KR20160016552A - Explosion-proof battery for electronic cigarette - Google Patents

Abstract

The present invention suggests an explosion-proof battery for an electronic cigarette. The explosion-proof battery for an electronic cigarette includes: a battery pack; a battery body embedded in the battery pack; an electronic switch device; a thermistor controlling the connection and disconnection of the electronic switch device; an upper metal component; a lower metal component; and a button. The upper metal component and the button are installed on the top of the battery pack while placed in an upper part of the battery body. The lower metal component and the electronic switch device are installed on the bottom of the battery pack while placed in a lower part of the battery body. The upper metal component is electrically connected with an upper electrode of the battery body. The thermistor is attached to an outer wall of the battery body. The thermistor and the electronic switch device are connected with each other. The lower metal component is electrically connected with a lower electrode of the battery body through the electronic switch device, and the lower metal component is connected with the button in an upper direction through an electric wire. According to the present invention, the temperature of the battery body is conveniently detected and the power output of the battery body is automatically shut down at high temperatures.

Description

[0001] EXPLOSION-PROOF BATTERY FOR ELECTRONIC CIGARETTE [

The present invention relates to a battery, and more particularly, to an explosion-proof battery for electronic cigarettes.

The electronic cigarette generally includes a battery connected to an atomizer and an atomizer. The battery is embedded in a battery pack. When the battery is heated for a long period of time, the battery pack becomes hot. In addition, Increases pressure to increase explosion opportunities, directly threatening the user's life health.

It is an object of the present invention to provide an electronic cigarette explosion prevention device capable of easily detecting the temperature of the battery body and automatically shutting off the power output of the battery body at a high temperature, Battery.

The technical solution of the present invention for realizing the above-mentioned object is as follows.

The electronic cigarette explosion-proof battery of the present invention comprises a battery pack and a battery body built in the battery pack, and further includes a thermistor for controlling connection and disconnection of the electronic switch device, the electronic switch device, And the upper metal part and the button are both installed at the upper end of the battery pack and at the upper part of the battery body. The lower metal part and the electronic switch device are both installed at the lower end of the battery pack, The thermistor is connected to the outer wall of the battery body, the thermistor and the electronic switch device are connected to each other, and the lower metal part is connected to the battery body through the electronic switch device, and the upper metal part is electrically connected to the upper electrode of the battery body, And the lower metal part is electrically connected to the upper electrode through the electric wire in the upper direction .

Preferably, the battery pack is provided with a plurality of heat dissipating grooves, and the heat dissipating grooves are disposed at regular intervals along the longitudinal direction of the battery pack.

The heat dissipation groove is preferably in the form of an inclined strip.

The battery pack preferably has a cylindrical shape.

A button hole is provided in the battery pack. The button hole corresponds to the position of the button, and the button extends from the button hole.

Preferably, the USB port is formed in the battery pack, and the USB port is electrically connected to the upper metal part and the lower metal part through one power conversion circuit.

Compared with the prior art, the beneficial effects of the present invention are as follows.

The present invention relates to a method and apparatus for sensing and detecting a high temperature temperature of a battery body through a thermistor and outputting a signal to directly control connection and disconnection of the electronic switch device and further connecting the upper metal part or the output And the shutdown to control the output power of the battery body to an automatic shutoff function at a high temperature, thereby preventing the battery body from exploding due to the high temperature. In addition, a large number of heat dissipation grooves having a relatively large area are provided in the battery pack to help dissipate heat from the battery body, thereby further enhancing the explosion-proof effect.

1 is an external structural view of an explosion-proof battery for electronic cigarette according to the present invention,
2 is an internal structural view of the explosion-proof battery for electronic cigarette after removing the battery pack of the present invention.

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

1 and 2, the explosion-proof battery for electronic cigarette includes a battery pack 1 and a battery body 2 built in the battery pack 1, and further includes an electronic switch device 3, A lower metal part 6 and a button 7 for controlling connection and disconnection of the electronic switch device 3. The upper metal part 5 and the button 7 Are both provided at the upper end of the battery pack 1 and at the upper portion of the battery body 2. Both the lower metal part 6 and the electronic switch device 3 are installed at the lower end of the battery pack 1 The upper metal part 5 and the upper electrode of the battery body 2 are electrically connected to each other and the thermistor 4 is bonded to the outer wall of the battery body 2, The thermistor 4 and the electronic switch device 3 are connected to each other and provide a high-temperature signal to the electronic switch device 3, And the lower metal part is electrically connected to the lower electrode of the battery body 2 via the electronic switch device 3 and the lower metal part 6 is connected to the upper electrode Button (7).

The upper electrode and the lower electrode of the battery body 2 may be divided into an anode and a cathode. The electronic switch device 3 may be an apparatus composed of electronic circuit components commonly used in the prior art such as an electronic switch, a transistor or a comparator, The connection and disconnection can be realized in accordance with the high temperature output signal detected by the thermistor 4 with respect to the battery body 2. [ That is, it is possible to realize connection and disconnection with the lower metal part 6, and furthermore, to control connection and disconnection of the battery body 2 to the output power. Of course, it is possible to control the connection and disconnection of the output power of the battery body 2 by setting it to be connected to the upper metal part 5. When the battery body 2 reaches a preset temperature through the use of the thermistor 4 of different models and specifications or presetting, the high-temperature signal is output to the electronic switch device 3 to control power connection and disconnection Can be realized.

A plurality of heat dissipating grooves 11 are formed in the battery pack 1 and each of the heat dissipating grooves 11 is provided at regular intervals along the longitudinal direction of the battery pack 1 to reduce the amount of heat generated in the battery body 2 It is possible to dissipate heat to the outside through the heat dissipating groove 11 to reduce the self heat amount of the battery body 2. [ In this embodiment, the heat dissipating grooves 11 are formed in the form of an inclined strip to further enhance the heat dissipation rate. Further, in order to combine with the shape of the general battery body 2, the battery pack 1 of this embodiment is formed in a cylindrical shape. A button hole 12 is provided in the battery pack 1 so that the position of the button hole 12 corresponds to the position of the button 7 and the button 7 extends from the button hole 12, . When the button 7 is pressed, the output power of the battery body 2 is connected. When the thermistor 4 generates a high temperature signal, the corresponding output power is cut off through the electronic switch device 3.

A USB port 13 is installed in the battery pack 1 to charge the battery body 2 and supply power to the outside at a low voltage. The USB port 13 is connected to one power conversion circuit To the upper metal part 5 and the lower metal part 6, respectively.

The foregoing embodiments are merely preferred embodiments of the present invention and do not limit the scope of protection of the present invention. It is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

1. Battery pack 11. Heat sink 12. Button hole
13.USB port 2. Battery body 3. Electronic switch device
4. Thermistor 5. Upper metal part 6. Lower metal part
7. Button 8. Wire

Claims (6)

A battery pack, and a battery body built in the battery pack, and further includes a thermistor, an upper metal part, a lower metal part, and buttons for controlling the connection and disconnection of the electronic switch device, the electronic switch device, Both of the lower metal part and the electronic switch device are installed at the lower end of the battery pack and at the lower part of the battery body while the upper metal part is located at the lower part of the battery body Wherein the thermistor and the electronic switch device are connected to each other, the lower metal component is electrically connected to the lower electrode of the battery body through the electronic switch device, and the lower metal component is electrically connected to the lower electrode of the battery body, Characterized in that the metal part is connected to the button in the upper direction through the electric wire Explosion-proof battery. The method according to claim 1,
Wherein the plurality of heat dissipation grooves are formed in the battery pack, and the heat dissipation grooves are installed at regular intervals along the length direction of the battery pack. 3. The method of claim 2,
Wherein the heat dissipation groove is in the form of a sloped strip. The method according to claim 1,
Wherein the battery pack has a cylindrical shape. 5. The method of claim 4,
Wherein a button hole is provided in the battery pack, the button hole corresponds to the position of the button, and the button extends from the button hole. 5. The method of claim 4,
Wherein the USB port is formed in the battery pack, and the USB port is electrically connected to the upper metal part and the lower metal part through one power conversion circuit.

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