KR20070071249A - Battery pack - Google Patents

Abstract

Provided is a battery pack capable of reinforcing the connection between a bare cell and a lower resin part and preventing the separation of a lower cover from a bare cell. The battery pack comprises a bare cell(100); a protection circuit board(210) which is electrically connected with the bare cell; a resin part(230) which is injected into the lower part of the bare cell; and a connection reinforcing part(200) which reinforces the lower part of the bare cell and the resin part. Preferably the protection circuit board is connected with a protection circuit and a PTC element on the circuit board. Preferably the bare cell comprises a case having any one polarity of a positive electrode or a negative electrode; an electrode assembly which is accommodated in the case; and a cap assembly which is provided with a cap plate having the polarity identical to that of the case and an electrode terminal having the polarity different from that of the case to seal the case.

Description

Battery Pack {Battery pack}

1 is an exploded perspective view illustrating a battery pack according to the present invention;

2 is an exploded perspective view illustrating a bare cell according to the present invention;

3 is an exploded perspective view illustrating an embodiment of a bare cell and a connection reinforcement unit according to the present invention;

4a, 4b is a view showing another embodiment of the connection reinforcement unit according to the present invention,

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

<Description of Symbols for Main Parts of Drawings>

100: bare cell 130: cap plate

137: reinforcement 200: connection reinforcement

210: protective circuit board 220: upper cover

230: lower cover portion 240: exterior material

The present invention relates to a battery pack, and more particularly, to a battery pack and a method of manufacturing the bare cell is protected by the upper and lower cover parts.

In general, a battery pack includes a bare cell that can be charged and discharged, a protective circuit board electrically coupled to the bare cell to control charging and discharging and blocking a circuit during overcharging and discharging, and packing the bare cell, the protective circuit board, and a resin. There is a thing formed of the case formed in the form which can be attached to an outer set.

In order to manufacture such a battery pack, the lead is connected to the positive electrode of the bare cell, and the protection circuit board is electrically connected to the lead and the PTC thermistor while the PTC thermistor is connected to the negative electrode. . At this time, the lead connected to the anode is connected to the nickel member connected to the bare cell so as to facilitate connection with the bare cell formed of aluminum. Subsequently, the resin is filled in a gap between the protective circuit board and the bare cell so as to prevent the protective circuit board from being separated from the bare cell, thereby mechanically fixing the resin. Here, the bare cell is molded together with the bare cell, the protective circuit board and the resin on the upper side. An upper portion of the bare cell is provided with a reinforcing portion for reinforcing molding with the resin. In addition, a lower cover is attached to the lower part of the bare cell through an insulating tape.

However, such a battery pack has a problem that its coupling is not firm as the lower cover is connected via an insulating tape. That is, the bottom cover coupled to the bottom of the battery pack is frequently separated from the bare cell, so that the pack battery loses its function.

The present invention is to overcome the above-mentioned conventional problems, it is an object of the present invention to provide a battery pack that can enhance the coupling of the bare cell and the lower cover.

In order to achieve the above object, the present invention provides a bare cell, a protective circuit board electrically connected to the bare cell, a resin portion injected into a lower portion of the bare cell, and a lower portion of the bare cell and the resin portion. Provided is a battery pack including a connection reinforcement unit.

The protective circuit board may be connected to the protective circuit and the positive temperature element on the circuit board.

The bare cell includes a case having a polarity of any one of a positive electrode and a negative electrode, an electrode assembly accommodated in the case and a cap plate having the same polarity as the case and an electrode terminal having a different polarity than that of the case to close the case. It may be provided.

An upper portion of the cap plate may be provided with a reinforcing portion protruding upward.

The connection reinforcing portion is preferably formed so that the surface has a step.

The connection reinforcing portion may be embossed on its surface.

The connection reinforcing part may be connected to the protective circuit board.

The connection reinforcing portion may be welded to the rear surface of the bare cell.

The connection reinforcing portion may be formed of nickel and the case may be formed of aluminum.

The case may be rectangular.

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 an exploded perspective view illustrating a battery pack according to the present invention, FIG. 2 is an exploded perspective view illustrating a bare cell according to the present invention, and FIG. 3 illustrates an embodiment of a bare cell and a connection reinforcement unit according to the present invention. Exploded perspective view.

4A and 4B illustrate another embodiment of the connection reinforcement unit according to the present invention, and FIG. 5 is a perspective view of a battery pack according to the present invention.

As shown, the battery pack according to the present invention includes a bare cell 100, a protective circuit board 200 electrically connected to the bare cell 100, an exterior material 240 surrounding the bare cell 100, and a bare cell 100. It includes an upper resin portion 220 to cover the upper side of the lower resin portion 230 and the connection reinforcing portion 200 to cover the lower side of the bare cell 100.

As illustrated in FIG. 2, the bare cell 100 is an energy source that is actually charged or discharged with a constant energy. The bare cell 100 is further described in detail, and the case 101 and the electrode assembly accommodated in the case 101 ( 110, a cap assembly 190 closing the case 101, and an electrolyte (not shown) injected into the case 101 to allow ions to move between the electrode assemblies 110.

The case 101 may have a rectangular shape and is formed in a substantially hexahedral shape to have a polarity of any one of a positive electrode and a negative electrode. In addition, the case 101 may be generally formed of aluminum, but the material is not limited thereto.

The electrode assembly 110 may include a first electrode plate 111 to which a positive electrode active material (eg, lithium cobalt (LiCoO₂), lithium titanate (LiNiO₂), lithium manganate (LiMn₂O₄) or an equivalent) is attached, and a negative electrode active material Interposed between the second electrode plate 113 and the first electrode plate 111 and the second electrode plate 113 (for example, graphite or an equivalent thereof), to prevent a short and to move only lithium ions. It may be made of a separator 115, the first electrode plate 111 and the second electrode plate 113 and the separator 115 interposed therebetween is wound in a jelly roll shape and stored in the case 101. Can be. In this case, the first electrode tab 111a and the second electrode tab 113a which are drawn upward are respectively provided on the first electrode plate 111 and the second electrode plate 113. Here, the first electrode plate 111 is an aluminum (Al) foil. The second electrode plate 113 may be a copper (Cu) foil and the separator 115 may be polyethylene or polypropylene, but the present invention is not limited thereto.

 In this case, the case 101 may be a positive electrode and the electrode terminal 160 may be a negative electrode.

The cap assembly 190 is positioned above the case 101, and the insulating case 120, the terminal plate 150, the insulating plate 140, and the cap plate 130 are sequentially formed from the bottom of the electrode assembly 110. Can be combined. The terminal plate 158, the insulating plate 159, and the cap plate 130 may be provided with through holes 131, 141, and 151, respectively, which communicate with each other so that the electrode terminal 160 may be penetrated therethrough.

In addition, an electrolyte injection hole 133 for electrolyte injection may be formed at one side of the cap plate 130. After the electrolyte is injected into the electrolyte injection hole 133, the ball 135 is inserted and welded to seal the electrolyte injection hole 133. An insulating gasket 161 may be inserted into the through hole 131 of the cap plate 130, and an electrode terminal 160 may be coupled to the insulating gasket 161.

Here, one side of the upper surface of the cap plate 130 is provided with a reinforcing portion 137 for reinforcing the upper resin portion 220 to be described later. The reinforcement part 137 includes a protrusion 137a formed to protrude upward on the upper surface of the cap plate 130 and an auxiliary protrusion 137b fitted to the protrusion to surround the protrusion 137a.

On the other hand, the electrolytic solution (not shown) serves as a moving medium of lithium ions generated by the electrochemical reaction at the positive and negative electrodes inside the battery during charge and discharge, which is a non-aqueous organic electrolyte that is a mixture of lithium salts and high purity organic solvents Can be. In addition, the electrolyte may be a polymer using a polymer electrolyte.

The protection circuit board 210 is electrically connected to the bare cell 100 by first and second leads 181 and 183. The protection circuit board 210 generally includes a structure having various protection circuits and a positive temperature coefficient (PTC) on a printed circuit board (PCB). In addition, the protection circuit board 210 is provided with an external terminal 211 for connecting the bare cell 100 and the outside.

Here, the insulating member 170 is interposed between the bare cell 100 and the protective circuit board 210 so as to insulate the bare cell 100 and the protective circuit board 210.

The insulating member 170 prevents various electronic components of the protective circuit board 210 from directly contacting the surface of the bare cell 100 so as to prevent a short circuit.

On the other hand, the exterior member 240 is formed so that at least one side is opened to accommodate the bare cell 100. The bare cell 100 wrapped by the exterior member 240 includes an upper resin part 220 and a lower resin part 230 covering upper and lower portions thereof.

The upper resin part 220 covers the upper part of the bare cell 100, but exposes the external terminal at a position corresponding to the external terminal 211 so that the external terminal 211 of the protective circuit board 210 can be exposed. 221 is formed and is injected into the top of the bare cell (100).

The lower resin part 230 covers the lower part of the bare cell 100, but the connection reinforcing part 200 is interposed between the bare cell 100 and the lower resin part 230. The connection reinforcement 200 is formed such that its surface has a step. That is, the connection reinforcing part 200 may be formed to protrude upward or protrude downward. In addition, as shown in FIG. 4, the connection reinforcing portion 200b is formed to have embossing, and the lower resin portion 230 is injected into the lower portion of the bare cell 100. At this time, the connection reinforcing portion 200, when the lower resin portion 230 is coupled, since the state is inserted into it can increase its coupling force by the step or bending by embossing.

Here, the connection reinforcement 200 is formed of a nickel material, the case 101 is formed of an aluminum material to facilitate the welding of the connection reinforcement 200 in the lower portion of the case 101, where the material It is not intended to limit.

Hereinafter, a manufacturing process of the battery pack according to the present invention configured as described above will be described.

First, the bare cell 100 is prepared first. That is, the bare cell 100 accommodates the electrode assembly 110 having the first and second electrode tabs 111a and 113a withdrawn from the case 101, and then the electrode terminal 160 having the insulating gasket 161 interposed therebetween. Finished with a cap assembly 190 made of a pen plate 130, an insulating plate 140, a terminal plate 150, and the like.

 Subsequently, the bare cell 100 is electrically connected to the protective circuit board 210 through the first and second electrode leads 181 and 183.

Next, referring to the upper side of the bare cell 100 again, the insulating member 140 is installed on the upper surface of the cap plate 130 to prevent unnecessary short between the protective circuit board 180 and the bare cell 100. This work order is not limited in the present invention. The protection circuit board 210 is connected to the bare cell 100 through the first and second electrode leads 181 and 183, and one side of the first electrode lead 181 is connected to the cap plate 130 and the second electrode. One side of the lead 183 is connected to the electrode terminal 160.

Next, the bare cell 100 to which the protection circuit board 180 is connected is wrapped by the exterior material 240. Here, at least one opening is formed at one side of the exterior member 240, so that the bare cell 100 is inserted into the exterior member 240, and the external terminal 211 formed on the protective circuit board 210 is exposed to the outside as it is. .

Next, the upper resin part 220 is injected into the bare cell 100. The upper resin part 220 should be injected to form the external terminal exposure hole 221 so that the external terminal 211 of the protective circuit board 180 can be exposed. In this case, the reinforcement part 137 reinforces the upper resin part 220 inside the upper resin part 220 to be injected to reduce the twist of the upper resin part 220 covering the upper part of the bare cell 100.

Next, the connection reinforcing part 200 is welded to the lower part of the bare cell 100. Thereafter, the lower resin part 230 is injected into the lower part of the bare cell 100 to cover the lower part of the bare cell 100. Thus, the connection reinforcement unit 200 reduces the torsion of the lower resin unit 230 coupled to the lower portion of the bare cell 100 by strengthening the lower resin unit 230 inside the lower resin unit 230 to be injected. .

As described above, the battery pack according to the present invention has an advantage of strengthening the lower resin part by including a connection reinforcing part inside the lower resin part which is injected into the lower part of the bare cell to cover the lower part of the bare cell. Thus, the battery pack according to the present invention is strengthened the connection of the bare cell and the lower resin portion.

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

Claims (10)

Bare cells; A protective circuit board electrically connected to the bare cell; A resin part injected into the lower part of the bare cell; And A battery pack comprising a connection reinforcing portion for strengthening the lower portion of the bare cell and the resin portion. The method of claim 1, The protective circuit board is a battery pack, characterized in that the protection circuit and the positive temperature element is connected on the circuit board. The method of claim 1, The bare cell may include a case having a polarity of any one selected from a positive electrode and a negative electrode; An electrode assembly housed in the case; And And a cap assembly having a cap plate having the same polarity as that of the case and an electrode terminal having a different polarity than the case so as to close the case. The method of claim 3, wherein The battery pack, characterized in that the reinforcing portion protruding upward is provided on the upper surface of the cap plate.  The method of claim 1, The connection reinforcing portion of the battery pack, characterized in that formed on the surface having a step.  The method of claim 5, The connection reinforcing portion of the battery pack, characterized in that the embossing is formed on the surface.  The method of claim 5, And the connection reinforcing part is connected to the protection circuit board.  The method of claim 1, The connection reinforcing part is a battery pack, characterized in that welded to the back of the bare cell. The method of claim 8, The connection reinforcing portion is formed of a nickel material, the case is a battery pack, characterized in that formed of aluminum. The method of claim 3, wherein The case is a battery pack, characterized in that the rectangular.

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