KR20000074812A - Battery pack - Google Patents

Abstract

PURPOSE: A battery pack is provided to improve the quality of the battery pack by mounting a heat emitting member made of metal on one side of the battery pack so as to prevent the over heating of the battery pack. CONSTITUTION: A battery pack(300) comprises a case(210) in which an electrode assembly(100) is installed. An battery assembly(200) supplies the electric energy. A housing(310) is provided to seal the battery assembly(200) by surrounding the battery assembly(200). The housing(310) includes a heat emitting member(311) made of a metal, and a molding member(312) made of a plastic material. An external terminal is provided at one side of the housing. The battery assembly(100) includes an anode plate(101), a cathode plate(102), and a separator(103) which is interposed between the anode plate(101) and the cathode plate(102).

Description

Battery pack {Battery pack}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack, and more particularly, to a battery pack having an improved structure so that the performance of the battery pack and the electronic apparatus using the battery pack can be improved.

BACKGROUND ART Generally, secondary batteries that can be charged and discharged are being actively researched to be effectively used in portable electronic devices such as cellular phones, notebook computers, computer camcorders, and the like. In particular, the secondary battery is a nickel-cadmium battery, a lead-acid battery, a nickel metal hydride battery, a lithium ion battery, a lithium polymer battery, a metal lithium battery, There are various types such as air zinc accumulators.

Among the batteries, the lithium battery has an operating voltage of 3.6 V and its lifespan is three times higher than that of a nickel-cadmium (Ni-Cd) battery or a nickel-hydrogen (Ni-MH) battery, which is widely used as a power source for electronic devices. It is rapidly evolving in terms of excellent energy density per weight.

Such lithium batteries may be classified into liquid electrolyte batteries and polymer electrolyte batteries according to the type of electrolyte. Generally, a battery using a liquid electrolyte is called a lithium ion battery and a lithium polymer battery when a polymer electrolyte is used.

In addition, lithium secondary batteries are manufactured in various shapes, and typical shapes include cylindrical and rectangular shapes mainly used in lithium-ion batteries. Lithium polymer secondary batteries are flexible and relatively free in their shape. Accordingly, in recent years, lithium polymer secondary batteries have excellent safety, freedom of shape, and light weight, and thus, various studies are being conducted in order to make slim and light weight of portable electronic devices.

A secondary battery having the above characteristics, for example, a lithium polymer secondary battery, is configured to include an electrode assembly and a case having a space portion into which the electrode assembly is inserted. The outside of the case of the lithium polymer secondary battery configured as described above is typically sealed by a plastic material containing a polymer (polymer) to complete one battery pack.

1 is a schematic perspective view of a battery pack configured as described above and an electronic device such as a notebook computer supplied with electrical energy from the battery pack.

Referring to the drawings, the battery pack 11 is provided with an external terminal 11a exposed to the outside of the battery pack 11. The battery pack 11 is inserted into the battery storage unit 12a of the notebook computer 12 and connected to an external terminal 11a of the battery pack 11 and a connection terminal (not shown) of the notebook computer 12. Electrical energy is supplied to the computer 12. Since the outer case 11b of the battery pack 11 having such a function is molded and formed of a plastic material, the manufacturing process is simple, the material is cheap, and the manufacturing cost of the battery pack 11 is low, and the weight can be reduced. There is an advantage.

However, when the conventional battery pack 11 is used for a long time in the notebook computer 12 or other electronic devices, the temperature of the battery pack 11 and the notebook computer 12 is raised to overheat. As a result, the self-discharge of the battery pack 11 is increased, and thus the capacity to be used is reduced. In particular, an electronic device such as the notebook computer 12 is used because the battery pack 11 is mounted and used in a sealed state. There may be a case where the temperature rises close to ° C. When the battery is overheated in this way, even though all of the electrical energy of the battery pack 11 remains undischarged, all of the power of the notebook computer 12 may be cut off. In recent years, as the power consumption of the CPU increases with the release of a high-performance notebook computer, a large amount of heat is generated therefrom, and the above problems are expected to occur more frequently.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a battery pack in which heat dissipation means is employed so as not to rise excessively.

1 is a perspective view schematically showing a configuration of a general battery pack and a notebook computer in which the battery pack is used.

Figure 2 is a schematic partial cross-sectional perspective view showing the configuration of a battery pack according to an embodiment of the present invention.

3 is a perspective external perspective view of FIG. 2.

4 to 5 is a schematic exploded and assembled perspective view showing the configuration of a battery pack according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100. Electrode assembly 101. Bipolar plate

102. Negative plate 103. Separator

104. Anode Tab 105. Anode Tab

106. Anode terminal 107. Anode terminal

200. Battery Assembly 210. Case

211.Upper case 212.Lower case

213. Sealing parts 300, 400. Battery pack

310, 410. Exterior member 311, 420. Heat dissipation member

312. Molding members 313, 413. External terminals

411. Entry groove 412. Fastening member

The battery pack of the present invention for achieving the above object, the battery assembly for storing electrical energy to supply the electrical energy to a predetermined electronic device, and the external terminal to the outside so that the electrical connection with the electronic device can be made A battery pack comprising an exterior member for enclosing and sealing an outer surface of the battery assembly while being exposed, wherein at least one surface of the exterior member is made of a heat dissipating member of a predetermined metal.

In the present invention, the heat radiating member is made of any one of Al, Mg, Na, Fe, Cu, Zn, Sn, Ti, Ni, or C.

Another battery pack of the present invention for achieving the above object, the battery assembly for storing the electrical energy to supply the electrical energy to a predetermined electronic device; An exterior member which surrounds and seals the exterior of the battery assembly while exposing an external terminal to the outside to allow electrical connection with the electronic device; And a heat dissipation member installed at one side of the exterior member so that heat generated from the electronic device or the battery assembly can be discharged.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

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

Referring to the drawings, the battery pack 300 according to an embodiment of the present invention, the case 210 is mounted on which the electrode assembly 100 is mounted, the electrical energy stored in a predetermined electronic device, such as a notebook computer, etc. It comprises a battery assembly 200 for supplying, and an exterior member 310 for wrapping and sealing the outer surface of the battery assembly 200. The exterior member is provided on at least one surface of the battery assembly 200 and occupies the rest of the exterior member 310 made of a predetermined metal and the exterior member 310 except for the thermal member 311. It consists of a molding member 312 formed by molding on the battery assembly 200. 3, the external terminal 313 is provided at one side of the exterior member 310 so as to be exposed to the outside of the exterior member 310.

The electrode assembly 100 may include a positive electrode plate 101 formed of a positive electrode current collector and a positive electrode active material layer formed on at least one surface of the positive electrode current collector, and a negative electrode current collector and a negative electrode active material formed on at least one surface of the negative electrode current collector. A layered negative electrode plate 102 and a separator 103 interposed between the positive electrode plate 101 and the negative electrode plate 102 to electrically insulate them. The electrode assembly 100 is composed of a plurality of stacked in the order of the positive electrode plate 101, the separator 103, the negative electrode plate 102.

The positive electrode tab 104 and the negative electrode tab 105 are drawn out from one side of the edges of the positive electrode plate 101 and the negative electrode plate 102, are assembled by electrode plates, and are connected to each other so as to be energized. The positive electrode and negative electrode tabs 104, 105 is welded to the positive electrode terminal 106 and the negative electrode terminal 107 connected to the external terminal 313 at the end thereof. In addition, a case 210 for mounting the electrode assembly 100 is provided, and the case 210 includes an upper case 211 and a lower case 212. In addition, after the electrode assembly 100 is mounted on the upper and lower cases 211 and 212, the sealing part 213 formed at the edges of the upper and lower cases 211 and 212 is heat-sealed and thus sealed. Since the lower cases 211 and 212 are sealed, a battery assembly 200 in which energy can be supplied to a predetermined electronic device is manufactured.

The sealing unit 213 of the battery assembly 200 constructed and manufactured as described above is folded to allow the battery assembly 200 to have a minimum size. Then, the exterior member 310 is formed to surround and seal the outer surface of the battery assembly 200. As described above, the exterior member 310 has a heat dissipation member 311 made of a predetermined metal on at least one surface of the battery assembly 200, and a molding member 312 is formed on the rest of the heat dissipation member. The heat dissipation member 311 is preferably made of any one of Al, Mg, Na, Fe, Cu, Zn, Sn, Ti, Ni, or C. The exterior of the battery pack 300 configured as described above is made as shown in FIG. 3. In FIG. 3, reference numeral 313 illustrates an external terminal of the battery pack 300.

The heat dissipation member 311 may be provided at a portion of the battery pack 300 that is closest to the atmosphere when the battery pack 300 is mounted on the electronic device. In other words, the heat dissipation member 311 should be provided in the exterior member 310 of the battery pack 300 so that the heat dissipation member 311 may be located at a part that can be exposed to the atmosphere.

As described above, in forming the exterior member 310 of the battery pack 300, the heat dissipation member 311 may be formed on at least one surface thereof, but not shown in the drawing, but all of the exterior member 310 are as described above. It may be made of a metal material. That is, even if all of the exterior member 310 of the battery pack 300 is formed of a heat radiation material by selecting any one of the above-described metal, the purpose of the battery pack 300 according to the present invention may be achieved. However, it is possible to install the external terminal 313 of the battery pack 300 so as not to be in contact with the heat radiating material of the metal. In this way, when the exterior member 310 is entirely made of a heat dissipating material, the external terminal 313 can be easily installed by molding the external terminal 313 to the heat dissipating material by a plastic material.

4 to 5 another embodiment of a battery pack according to the present invention is shown in a schematic perspective view. 4 shows a state before assembling, and FIG. 5 shows a state after assembling.

Referring to each of the drawings, the battery pack 400 according to another embodiment of the present invention, a battery assembly (not shown) in which electrical energy is stored therein to supply electrical energy to a predetermined electronic device (not shown) ), An exterior member 410 for molding and wrapping an outer surface of the battery assembly with a plastic material, an inlet groove 411 formed on at least one side of the outer member 410, and a predetermined in the inlet groove 411. Consists of a heat dissipation member 420 made of a predetermined fastening member 412 made of a metal.

The metal of the heat dissipation member 420 is made of any one of Al, Mg, Na, Fe, Cu, Zn, Sn, Ti, Ni, or C. Similarly, when the battery pack 400 is mounted on the electronic device, the heat dissipation member 420 may be installed at a position where the heat dissipation member 420 is most closely exposed to the atmosphere.

Although not shown in the drawing, by using this principle, one side of the exterior case of the electronic device, that is, the portion of the battery pack mounting portion of a portable cam coater, a knockbook computer, a cellular phone, etc., in which a general battery pack is used, is in contact with the atmosphere. By being made of a metal material of the battery pack and the metal material may be in close contact with the role of the heat dissipation member 420.

For example, when the battery pack is mounted in an enclosed space such as a notebook computer, the battery pack 400 according to the present invention can be realized by making one side of the outer case in which the battery pack is mounted made of any one of the above-described metals. . Therefore, as illustrated in FIGS. 4 to 5, the heat dissipation member 420 does not necessarily need to be inserted into the inlet groove 411 of the exterior member 410. Reference numeral 413 not described in FIGS. 4 and 5 denotes an external terminal.

The operation of the battery pack according to the present invention configured as described above will be described. Here, descriptions of operations and operations of the general battery pack will be omitted, and only the characteristic operations of the battery pack according to the present invention will be described.

Heat generated by the operation of the electronic device or the battery of the battery pack 300 by forming a heat dissipation member 311 on at least one side of the outer member 310 surrounding the outer surface of the battery pack 300 according to the present invention The heat generated from the assembly 200 is absorbed and released. In addition, the heat dissipation effect may be maximized by forming all of the exterior member 310 of the battery pack 300 with a metal material.

And the battery pack 400 according to another embodiment of the present invention as shown in Figures 4 to 5, the heat dissipation member made of a metal as described above on one side of the exterior member 410 molded of a predetermined plastic material 420 is provided. Accordingly, the heat generated from the electronic device and the battery pack 400 is discharged through the heat dissipation member 420. Similarly, when the battery pack 400 is mounted on an electronic device, the heat dissipation member 420 may be installed on one side of the battery pack 400 which is most closely exposed to the atmosphere, thereby maximizing a heat dissipation effect.

The battery pack 400 according to the present invention having the above structure is applicable to portable electronic devices such as cellular phones, notebook computers, camcorders, and the like.

As described above, the battery pack according to the present invention has the following effects.

By attaching a heat-dissipating member of a predetermined metal on one side of the battery pack, the heat generated from the battery pack mounted on the electronic device as well as the electronic device can be released to prevent the electronic device and the battery pack from overheating. As a result, a defect due to overheating of the electronic device or the battery pack can be prevented, thereby improving the performance of the electronic device and the battery pack.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (4)

A battery assembly that stores electrical energy and supplies the electrical energy to a predetermined electronic device, and an exterior member that encloses and seals an outer surface of the battery assembly while exposing an external terminal to the outside to allow electrical connection with the electronic device. In the battery pack provided with, At least one surface of the outer member is a battery pack, characterized in that made of a heat-dissipating member of a predetermined metal. The method of claim 1, The heat dissipation member, Al, Mg, Na, Fe, Cu, Zn, Sn, Ti, Ni, or a battery pack, characterized in that made of any one. A battery assembly in which electrical energy is stored to supply the electrical energy to a predetermined electronic device; An exterior member which surrounds and seals the exterior of the battery assembly while exposing an external terminal to the outside to allow electrical connection with the electronic device; And a heat dissipation member installed at one side of the exterior member so that heat generated from the electronic device or the battery assembly can be discharged. The method of claim 3, The heat dissipation member, Al, Mg, Na, Fe, Cu, Zn, Sn, Ti, Ni, or a battery pack, characterized in that made of any one.