

In addition, in the battery pack according to the present invention, a plurality of vertical plates are formed on the curved surface of the spacer plate, so that the plane and the vertical plate together stably support the circuit board.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings such that those skilled in the art may easily implement the present invention.

1 is a perspective view of a battery pack 100 according to the present invention.

As shown in the drawing, the battery pack 100 includes at least one bare cell 110, an upper surface of the bare cell 110, and an inclined surface 121a and at least one discharge hole 124. It includes a spacer plate 120 and a circuit board 140 installed on the spacer plate 120 and connected to the bare cell 110 and the conductive wire 130.

The bare cell 110 may be a conventional Ni-Cd battery, a NiMH battery, a lithium ion battery, a lithium polymer battery, or an equivalent thereof, but is not limited thereto. In addition, although the bare cell 110 is illustrated as a cylindrical in the drawings, it is not limited to the present invention as such a cylindrical shape, it is possible to form a square, pouch or the like. In addition, a plurality of bare cells 110 may be connected in series and in parallel. The connecting member may be a lead plate 150. Of course, each lead plate 150 is connected to a conductive wire 130 and electrically connected to the circuit board 140.

The spacer plate 120 may be positioned above one bare cell 110 of the plurality of bare cells 110. The spacer plate 120 includes a substantially flat plane 121 positioned above the bare cell 110, and a curved surface 122 surrounding the side surface of the bare cell 110. In addition, a plurality of vertical plates 123 forming the same surface as the plane 121 may be formed on the curved surface 122. Accordingly, the circuit board 140 may be seated on surfaces of the plane 121 and the vertical plate 123 of the spacer plate 120. In addition, an inclined surface 121a having a predetermined angle with the plane 121 is formed in the plane 121 of the spacer plate 120, and a predetermined area of the plane 121, for example, near the end of the inclined surface 121a. In this case, a plurality of discharge holes 124 are formed, so that when the electrolyte invades the upper portion of the spacer plate 120 or the circuit board 140, it is quickly discharged back toward the bare cell 110 under the spacer plate 120. do.

The circuit board 140 is seated on an upper surface of the spacer plate 120 as described above. That is, the circuit board 140 is mounted on the top of the plane 121 and the vertical plate 123 of the spacer plate 120. As is well known, the circuit board 140 is provided with a protection circuit to prevent overcharge and overdischarge of the bare cell 110. In the figure, reference numeral 141 denotes a plurality of semiconductor elements forming a protection circuit, and 142 denotes a connector connected to an external device.

2A and 2B are a plan perspective view and a bottom perspective view of the spacer plate 120 of the battery pack 100 according to the present invention.

As shown in FIG. 2A, the spacer plate 120 of the battery pack 100 of the present invention includes an approximately flat plane 121 and a curved surface 122 formed on one side of the plane 121. A plurality of discharge holes 124 are formed in 121, and an inclined surface 121a inclined at a predetermined angle toward the discharge hole 124 is formed. Although four discharge holes 124 are shown in the drawings, the discharge holes 124 may be formed in a larger number or a smaller number, and the number of the discharge holes 124 is not limited thereto. .

Subsequently, as illustrated in FIG. 2B, a protruding jaw 125 protruding a predetermined length downward is further formed at a lower end of the discharge hole 124, so that a bare cell may be upward from a lower portion of the spacer plate 120. The electrolyte leaked from 110 is prevented from passing. That is, even if the electrolyte leaked on the lower surface of the spacer plate 120 with the battery pack 100 turned upside down, the electrolyte passes through the discharge hole 124 to the opposite surface of the spacer plate 120. It can't flow. The protruding jaw 125 may be preferably formed in a circular ring shape, but the present invention is not limited to the protruding jaw 125 and may be formed in various shapes. In addition, the protrusion jaw 125 may have a thickness similar to that of the plane 121 of the spacer plate 120. That is, when the thickness of the protruding jaw 125 is smaller than the thickness of the plane 121, the electrolyte solution located on the bottom surface of the spacer plate 120 may easily pass through the discharge hole 124, and the protruding jaw 125 If the thickness of) is greater than the thickness of the plane 121, the spacer 120 is too far from the bare cell 110 as a whole.

3 is a cross-sectional view taken along line 3-3 of FIG. 2A.

As shown, an inclined surface 121a having a predetermined angle with the plane 121 is formed on a plane 121 of the spacer plate 120 of the battery pack 100 according to the present invention. The discharge hole 124 is formed near the end. In addition, the lower end of the discharge hole 124 is further formed with a protruding jaw 125 protruding a predetermined thickness in the lower direction. Thus, in the present invention, when the leaked electrolyte is located on the upper surface of the spacer plate 120, the electrolyte quickly moves to the discharge hole 124 along the inclined surface 121a. In addition, the electrolyte is discharged directly toward the bare cell 110 through the discharge hole 124, and also the electrolyte is difficult to move due to the protruding jaw 125 in the upper direction from the bottom of the spacer plate 120. have.

In addition, a curved surface 122 is formed at one side of the spacer plate 120, and a vertical plate 123 having an approximately same surface as the plane 121 is formed in an upward direction from the curved surface 122. Accordingly, the circuit board 140 may be stably positioned on the plane 121 and the vertical plate 123 of the spacer plate 120, and the spacer plate 120 may also be stably positioned on the bare cell 110. .

As described above, the battery pack according to the present invention further includes an inclined surface and at least one discharge hole formed on the upper surface of the spacer plate, so that when the electrolyte leaked from the bare cell invades the upper surface of the circuit board and the spacer plate, The electrolyte can be quickly discharged back to the bare cell by the inclined surface and the discharge hole structure.

In addition, the battery pack according to the present invention has a protruding jaw formed in the lower end of the discharge hole formed in the spacer plate, there is an effect that the electrolyte solution leaked from the lower portion to the upper portion of the spacer plate does not flow.

In addition, the battery pack according to the present invention is composed of a flat surface of the spacer plate located on the top surface of the bare cell, and a curved surface surrounding the side of the bare cell, there is an effect that the spacer plate is stably positioned on the top of the bare cell.

In addition, in the battery pack according to the present invention, since a plurality of vertical plates are formed on the curved surface of the spacer plates, the planar and vertical plates together have an effect of stably supporting the circuit board.

What has been described above is just one embodiment for carrying out the battery pack according to the present invention, and the present invention is not limited to the above-described embodiment, and the present invention deviates from the gist of the present invention as claimed in the following claims. Without this, anyone skilled in the art to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (6)

A battery pack comprising at least one bare cell, a separation plate having a predetermined width located on an upper surface of at least one of the bare cells, and a circuit board provided on the separation plate and simultaneously connected to the bare cell by a conductor. When the electrolyte of the bare cell is invaded toward the circuit board of the upper part of the spacer plate, an inclined surface is formed so as to quickly flow the electrolyte in a predetermined direction, and the electrolyte may be discharged toward the bare cell near the end of the inclined surface. At least one discharge hole is formed so that the battery pack. The method of claim 1, wherein the spacer plate is a plane of a predetermined area located on the top surface of the bare cell, a curved surface formed on one side of the plane at the same time surrounding the side of the bare cell, and extends a predetermined height from the curved surface upwards A battery pack comprising at least one vertical plate. The battery pack as claimed in claim 2, wherein the vertical plate has a top surface that is flush with the plane. The battery pack as claimed in claim 2, wherein the inclined surface and the discharge hole are formed in the plane. The battery pack as claimed in claim 1, wherein the spacer plate further includes a protruding jaw protruding a predetermined length downward from an outer circumferential edge of the discharge hole. The battery pack as claimed in claim 5, wherein the protruding jaw has a circular ring shape.

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