KR102067663B1 - Current short-circuit fuse for high voltage - Google Patents

Abstract

According to the present invention, a current short fuse for high voltage may accurately short a current flow by having a heat deflection leaving unit, which is melt and which falls, when power with a high voltage is inputted and the high temperature occurs and greatly improve the efficiency of the current short fuse by having a spring terminal to pressurize the heat deflection leaving unit from top of the heat deflection leaving unit in a lower direction and moving a current at the same time and quickly releasing the leaving of the heat deflection leaving unit.

Description

Current short-circuit fuse for high voltage}

The present invention relates to a high voltage current short fuse, and more particularly, to precisely short-circuit the flow of current, and to quickly release the thermal deformation leaving portion, thereby increasing the efficiency of the current short fuse so that high temperature is input. The present invention relates to a high-current short circuit fuse having a thermally deformed release part that is melted and dropped when it is generated, and a spring terminal for moving a current while pressing the upper portion of the thermally deformed release part downwardly.

Recently, electronic devices are becoming smaller and more direct. Due to various causes such as short circuits due to deterioration of components in devices, the risk of fire or explosion of devices is increasing day by day due to overcurrent or overheating. Due to the frequent occurrence and the inflow into the electronic devices through the power line, surge protection measures are increasingly required, and the development of safety parts that can protect the overheat, overcurrent, surge, etc. in combination is required.

These safety components have developed a current short fuse that shorts the flow of current in the event of abnormal overcurrent or high temperature in the circuit of an electronic product.

In general, the current shorting fuse has a device internally short-circuited by an overcurrent in order to prevent equipment failure caused by inrush current, internal temperature rise, and continuous overcurrent generated when the electric circuit of the home appliance is turned on. It is installed at the power input terminal of the circuit to protect the power circuit.

On the other hand, a fuse formed of a heat deformation material that is melted and broken by heat generated by overcurrent has been developed as a technology for the current short-circuit fuse, the domestic patents 10-1179546 and 10 as a technical document for the conventional fuse -1514956 has been disclosed.

However, the conventional short-circuit fuse has a high temperature heat in order to short-circuit the current as the heat deformation material provided therein is melted. In order to transfer high temperature heat to the rod-shaped heat deformation material, high pressure power must be applied. In the state that does not meet the high voltage, there is a problem that can not protect the circuit of the product because the current is not short-circuited.

In addition, the current short-circuit fuse is a short-circuit current must be melted more than a predetermined height of the ring-shaped heat deformation material provided therein, the high-voltage current must be continuously transmitted for a long time there is a possibility that a safety accident may occur There was a problem that the increase and the time to melt takes a long time, the rapidity of the fuse is lowered.

In the current short circuit fuse, the heat deflection material provided therein is melted and cannot determine where it flows and is fixed in a liquid state, and the melted space is narrow, and the molten liquid is again connected and short-circuited. There was a problem that the current short fuse is connected again.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to provide a short circuit heat dissipation part that melts and falls when a high temperature is input and a high temperature is generated to short-circuit the current flow accurately. A high voltage current short fuse can improve the efficiency of the current short fuse by providing a spring terminal that pressurizes downward and moves current at the top of the heat deflection release part. In providing.

The high voltage current short fuse according to the present invention for achieving the above object is a cup-shaped lower cap connected to the first lead wire for transmitting external power as a current short fuse to short-circuit the power when a high voltage current is generated; A pipe-shaped ceramic housing tube inserted into the lower cap; An induction coil connected to the lower cap and wound upward in an outer circumferential surface of the ceramic accommodating tube; A cup-shaped first central cap connected to an upper end of the induction coil and seated on an upper portion of the ceramic receiving tube; A disc-shaped heat deformation short circuit plate seated between the ceramic receiving tube and the first central cap; A cup-shaped second central cap seated on an upper surface of the first central cap; A pipe-shaped ceramic short tube inserted inside the second central cap; A coil spring-shaped spring terminal accommodated in the ceramic short pipe and generating a pressing force in a downward direction; A cup-shaped upper cap seated on an upper end of the ceramic short tube and connected to a second lead wire for transmitting current to the outside; The thermally deformable short-circuit plate is melted at a temperature rising when a high-temperature current is generated in a disc-shaped heat deformation main body seated between the ceramic receiving tube and the first central cap, and a central portion of the heat deformation main body is lowered. Characterized in that consisting of a cylindrical heat deformation leaving part to be separated.

The upper end of the spring terminal is characterized in that the terminal engaging portion made of a diameter that is larger than the inner diameter of the ceramic short tube so that the spring terminal is fixed to the upper portion of the ceramic short tube.

The center surface of the first central cap and the second central cap is characterized in that the spring movement hole having an inner diameter extended than the outer diameter of the spring terminal so that the spring terminal penetrates.

The heat deformation leaving part is characterized in that the outer diameter portion having an inner diameter smaller than the inner diameter of the ceramic receiving tube is formed so as to fall into the interior of the ceramic receiving tube when separated in the downward direction.

The outer surface of the current short fuse is characterized in that the impact-resistant coating is formed in a multi-layer coating so that the external current penetrates or the impact is blocked.

The inside of the ceramic receiving tube is provided with a rising spring for generating an elastic force in the upper direction, the upper portion of the rising spring is characterized in that the cylindrical insulation rising pressure port for raising the heat deformation leaving portion in the upper direction.

Thus, the effect of the high voltage current short fuse according to the present invention is as follows.

First, by providing a heat distortion leaving part that melts and falls when a high temperature is input and a high temperature is generated, it is possible to precisely short the flow of current to operate the fuse smoothly,

Second, by providing a spring terminal for moving the current at the same time while pressing the upper portion of the heat distortion departure portion in the lower direction, it is possible to significantly improve the efficiency of the current short fuse by acting more quickly leaving the heat deformation deviation portion,

Third, by forming a terminal catching portion having a diameter that is larger than the inner diameter of the ceramic short tube on the top of the spring terminal, the spring terminal is fixed between the ceramic short tube and the upper cap to prevent the falling of the spring terminal when the thermal deformation sphere is moved. It can be effected to perform the current short circuit accurately.

1 is a cross-sectional view showing the internal configuration of the current short fuse according to the present invention,
2 is a perspective view showing a current short fuse according to the present invention;
Figure 3 is an exploded perspective view showing a current short fuse according to the present invention,
4 is a cross-sectional view showing the current flow of the ceramic short tube according to the present invention,
5 is a cross-sectional view showing the action of the heat deformation sphere according to the present invention,
6 is a cross-sectional view showing the operation of the lifting spring as another embodiment of the present invention.

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

The high current short circuit fuse according to the present invention is a current short fuse (1) for shorting the power when a high voltage current is generated as shown in Figs. A cup-shaped lower cap 10 connected thereto; A pipe-shaped ceramic accommodating tube 20 inserted into the lower cap 10; An induction coil 30 connected to the lower cap 10 and wound upward in an outer circumferential surface of the ceramic accommodating tube 20; A cup-shaped first central cap 40 connected to an upper end of the induction coil 30 and seated on an upper portion of the ceramic receiving tube 20; A disc-shaped heat deformation short circuit plate 50 seated between the ceramic receiving tube 20 and the first central cap 40; A cup-shaped second central cap 60 seated on an upper surface of the first central cap 40; A pipe-shaped ceramic short tube 70 inserted into the second central cap 60; A coil spring-shaped spring terminal 80 accommodated in the ceramic short pipe 70 and generating a pressing force in a downward direction; It is composed of a cup-shaped upper cap 90 is seated on the upper end of the ceramic short tube 70 and the second lead wire (L2) for transmitting a current to the outside.

Here, the heat deformation short circuit plate (50) of the disc-shaped heat deformation main body 51 and the heat deformation main body 51 that is seated between the ceramic receiving tube 20 and the first central cap (40) When the high-pressure current is generated in the center portion is made of a cylindrical heat deformation leaving part 52 that is melted to the rising temperature and is separated in the downward direction.

On the other hand, the lower end of the spring terminal 80 is preferably mounted on the upper surface of the heat deformation leaving part 52 is coupled to press the heat deformation leaving part 52 in the usual downward direction.

In addition, the upper portion of the spring terminal 80, the terminal catching portion 81 made of a diameter larger than the inner diameter of the ceramic short tube 70 so that the spring terminal 80 is fixed to the upper portion of the ceramic short tube 70. ) Is formed.

On the other hand, the terminal catching portion 81 is provided between the lower surface of the upper cap 90 and the ceramic short tube 70 is preferably fixed at the time of mutual compression.

In addition, a spring moving hole (H) having an inner diameter extended to an outer diameter of the spring terminal 80 so that the spring terminal 80 passes through the center surfaces of the first central cap 40 and the second central cap 60. ) Is formed.

In addition, the heat deformation leaving part 52 has an outer diameter part 53 having an inner diameter smaller than the inner diameter of the ceramic receiving tube 20 so as to fall into the interior of the ceramic receiving tube 20 when separated from the lower direction. Is formed.

In addition, the outer surface of the current short fuse (1) is formed with an anti-reflective coating (1a) applied in multiple layers so that external current penetrates or blocks the impact.

In addition, an inner side of the ceramic receiving tube 20 is provided with a rising spring 21 for generating an elastic force in an upward direction as shown in FIG. 6, and an upper portion of the rising spring 21 has the heat deformation leaving part ( Cylindrical insulated rising pressure port 22 for raising 52) is provided.

Here, the rising spring 21 is an elastic force of the spring terminal 80 to raise the elastic force of the rising spring 21 to raise the heat deformation leaving portion 52 to be lowered to the spring terminal 80 in the upper direction. It is preferable to form larger.

On the other hand, the heat deformation body 51 is seated in any one of between the second central cap 60 and the ceramic short tube 70 or between the first central cap 40 and the ceramic receiving tube 20. It is preferable.

Looking at the action of the high-voltage current short fuse according to the present invention made of the above configuration as follows.

The high current short circuit fuse according to the present invention is a current short fuse 1 that shorts power when a high voltage current is generated as shown in FIGS. 1 to 5.

That is, after the current introduced through the first lead line L1 for transferring external power is moved upward through the induction coil 30 wound on the outer circumferential surface of the ceramic accommodating tube 20, the induction coil 30 The thermal deformation short circuit plate 50 is transmitted through the first central cap 40 connected to the upper end of the thermal deformable short circuit plate 50.

At this time, when the predetermined temperature is not satisfied in the thermal deformation short circuit plate 50, the moved current passes through the thermal deformation short circuit plate 50 and is moved to the second central cap 60 as it is. ) And to the outside through the upper cap (90).

However, when heat is generated at a temperature higher than a predetermined temperature in the heat deformation short circuit 50, that is, when a high pressure power is generated and heat is generated as an internal resistance, the heat deformation release part formed in the heat deformation short circuit 50 ( 52 is lowered to the lower portion of the ceramic housing tube 20 through the lower pressing force of the spring terminal 80, the current moved to the thermal deformation short circuit 50 is short-circuited to block the flow of current. do.

Thus, by short-circuit the current flow through the lower cap 10 it is possible to safely protect the circuit during overload and overvoltage of the electronic product.

In this case, a disc-shaped heat deformation body 51 seated between the ceramic receiving tube 20 and the first central cap 40 is formed at an outer side of the heat deformation leaving part 52, thereby causing the heat deformation leaving part. The part 52 can be easily detached.

In addition, the upper portion of the spring terminal 80, the terminal catching portion 81 made of a diameter larger than the inner diameter of the ceramic short tube 70 so that the spring terminal 80 is fixed to the upper portion of the ceramic short tube 70. ) Is formed, it is possible to prevent the spring terminal 80 from falling in the lower direction.

On the other hand, the spring movement hole (H) having an inner diameter extended to the outer diameter of the spring terminal 80 so that the spring terminal 80 penetrates to the center surface of the first central cap 40 and the second central cap 60 ) Is formed, the spring terminal 80 fixed to the upper cap 90 can be connected to the thermal deformation short circuit plate (50).

In addition, the heat deformation leaving part 52 has an outer diameter part 53 having an inner diameter smaller than the inner diameter of the ceramic receiving tube 20 so as to fall into the interior of the ceramic receiving tube 20 when separated from the lower direction. By being formed, it is possible to induce the fall of the thermal deformation leaving portion 52.

In addition, the outer surface of the current short fuse (1) is formed with a multi-layered anti-reflective coating (1a) so that external current penetrates or blocks the shock, thereby preventing the external shock and current generated in advance to malfunction. Can be prevented.

And, as shown in Figure 6 the inside of the ceramic receiving tube 20 is provided with a rising spring 21 to generate an elastic force in the upper direction, after the heat deformation leaving part 52 is separated the spring terminal By raising the heat deflecting portion 52 through the rising spring 21 having an elastic force greater than the elastic force of 80, the heat deflecting portion 52 is lifted off while the energized current is cut off. 21 and the spring terminal 80 to be fixed to prevent the thermal deformation departure portion 52 indiscriminately moving in advance.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

<Description of the symbols for the main parts of the drawings>
1: Current short fuse 1a: Shockproof coating
L1: first lead wire L2: second lead wire
10: lower cap 20: ceramic receiving tube
21: rising spring 22: insulation rising pressure port
30: guide coil 40: first central cap
50: heat deformation short circuit plate 51: heat deformation main body
52: soft deformed departure part 53: departure outer diameter part
60: second central cap 70: ceramic short tube
80: spring terminal 81: terminal latch
90: upper cap H: spring moving hole

Claims (6)

In the current short fuse (1) for shorting the electric power when a high voltage current is generated,
A cup-shaped lower cap 10 to which the first lead wire L1 transferring external power is connected;
A pipe-shaped ceramic accommodating tube 20 inserted into the lower cap 10;
An induction coil 30 connected to the lower cap 10 and wound upward in an outer circumferential surface of the ceramic accommodating tube 20;
A cup-shaped first central cap 40 connected to an upper end of the induction coil 30 and seated on an upper portion of the ceramic receiving tube 20;
A disc-shaped heat deformation short circuit plate 50 seated between the ceramic housing tube 20 and the first central cap 40;
A cup-shaped second central cap 60 seated on an upper surface of the first central cap 40;
A pipe-shaped ceramic short tube 70 inserted into the second central cap 60;
A coil spring shape spring terminal 80 accommodated in the ceramic short pipe 70 and generating a pressing force in a downward direction;
It is composed of a cup-shaped upper cap 90 is seated on the upper end of the ceramic short tube (70) connected to the second lead wire (L2) for transmitting current to the outside;
The heat deformation short circuit plate 50 is a disc-shaped heat deformation main body 51 which is seated between the ceramic receiving tube 20 and the first central cap 40 and the center of the heat deformation main body 51. When the high pressure current is generated is made of a cylindrical heat deformation leaving portion 52 that is melted to the elevated temperature and is released in the lower direction;
An upper portion of the spring terminal 80 has a terminal catching portion 81 having a diameter that is larger than the inner diameter of the ceramic short tube 70 so that the spring terminal 80 is fixed to the upper portion of the ceramic short tube 70. Formed;
Spring moving hole (H) having an inner diameter extended to the outer diameter of the spring terminal 80 so that the spring terminal 80 is penetrated to the center surface of the first central cap 40 and the second central cap 60 Formed;
The heat deformation leaving part 52 is formed with an outer diameter part 53 having an inner diameter smaller than the inner diameter of the ceramic receiving tube 20 so as to fall into the interior of the ceramic receiving tube 20 when separated from the lower direction. ;
The outer surface of the current short fuse (1) is formed with an anti-reflective coating (1a) applied in multiple layers so that external current penetrates or the impact is blocked;
The inside of the ceramic receiving tube 20 is provided with a rising spring 21 for generating an elastic force in the upper direction, the upper portion of the rising spring 21 is a cylindrical for raising the heat deformation leaving part 52 in the upper direction High-current short circuit fuse, characterized in that the insulating rising pressure sphere 22 is provided on the phase. delete delete delete delete delete

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