KR20060102249A - Battery pack - Google Patents

Abstract

 The present invention relates to a battery pack, and includes a bare cell, a protective circuit board electrically connected to the bare cell, and an outer case of a non-metallic material formed outside the bare cell to surround the bare cell. There is an advantage that can be formed lightly.

Description

 Battery Pack {Battery pack}

 1 is an exploded perspective view illustrating an embodiment of a general bare cell;

2 is an exploded perspective view showing an embodiment of a battery pack according to the present invention;

3 is a perspective view showing an embodiment of a battery pack according to the present invention;

4 is an exploded perspective view showing another embodiment of a battery pack according to the present invention;

5 is a sequential diagram illustrating a method of manufacturing a battery pack according to the present invention.

<Description of Symbols for Main Parts of Drawings>

100: bare cell 151: case

152 cap plate 153 insulation gasket

154: electrode terminal 155: electrode assembly

156a: first electrode tab 156b: second electrode tab

157: insulation case 158: terminal plate

159: insulation plate 160: positive temperature element

161: first electrode lead 163: second electrode lead

180: protection circuit board 181: inspection unit

183: external terminal 240: external case

 The present invention relates to a battery pack and a method of manufacturing the same, and more particularly, to a battery pack and a method of manufacturing the same provided with a bare cell and a packaging material surrounding the bare cell.

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 filling and protecting a gap between the bare cell and the protective circuit board. It consists of a resin which prevents the circuit board from being separated from the bare cell, and an outer case which packs the bare cell, the protective circuit board and the resin into a form that can be mounted on 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. . Subsequently, a bare cell and a protection circuit are provided with an outer case so as to be formed in a gap between the protection circuit board and the bare cell so as to be mechanically fixed and mounted on an external device so that the protection circuit board is not separated from the bare cell. Pack the substrate or the like. Here, the outer case may be molded together with another resin together with the bare cell, the protective circuit board, and the resin to be integrally formed.

However, such a battery pack has a problem in that a bare cell may be damaged by a burr existing on a cutting surface during forming of the outer case, since the outer case is formed of a metal material such as steel or stainless steel.

In addition, when the outer case is formed of a metallic material, if the thickness thereof is too thin, the outer case may not have strength capable of protecting the outer surface of the bare cell, and if the thickness thereof is thick, the volume and the weight become heavy.

 The present invention is to overcome the above-mentioned conventional problems, an object of the present invention to reduce the volume and weight of the battery pack, to provide a battery pack and a method of manufacturing the same that can protect the bare cell.

 In order to achieve the above object, the present invention provides a battery including a bare cell, a protective circuit board electrically connected to the bare cell, and an outer case of a non-metal material formed outside the bare cell to surround the bare cell. Includes a pack.

The outer case may be formed of a plastic resin.

The outer case may include a first outer case covering one side of the wide side of the bare cell, a second outer case covering the other side of the wide side of the bare cell, and connecting the first outer case and the second outer case. And a molding material injected to cover the side surface of the bare cell.

The protective circuit board is preferably connected to the protective circuit and the positive temperature element on the circuit board.

The outer case may be formed in a round shape on its side.

The outer case may have a thickness of 0.1 mm or less.

The bare cell may include a cap assembly including a case having a polarity selected from a positive electrode or a negative electrode, an electrode assembly accommodated in the case, and an electrode terminal closing the case and having a different polarity than that of the case.

The electrode terminal may have a negative polarity.

The case may be in the form of a square or pouch.

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 showing an embodiment of a general bare cell, Figure 2 is an exploded perspective view showing an embodiment of a battery pack according to the present invention, Figure 3 is an embodiment of a battery pack according to the present invention It is a perspective view showing.

4 is an exploded perspective view showing another embodiment of a battery pack according to the present invention, Figure 5 is a sequential diagram showing a method of manufacturing a battery pack according to the present invention.

Referring to these drawings, the battery pack according to the present invention as shown in the outer case surrounding the outer surface of the bare cell 100 and the bare cell 100 of the protection circuit board 180 electrically connected to the bare cell 100 240.

The bare cell 100 is an energy source that is actually charged or discharged with a constant energy. The bare cell 100 is further divided into a case 151, an electrode assembly 155 and a case 151 accommodated in the case 151. The cap assembly 150 may be formed of an electrolyte (not shown) which is injected into the case 151 to allow ions to move between the electrode assembly 155.

As shown in FIG. 1, the case 151 is a rectangular shape, and may be formed in a substantially hexahedral shape and has a polarity of any one selected from a positive electrode and a negative electrode.

The electrode assembly 155 may include a first electrode plate 155a having a cathode active material (for example, lithium cobalt (LiCoO ₂ ), lithium nickelate (LiNiO ₂ ), lithium manganate (LiMn ₂ O ₄ ), or an equivalent thereof) attached thereto. ) Between the second electrode plate 155b and the first electrode plate 155a and the second electrode plate 155b to which the negative electrode active material (for example, graphite or the equivalent) is attached, to prevent short-circuit and The first electrode plate 155a, the second electrode plate 155b, and the separator 155c interposed therebetween may be formed in a jelly roll shape. It may be wound around and stored in the case 151. In this case, the first electrode tab 156a and the second electrode tab 156b are respectively provided on the first electrode plate 155a and the second electrode plate 155b. Here, the first electrode plate 155a may be an aluminum (Al) foil, the second electrode plate 155b may be a copper (Cu) foil, and the separator 155c may be polyethylene (PE) or polypropylene (PP). The invention is not limited to the above materials.

The cap assembly 150 is positioned at the top of the case 151, and the insulating case 157, the cap plate 152, the terminal plate 158, and the insulating plate 159 are sequentially disposed from the top of the electrode assembly 155. Can be further combined. Of course, the insulating case 157, the cap plate 152, the terminal plate 158, and the insulating plate 159 may have through holes 152a, 157a, 158a, and 159a so that the electrode terminals 154 may be penetrated therethrough. These may each be formed.

In addition, an electrolyte injection hole 152b for electrolyte injection may be formed at one side of the cap plate 152 in which the through hole 152a is formed at the center. The ball 152c is coupled and welded to the electrolyte injection hole 152b after the electrolyte injection. An insulating gasket 153 may be coupled to the through hole 152a of the cap plate 152, and an electrode terminal 154 may be coupled to the insulating gasket 153. One side of the cap plate 152 is provided with a reinforcing part 141 for reinforcing the resin injected to couple the upper case 210.

 In this case, the case 151 may be a positive electrode and the electrode terminal 154 may be a negative electrode.

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.

As shown in FIG. 2, the bare cell 100 is electrically connected to the protective circuit board 180. The protection circuit board 180 generally has a structure including various protection circuits and a positive temperature coefficient (PTC) 160 on a printed circuit board (PCB). In addition, a plurality of external terminals 183 exposed to the outside are formed on the surface of the protective circuit board 180.

Here, the insulating member 140 is interposed between the bare cell 100 and the protection circuit board 180 to insulate the bare cell 100 and the protection circuit board 180. That is, the insulating member 140 prevents various electronic components of the protection circuit board 180 from directly contacting the surface of the bare cell 100 so as to prevent a short circuit.

Meanwhile, the outer case 240 may be formed by being separated into the first outer case 241 and the second outer case 243 so as to cover one surface and the other surface of the wide surface of the bare cell 100. In addition, the molding member 250 may be provided at a side portion of the bare cell 100. Here, the outer case 240 may be formed of a plastic resin as a nonmetal material. As the outer case 240 is formed of a plastic resin, the outer case 240 may be formed lighter than the metal case, and may be processed thinner. In addition, the outer case 240 is formed in a round shape so that the corner portion has a curved shape to reduce the friction between the battery pack and the electronic device by reducing the contact surface when the battery pack formed including the bare cell 100 is mounted on the electronic device. And, the thickness of the outer case 300 is formed to less than 0.1mm is good to minimize the volume.

The positive temperature element 160 of the protection circuit board 180 is such that when the temperature of the bare cell 100 exceeds a predetermined temperature, the electrical resistance is increased to almost infinity, and the bare cell 100 is exposed to a high temperature state. It is to control the charge and discharge of the (100), and to prevent the tear of the bare cell 100 by opening the circuit during the overcharge and discharge of the bare cell (100).

The protection circuit board 180 is electrically connected to the bare cell 100 through the first and second electrode leads 161 and 163. That is, the first electrode lead 156b may be welded to the cap plate 180 connected to the first electrode tab 155a, and the second electrode lead may be connected to the electrode terminal 154 connected to the second electrode tab 155b. 156a may be welded. The first electrode lead 156b may be made of aluminum (Al), and the second electrode lead 156a may be made of nickel (Al), but the present invention is not limited thereto.

First and second covers the protection circuit board 180 connected to the upper side of the bare cell 100, the lower part of the bare cell 100, and the upper and lower surfaces of the bare cell 100 with respect to the bare cell 100. Side surfaces of the outer cases 241 and 243 are mold fixed by the molding member 250.

4 is a view showing another embodiment of the present invention, when the case 151 is a pouch type.

The pouch forms a deep drawing portion, not shown, of a predetermined depth so that the electrode assembly 150 can be received. The pouch material is a soft material made of aluminum (Al) foil as a center layer, and on one surface thereof, modified polypropylene, for example, CPP (Casted Polypropylene), serves as an adhesive layer, and the insulating film is nylon or polyethylene terephthalate (PET). A resin material may be applied but the material of the pouch is not limited thereto.

In addition, the deep drawing portion of the pouch is formed to have a predetermined depth, and the first and second electrode tabs 141 and 143 connected to the electrode assembly 150 are drawn out to the outer periphery of the pouch, that is, to the outside of the deep drawing portion.

The protective circuit board 180 is electrically connected to the bare cell 100 formed by accommodating the electrode assembly 150 in the pouch, such as the bare cell 100 having the rectangular case 151.

Hereinafter will be described in detail the manufacturing process of the battery pack of the present invention configured as described above.

The electrode assembly 150 is inserted into the case 151 such that the first and second electrode tabs 141 and 143 are drawn out of the square or pouch type case 151 and then sealed by the cap assembly 150 to be bare cell 100. ). (S410)

Next, an insulating member 140 is interposed between an upper surface of the bare cell 100, that is, an outer surface of the cap plate 152, and the first and second electrode tabs 141 and 143 and the protection circuit board 180 of the bare cell 100 are interposed therebetween. Is electrically connected. (S420)

The first outer case 241 and the second outer case 243 are installed on the outer surface, that is, the upper and lower surfaces of the bare cell 100, respectively. (S430)

Next, the molding member 250 is injected into the peripheral portion of the outer case 300 formed of the plastic resin through the molding material injection hole. The molding material 250 is injected into upper and lower portions of the outer case 300 to mold-fix the outer case 300, the bare cell 200, and the protective circuit board 180. (S440)

 As described above, the battery pack according to the present invention has the advantage that the weight of the battery pack can be formed lightly as the outer case surrounding the bare cell is formed of a non-metallic plastic resin.

In addition, since the plastic resin is easier to process than the metal material, the process efficiency is increased.

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; And A battery pack including an outer case of a non-metal material installed outside the bare cell to surround the bare cell.  The method of claim 1, The outer case may include a first outer case covering one surface of a wide surface of the bare cell; A second outer case covering the other surface of the wide surface of the bare cell; And And a molding material connected to the first outer case and the second outer case and injected to cover the side surface of the bare cell.  The method of claim 1, The outer case is a battery pack, characterized in that formed of a plastic resin.  The method of claim 3, wherein The thickness of the outer case is a battery pack, characterized in that formed in less than 0.1mm.  The method of claim 1, The outer case is a battery pack, characterized in that the side is formed in a round shape.  The method of claim 1, The bare cell may include a case having a polarity selected from one of a positive electrode and a negative electrode; An electrode assembly accommodated in the case; And A battery pack comprising a cap assembly closing the case and including an electrode terminal having a polarity different from that of the case.  The method of claim 6, The electrode terminal has a negative electrode polarity battery pack, characterized in that.   The method of claim 7, wherein The case is a battery pack, characterized in that the rectangular.  The method of claim 7, wherein The case is a battery pack, characterized in that the pouch type.  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.

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