KR0163153B1 - Ceiling structure of refrigeration cold storage defrosting metal seize heater - Google Patents

Abstract

The present invention relates to a sealing structure of a metal sheath heater used for defrosting a freezer and a refrigerator. The present invention relates to a metal sheath heater made of a metal sheathed pipe filled with magnesium powder for electrical insulation from a coil and a coil heating wire and a lead fin at an inner center thereof. Heat-shrink with a non-breathable epoxy insulation at the end of the metal sheathed pipe to seal the joints of the metal sheath, primarily to damp-proof the metal sheath heater, while inserting an insulation tube on the lead pin and applying hot melt on it. It is a structure that prevents weakening of insulation due to light weight, shrinkage and moisture absorption of the metal sheath heater by blocking the connection part from the outside by covering the pipe.

Description

Sealing structure of metal sheath heater for defrosting and freezing refrigerator

1 is a longitudinal sectional view of a sealing structure of a conventional metal sheath heater.

2 is an enlarged view of the internal moisture proof structure of FIG.

Figure 3 is a longitudinal cross-sectional view of the sealing structure of an embodiment of a metal sheath heater of the present invention.

4 is an enlarged view of the internal moisture proof structure of FIG.

* Explanation of symbols for main parts of the drawings

1: metal sheath heater 2: metal outer pipe

3: heating wire 4: lead pin

5: magnesium powder 7: wire

8: Connection terminal 11: Epoxy insulation material

12: insulated tubing 13: hot melt

14: heat shrinkable tubing

The present invention relates to a sealing structure of a metal sheath heater (METAL SHEATH HEATER) used for defrosting a freezer and refrigerator. More specifically, the end of the metal sheath heater to which the lead wire is connected is filled with a non-breathable epoxy resin and leads. Insert an insulating tube into the fin and wrap it with a heat shrinkable tube with silicone sealant injected thereon to completely block the inside of the metal sheath heater's connection from the outside of the moisture atmosphere to prevent electrical insulation from weakening the heater. It relates to a sealing structure of a metal sheath heater for freezers and refrigerators.

Generally, defrosting heaters are installed in the refrigerator and refrigerator to prevent frost from being generated in the refrigerator. A typical type of such a heater includes a coil embedded in an outer pipe made of metal, and electrical insulation between the pipe and the coil. For this purpose, a metal sheath heater made by filling the inside of a pipe with magnesium oxide is known.

Looking at the sealing structure of such a conventional metal sheath heater through 1 and 2 as follows. FIG. 1 is a cross-sectional view illustrating a sealing structure of a conventional metal sheath heater, and FIG. 2 is a detailed view of an internal moisture proof structure of FIG. 1.

As shown, first, the metal sheath heat 1 has a metal sheath, that is, a coil-shaped heating wire 3 is built in the inner center of the metal sheath pipe 2 and lead pins are formed at both ends of the heating wire 3. (4) Magnesium oxide powder (5) in the interior space of the metal sheathed pipe (2) for electrical insulation between the metal sheathed pipe (2) and the heating wires (3) and lead fins (4) located therein. This filled structure is taken.

However, since the magnesium oxide powder 5 filled in the metal sheath pipe 2 for electrical insulation is a highly absorbent material, when used in a wet atmosphere, moistureproof treatment of the metal sheath pipe terminal part is required. have. In the case where the metal sheath heater is used for defrosting a freezer and a refrigerator, moisture resistance is required for the outer end portion of the lead pin and the lead wire connection portion due to the presence of moisture in the interior of the refrigerator.

In the moisture proof and waterproof structure of the lead pin 4 end and the lead wire 7 connection part used in the conventional metal sheath heater 1, the end side of the metal sheathed pipe 2 is filled as shown in FIG. A silicon sealant (SILICONE SEALANT) as a sealing material is filled in the site where the magnesium oxide powder 5 is excavated to a certain depth, and the moisture-proof treatment is performed primarily. Next, the ends of the lead pins 4 are connected to the connection terminals 8 coupled to the ends of the lead wires 7, and the outer ends of the rubber caps 9 are wrapped around the outside of the connection portions with the rubber caps 9. Sealing with the silicone sealants 10 and 10 'completes the moisture proof and waterproofing of the metal sheath heater connecting portion.

On the other hand, in the conventional metal sheath heater sealing structure, the silicone sealant 6 and the silicone sealant 10 for sealing both ends of the rubber cap 9 filled inside the end of the metal sheathed pipe 2 for moisture proof. ') Is breathable as it is composed of a cell structure. Accordingly, the external moisture passes through the breathable silicone sealant 6, 10, 10 'by repetitive heat generation of the metal sheath heater and breathing by cooling (that is, repeated expansion and contraction). As a result, infiltration occurs, and as a result, an increase in moisture penetrated into the interior causes a weakening of the insulation between the metal sheath pipe 2, the heating wire 3, and the lead fins 4, thereby causing leakage. It is likely to cause concern.

In addition, in order to reduce the size and weight of the metal sheath heater, it is necessary to keep the diameter of the metal sheath pipe 2 small first, but as shown in FIG. 2, when the diameter of the metal sheath pipe 2 is reduced. Since the distance d, which is the insulation creepage distance between the lead pin 4 and the metal outer pipe 2, which is conducted through electricity is reduced, it is difficult to reduce the weight and size since the risk of short circuit caused by surface tracking increases. This is following.

Therefore, in view of the above-mentioned problems with the conventional metal sheath heater sealing structure, the present invention uses a non-breathable epoxy as a sealing material to moisture-proof the metal outer pipe connecting portion, while the lead fin and the connecting terminal Insulation tubing is inserted in the outer side of the joint, and the outside is wrapped with a heat shrinkable tubing to improve the electrical insulation, and the metal sheath heater can be reduced in size and weight by securing the creepage distance between the lead pin and the metal sheathing pipe. It is an object of the invention to provide a sealing structure for a metal sheath heater for defrosting a refrigerator.

The present invention uses an epoxy insulating material that is not breathable as a moisture proof material for the moisture resistance of both ends of the metal sheathed pipe of the metal sheath heater even if used for a long time in the wet atmosphere to block moisture from entering the inside of the metal sheath heater to absorb moisture It is a technical feature to prevent the insulation weakening phenomenon by the.

Another technical feature of the present invention is to secure sufficient creepage distance between the lead pin and the metal sheathed pipe by inserting an insulating tube made of a silicone rubber tube having excellent electrical insulation to the lead pin and filling the insulating tube with an epoxy insulating material with a silicone sealant. It is to enable the reduction of weight and reduction of the metal sheath heater.

Another technical feature of the present invention is to cover the heat shrinkable tubing coated with a hot melt on the inner circumferential surface outside the connection portion between the lead pin and the connection terminal of the wire, so that the connecting portion through shrinkage of the heat shrinkable tubing and melting of the hot melt. In order to achieve a complete seal.

Detailed sealing structure, including the object and technical features of the present invention as described above will be clearly recognized through a detailed description with reference to the accompanying drawings showing an embodiment structure for the present invention below.

3 is a cross-sectional view showing an embodiment of the metal sheath heater sealing structure of the present invention, Figure 4 is a detailed view of the internal moisture-proof structure of the third.

As shown, magnesium powder between the metal sheath pipe 2 and the heating wire 3 is embedded in the inner center of the metal sheath pipe 2 with a coil-shaped heating wire 3 and a lead fin 4 connected thereto. (5) is filled and the structure of the metal sheath heater (1) formed by connecting the connection terminal 8 of the electric wire (7) to the end of the lead pin (4) is the same as in the prior art and with respect to these components The same reference numerals as in FIG. 2 are given.

In such a metal sheath heater (1), the sealing structure of the present invention, first, the magnesium oxide powder (5), which is filled in the inside of the metal sheath pipe (1) for the internal moisture of the metal sheath heater (1) from both ends. After digging by a certain depth (D) to inject the epoxy insulating material (11) by a certain thickness (D1) as a kitchen moisture in place to ensure the primary moisture-proof inside the metal sheath heater (1).

Next, after curing of the epoxy insulating material 11 is completed, as shown in FIG. 3, a silicone rubber insulating tube 12 is inserted into the lead pin 4, whereby the lead pin 4 and the metal outer pipe 2 Secure creepage distance (L) for electrical insulation between. Subsequently, by fixing the insulating tube 12 and injecting the silicone sealant 6 into the space D2 on the upper portion of the silicon insulating material 11, the moisture-proof treatment of the end portion of the metal outer pipe 2 is completed.

Next, a heat shrinkable tubing 14 having a hot melt 13 coated on the inner surface of the lid between the lead pin 4 and the connecting terminal 8 is heated, and the tube is heated at a constant temperature for a predetermined time so that the tubing is sufficiently contracted. This allows the heat-shrinkable tubing 14 to adhere to the outer circumferential surface around the connection portion.

At this time, the hot melt 13 applied on the inner surface of the heat-shrinkable tubing 14 becomes a liquid adhesive when heated to a high temperature, and when cooled, solidification is performed and adhesion to the surface to be bonded is performed. Simultaneously with the contraction of the heat shrinkable tubing 14, the hot melt 13 in the molten state is formed as shown in FIG. 3 of the electric wire 7, the connecting terminal 8, the insulating tube 11, and the metal outer pipe 2. The surface and heat-shrinkable tubing 14 are glued together to achieve a complete seal.

The present invention has the following effects by taking the sealing structure of the metal sheath heater as described above.

First of all, the present invention uses a non-breathable insulating epoxy as the moisture proof material so that the primary moisture-proofing inside the metal sheath heater is achieved. Moisture inside the refrigerator is prevented from entering the heater to prevent the risk of insulation weakening due to moisture absorption.

In addition, the present invention can secure sufficient creepage distance between the lead pin and the metal sheathing pipe by inserting an insulation tube on the lead fin and filling the insulation tube with the epoxy insulation with silicone sealant, thereby reducing the weight and size of the metal sheath heater. There is an effect that can be done.

In addition, the present invention improves the long-term reliability of the electrical insulation by completely blocking the connection between both ends of the lead wire and the metal sheath heater from the external moisture atmosphere by hot melt applied to the tub and the inner surface thereof.

Claims (2)

When the coiled heating wire 3 having the lead fins 4 at both ends is embedded in the inner center of the metal outer pipe 2, and the magnesium powder 5 for electrical insulation is filled therebetween, In the metal sheath heater, the end of which is connected to the connecting terminal 8 of the electric wire 7, in which the epoxy insulating material 11 is filled inside the end side of the metal outer pipe 2, and the lead pin 4 is insulated. While the (12) is close, the silicone sealant (6) is injected into the space between the upper portion of the epoxy insulation material (11) and the lead pin (4) inside the metal outer pipe (2) end side, and the metal outer pipe (2) end and the electric wire. A sealing structure for a metal sheath heater for freezing / freezer defrosting, characterized in that a heat-shrinkable tubing (14) is covered around the connection of (7). The heat shrinkable tubing 14 is a sealing structure of a metal sheath heater for freezing and refrigerator defrosting, characterized in that a hot melt 13 having a property of being melt-bonded to an adherend by heating is applied to an inner circumferential surface thereof. .