JPS6077352A - Sealed battery - Google Patents

Abstract

PURPOSE:To increase the liquid leakage resistance of a sealed battery without deteriorating the chemical resistance of an insulating gasket by forming it by use of nylon 612. CONSTITUTION:An insulating gasket 8 is prepared by subjecting nylon 612 to injection molding or stamping formation. This insulating gasket 8, as compared to an insulating gasket formed by another polyamide resin, has stable water absorption coefficient, tensile strength and dimension regardless of changes in the humidity of storage atmosphere. In addition, owing to high tensile yielding-point strength and liquid-tight effect, it is possible to increase the liquid leakage resistance of a sealed battery.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to improvements in the sealing parts of sealed batteries such as silver oxide batteries, mercury batteries, alkaline manganese batteries, and zinc-air batteries.

Conventional structure and its problems The insulating backing of this type of sealed battery must be made of resin with strong chemical resistance so as not to be decomposed by alkaline electrolyte.

(2) @Made of resin with high closing effect and strong mechanical strength.

(3) The water absorption rate of the resin that makes up the insulating backing is low;
The dimensions and physical properties such as mechanical strength of the insulating backing must be stable.

etc. are needed.

Conventional insulating backings for sealed batteries using alkaline electrolytes have been formed by punching or injection molding polyamide resins such as nylon 6, 11, 12, 66°, and 610. However, although the above-mentioned polyamide resin fully satisfied (1) chemical resistance, it did not fully satisfy (2) mechanical strength or (3) stability of dimensions and physical properties. Therefore, due to the lack of strength of the insulating backing, the insulating backing protrudes from between the battery case and the sealing plate when the battery is sealed, and the insulating backing protrudes between the battery case and the sealing plate.
The insulating backing existed in a low-density state, reducing the leakage resistance of the battery.

In addition, the dimensions and physical properties of the insulating backing are unstable, causing defects in the battery assembly process and posing a problem in stabilizing battery quality.

The figure is a cross-sectional view showing a typical configuration of a silver oxide battery using an alkaline electrolyte. In the figure, 1 is a sealing plate made by punching and forming a three-layer clad metal plate made of copper, stainless steel, and nickel; 2 is a negative electrode mixture made of zinc hydrate and thickened resin; 3
is an impregnating material, 4 is a separator, 5 is a positive electrode ring made of stainless steel, 6 is a positive electrode mixture consisting of 93 parts by weight of silver oxide, 3 parts by weight of manganese dioxide, and 4 parts by weight of carbon black, 7 is stamped and formed from stainless steel The battery case 8 is an insulating backing made of injection molded polyamide resin.

When nylon 66, nylon 6, or nylon 610 is used as the material for forming the insulating banking 8, the resin has a high amide group density and high water absorption, so the physical properties such as the dimensions and mechanical strength of the insulating backing 8 are It was unstable, and the battery quality was unstable.

In addition, when using nylon 11 or nylon 12, the density of amide groups in the resin is low and water absorption is low, so
Although the insulating backing has stable physical properties such as dimensions and mechanical strength, its tensile yield point strength is low, so the insulating backing protrudes from between the battery case 7 and the sealing plate 1 when the battery is sealed, and the battery case 7 and the sealing Between plate 1, the insulating backing was present in a low density state. Therefore, there is a drawback that the leakage resistance of the battery is lowered, which leads to deterioration of the battery characteristics.

OBJECTS OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned drawbacks and to improve the leakage resistance of a battery without deteriorating the chemical resistance of the insulating backing.

Structure of the Invention The present invention is characterized in that the insulating backing is formed by injection molding or punching nylon 612.

According to this configuration, nylon 612 has a tensile yield point stress at a high level among polyamide resins at atmospheric temperature and humidity during actual use (at 20° C. and 45% saturation). Therefore, −
It is possible to exhibit a sufficient liquid-tight effect as an insulating panoking for batteries.

Nylon 612 has a lower saturated water absorption rate than other polyamide resins, and when an insulating backing is made of nylon 612, its physical properties such as dimensions and mechanical strength are affected by changes in the humidity of the storage atmosphere of the insulating backing. is stable. Therefore, it is possible to stabilize the battery quality and improve the leakage resistance performance of the battery.

Description of examples The present invention will be explained in detail below.

Table 1 shows the insulating backing made of nylon 612.
6, 11, 12, 66 and 610, and these insulating backings were stored in an environment of 45% at 20°C and 90% at 45°C, and when the physical properties of the insulating backing became stable (reached a saturated state), , shows the water absorption rate, tensile yield point strength and outer diameter of the insulating backing.

Below is the margin in Table 1 [ [- [ As is clear from Table 1, when the insulation/ζ and knocking are formed with nylon 612, the storage atmosphere is different from when the insulation and C knocking are formed with other polyamide resins. Water absorption rate with respect to humidity changes.

Tensile strength and dimensions are stable.

Furthermore, a high Th insulating backing having a high tensile yield point strength and a liquid-tight effect can be obtained.

Table 2 also shows that the silver oxide battery 5R41W was constructed using the above six types of nylon shoe rim pads, 20 of these batteries were stored in a 90% atmosphere at 60°C for 100 days, and the number of storage days was 20. Table 2 shows the number of leaking batteries as a result of visually checking for leaks every day.0 Table 2 Effects of the Invention As described above, Example 1 According to the present invention, the physical properties of the insulating backing for sealed batteries can be stabilized. In addition, the leakage resistance performance of the sealed battery can be significantly improved.

[Brief explanation of drawings]

The figure is a cross-sectional view showing a typical structure of a silver oxide battery, which is a sealed battery using an alkaline electrolyte. 1...Sealing plate, 2...Negative electrode, 3...Impregnating material, 4...Separator, 5...Positive electrode ring, 6...Positive electrode, 7... ...Battery case, 8...
Insulated panoki/gu.

Claims (1)

[Claims] A sealed battery in which a power generation element is sealed by a battery case, a sealing plate, and an insulating backing interposed between the two, the insulating backing being made of nylon 612.