JPH05159757A - Thin type battery - Google Patents

Abstract

PURPOSE:To provide a thin type battery wherein a battery internal temperature is not increased, even when power consumption is increased at the time of using the battery, to improve heat radiating efficiency by providing a fuse function for preventing fire and bursting. CONSTITUTION:In a thin type battery consisting of a generating element of laminating a positive pole active material 4, electrolytic layer 9 and a negative pole active material 8, a band-shaped positive pole current collecting terminal 2 is provided in the upper end part and a radiating fin 3 is provided in the side end part, of a positive pole current collector 1 of holding the positive pole active material. A band-shaped negative pole current collecting terminal 10 is provided in the upper end part and a radiating fin is provided in the side end part, of a negative pole current collector 7 of holding a negative pole having a carbon material or a negative pole consisting of lithium. Further, a sealing agent 6 is arranged in a peripheral edge part of the current collector except a part of the radiating fin and current collecting terminal, and the mutual sealing agent is bonded to close the inside of the battery in a pressure reducing condition by arranging each of the pole current collector opposed to each other.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery structure of a thin battery used in fields such as electronic equipment and electric vehicles.

[0002]

2. Description of the Related Art Conventionally, a thin battery of this type has a structure as shown in FIG. 5, in which a positive electrode current collector is provided above and below a power generating element in which a positive electrode active material layer, an electrolyte layer and a negative electrode active material layer are layered. A body-cum-battery and a negative electrode current-collector-cell were arranged, and the adhesive resin and the current-collector-cell were integrated, and these were laminated and used as shown in FIG. In such a conventional configuration, when the power consumption is increased, the internal temperature of the battery rises, and in the worst case, the battery may ignite or burst.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and does not cause the internal temperature of the battery to rise even if the power consumption increases when the battery is used, and prevents the ignition and the explosion. The purpose of the present invention is to provide a thin battery having a negative opening function and improved heat dissipation efficiency.

[0004]

In order to achieve the above object, the present invention provides a strip-shaped positive electrode current collector terminal at the upper end of the positive electrode current collector holding a positive electrode active material and a radiation fin at the side end.
A strip-shaped negative electrode current collector terminal is provided at the upper end of the negative electrode current collector that holds the negative electrode active material, and heat radiation fins are provided at the side ends, and a sealing agent is provided at the periphery of the current collector excluding the heat radiation fin and the current collector terminal portion. Arranging, arranging the current collectors facing each other, adhering a sealing agent to each other, and sealing the inside of the battery in a depressurized state, providing a defect in a part of the band of each current collector terminal. That is, the current collecting terminals are arranged laterally offset from each other, and the negative electrode heat radiation fins and the positive electrode heat radiation fins are provided on opposite sides.

[0005]

In the present invention, the current collector is provided with a band-shaped collector terminal (a part of which is provided with a cutout) at the upper end of the collector plate and a radiation fin at the side end of the collector to retain the active material in the center. A positive electrode current collector plate and a negative electrode current collector, each having a sealing agent arranged on the peripheral portion thereof, are stacked and sealed. In such a battery, since the heat radiation fins are arranged independently of each other, heat can be radiated without electrical short-circuiting even when the battery temperature rises, and a defective battery can cause a defective battery to be partially damaged. It is separated by and prevents abnormal temperature rise. Further, since these processes are continuously performed, it is possible to manufacture with high productivity.

[0006]

EXAMPLES Details of the present invention will be described below with reference to examples. As shown in FIG. 1, a positive electrode current collector 1 (stainless steel current collector) having a vertical length of about 54 mm and a horizontal length of about 86 mm is provided with a positive electrode terminal 2 having a partially defective portion 2 ', and Radiating fins 3 (width of about 6 mm) were provided at the ends. Next, a positive electrode active material 4 containing manganese dioxide as a main component was formed on the central surface.
Screen printing (vertical length is about 50 mm, horizontal length is about 76 mm)
Then, the polymer solid electrolyte 5 obtained by adding lithium perchlorate to polyethylene oxide was screen printed in the same manner so as to cover the surface of the positive electrode active material. Next, a sealing agent 6 made of polypropylene-based heat-adhesive resin or the like was adhered to the periphery. Further, as shown in FIG. 2, a negative electrode active material 8 made of lithium is screen-printed on the surface of a negative electrode current collector 7 (stainless steel current collector) having substantially the same shape as the positive electrode current collector 1, and the negative electrode current collector 8 is further printed. The polymer solid electrolyte 9 in which lithium perchlorate was added to polyethylene oxide was screen printed in the same manner so as to cover the surface of the active material. Then, the sealing agent 6 was adhered to the periphery in the same manner as described above. The positive electrode current collector and the negative electrode current collector processed in this manner are laminated so as to face each other and have a thickness of 0.2 to 1.0.
A mm power generation element was prepared, and a sealing agent 6 made of a polypropylene-based heat-adhesive resin containing an additive and the like was heat-sealed to each other under reduced pressure, and the inside of the current collector was hermetically sealed under reduced pressure.

A front view of the battery thus obtained is shown in FIG. The positive electrode side terminal 2, the negative electrode side terminal 10, the heat radiation fin 3 and the heat radiation fin 11 are separated from each other. Further, FIG. 4 shows an enlarged cross-sectional view of the AA ′ portion of FIG.

Table 1 shows changes in the battery temperature at the time of high rate discharge for each of the 5 cells of the battery according to the embodiment of the present invention and the battery of the conventional structure.

[0009]

Further, regarding the electrical safety when a plurality of these batteries are laminated, it was investigated whether or not the defective battery is disconnected from the electrical circuit. Conventionally, current always flows through a defective battery to deteriorate the overall battery characteristics, but when the batteries according to the present invention are stacked, the defective battery is separated from the defective portion of the terminal.

[0011]

As described above, the present invention enhances the safety of the battery and can be installed in an ID card, a mobile phone, a memory card, a pager, etc., and an electric vehicle that a person always carries. In comparison, it is highly reliable and its industrial value is extremely high.

[Brief description of drawings]

FIG. 1 is a perspective view of a positive electrode current collector of a thin battery of the present invention.

FIG. 2 is a perspective view of a negative electrode current collector of the thin battery of the present invention.

FIG. 3 is a front view of the thin battery of the present invention.

FIG. 4 is an enlarged cross-sectional view of the thin battery of the present invention.

FIG. 5 is a perspective view of a conventional thin battery.

FIG. 6 is a perspective view showing a state in which conventional thin batteries are stacked.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Positive electrode collector 2 Positive electrode terminal 2'missing part 3 and 11 Radiating fin 6 Sealing agent 7 Negative electrode current collector 10 Negative electrode terminal 10 'Missing part 12 terminal

Claims (4)

[Claims] 1. A thin battery comprising a positive electrode active material, an electrolyte layer, and a power generation element in which a negative electrode active material is laminated in layers, wherein a strip-shaped positive electrode current collector terminal and a side are provided on an upper end portion of a positive electrode current collector holding the positive electrode active material. Providing a radiation fin at the end, providing a strip-shaped negative current collector terminal at the upper end of the negative electrode current collector holding a negative electrode having a carbonaceous material or a negative electrode made of lithium, and providing a radiation fin at the side end, And disposing a sealing agent on the peripheral portion of the current collector excluding the current collecting terminal portion, arranging the respective electrode current collectors facing each other and adhering the sealing agent to each other, and sealing the inside of the battery under reduced pressure. Characteristic thin battery. 2. The thin battery according to claim 1, wherein a defective portion is provided in a part of a band portion of each of the current collector terminals. 3. The thin battery according to claim 1, wherein the current collecting terminals are arranged laterally offset from each other. 4. The negative electrode heat radiation fin and the positive electrode heat radiation fin are provided on opposite sides of each other.
The thin battery according to 2 or 3.