KR20180064728A - Temperature fuse for high voltage with thermally deformable material - Google Patents

Abstract

The present invention relates to a temperature fuse for high voltage having a thermally deformable material which provides a thermally deformable material melting in a liquid phase when heat of a predetermined temperature is applied to the inside of the temperature fuse, melts the thermally deformable material by the heat when overcurrent occurs, and separates a contact terminal. Also, a moving direction of the thermally deformable material which is melted in a state in which the temperature fuse is erected in any direction can be controlled, thereby preventing malfunction of the temperature fuse. The temperature fuse for high voltage having a thermally deformable material comprises: a body part; a case part; the thermally deformable material; a driving part; and a contact terminal part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a temperature fuse for high voltage with thermally deformable material,

The present invention relates to a thermal fuse for high voltage having a thermally deformable material, and more particularly, to a thermal fuse for a high voltage which is capable of preventing the malfunction of the thermal fuse by interrupting the movement of the melted thermally deformable material even when the temperature fuse for high- Temperature fuse for high voltage in which a space for moving the melted thermally deformable material is formed inside the temperature fuse.

In general, thermal fuses are safety electronic components that short circuit the connections to prevent damage to components in the event of abnormal overcurrents or high temperatures in electrical and electronic circuits.

As a technique for a conventional thermal fuse, a temperature fuse formed of a heat-deforming material that melts and breaks in heat generated by an electric current when an overcurrent flows has been developed. As a technical document for a conventional fuse, Japanese Patent No. 10-1179546 And 10-1514956.

However, the conventional thermal fuse has a problem in that the production cost is increased unnecessarily due to a large number of internal components, compared with those used in small electronic products, and the manufacturing process is complicated, resulting in a high defect rate at the time of manufacture.

In addition, the conventional fuse, which is melted by heat, has a problem in that when it is heated and melted, the melted and consumed heights or intervals are uneven, so that the user can not accurately cut off power at a desired temperature.

In order to solve such a problem, the present applicant has filed a patent application No. 10-2016-0101237 entitled "High-voltage charging fuse with reduced melting area" .

However, the conventional fuse for charging high-voltage thermal fuse of reduced melting area and the thermal fuse for general thermal deformation constantly receive a small amount of heat and are liquefied little by little, and then the liquefied heat-deformable material S is short- There is a problem in that malfunction of the thermal fuse is caused by fixing the movement of the driving component in a state in which the contact surface, that is, the "A" shown in FIG. 1,

In addition, the conventional thermal fuse has a problem in that the thermally deformable material melted in the liquid phase seeps into the space formed by the movement of the driving component and replenishes the short-circuited space, thereby reconnecting the short-circuited power source.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a thermal fuse which has a thermally deformable material melted in a liquid phase when heat of a predetermined temperature is applied thereto, A heat deformable material capable of preventing the malfunction of the thermal fuse by interrupting the moving direction of the melted thermally deformable material even when the thermal fuse is set in any direction and melting the thermally deformable material by the heat, And a temperature fuse for high voltage.

According to an aspect of the present invention, there is provided a temperature fuse for high voltage including a thermally deformable material according to the present invention. The fuse includes a cup-shaped main body connected to the input wire, Wow; A cup-shaped insertion case inserted into the main body part; a case part formed of a cup-shaped engagement case extending upward in a state where the diameter of the insertion case is expanded; A thermal deformation material inserted into the insertion case; A moving part which is composed of a movable terminal seated on the thermally deformable material and a movable spring which is inserted into an outer peripheral surface of the movable terminal and which presses the movable terminal in the direction of the thermally deformable material; And a contact terminal portion contacting the upper portion of the movable terminal and connected to the output wire; A material transfer hole is formed in the lower surface of the insertion case so as to allow the thermally deformable material to melt and flow down; And an accommodating portion extending from the full length of the insertion case to receive the melted thermally deformable material is formed in the main body.

And a movable terminal receiving groove is formed in the inside of the movable terminal so as to receive the melted thermally deformable material when the temperature fuse for high voltage is rotated in the opposite direction.

And a movable terminal flange extending outwardly is formed on a lower outer circumferential surface of the movable terminal so that the movable spring can be seated.

And the contact terminal portion is formed of a spring-shaped contact spring so as to be moved by a predetermined distance when the movable terminal is moved.

And a spring fixing protrusion made of a conductive material protruding in the direction of the thermal deformation material is formed in the contact terminal portion to prevent the contact spring from coming off.

The effect of the temperature fuse for high voltage with the heat distortion material according to the present invention is as follows.

First, when a predetermined temperature is applied to the inside of the thermal fuse, a heat-deformable material that melts in a liquid phase is provided. When an overcurrent is generated, the thermally deformable material is melted by the heat to separate the contacted terminals. Can,

Secondly, when an overcurrent is generated in the thermal fuse to liquefy the thermally deformable material, the material that moves the liquid material to the predetermined space forms a cavity, so that the molten thermally deformable material flows into the outer surface of the movable terminal and solidifies In addition,

Thirdly, when an overcurrent is generated in the thermal fuse and the thermal deformation material is liquefied, the movable terminal receiving groove for moving the liquid material to a predetermined space is formed, thereby guiding the movement of the melted thermally deformable material to a predetermined position, There is an effect that the movement of the molten thermally deformable substance can be controlled even if the fuse is erected in any direction.

1 is a sectional view showing the action of a conventional thermal fuse,
FIG. 2 is a cross-sectional view showing a temperature fuse according to the present invention,
3 is an exploded cross-sectional view showing a temperature fuse according to the present invention,
FIG. 4 is a one-directional action diagram showing a state in which the thermal fuse according to the present invention is set up in one direction,
Fig. 5 is an operation diagram in the other direction showing a state in which the temperature fuse according to the present invention is erected in the other direction.

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

The temperature fuse for high voltage with the heat distortion material according to the present invention has a temperature fuse 1 for high voltage connected between the input wire 2 and the output wire 3, A cup-shaped main body 10 connected to the input wire 2; A cup-shaped insertion case 21 inserted into the main body 10; a cup-shaped engagement case 22 extending upward in a state where the diameter of the insertion case 21 is extended; (20); A thermally deformable material 30 inserted into the insertion case 21; A movable terminal 41 mounted on the upper surface of the thermally deformable material 30 and a movable terminal 41 inserted into the outer circumferential surface of the movable terminal 41 to press the movable terminal 41 in the direction of the heat distortion material 30 A movable part 40 composed of a spring 42; And a contact terminal portion 50 which is in contact with the upper portion of the movable terminal 41 and is connected to the output wire 3.

At this time, as shown in FIG. 4, a hole 23 is formed in the lower surface of the insert case 21 to allow the thermally deformable material 30 to be melted and then flowed down. Inside the main body 10, a receiving portion 11 extending from the full length of the insertion case 21 and containing the melted thermally deformable material 30 is formed.

The main body 10 is formed of a nonconductive material through which power is not supplied. An input cap 2a is formed at a lower portion of the main body 10 and connected to the input wire 2, A coil part (not shown) for transmitting power to the case part 20 is wound around the outer circumferential surface of the body part 10.

The insulator P is formed on the outer circumferential surface of the contact terminal unit 50 so that the power source is prevented from being exposed to the outside. 3 are connected between the output cap 3a to which they are connected.

As shown in FIG. 5, when the temperature fuse 1 for high voltage is rotated in the opposite direction, the inner side is inserted into the movable terminal 41 so that the melted thermally deformable material 30 is introduced and accommodated therein The movable terminal receiving groove 43 is formed.

2 to 4, a movable terminal flange 44 extending outwardly is formed on the lower outer circumferential surface of the movable terminal 41 so that the movable spring 42 can be seated.

 The contact terminal portion 50 is formed of a spring-shaped contact spring 51 to be moved by a predetermined distance when the movable terminal 41 is moved.

A spring fixing protrusion 52 made of a conductive material protruding in the direction of the thermally deformable material 30 is formed in the contact terminal portion 50 to prevent the contact spring 51 from coming off.

Hereinafter, the operation of the temperature fuse for high voltage with the heat-deformable material according to the present invention will be described.

The temperature fuse for high voltage with the heat distortion material according to the present invention has a temperature fuse 1 for high voltage connected between the input wire 2 and the output wire 3, to be.

That is, when the predetermined temperature is applied to the inside of the temperature fuse 1, the thermally deformable material 30 is melted in a liquid phase so that when the overcurrent is generated, the thermally deformable material 30 is melted It is possible to cut off the power supply by separating the contacted terminals.

This is because when the overcurrent is generated in the thermal fuse 1, the thermally deformable material 30 receives heat and the movable terminal 41, which is seated on the thermally deformable material 30, The movable terminal 41 and the contact terminal portion 50 are separated from each other by the spring 42 and the power source is short-circuited.

The thermally deformable material 30 is accommodated in a cup-shaped body 10 connected to the input wire 2, and the melted thermally deformable material 30 is inserted into the lower portion of the main body 10, (23) is formed on the lower surface of the insertion case (21) so as to flow into the receiving portion (11) of the main body (10) so that the molten thermally deformable material (30) So that it can be prevented from interrupting the movement of the movable terminal 41.

5, when the thermal fuse 1 is reversed as shown in FIG. 5, the thermally deformable material 30 is melted and then impregnated in the direction of the output wire 3. At this time, By forming the movable terminal receiving groove 43 in the inside, the melted thermally deformable material 30 can be securely received.

This prevents the melted thermally deformable material 30 from flowing to the side of the movable terminal 41 or the separated portion of the movable terminal 41 and the contact terminal portion 50, The operation can be facilitated.

The contact terminal portion 50 is formed of a spring-shaped contact spring 51 so that the contact terminal portion 50 is moved by a predetermined distance when the movable terminal 41 is moved, When the thermally deformable material 30 is melted to a certain extent and the movable terminal 41 is slightly spaced apart from the contact terminal 50 and the movable terminal 41 Can be continuously brought into contact with each other.

At this time, it is preferable that the limit length in which the contact spring 51 elastically extends is formed to a value smaller than the height of the heat distortion material 30.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art [0002]
1: Temperature fuse 2: Input wire
2a: input cap 3: output wire
3a: output cap 10:
11: accommodating portion 20: case portion
21: insertion case 22:
23: substance is pores 30: heat deformation substance
40: movable part 41: movable terminal
42: movable spring 43: movable terminal receiving groove
44: movable terminal flange 50: contact terminal portion
51: contact spring 52: spring fixing projection
P: Insulator

Claims (5)

A temperature fuse (1) for a high voltage connected between an input wire (2) and an output wire (3)
A cup-shaped main body 10 connected to the input wire 2;
A cup-shaped insertion case 21 inserted into the main body 10; a cup-shaped engagement case 22 extending upward in a state where the diameter of the insertion case 21 is extended; (20);
A thermally deformable material 30 inserted into the insertion case 21;
A movable terminal 41 mounted on the upper surface of the thermally deformable material 30 and a movable terminal 41 inserted into the outer circumferential surface of the movable terminal 41 to press the movable terminal 41 in the direction of the heat distortion material 30 A movable part 40 composed of a spring 42;
And a contact terminal portion (50) which is in contact with an upper portion of the movable terminal (41) and is connected to the output wire (3);
A hole 23 is formed in the lower surface of the insert case 21 to allow the thermally deformable material 30 to be melted and then flowed down.
Wherein the housing part (10) is provided with a housing part (11) which is extended from the entire length of the insertion case (21) and accommodates the melted thermally deformable material (30) Thermal fuse. The method according to claim 1,
A movable terminal receiving groove 43 in which an inner side is recessed is formed inside the movable terminal 41 so that the molten thermally deformable material 30 flows into the movable terminal 41 when the temperature fuse 1 for high voltage is rotated in the opposite direction Wherein the thermally deformable material comprises a thermally deformable material. The method according to claim 1,
Wherein a movable terminal flange (44) extending in an outward direction is formed on a lower outer circumferential surface of the movable terminal (41) so that the movable spring (42) can be seated thereon. The method according to claim 1,
Wherein the contact terminal portion (50) is made of a spring-shaped contact spring (51) so as to be moved by a predetermined distance when the movable terminal (41) is moved. The method according to claim 1,
And a spring fixing protrusion 52 made of a conductive material protruding in the direction of the heat distortion material 30 is formed in the contact terminal portion 50 to prevent the contact spring 51 from being separated. Temperature fuse for high voltage.

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