KR19980019881U - Cans for secondary batteries - Google Patents

Abstract

A secondary battery can formed of a negative electrode terminal when forming the appearance of a secondary battery and functioning as a negative electrode. A separator is disposed between the separators in order to eliminate inconvenience caused by the expansion of the battery due to an increase in internal pressure during charging and discharging of the battery. A secondary battery can including a positive electrode plate and a negative electrode plate installed therein as well as a secondary battery together with a cap assembly by injecting an electrolyte solution between the positive electrode plate and the negative electrode plate, wherein the can is formed of a shape memory alloy material. Provided is a battery can.

Description

Cans for secondary batteries

The present invention relates to a can for a secondary battery, and more particularly, to a can of a secondary battery used as a negative electrode terminal while forming the appearance of a secondary battery.

As is well known, the secondary battery is a battery that can be continuously used by charging and discharging, and includes a nickel-hydrogen battery.

The nickel-hydrogen battery is not only harmful to the human body, but also has an advantage in environmental problems. Recently, the use of the nickel-hydrogen battery has increased rapidly. As such, the secondary battery including the nickel-hydrogen battery has a cylindrical or rectangular can. The appearance will be formed.

That is, in the conventional secondary battery, a cap is formed by inserting a positive electrode plate and a negative electrode plate in a winding or stacked form with a separator interposed therebetween in the can, and injecting electrolyte therein, and then forming a positive terminal of the battery through the can opening. This is achieved by mounting the assembly.

In this configuration, the negative electrode plate is inserted to contact the inner circumferential surface of the can when inserted into the can, so that the can can be utilized as a negative electrode terminal when the battery is in operation. The situation is provided by using nickel plated material on stainless steel.

On the other hand, the secondary battery has a high internal pressure due to the gas generated from the positive electrode plate at the end of charging during the charging and discharging process.

Since the increase in the internal pressure adversely affects the battery characteristics, the conventional secondary battery prevents the gas generated during charging and discharging out of the battery to increase the internal pressure of the battery.

However, if the charging and discharging are continuously performed for the continuous use of the secondary battery, the gas outflow function of the battery is weakened, and the internal pressure of the battery is continuously increased. do.

In other words, when the can is provided in a circular shape, the can is allowed to deform into a substantially elliptical shape for the above reason in the initial circular state.

When the appearance of the battery is deformed in this way, when a plurality of secondary batteries are assembled in a case and applied to a predetermined product, the secondary battery is likely to cause a poor contact between the positive and negative terminals, and even breaks the case during use. There is a risk of damaging the applied product.

Accordingly, the present invention has been made to solve the above problems, to provide a secondary battery can to prevent the phenomenon of expansion due to the increase in the internal pressure of the battery to maintain the appearance of the battery always in a good state to promote convenience for use. Has its purpose.

In order to realize the above object, the present invention provides a positive electrode plate with a separator interposed therebetween, as well as a secondary battery can constituting a secondary battery together with a cap assembly by injecting an electrolyte solution between the positive electrode plate and the positive electrode plate. The can provides a secondary battery can including the can made of a shape memory alloy material.

1 is a front view illustrating a secondary battery to which the present invention is applied.

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

1 is a front view showing a secondary battery to which the present invention is applied, and the secondary battery 1 is composed of a sealed nickel-hydrogen secondary battery.

That is, although not specifically illustrated in the drawing, the secondary battery 1 inserts a wound positive electrode plate and a negative electrode plate with a separator interposed therebetween, and also injects an alkaline electrolyte, and opens the can 10. The cap assembly 12 is attached to the side to seal the inside of the can 10.

In this case, since the inner structure of the can 10 and the detailed structure of the cap assembly 12 depend on a conventional sealed nickel-hydrogen battery, a detailed description thereof will be omitted.

In the configuration of such a normal secondary battery, the secondary battery 1 is configured by differently than the conventional material of the can 10.

That is, while the can 10 is conventionally made by plating nickel on stainless steel, the can 10 is made of a shape-memory alloy through the present invention.

As is well known, the shape memory alloy is an alloy having a property of returning to its original shape again when a certain temperature is reached even though the shape is stretched by an external force, and in the present invention, the shape memory alloy It is intended to prevent the secondary battery 1 from expanding due to an increase in internal pressure.

In other words, even if the can 10 is expanded and expanded as shown by a dashed line in the drawing, the secondary battery 1 has an internal pressure that increases with continuous charging and discharging. When 1) maintains the average temperature at the time of using the temperature, the can 10 made of the shape memory alloy returns its shape from the expanded state to the initial state, that is, the cylindrical state. 1) can maintain the appearance satisfactorily regardless of the increase in the internal pressure.

As described above, the can for a secondary battery according to the present invention maintains the appearance of the secondary battery applied by the material relationship at all times.

Therefore, the secondary battery to which the present invention is applied can prevent the phenomenon of expansion due to an increase in the internal pressure during its use, and can prevent damage to the assembly case due to expansion as well as poor contact between the positive and negative terminals in the assembled case. Will have an effect.

Claims (1)

In the can for secondary battery which forms a secondary battery together with a cap assembly by inject | pouring electrolyte between this quantity and negative electrode plate as well as providing the positive electrode plate and the separator which interpose | separated, the said can 10 is a shape memory alloy A secondary battery can, characterized in that made of a material.