KR20220108916A - Battery Charger Cooling System - Google Patents

Abstract

The present invention relates to a battery charger cooling system. Since the battery charger cooling system prevents a charger from generating heat when charging a battery, a problem that a spring when an elastic force of the spring weakens through repetition has to be replaced is solved. Specifically, the present invention relates to a battery charger cooling system configured in a single body by installing a cooling system in the battery charger by an air cooling method to prevent the charger from generating the heat when charging the battery in connection with a mobile phone charger case and a mobile phone charger using a shape memory alloy, which comprises: a charging pin composed of two pins to charge a mobile phone; a battery body charging terminal composed of one charging terminal so that a charging cable can be connected to the battery body; and a cooling system creating a hole leading to the inside of the battery charging body when charging the battery so that the heat generated in the battery charging body escapes to the outside and allowing the heat to escape to the outside having a relatively lower pressure amidst of a rising temperature and a rising pressure when the heat occurs. Accordingly, the battery charger cooling system of the present invention has an effect of solving an existing problem of having to replace the spring when the elastic force of the spring weakens through repetition by preventing the charger from generating the heat when charging the battery, thereby solving the problem of having to replace the spring when the elastic force of the spring weakens through repetition.

Description

Battery Charger Cooling System {Battery Charger Cooling System}

The present invention relates to a battery charger cooling system, and more particularly, to a battery charger cooling system configured as a single body by installing a cooling system in the battery charger in an air-cooling method to prevent heat generation of the charger when charging the battery; A charging pin composed of two pins to charge the mobile phone, a charging terminal composed of a single charging terminal to connect the charging cable to the battery body, a charging terminal for the battery body, heat generated from the charging body It is composed of a battery cooling system that creates a hole in the charging body of the battery to allow heat to escape to the outside where the pressure is relatively low as the pressure rises when the temperature rises when heat is generated.

The purpose of this is to solve the problem of having to replace the spring when the elastic force of the spring weakens through repetition by enabling the battery charger cooling system to prevent overheating of the charger when charging the battery.

In general, a mobile phone charger case and a mobile phone charger using a shape memory alloy accommodate a mobile phone charger of various sizes and sizes in the mobile phone charger case, and prevent fire of the mobile phone charger regardless of the type and electrical standard of the mobile phone.

As described above, the mobile phone charger case and mobile phone charger using a shape memory alloy is composed of a case body, a pinhole, a hook fastening groove, a bias spring, a mobile phone charger, a charging means, a pin, a holder, a hook, and a shape memory alloy spring.

In the case and mobile phone charger using the shape memory alloy as described above, when the mobile phone charger is overheated, the shape memory alloy spring that receives heat from the mobile phone charger contracts and applies an elastic force in the direction of pulling the hook, thereby increasing the elastic force of the bias spring. The holder is pushed upward through it, and the mobile phone charger's pin enters the pinhole.

However, the conventional cell phone charger case and cell phone charger using the shape memory alloy as described above has a problem in that the spring must be replaced when the elastic force of the spring is weakened through repetition.

Korean Patent Application No. 1020180068446

The present invention has been devised to solve the problem of having to replace the spring when the elastic force of the spring is weakened through repetition of the cell phone charger case and the cell phone charger using the shape memory alloy as described above.

The battery charger cooling system according to the present invention installs a cooling system in the battery charger in an air-cooling method to prevent heat generation of the charger when charging the battery. A charging pin composed of four pins, a battery body charging terminal composed of a single charging terminal to connect the charging cable to the battery body It is characterized in that it includes a battery cooling system configured so that heat can escape to the outside where the pressure is relatively low as the pressure increases when the temperature rises when heat is generated by creating a hole connecting the

The battery charger cooling system according to the present invention installs a cooling system in the battery charger in an air-cooling method so that the battery charger can prevent heat generation when charging the battery. A charging pin composed of pins, a battery body charging terminal composed of a single charging terminal for connecting the charging cable to the battery body. When charging the battery, the heat generated from the battery charging body is placed inside the battery charging body to escape to the outside. When the temperature rises when the temperature rises by creating a connecting hole, the battery cooling system is configured so that the heat can escape to the outside with a relatively low pressure. By making it possible to prevent it, it is possible to provide an effect of solving the problem of having to replace the spring when the elastic force of the spring is weakened through repetition.

1 is a representative diagram of the present invention.
2 is a bottom view of the present invention.

The present invention provides a battery charger cooling system (1) consisting of a single body by installing a cooling system on the battery charger in an air-cooling method to prevent the charger from overheating when charging the battery, and with two pins to charge the mobile phone. The configured charging pin 21, the battery body charging terminal 12 composed of a single charging terminal to connect the charging cable to the battery body, charging the battery so that the heat generated from the battery charging body can go out when charging the battery It is composed of a battery cooling system 30 configured to create a hole in the body that connects to the inside to allow heat to escape to the outside where the pressure is relatively low as the pressure rises when the temperature rises when heat is generated.

Here, the battery charger cooling system 1 is configured as a single body by installing a cooling system in the battery charger in an air-cooling method to prevent heat generation of the charger when charging the battery.

Here, the charging pin 21 is composed of two pins to charge the mobile phone.

Here, the battery body charging terminal 12 is configured as a single charging terminal to connect the charging cable to the battery body.

Here, the battery cooling system 30 creates a hole connecting the inside of the battery charging body so that the heat generated from the battery charging body can escape to the outside when charging the battery. It is designed to allow heat to escape to the outside.

Hereinafter, the process of using the present invention will be described as follows.

As described above, the present invention provides a cell phone charger case and cell phone charger using a shape memory alloy by installing a cooling system in the battery charger in an air-cooling method to prevent the charger from overheating when charging the battery to form a single body. The battery charger cooling system (1) configured, the charging pin (21) composed of two pins to charge the mobile phone, the battery body charging terminal (12) composed of a single charging terminal to connect the charging cable to the battery body, When charging the battery, a hole is created in the charging body of the battery so that the heat generated from the charging body of the battery can escape to the outside. By applying the present invention composed of the battery cooling system 30, the cell phone charger case using the shape memory alloy and the cell phone charger are repeated to solve the problem of having to replace the spring when the elastic force of the spring is weakened.

In addition, in the embodiment of the present invention, if the present invention is applied and implemented by applying the present invention including the battery charger cooling system 1 configured as a single body by installing a cooling system in the battery charger in an air-cooling method, when charging the battery, the charger will be able to prevent overheating.

In addition, in the embodiment of the present invention, if the present invention including the charging pin 21 composed of two pins is applied and implemented, it will be possible to charge the mobile phone.

In addition, in the embodiment of the present invention, if the present invention including the battery body charging terminal 12 composed of one charging terminal is applied and implemented, the charging cable can be connected to the battery body.

In addition, in the embodiment of the present invention, the battery cooling system 30 is configured to create a hole connecting the inside of the battery charging body to allow heat to escape to the outside where the pressure is relatively low as the pressure rises when the temperature rises when heat is generated. If the present invention is applied and implemented, including the heat generated in the battery charging body when charging the battery will be able to go out.

1: Battery charger cooling system
21 : charging pin
12: battery body charging terminal
30: battery cooling system

Claims (5)

In the battery charger cooling system,
The battery charger cooling system (1) consists of a single body by installing a cooling system on the battery charger in an air-cooling method to prevent the charger from overheating when charging the battery, and a charging pin consisting of two pins to charge a mobile phone (21), the battery body charging terminal (12) composed of a single charging terminal so that the charging cable can be connected to the battery body; The battery cooling system 30 is configured so that heat can escape to the outside where the pressure is relatively low as the pressure rises when the temperature rises when heat is generated by creating a hole connecting the
The method of claim 1,
A cooling system for a battery charger, characterized in that when charging the battery through the battery charger cooling system (1), a cooling system is installed in the battery charger in an air-cooling method to prevent heat generation of the charger and configured as a single body. The method of claim 1,
Charging pin, characterized in that it consists of two pins so that the mobile phone can be charged through the charging pin (21). The method of claim 1,
A battery body charging terminal, characterized in that it consists of one charging terminal so that the charging cable can be connected to the battery body through the battery body charging terminal (12). The method of claim 1,
When charging the battery through the battery cooling system 30, a hole is created in the battery charging body so that the heat generated from the battery charging body can escape to the outside. A battery cooling system, characterized in that it is configured to allow heat to escape.

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