KR0136122Y1 - Explosion proof of organic electrolyte battery - Google Patents

Abstract

The present invention is to cut the two protrusions of the cap in a triangle shape, the bottom is attached to the bent part to the inside of the cap, the vertebrae act as explosion-proof and the life formed by bending the spigot represents a explosion-proof structure that is a gas outlet I did it.

Description

Explosion Proof Structure of Organic Electrolyte Battery

1 is a cross-sectional view of the present invention.

2 is a plan view of the present invention.

3 is a front view of the present invention.

* Explanation of symbols for main parts of the drawings

1 cap 2 stem

3: gas outlet 5: safety valve

7: aluminum foil

The present invention relates to a explosion-proof structure of the battery, and more particularly to a explosion-proof structure that serves as a gas outlet.

In general, a battery supplies electricity to other components powered by electricity in a state where electricity is accumulated, which is divided into first and secondary batteries.

The primary battery will be referred to as a non-rechargeable battery, and the secondary battery will be referred to as a rechargeable battery.

Here, the primary battery is usually a manganese battery is used a lot, which is manganese dioxide as the main polarizing agent, the carbon containing a mixture containing the main component as a positive electrode action material, zinc as a negative electrode action material, The battery refers to ammonium chloride or zinc nitride as an electrolyte.

Here, a lithium / manganese battery having an improved energy density than the manganese battery is used.

The lithium / manganese battery uses metal lithium as the negative electrode active material, which reacts to generate hydrogen gas at the negative electrode as shown in Equation (1) below.

MnO ₂ (H ₂ O) + 2Li → Li ₂ O + H ₂ + MnO ₂ --- (1)

The hydrogen gas generated as described above increases the pressure inside the battery, causing the battery to explode.

In order to prevent such an explosion, a safety plate is usually attached to a lithium primary battery, which consists of an aluminum foil and a ring plate.

The safety plate is fixed by a gasket, and the gasket is supported by a beading portion formed in the can. The ring plate serves to hold the aluminum foil, and the aluminum foil is inflated toward the cap of the battery by hydrogen gas generated inside the battery, and the expanded aluminum foil is burst by the needle formed in the cap.

In this way, the aluminum foil, which must be exploded by the needle formed in the cap, may be difficult to prevent explosion of the battery and leakage of the battery solution at the same time.

If any one of these cases occurs, there is a serious problem in safety, so a structure that more reliably prevents explosions is required.

In addition, a gas outlet is formed in the cap, and one gas outlet is usually formed at the center of the cap. This gas outlet is designed to prevent the rapid increase in gas pressure by facilitating the release of explosive gas when the gas inside the battery explodes, but when one is formed in the center, undispersed gas is released at once. There was a problem that the gas is not released well.

The present invention has been made to solve the above problems, by drilling two opposite sides of the circumference of the cap in the shape of a triangle to bend the upper top of the triangle to the inside of the cap, the top of the cell serves as the explosion-proof needle of the battery And the perforated holes are intended to be gas outlets for better release of gas pressure generated inside the cell.

The present invention according to the object of the present invention in the organic electrolyte battery having a safety plate and explosion-proof needle, puncture two opposite sides of the circumference of the protrusion of the cap in a triangle shape, the bottom of the triangle is attached to the cap and the upper top of the triangle cap It is an object of the present invention to provide an explosion proof structure of an organic electrolyte battery, wherein the bent portion acts as a explosion-proof needle of the battery and the perforated hole is a gas outlet.

Hereinafter, the configuration of the present invention in detail with reference to the accompanying drawings.

The two sides of the corner of the cylindrical protrusion of the cap 1 are cut into a triangular shape with the bottom side attached to the cap 1 at an angle of 180 degrees.

Then, the triangular stem 2 is bent into the cap 1. The stem 2 thus formed becomes an explosion-proof needle and the hole formed while bending becomes the gas outlet 3.

Referring to the specific operation of the present invention is composed of the above and gal as follows.

In general, when a high pressure is formed inside the battery and there is a risk of explosion, the aluminum foil 7 of the safety plate 5 swells due to pressure, and the swelled aluminum foil 7 serves as a explosion-proof needle 2. ) Will explode.

In the above situation, the gas pressure formed therein should be released to the outside of the battery, and the gas pressure is more easily dispersed by the two gas outlets 3 formed in the cap. At this time, the gas discharge port is well discharged because it is indirectly subjected to the exploded gas pressure.

As described above, the present invention is a useful design that reduces the gas pressure more easily by forming two gas outlets at intervals of 180 degrees on part of the protrusion side and the upper portion of the cap.

Claims (1)

In an organic electrolyte cell having safety plates and explosion-proof needles, two opposite sides of the circumference of the protrusion of the cap 1 are drilled in a triangular shape with the bottom of the triangle attached to the cap 1 and the upper top of the triangle 2 Is bent inward of the cap so that the stem 2 serves as the explosion-proof needle of the battery and the perforated hole explosion-proof structure of the organic electrolyte battery, characterized in that the gas outlet (3).