KR101831279B1 - Charging high-voltage temperature fuses for the melt decreasing area - Google Patents

Abstract

The high voltage fuse for charging with a reduced melting area according to the present invention forms a melted portion of a molten terminal portion provided inside a thermal fuse in an upper light blocking shape to reduce an area melted when overheating or overcurrent occurs, And an elastic body that generates a pressing force in a downward direction on one surface of the molten terminal portion so that malfunction of the thermal fuse can be prevented by forcibly pushing the melted terminal portion when the melted portion is melted .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-

The present invention relates to a charging high voltage thermal fuse having a reduced melting area, and more particularly, to a charging high voltage thermal fuse having a reduced melting area, and more particularly, Voltage fuse for charging, the shape of which is formed in the shape of a frosted top.

In general, all electrical and electronic products using electricity are always subject to abnormal overcurrent in the circuit or overheating due to external overheating. In order to prevent such overheating, a fuse Was developed and used.

Korean Patent No. 10-1179546 and No. 10-1514956 disclose conventional fuses in the technical literature.

However, the conventional fuses have a problem in that the number of internal components is increased compared to those used in small-sized electronic products, the cost of production is increased unnecessarily, the manufacturing work is complicated, and the defect rate increases.

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 cut off water or foreign matter penetrating from the outside, the conventional fuse is closed by inserting a closed portion of an insulating material, which hermetically closes the inside of the fuse by sealing the inside of the fuse, by inserting the plug into the housing. There is a problem that the sealing force of the inside substantially decreases and malfunctions occur.

Further, when a conventional fuse is broken due to an external impact or a high voltage, a large impact sound or a shock wave is generated at the time of destruction due to the housing and the finishing material having a predetermined thickness for sealing the inside of the fuse, There is a problem that it has an adverse influence on the environment.

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 fuse having a fused portion shape of a molten terminal portion provided inside a thermal fuse, And an elastic body that generates a pressing force in a downward direction on one surface of the molten terminal portion. When the molten portion is melted, the molten terminal portion is forcibly pushed down to decrease the temperature of the fuse Voltage temperature fuse with a reduced melting area capable of preventing a malfunction.

According to an aspect of the present invention, there is provided a charging high-voltage thermal fuse having a reduced melting area, the charging high-voltage thermal fuse being connected between an input wire and an output wire, A case having a cap, a pipe-shaped insulating cover seated inside the lead cap, and a cup-shaped housing inserted into the insulating cover; An output pin portion formed of a cylindrical pin fixing member which is seated on the upper portion of the housing, and a cylindrical output connecting pin connected to the output wire and penetrating the center of the pin fixing portion; And a connecting rod which is connected to the bottom surface of the housing at a lower portion of the melting rod and contacts the lower surface of the output connecting pin when a high temperature is generated, A melting terminal portion made of a molten portion of a shape; A spring-shaped elastic body provided between the molten terminal portion and the output pin portion to lower the molten terminal portion when the molten portion melts; And a power line connected to the lead cap and the housing and wound on the outer circumferential surface of the insulation cover so that power input from the input wire is conducted to the output wire.

And an upper portion of the housing is formed with a release preventing bending portion bent inward so as to prevent the pin fixing portion from being detached.

And a plurality of first explosion-proof grooves are formed on one side of the pin fixture so as to be easily broken when an external impact is applied by reducing the internal volume.

And a plurality of second explosion-proof grooves formed on the inner surface of the housing to reduce the internal volume and to be easily broken when an external shock is applied.

And the molten terminal portion is formed with an engagement step having an enlarged diameter so that the elastic body is seated.

And the melting terminal portion is formed of a lead alloy having a melting temperature of 220 degrees Celsius.

The effect of the high voltage fuse for charging with reduced melting area according to the present invention is as follows.

First, by forming the melted portion shape of the molten terminal portion contacting the inner bottom surface of the thermal fuse in a superimposed shape, it is possible to reduce the area melted when overheating or overcurrent occurs to increase the short circuit speed of the power supply, You can,

Second, by providing an elastic body that generates a pressing force in a downward direction on one surface of the molten terminal portion, malfunctioning of the temperature fuse can be prevented in advance by forcibly pushing the molten terminal portion when the molten portion is melted,

Third, since the internal components of the thermal fuse are composed of only one spring and a melting terminal, the production cost of the thermal fuse can be greatly reduced,

Fourth, since a plurality of explosion-proof grooves are formed on the inner surface of the thermal fuse so as to reduce the internal volume, the circuit board can be easily broken when an external impact is applied to the circuit board. It is possible to prevent an unfavorable influence on other electronic components in the apparatus.

1 is a perspective view showing a temperature fuse according to the present invention,
2 is an exploded perspective view showing a temperature fuse according to the present invention,
3 is a cross-sectional view showing a temperature fuse according to the present invention,
4 is a cross-sectional view showing a power supply flow chart of the thermal fuse according to the present invention
Fig. 5 is a cross-sectional view showing an action of melting a melting terminal according to the present invention, in which (a) is a diagram showing a case where a high voltage and a high temperature are generated, and Fig. 5 (b) is a drawing after a melting terminal is melted.

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

The charging high voltage thermal fuse according to the present invention for reducing the melting area has a high voltage fuse for charging (refer to FIG. 1 to FIG. 5) connected between the input wire 2 and the output wire 3, Shaped lead cap 11 in which the input wire 2 is connected as a lead cap 11 and a pipe-shaped insulation cover 12 seated inside the lead cap 11, Shaped housing 13 inserted into the case 10; A cylindrical pin fixing member 21 mounted on the upper portion of the housing 13 and a cylindrical output connecting pin 22 connected to the output wire 3 and penetrating the central portion of the pin fixing member 21, A fin portion 20; A cylindrical molten rod 31 in contact with the lower surface of the output connection pin 22 and a bottom surface of the housing 13 at a lower portion of the melting rod 31. When a high temperature is generated, A molten terminal portion 30 consisting of a molten portion 32 having a reduced upper light-blocking shape which is a molten area such that the rod 31 and the output connecting pin 22 are spaced apart from each other; A spring-shaped elastic body 40 provided between the molten terminal portion 30 and the output pin portion 20 to lower the molten terminal portion 30 when the molten portion 32 is melted; A power line (50) connected to the lead cap (11) and the housing (13) so that the power inputted from the input wire (2) is energized to the output wire (3) and wound on the outer peripheral surface of the insulation cover (12); .

It is preferable that the insulating cover 12 and the pin fixing hole 21 are formed of an insulator which is not energized with electric power and that the outer surface of the thermal fuse 1 is made of epoxy E).

The upper end of the housing 13 is formed with an inwardly bent release bending portion 14 so as to prevent the pin fixing hole 21 from being detached.

In addition, a plurality of first explosion-proof grooves 23 are formed on one side of the pin fixing hole 21 so as to be easily broken when an external impact is applied.

A plurality of second explosion-proof grooves 15 are formed on one side of the housing 13 to reduce the internal volume so that the first explosion-proof grooves 15 can be easily broken when an external impact is applied.

In addition, the molten terminal portion 30 is formed with an engaging stepped portion 33 whose diameter is enlarged so that the elastic body 40 is seated.

At this time, the molten terminal portion 30 is formed of a lead alloy having a melting temperature of 220 degrees Celsius.

The operation of the high voltage fuse for charging with the reduced melting area according to the present invention having the above structure will be described below.

The charging high voltage thermal fuse according to the present invention for reducing the melting area has a high voltage fuse for charging (refer to FIG. 1 to FIG. 5) connected between the input wire 2 and the output wire 3, 1).

That is, the temperature fuse (1) is connected to the power line (50) via the lead cap (11), as shown in FIG. 4, when the overheat or overcurrent does not occur in the circuit board The power supplied to the power line 50 wound on the power line 50 is transmitted to the case 10 connected to the upper end of the power line 50 and the power source of the case 10 is connected to the case 10 The power terminal of the melting terminal portion 30 is connected to the power output pin portion 20 exposed to the outside, .

Thus, the input wire 2 and the output wire 3 can be made conductive.

5, the melted portion 32 of the melted terminal portion 30 is melted or overheated due to overheating or overcurrent, so that the melted terminal portion 30 is melted or overheated due to overheating or overcurrent, The upper surface of the molten terminal portion 30 and the lower surface of the output wire 3 are separated from each other, so that the power flowing into the overload can be cut off safely.

At this time, the melting portion 32 is formed to have a minimized contact area with the inner bottom surface of the case 10, that is, a lower limit of the upper limit of the melting terminal portion 30, It is possible to increase the speed by reducing the area melted when the overcurrent is generated, and to increase the distance between the output wire 3 and the molten terminal portion 30, thereby preventing malfunctions in advance.

 The melted terminal portion 30 has an elastic body 40 that generates a pressing force in a downward direction so that when the melted portion 32 is melted, the melted terminal portion 30 is pushed downward by the distance, The malfunction of the temperature fuse 1 can be prevented in advance.

The temperature fuse 1 used in the miniaturized electronic product can be constructed with only the elastic member 40 and the melt terminal portion 30 so that the temperature fuse 1 can be manufactured very conveniently, It is possible to greatly reduce it.

The upper portion of the housing 13 is formed with an inwardly bent breakaway portion 14 so as to prevent the pin fixing portion 21 from being separated from the upper portion of the housing 13, The pin fixing hole 21 for sealing the inside of the pin fixing hole 21 is prevented from coming off.

A plurality of first explosion-proof grooves 23 and a second explosion-proof groove 15 are formed on one surface of the pin fixture 21 and the housing 13 so as to reduce the internal volume, It is possible to prevent the other electronic parts in the circuit from being adversely affected due to a large impact noise or a shock wave generated when the thermal fuse 1 breaks.

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
1: Temperature fuse 2: Input wire
3: output wire 10: case portion
11: Lead cap 12: Insulation cover
13: housing 14:
15: second explosion proof groove 20: output pin portion
21: Pin fixture 22: Output connection pin
23: first explosion-proof groove 30: melting terminal portion
31: Fused rod 32: Fused portion
33: engagement step jaw portion 40: elastic body
50: Power line E: Epoxy

Claims (6)

A charging high-voltage temperature fuse (1) connected between an input wire (2) and an output wire (3)
A cup-shaped lead cap 11 to which the input wire 2 is connected, a pipe-shaped insulating cover 12 seated in the lead cap 11, A case 10 having a cup-shaped housing 13;
A cylindrical pin fixing member 21 mounted on the upper portion of the housing 13 and a cylindrical output connecting pin 22 connected to the output wire 3 and penetrating the central portion of the pin fixing member 21, A fin portion 20;
A cylindrical molten rod 31 in contact with the lower surface of the output connection pin 22 and a bottom surface of the housing 13 at a lower portion of the melting rod 31. When a high temperature is generated, A molten terminal portion 30 consisting of a molten portion 32 having a reduced upper light-blocking shape which is a molten area such that the rod 31 and the output connecting pin 22 are spaced apart from each other;
A spring-shaped elastic body 40 provided between the molten terminal portion 30 and the output pin portion 20 to lower the molten terminal portion 30 when the molten portion 32 is melted;
A power line 50 connected to the lead cap 11 and the housing 13 so that the power inputted from the input wire 2 is conducted to the output wire 3 and wound on the outer circumferential surface of the insulation cover 12 Configured;
Wherein a plurality of first explosion-proof grooves (23) are formed on one surface of the pin fixing hole (21) so as to be easily broken when an external impact is applied, by reducing the internal volume of the pin fixing hole (21) Hughes. The method according to claim 1,
Wherein an upper portion of the housing (13) is formed with an escape preventing bent portion (14) bent inward so as to prevent the pin fixing hole (21) from being separated from the upper portion of the housing (13). delete The method according to claim 1,
Wherein a plurality of second explosion-proof grooves (15) are formed on one surface of the housing (13) so as to be easily broken when an external impact is applied, by reducing the internal volume of the housing (13) . The method according to claim 1,
Wherein the molten terminal portion (30) is provided with an engaging step portion (33) whose diameter is enlarged so that the elastic body (40) is seated. The method according to claim 1,
Wherein said molten terminal portion (30) is formed of a lead alloy having a melting temperature of 220 degrees Celsius.

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