KR200476121Y1 - Thermal fuse assembly - Google Patents

Abstract

The present invention relates to a thermal fuse assembly for a defrosting system which is provided on a defrosting circuit formed in a defrosting system and which simplifies a structure for preventing overheating of a defrost heater by disconnection of a defrosting circuit upon abnormal heating of the defrost heater,
In the present invention, a linear fuse circuit part having lead wires connected to input terminals and output terminals formed in a thermal fuse; And a protection tube accommodating the line-shaped fuse circuit portion in a hollow portion,
A sealing portion is formed on both sides of the protection tube accommodating the thermal fuse,
The protective tube is configured to integrally form a clad pipe portion surrounding the surface of the lead wire on both sides of the hermetically sealed chamber for housing the thermal fuse in an airtight structure.

Description

[0001] The present invention relates to a thermal fuse assembly for a defrost system,

More particularly, the present invention relates to a thermal fuse assembly for a defrosting system, which is simplified in structure, and more particularly, to a thermal fuse assembly for a defrosting system which is provided on a defrosting circuit formed in a defrosting system, To a thermal fuse assembly for a defrost system.

As is known, the refrigerant reaches the evaporator via the compressor, the condenser and the capillary, and evaporates as it passes through the evaporator to cool the evaporator.

The air in the vicinity of the evaporator absorbs heat through heat exchange with the cooled evaporator, and forms cold air. The cold air, which is absorbed by the heat, is circulated through the freezer compartment and the refrigerating compartment to cool the refrigerator.

At this time, the cold air circulating in the freezer compartment and the refrigerating compartment returns to the evaporator side in a state containing moisture in the refrigerator. As the moisture contained in the cold air passes through the evaporator that has been cooled, It is formed naturally.

If the sexual intercourse is formed on the surface of the evaporator, the smooth heat exchanging action of the air is hindered. Thus, the refrigeration performance of the refrigerator is hindered and the frozen state of the freezer can not be formed when a large amount of frost is blocked in the freezing chamber formed in the freezing chamber .

In order to solve this problem, in the related art, there is provided a defrosting system which removes a sexual layer formed on the evaporator by heating the evaporator around the evaporator through electric heat, thereby removing a sexual layer formed around the evaporator.

The defrosting system includes a defroster heater unit including a code heater for removing a sexual layer on the surface of the evaporator, and a plate heater installed on a surface of the defrost water discharging unit to dissolve malnourence of the evaporator, And a control unit for controlling the driving of the defrost heater unit.

The control unit includes a defrost timer for operating the defrost heater when the operation time of the compressor reaches a predetermined point, and a temperature sensor for stopping the operation of the defrost heater when the temperature around the evaporator reaches a predetermined temperature by operating the defrost heater .

In the related art, a thermal fuse assembly including a thermal fuse is installed in the defrost system to prevent overheating of the defrost heater due to malfunction of the temperature sensor.

 That is, if the defrost heater is overheated due to malfunction of the temperature controller or the like, and the evaporator is abnormally heated, the thermal fuse of the thermal fuse assembly is broken and the operation of the defrost heater is stopped.

3, the thermal fuse assembly is formed such that lead wires L are connected to both ends of a thermal fuse F, and the thermal fuse F prevents a component from being damaged due to moisture infiltration The lead wires L exposed to the outside of the sealed tube T are covered with a covering tube P so that the lead wires are damaged by the heat radiating plate or the like, Or disconnection.

The manufacturing process of the thermal fuse assembly is such that a sealed tube T is covered with a thermal fuse F to which lead wires L are connected at both ends and then both ends of the sealed tube T are thermally fused, And receives the thermal fuse F in the sealed tube T in the state.

Thereafter, the sealed tube T and the cover tube P separately made are respectively overlaid on each lead wire L drawn out from the sealed tube T accommodating the thermal fuse F, respectively.

However, since the thermal fuse assembly manufactured through such a process requires the manufacture and installation of a sealed tube and a cover tube, an increase in the number of parts and a complicated assembling process result in an increase in manufacturing costs.

In addition, since the cover tube wrapped around each lead wire drawn out from the closed tube does not form a state fixed to the lead wire, the lead tube can not be safely protected due to deviation from the correct position during assembly or use.

The object of the present invention, which is devised to overcome the above problems, is to integrally form a hermetically sealed chamber which fuses a single protective tube locally and receives the thermal fuse in a hermetic structure by a single protective tube, and a cladding portion covering the surface of the lead wire ,

The present invention provides a thermal fuse assembly for a defrost system, which reduces the number of parts and simplifies the process, thereby reducing the manufacturing costs associated with the manufacture, and securing an improved electrical stability by forming a secure covering state of the lead wires.

The above-mentioned object is achieved by the following arrangement provided in the present invention.

A thermal fuse assembly for a defrost system, which is simplified in structure according to the present invention,

A line-shaped fuse circuit part having lead wires connected to an input terminal and an output terminal formed in the thermal fuse; And a protection tube accommodating the line-shaped fuse circuit portion in the hollow portion,

A sealing portion is formed on both sides of the protection tube accommodating the thermal fuse,
Wherein the protective tube is integrally formed on both sides of the hermetically sealed chamber for housing the thermal fuse in an airtight structure,
And the line-shaped fuse circuit portions connected to the lead wires at both ends of the thermal fuse are collectively accommodated by one protective tube.

Preferably, the protective tube is formed by forming a sealing portion on both sides of a thermal fuse through high frequency welding to define a hermetic chamber for housing the thermal fuse in an airtight structure and a closure portion surrounding the surface of the lead wire.

More preferably, the protective tube is made of a thermoplastic material, and an insulating film of a thermoplastic material forming the surface of the lead wire is formed so that the protective tube forms a seal portion by thermally welding to the insulating film on the surface of the lead wire So that the protective tube is fixed to the insulating film of the lead wire through the sealing portion.

As described above, in the present invention, a single protective tube is fused locally so that a hermetically sealed chamber for housing a thermal fuse in a hermetic structure by a single protective tube and a cladding portion for covering the surface of the lead wire are integrally formed.

Accordingly, the present invention can eliminate the cumbersome manufacturing process of fusing both ends of a sealed tube wrapped with a conventional thermal fuse to receive a thermal fuse through a sealed tube in an airtight structure and inserting a separate coated tube into a lead wire drawn from the sealed tube Therefore, it is expected that the manufacturing cost and the productivity can be improved by simplifying the components and the process.

Particularly, the protective tube forming the hermetically sealed chamber and the cladding tube portion is fused to the insulating film formed on the lead wire, so that the cladding tube wrapping the lead wire is prevented from being detached from the lead wire. Therefore, the lead wire always forms a secure covering state through the cladding portion formed on the protective tube .

FIG. 1A shows an entire configuration of a thermal fuse assembly for a defrost system in which the structure proposed in the present invention as a preferred embodiment has been simplified. FIG. 1B is an enlarged view of a cross- ,
2 is a view showing a manufacturing process of a thermal fuse assembly for a defrost system in which the structure proposed in the present invention as a preferred embodiment is simplified,
3 shows the entire configuration of a conventional thermal fuse assembly for a defrost system.

Hereinafter, a thermal fuse assembly for a defrost system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1A shows an entire configuration of a thermal fuse assembly for a defrost system in which the structure proposed in the present invention as a preferred embodiment is simplified. FIG. 1B is an enlarged view of a cross- ,

FIG. 2 shows a manufacturing process of a thermal fuse assembly for a defrost system in which the structure proposed in the present invention as a preferred embodiment is simplified.

The thermal fuse assembly 1 for a defrost system proposed in the preferred embodiment of the present invention is arranged in the defrost heater of the defrost system and when the defrost heater is overheated. The thermal fuse 10 is disconnected by the superheated heat to cut off the current supply to the defrost heater which is overheated.

1 and 2, the thermal fuse assembly 1 for a defrosting system includes a lead wire 12 and a lead wire 12 'connected to an input terminal 11a and an output terminal 11b formed in the thermal fuse 11, The fuse circuit portion 10 of FIG.

The lead wires 12 and 12 'connected to the input terminal 11a and the output terminal 11b of the thermal fuse 11 are electrically connected to the output terminal 11b of the thermal fuse 11. The thermal fuse 11 is a known one that disconnects the defrosting circuit by abnormal overheating of the defrost heater, And an insulating coating 12b made of a thermoplastic material is formed on the surface of the wire 12a.

The present embodiment further includes a protective tube 20 for collectively accommodating the line-shaped fuse circuit portions 10 connected to the lead wires 12 and 12 'at both ends of the thermal fuse 11, The thermal fuse 11 and the lead wires 12 and 12 'constituting the heat exchanger 10 are collectively accommodated by one protective tube 20. [

The protection tube 20 for collectively accommodating the fuse circuit portions 10 on the line is made of a hollow tube made of a thermoplastic material having insulation and flexibility.

The sealing portion 23 is formed on both sides of the protection tube 20 accommodating the line-shaped fuse circuit portion 10 and the protection tube 20 accommodating the linear fuse circuit portion 10 is provided with a temperature A hermetically sealed chamber 21 for accommodating the fuse 11 in an airtight structure and a clad pipe portion 22 for enclosing the surfaces of the lead wires 12 and 12 'drawn out from the hermetically sealed chamber 21 are integrally formed.

[0031] To describe the manufacturing process of the thermal fuse assembly 1 for such a defrosting system,

2A, the lead wires 12 and 12 'are connected to the input terminal 11a and the output terminal 11b of the thermal fuse 11 so as to form the fuse circuit portion 10 on the line, The line-shaped fuse circuit portion 10 connected to the lead wires 12 and 12 'at both ends enters the hollow portion formed in the line-shaped protection tube 20 and accommodates it.

2B and 2C, the operator seals one point of the protection tube 20 formed on both sides of the thermal fuse 11 to seal the thermal fuse 11 on the protection tube 20 in a hermetic manner And the cover tube portion 22 surrounding the surfaces of the lead wires 12 and 12 'is formed to be partitioned by the sealing portion 23. [

At this time, the sealing portion 23 partitioning the airtight chamber 21 and the cladding portion 22 can be formed by injecting a sealant such as silicon, epoxy or the like into the hollow portion of the protective tube.

In this embodiment, however, both sides of the protective tube 20 accommodating the thermal fuse 11 are fused to each other through the high-frequency fusing device W so that high-frequency fusion welding is performed on both sides of the protective tube 20 accommodating the thermal fuse 11. [ Thereby forming the sealing portion 23.

At this time, both the insulating film 12b of the thermoplastic material forming the surfaces of the lead wires 12 and 12 'and the protective tube 20 which is welded to the high frequency are kept fixed to each other by high frequency welding.

Thus, in the thermal fuse assembly 1 for a defrosting system according to the present invention, the cladding portion 22 wrapping the surfaces of the lead wires 12 and 12 'is detached from the fixed position during assembly or use, Can be prevented.

1. Thermal fuse assembly for defrost system
10. Line fuse circuitry 11. Thermal fuse
11a. Input stage 11b. Output stage
12, 12 '. Lead wire 12a. Conductive line
12b. Insulating film
20. Protection tube 21. Closed chamber
22. Cladding section 23. Seam section
W. High frequency welding machine

Claims (3)

A linear fuse circuit part having leads connected to an input end and an output end formed in the thermal fuse; and a protection tube for accommodating the linear fuse circuit part in the hollow part,
A sealing portion is formed on both sides of the protection tube accommodating the thermal fuse,
Wherein the protective tube is integrally formed on both sides of a hermetically sealed chamber for accommodating the thermal fuse in an airtight structure, and a cladding tube portion surrounding the entire surface except the distal end of the lead wire,
And a plurality of linear fuse circuit units connected to the lead wires at both ends of the thermal fuse are collectively accommodated by a single protective tube, thereby simplifying the structure of the thermal fuse assembly. [2] The apparatus according to claim 1, wherein the protection tube is formed by forming a sealing portion on both sides of the thermal fuse through high frequency welding to define a hermetic sealing chamber for accommodating the thermal fuse in a hermetic structure and a closure portion surrounding the surface of the lead wire. The thermal fuse assembly for a defrost system. 2. The semiconductor device according to claim 1, wherein the protective tube is made of a thermoplastic material, and an insulating film of a thermoplastic material is formed to form a surface of the lead wire,
Wherein the protection tube is configured to form a fused insulation film on the surface of the lead wire.

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