KR200157118Y1 - A sealing device of a heater for a refrigerator - Google Patents

Abstract

The present invention relates to a sealing device of the defroster for refrigerators, wherein both ends of the glass tube (33) surrounding the outer circumference of the heater (31) to prevent immersion of the heater (31) are the inner peripheral surface of the insertion groove (43) of the tube (41). It is fixed while being pressed by the outer circumferential surface of the pressing table 44 and the double sealing of the glass tube 33 and the tube 41 is made, while the pressing table 44 is supported by the inner peripheral surface of the glass tube 33 inside As the outer circumference of the electric wire 32 penetrates into, the sealing efficiency of the glass tube 33 and the tube 41 is improved, as well as the sealing efficiency of the electric wire 32 and the tube 41 is improved. .

Description

Refrigerator Defroster Sealing Device

The present invention relates to a refrigerator defroster, and more particularly, to a refrigerator defroster sealing device formed in a tube mounted on both sides of the glass tube to seal a heater installed inside the glass tube from water such as defrost water.

In general, a refrigerator stores food at a low temperature by cooling an air temperature in a predetermined space by using a heat exchange action of a refrigerant circulated while being compressed and expanded.

Here, as shown in FIG. 4, the general refrigerator includes a freezing compartment 11 partitioned into a predetermined space such as a box shape such that the received food is frozen, and a predetermined space so that the received food is refrigerated while being in close contact with the freezing compartment 11. Comparted refrigerating chamber 12, the compressor 13 is provided for the compression and expansion circulation of the refrigerant, the condenser 14 and the cooler (16).

In addition, the refrigerant is compressed at a high temperature and high pressure in the compressor 13 installed at the bottom of the refrigerator, and the refrigerant compressed by the compressor 13 flows through the condenser 14 attached to the outside rear side of the refrigerator, Cooled to room temperature, the refrigerant cooled in the condenser 14 flows into the cooler 16 to take in the surrounding heat and expands to cool the air around the cooler 16.

In addition, the air cooled around the cooler 16 is blown into the freezer compartment 11 and the refrigerating compartment 12 by the blowing action of the fan 15 installed at the rear of the cooler 16.

On the other hand, the cooler 16 is plate-shaped and attached to the pipe bent in a plurality of parts so that the refrigerant flows in a certain space, and the heat exchange efficiency of the heat transmitted from the tube in close contact with the outer surface of the tube is attached It consists of the heat radiation fins to form a rectangular box shape.

In addition, the cooler 16 is cooled to a lower temperature than the ambient air according to the temperature of the refrigerant flowing therein, and the moisture contained in the food or water contained in the freezing chamber 11 and the refrigerating chamber 12. In contact with the outer surface of the cooler 16 is instantaneously cooled to form frost on the outer surface of the cooler 16.

In addition, the frost is in close contact with the outer surface of the cooler 16 is blocked the contact of the surface of the cooler 16 of the air, the contact with the cooler 16 and the air is blocked, flows into the interior of the cooler 6 The heat transfer efficiency of the refrigerant to be lowered.

Therefore, the defroster 21 as shown in FIG. 3 is installed in the cooler 16 of the refrigerator so that the frost can be removed. The defroster 21 is a heater that generates heat by applying current. The use of (31) is common.

Here, the heater 31 is wrapped in a quartz or iron plate on the outside of the winding having a constant resistance, the heat of the electric wire generated by the electric current is transmitted to the outside.

In addition, outside the heater 31, a glass tube 33 having a cylindrical shape is mounted along the shape of the heater 31, and defrost water generated when the frost is melted is in contact with the heater 31 through which current is supplied. Do not

The glass tube 33 is made of a material such as glass or quartz that is capable of heat transfer so that resistance heat generated from the heater 31 is transmitted to the outside and is less deformed by heat change, and a resin having low thermal fatigue rate as necessary. Of course, a material or a vinyl tube can be used.

In addition, a resin tube 41 is installed at both sides of the glass tube 33 to enclose both openings of the glass tube 33 having a hollow shape therein.

And, the inner surface of the tube 41 is formed in a cylindrical shape inwardly recessed to form a recess groove 143 so that the glass tube 33 is inserted, and the heater 31 inserted into the glass tube 33 and The winding groove 142 is formed to reach the outside of the tube 41 from the end of the mounting groove 143 so that the connected wire 32 is connected to the outside.

Therefore, the cylindrical heater 31 in which the electric wire 32 is connected to the both ends is inserted into the glass tube 33 of a circular tube shape, and the tube 41 is fitted in the both opening surface of this glass tube 33.

At this time, the end of the glass tube 33 is inserted into the seating groove 143 of the tube 41, the electric wire 32 connected to the heater 31 installed inside the glass tube 33 of the tube 41 It is connected to the outside through the wire hole 142.

However, as described above, as both ends of the glass tube 33 is inserted into the seating groove 143 of the tube 41 and the glass tube 33 is blocked from the outside, the inner peripheral surface and the glass tube 33 of the seating groove 143. Water of the defrost water, in which the frost of the cooler 16 is melted, is penetrated into the inside of the glass tube 33, and the joint surface of the wire 32 and the wire hole 142 is also formed. As a minute gap is formed, water in the defrosting water penetrates into the glass tube by a capillary phenomenon, and the water comes into contact with the heater 31, causing an electric leakage lamp accident.

Therefore, the present invention has been devised to solve the above problems, the tube formed with pressing means on both sides of the opening of the glass tube to surround the outer circumferential surface of the heater and isolated from the outside, the junction of the glass tube and the junction of the electric wire According to the present invention, there is provided a sealing device for a refrigerator defroster in which a sealing efficiency is improved by being mutually pressed and supported.

The present invention for achieving the above object is, in the sealing device of the defroster for the refrigerator in which the tube is inserted into both openings of the glass tube into which the heater is inserted, the glass tube to be inserted into the insertion groove of the tube recessed so that the glass tube is fitted. While pressing the inner circumference to the outside, the tube, the glass tube, and the electric wire are in close contact with each other by pressing means for pressing the outer circumference of the wire inserted into the wire hole of the tube while being connected to the heater.

1 is an exploded perspective view of the defroster according to the present invention.

2 is a cross-sectional view of the sealing portion of the defrosting glass tube according to the present invention.

3 is a cross-sectional view of a sealing portion of a conventional defrosting glass tube.

4 is a block diagram of a general refrigerator.

* Explanation of symbols for main parts of the drawings

11: freezer 12: cold storage room

13: compressor 14: condenser

15 fan 16: cooler

21: defroster 31: heater

32: electric wire 33: glass tube

41 tube 42 wire hole

43: insertion groove 44: pressure bar

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

In addition, while the same reference numerals are denoted in the same parts as in FIG. 3 showing the conventional shape, detailed description thereof will be omitted.

According to the present invention, a tube 41 provided with pressing means is mounted at both sides of the glass tube 33 of the defroster 21.

1 is a part of the refrigerator cooler 16 in which the defroster 21 is installed according to the present invention, and the refrigerant compressed and cooled in the compressor 13 and the condenser 14 is heat-exchanged with the surrounding air. The defroster 21 is installed at the center of the lower end of the rectangular plate-shaped cooler 16.

Here, the cooler 16 is a rectangular box formed of a refrigerant flow tube bent in a plurality of portions to allow the refrigerant to flow, and heat dissipation fins adhered to the outer surface of the refrigerant flow tube to facilitate heat exchange between the refrigerant and the refrigerant flow tube and the surrounding air. To form.

In addition, the defroster 21 surrounds the heater 31 that generates heat according to the current flow, the electric wire 32 connected to apply the external power to the heater 31, and the outside of the heater 31. It consists of the glass tube 33 and the tube 41 which covers the opening part on both sides of this glass tube 33. As shown in FIG.

The heater 31 is formed of a coil or a wire that is bonded with an insulator in response to an electric current flow, and has a cylindrical shape having a predetermined length along the length of the cooler 16.

In addition, the wire 32 extends outward from both side ends of the heater 31 and is connected to an external wire.

In addition, the glass tube 33 forms a circular tube shape so as to surround the outer circumferential surface of the heater 31, and is capable of external transmission of resistance heat generated from the heater 31 while reducing deformation due to heat, such as glass, quartz, and resin. It is molded of a material and is opened on both sides to allow insertion and discharge of the heater 31 and the electric wire 32.

In addition, the tube 41 is formed in a circular plate shape so as to cover one side of the opening surface of the glass tube 33, and is provided with a fixing portion protruding to form a rod shape toward the outside for installation in the refrigerator of the defroster 21.

In addition, the tube 41 is molded of a resin material or a vinyl material so as to be in close contact with the opening face of the glass tube 33, and as shown in FIG. 2 showing a cross section of the tube 41, the electric wire 32 ) Is inserted into a wire hole 42 into which the glass tube 33 is inserted, the insertion groove 43 into which the glass tube 33 is inserted, and pressing means for transmitting the pressing force in both directions by the glass tube 33 and the electric wire 32 to be inserted.

In addition, the wire hole 42 is a tube 41 at the inner center of the tube 41 so that the wire 32 connected to the heater 31 located inside the tube 41 protrudes out of the tube 41. It passes through the same shape as the outer circumferential shape of the electric wire 32 so as to reach the outer side of the wire.

In addition, the insertion groove 43 has the same cylindrical shape as the outer circumference of the glass tube 33 inward from the inner surface of the tube 41 so that the end of the glass tube 33 is inserted, and the outer circumferential surface of the inserted glass tube 33 is in close contact. To be engulfed.

On the other hand, the pressing means is the insertion groove 43, the wire hole 42, the glass tube 33 inserted into the insertion groove 43, and the electric wire 32 inserted into the wire hole 42 is mutually pressed While being configured to be in close contact, the pressure bar 44 is in communication with the wire hole 42 so as to protrude outward from the center portion of the insertion groove 43 so that the wire 32 is used as a medium.

Here, the pressing table 44 is formed in a circular pipe shape in the direction of the open surface of the insertion groove 43 in the inner surface of the insertion groove 43, as shown in Figures 1 and 2 protrude a certain width The wire hole communicating with the wire hole 42 penetrates a central portion thereof.

In addition, the pressing member 44 has a predetermined thickness so as to be in close contact with the inner circumferential surface of the glass tube 33 inserted into the insertion groove 43, the tip portion is chamfered, and the tip of the glass tube 33 is slipped and inserted. .

Next will be described the assembly process, operation and effect of the present invention configured as described above.

The heater 31 which generates heat according to the energization of the electric current is inserted into the inside of one side of the glass tube 33, and is connected to an external power source at both ends of the heater 31 inserted into the glass tube 33. 32 is discharged, and the tube 41 is joined to both ends of the glass tube 33 while penetrating the electric wire 32.

Both ends of the glass tube 33 are inserted into the pair of tube 41 insertion grooves 43, and the wires 32 are inserted into the wire holes 42 of the tube 41 and the pressing member 44 to be external. Leads to.

At this time, the outer peripheral portion of both ends of the glass tube 33 is in close contact with the inner peripheral surface of the insertion groove 43 of the tube 41, and the outer peripheral portion of the pressing table 44 is in close contact with the inner peripheral surface of the glass tube 33, the glass tube 33 It is inserted into this insertion groove 43.

In addition, while the wire 32 is inserted into the inside of the wire hole 42 formed in the pressing member 44, the pressing member 44 is opened to the outside, the pressing member 44 is opened to the outside to expand the outer diameter The outer circumferential surface of pressurizes the inner circumferential surface of the glass tube 33 to the outside, and pressurizes the inner circumferential surface of the wire hole 42.

Accordingly, the end of the glass tube 33 is pressed and pressed by the inner circumferential surface of the insertion groove 43 and the outer circumferential surface of the pressing table 44, and on the contrary, of the pressing table 44 pressed by the inner circumferential surface of the glass tube 33. The outer circumference of the electric wire 32 is pressed by the inner circumferential surface and is in close contact.

In addition, the water oozing from the outside in close contact with the inner circumferential surface of the insertion groove 43 and the outer circumferential surface of the glass tube 33 is blocked first, and at the close contact of the inner circumferential surface of the glass tube 33 and the outer circumferential surface of the pressing table 44. The water is blocked secondly to create a double seal against water seeping from the outside.

As described above, according to the present invention, water, such as defrost water, is double-blocked by the tube, the glass tube inserted into the tube, and the pressure bar, thereby improving sealing efficiency, and the glass tube and the electric wire are inserted into the tube. And, while being pressed against each other by the pressure bar has an effect that the sealing rate is improved.

Claims (3)

In the sealing device for a defroster for a refrigerator in which a tube is inserted into openings at both sides of a glass tube into which a heater is inserted, the inner circumference of the glass tube inserted into the insertion groove recessed in the tube is pressed outwardly so as to fit the glass tube to the outside. The defrosting device of the refrigerator according to claim 1, wherein the tube, the glass tube, and the wire are pressed against each other by pressing means for pressing the outer circumference of the wire inserted into the wire hole of the tube. The method according to claim 1, wherein the pressing means presses the inner circumferential surface of the glass tube supported by the inner circumferential surface of the insertion groove to the outside, and is pressed against the inner circumference of the glass tube to press the outer circumference of the electric wire. Sealing apparatus of the defroster for a refrigerator, characterized in that it comprises a pressure bar provided. The refrigerator according to claim 1, wherein the pressure bar protrudes outward from an inner surface of the insertion groove so as to surround the outer circumference of the electric wire passing through the wire hole of the tube and is in close contact with the inner circumference of the glass tube inserted into the insertion groove. Sealing device of the solvent defroster.