KR200340302Y1 - Metal Sheath Heaters for Refrigerators - Google Patents

Abstract

The present invention relates to a metal sheath heater for a refrigerator, and the silicone sealant that seals the end of the conventional metal sheath heater has a cell structure, and thus has air permeability. Accordingly, the expansion and contraction of the heater due to periodic heating and cooling of the heater is repeated. As a result of this, a part of the moisture penetrates into the magnesium oxide powder that insulates the heater through the breathable silicone sealant. The magnesium oxide powder, which has excellent hygroscopicity, continuously contains moisture, thereby insulating between the outer pipe, the heating element, and the lead pin. There was a fatal problem that caused weakening and worsening short circuit.

The present invention fills the front side of the silicone sealant with the same width as that of the silicone sealant and uses it as an insulating material by filling a sealer with a glass component that does not have air permeability as the moisture proof material to prevent moisture on both ends of the outer pipe of the metal sheath heater. Even if it is used for a long time in a humid environment, it is designed to completely block external moisture from invading into the metal sheath heater and to eliminate the possibility of insulation weakening or short circuit caused by moisture absorption. .

Description

Metal Sheath Heater for Refrigerator

The present invention relates to a metal sheath heater for a refrigerator. More specifically, after filling magnesium oxide powder in a pipe of a metal sheath heater to which a lead wire is connected, a silicon tube is inserted into the lead pin and a silicone sealant is connected to the lead wire. The present invention relates to a metal sheath heater for a refrigerator, by which a heat shrink tube is attached to completely block the inside of the metal sheath heater from the outside of the moisture atmosphere to prevent electrical insulation of the heater due to moisture absorption.

As is well known, the refrigerator supplies cold air obtained by repeatedly circulating a refrigerant along a predetermined cooling cycle to a freezing compartment or a refrigerating compartment to freeze or refrigerate stored foods stored in each refrigerator to keep the stored foods fresh for a long time. It is a home appliance that makes it possible.

During this series of cold air flows, the water vapor around the cooler reaches a saturation state due to the temperature difference between the cryogenic cold distributed around the cooler and the heat exchanged with the enclosures stored therein while circulating the inside of the cooler. When the water is above the dew point, the water vapor is no longer saturated in the air surrounding the cooler, and is condensed with dew on the surface of the cooler, and the dew is frosted by the low temperature of the cooler surface.

Therefore, when the refrigerator reaches a certain condition during operation (for example, the cumulative compressor operation time, the compressor operation cumulative compressor time, the compressor operation rate in 2 hours, the refrigerator door opening time, the outside air temperature, the error check by various sensors, etc.) The operation is temporarily terminated and the defrost heater installed under the cooler is operated to defrost the frost formed on the surface of the cooler.

A defrost heater is installed directly below the cooler for such a defrosting operation.

The defrost heater is generally a glass tube heater formed by embedding a heater as a heating element inside the glass tube, but it is likely to be easily damaged by the defrosting water to fall, so it must be provided with means for preventing the configuration is complicated and difficult to install There was a downside.

Recently, a metal sheath heater has been provided as part of overcoming the difficulties of the glass tube heater.

A representative form of the metal sheath heater has a structure in which a heating element is embedded in an outer pipe made of metal and the inside of the outer pipe is filled with magnesium oxide for electrical insulation between the outer pipe and the heating element.

That is, as shown in Figure 1, the metal sheath heater has a coil-like heating element 12 is built in the inner center of the outer pipe 10 made of metal, and both ends of the heating element 12 are made of stainless steel lead pins ( 14 is connected to the magnesium oxide powder 16 in the inner space of the outer pipe 10 for electrical insulation between the outer pipe 10 and the heating element 12 and the lead pin 14 located therein. It is made up of a filled structure.

In addition, since the magnesium oxide powder 16 is a material having a very high hygroscopicity, when used in a wet atmosphere, the end portion of the exterior pipe 10 must be sealed after moisture proof treatment. In addition, when the refrigerator is used for defrosting, moisture-proof treatment of the portion where the outer end portion of the lead pin 14 and the lead wire 22 are connected is essential as moisture exists.

To this end, conventionally, the magnesium oxide powder 16 filled in the end side of the outer pipe 10 is dug up to a predetermined depth and then filled with a silicone sealant 18 in place and the end of the lead pin 14 is closed. It protrudes to the outside and is connected to one side of the connection terminal 20, and the other end of the connection terminal 20 is connected to the lead wire 22, which is an external power supply line, and then sealed by inserting a heat shrink tube 24 surrounding the portion. Doing.

However, since the silicone sealant 18 is made of a cell structure, the silicone sealant 18 has breathability. Accordingly, even though the sealant is maximized through the heat shrink tube 24, the moisture is continuously generated due to periodic heating and cooling of the metal heater. Contact with, ie, expansion and contraction repeatedly, part of the moisture is penetrated through the breathable silicon sealant 18 to the magnesium oxide powder 16 side, and the magnesium oxide powder 16 having excellent hygroscopicity is maintained. It will contain moisture.

Therefore, the insulation pipe 10 and the heat generating element 12 and the lead pin 14 causes a weakening of the insulation and if there is a fatal problem that a short circuit occurs.

The present invention has been made in view of the above-mentioned problems of the prior art, and is designed to solve this problem. The sealer having a glass component, which does not have breathability as a moisture proof material, is the same width as that of the silicone sealant for moisture proof of both ends of the outer pipe of the metal sheath heater. By filling the front side of the silicone sealant and using it as an insulating material, even if the metal sheath heater is used for a long time in a wet atmosphere, it can completely block external moisture from entering the metal sheath heater. It is an object of the present invention to provide a metal sheath heater for a refrigerator that can eliminate the weakening of the insulation and the possibility of leakage.

This object of the present invention is a coil-like heating element is built in the inner center of the metal outer pipe, stainless steel lead pins are connected to both ends of the heat sink, the heating element and the lead located inside the outer pipe Magnesium oxide powder is filled in the inner space of the outer pipe for electrical insulation between the fins, the magnesium oxide powder filled in the end side of the outer pipe is dug up to a predetermined depth, and a silicone sealant is filled therein. A metal sheath heater for refrigerators formed by sealing an end portion by protruding outwardly of the silicone sealant and connected to one side of the connection terminal, and connecting the lead wire, which is an external power supply line, to the other side of the connection terminal, and then sealing the portion by a heat shrink tube covering the portion. The length of the length of the heat shrink tube is pressed into one end of the outer pipe A half-filled sealer made of non-breathable glass powder is filled in the front surface of the silicone sealant, penetrated into the sealer and the silicone sealant, and a lead pin outer periphery of a length extending from the inner end of the sealer to one end of the connection terminal. It is achieved by the silicon tube is formed in close contact.

1 is a cross-sectional view showing an example of a metal sheath heater for a refrigerator according to the prior art,

2 is a cross-sectional view showing a metal sheath heater for a refrigerator according to a first embodiment of the present invention;

3 is a cross-sectional view showing a metal sheath heater for a refrigerator according to a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: outer pipe, 12: heating element,

14: lead pin, 16: magnesium oxide powder,

18: silicone sealant, 20: connection terminal,

22: lead wire, 24: heat shrink tube,

26 silicon tube, 28 sealer,

30: sealing compound.

Hereinafter, a specific embodiment according to the present invention will be described in detail by way of example based on the accompanying drawings.

[First Embodiment]

2 is a cross-sectional view showing a metal sheath heater for a refrigerator according to a first embodiment of the present invention.

As shown in the figure, a coil-like heating element 12 is built in the inner center of the metal outer pipe 10, and lead pins 14 made of stainless steel are connected to both ends of the heat sink 12, and the outer pipe Metal sheath heater having a form in which magnesium oxide powder 16 is filled in the inner space of the outer pipe 10 for electrical insulation between the heating element 12 and the lead pin 14 positioned therein. Are the same as before, and the same reference numerals are given to these components.

Then, at the end side of the outer pipe 10, the magnesium oxide powder 16 filled therein is excavated to a certain depth, and then the sealer 28 and the silicone sealant 18 are filled in the same ratio.

In addition, before the sealer 28 and the silicone sealant 18 are filled, the outer circumferential surface of the lead pin 14 is sealed with the silicon tube 26 by a predetermined length.

As such, sealing the outer circumferential surface of the lead pin 14 by a predetermined length completely blocks any moisture absorption through any gap between the lead pin 14 and the sealer 28 and the silicone sealant 18. To do this.

The sealer 28 is preferably filled with glass powder such as lead silicate extracted from a mixture of lead oxide and silica sand used as a raw material for frit glass.

In addition, the sealer 28 and the silicone sealant 18 are filled with equal widths, and the length of the heat-shrink tube 24 to be described below, which is press-fitted into one end of the outer pipe 10, is 2 l. In this case, the sealer 28 is first filled by l and connected to the rear thereof so that the silicon sealant 18 is filled by l having the same length.

Meanwhile, an end portion of the lead pin 14 penetrates through the sealer 28 and the silicone sealant 18 and protrudes outside the outer pipe 10, and the protruding portion thereof is connected to one side of the connection terminal 20.

The other end of the outer pipe 10 is completely sealed by connecting the lead wire 22, which is an external power supply line, to the other side of the connection terminal 20 and inserting a heat shrink tube 24 surrounding the portion.

Therefore, even if some moisture penetrates through the breathable silicone sealant 18, it is no longer able to penetrate into the part completely sealed by the silicone tube 26 and the sealer 28.

In addition, since the sealer 28 has a very high heat resistance, there is no deformation due to expansion and contraction due to the heat generation and cooling of the metal sheath heater, so that no change in the sealing force is maintained, thereby maintaining the complete sealing performance at all times.

Second Embodiment

3 is a cross-sectional view showing a metal sheath heater for a refrigerator according to a second embodiment of the present invention.

As shown in the figure, a coil-like heating element 12 is built in the inner center of the metal outer pipe 10, and lead pins 14 made of stainless steel are connected to both ends of the heat sink 12, and the outer pipe Metal sheath heater having a form in which magnesium oxide powder 16 is filled in the inner space of the outer pipe 10 for electrical insulation between the heating element 12 and the lead pin 14 positioned therein. Is formed in the same manner as in the first embodiment.

Then, the magnesium oxide powder 16, which is filled in the end side of the outer pipe 10, is dug up to a predetermined depth, and then the sealing compound 30 is filled in its place, and the end of the lead pin 14 protrudes outward to the connection terminal. 20 is connected to one side of the connection terminal 20, and the other end of the connection terminal 20 is connected to a lead wire 22, which is an external power supply line, and then sealed by inserting a heat shrink tube 24 surrounding the portion.

The sealing compound 30 is made of silicon (Si), which is intended to exclude the air permeability of the conventional silicone sealant.

In addition, before the sealing compound 30 is filled, the outer circumferential surface of the lead pin 14 is sealed with the silicon tube 26 by a predetermined length.

As described above, sealing the outer circumferential surface of the lead pin 14 by a predetermined length is performed to close the gap between the lead pin 14 and the sealer 28 and the silicone sealant 18 in the same manner as in the first embodiment. This is to completely block the hygroscopic action through the hair.

As described in detail above, the present invention fills the front side of the silicone sealant with the same width as that of the silicone sealant with a sealer having a glass component that is not breathable as a moisture proof material for preventing moisture at both ends of the outer pipe of the metal sheath heater. Even if the metal sheath heater is used for a long time in a wet atmosphere, it can completely block outside moisture from penetrating into the metal sheath heater, and as a result, there is a risk of insulation weakening or short circuit caused by moisture absorption. Provides the effect of exclusion.

Claims (1)

A coil-like heating element 12 is built in the inner center of the metal outer pipe 10, and lead pins 14 made of stainless steel are connected to both ends of the heating element 12, and the outer pipe 10 is connected to the outer pipe 10. Magnesium oxide powder 16 is filled in the inner space of the outer pipe 10 for electrical insulation between the heating element 12 and the lead pin 14 located therein, and the end side of the outer pipe 10 After filling the magnesium oxide powder 16 filled in a predetermined depth, the silicon sealant 18 is filled in place, and the end of the lead pin 14 protrudes outward of the silicon sealant 18 so that the connection terminal 20 is formed. In the metal sheath heater for refrigerator, which is connected to one side of the connecting terminal 20 and the lead wire 22 which is an external power supply line is connected to the other side of the connecting terminal 20 and is sealed by interposing a heat shrink tube 24 surrounding the portion. The heat seal tube 24 is filled with a sealer 28 made of glass powder to prevent air passage on the front surface of the silicon sealant 18 by half the length of the length of the outer pipe 10 is pressed into one end, The silicon tube 26 is inserted into the sealer 28 and the silicone sealant 18 and is formed on the outer circumference of the lead pin 14 having a length extending from the inner end of the sealer 28 to one end of the connection terminal 20. The metal sheath heater for refrigerator, characterized in that is formed in close contact.