KR200283933Y1 - Defrost Heater Support for Refrigerator Evaporators - Google Patents

Abstract

The present invention relates to a defrost heater support that can easily mount a defrost heater to be installed in the refrigerator evaporator and improve its fixing force. According to the present invention, the defrost heater supporter 100 includes a refrigerant pipe through-hole 110 that can support the refrigerant pipe 150, and a heater mounting part 120 that can support the defrost heater 130. Doing. At least one side of the coolant pipe passage hole 110 or the heater mounting part 120 has flanges 111 and 128 having a predetermined height in a vertical direction with respect to the heater support 100.

Description

Defrost Heater Support for Refrigerator Evaporator

The present invention relates to a defrost heater support that is installed in an evaporator for a refrigerator, and more particularly, to a defrost heater support that can easily mount a defrost heater to an evaporator and improve its fastening force.

In general, the refrigerator is supplied with cold air that is heat-exchanged with the refrigerant passing through the evaporator installed in the freezer compartment to the freezer compartment and the refrigerating compartment to perform the cooling and refrigeration functions. Thus, the evaporator of the freezer compartment plays a key role in the cold air supply function of the refrigerator.

1 is a state diagram of a conventional installation of a defrost heater for an evaporator. Usually, the evaporator is installed in the rear surface heat exchange chamber of the freezing chamber, and as shown in the drawing, a plurality of refrigerant pipes 10 through which the refrigerant passes, and a plurality of refrigerant pipes 10 inserted on the refrigerant pipes 10 to improve the heat exchange efficiency of the refrigerant pipe 10. The pin 12 is included. And defrost heater 18 is installed around the evaporator to remove the frost attached, the evaporator and the defrost heater 18 is supported by the left / right holder (20, 30).

As described above, the evaporator has a coolant tube 10 through which a coolant passes, which is relatively low in temperature compared to the air inside the freezer compartment. Therefore, when high temperature, high humidity outside air or food is introduced into the freezer compartment, moisture adheres to the evaporator surface and freezes.

Thus, the castle attached to the surface of the evaporator has a problem of preventing the evaporator and the ambient air from heat exchange, thereby lowering the heat exchange efficiency and reducing the performance of the refrigerator.

In order to solve this problem, a defrost heater 18 is installed in the evaporator to remove frost generated on the evaporator surface. The defrost heater 18 used at this time, but there are various forms, the difficulty of installation and deformation after installation, etc. also becomes a problem.

Defrosting sheath heater (SHEATH HEATER) (18) that is installed in the U-shaped bottom and side of the evaporator also has a problem that the installation is cumbersome, deformed after installation to reduce the freezing function or increase the possibility of fire. Hereinafter, with reference to the drawings will be described in detail.

As shown in FIG. 1, the conventional evaporator to which the sheath heater 18 is attached is repeatedly installed with a refrigerant pipe 10 fitted with the evaporator pin 12 at regular intervals, being bent in a U shape at a predetermined length. . U-shaped heaters 18 are provided on the left / right side and the bottom of the evaporator, and both ends of the refrigerant pipe 10 and the heater 18 are supported by the left / right evaporator holders 20 and 30. .

The structure of the left and right evaporator holders 20 and 30 supporting the evaporator and the heater 18 will be described in detail with reference to FIGS. 2 and 3.

2A and 2B are side and front views of the right evaporator holder 20, and FIG. 3 is a detail view of the bottom of the right evaporator holder 20. As shown, the right evaporator holder 20 is formed with a pair of elliptical refrigerant pipe inserting holes 21 for inserting the ends of the bent refrigerant pipe 10, and a heater mounting part 22 fixing the heater at the lower end thereof. ) And a fixed piece 23 are provided.

The heater mounting portion 22 is formed in a circular shape so as to insert the heater 18 of the lower end of the evaporator, the fixing piece 23 is inserted into the heater 18 in the heater mounting portion 22 after the heater 18 ) And is bent to be perpendicular to the holder 20 in a rectangular thin plate shape.

4A and 4B are side and front views of the left evaporator holder 30, and FIG. 5 is a top detail view of the left evaporator holder 30. As shown in FIG. 4A, the left evaporator holder 30 may insert a heater mounting portion 36 for fixing the heater 18 and an upper portion and a refrigerant pipe 10 in which the heater evacuation groove 34 is formed. The coolant pipe insertion hole 31 is formed in the center and the lower portion is provided with the heater mounting portion 32, the fixing piece 33 and the heater evacuation groove (35).

Specifically, the upper heater mounting portion 36 is provided with a fixing piece to fix the upper end of the sheath heater 18, the heater evacuation groove 34 when the sheath heater 18 is installed when the sheath heater ( It functions to hold the upper left part of 18) easily and is molded in a ring structure.

In addition, a pair of coolant tube inserting holes 31 into which the end of the bent coolant tube 10 can be inserted is formed in the middle, and the lower part is bent at right angles to the right and at a right angle to the lower direction when viewed from the front ( 4b). So, the bottom of the left evaporator holder 30 is in contact with the heater 18, two places, the first contact of the evacuation groove 35 is inserted into which the heater 18 can be inserted, the second contact The bottom of the right evaporator holder 20 is provided with a heater mounting portion 32 and the fixing piece 33.

The problem of the conventional method will be described with reference to FIGS. 2 to 5 while describing a manufacturing procedure of the evaporator having the above structure.

First, the pins 12 are inserted at predetermined intervals on the coolant pipe 10, and then the left and right ends of the coolant pipe 10 in which the pins 12 are inserted are repeatedly bent in a U shape at a predetermined length. Then, both ends of the left and right bent U-shape of the refrigerant pipe 10 are inserted into the refrigerant pipe insertion holes 21 and 31 of the left and right evaporator holders 20 and 30. At this time, the fixing pieces 23, 33 of the heater mounting parts 22, 32, 36 at the lower ends of the left / right evaporator holders 20, 30 shown in FIG. 3 are not completely tightened, as shown in FIG. 2B. Only about 70 degrees are bent so that the heater 18 can be inserted.

Next, referring to the method of coupling the sheath heater 18 to the evaporator holder, first, the left part of the heater 18 is inserted into the heater evacuation groove 34 of the upper left evaporator holder 30 and the groove 35 to be inserted at the bottom thereof. . Then, the heater 18 is inserted into the heater mounting portion 32 of the lower end of the left evaporator holder 30 and the fixing piece 33 is completely tightened, and then the heater mounting portion of the right evaporator holder 30 passes through the lower end of the evaporator. Put in the (32) and tighten the fixing piece 33 completely, and finally tighten the fixing piece 36 of the upper left.

The conventional sheath heater fastening method as described above has difficulty in fastening and has problems such as deformation of a heater after fastening.

First, the problem when fastening the heater 18 to the evaporator will be described. In order to fasten the heater 18 to the evaporator, first, the heater mounting part when fixing the left / right evaporator holders 20 and 30 to the evaporator. The fixing pieces 23, 33 of (22, 32, 36) should not be completely tightened but should be partially opened to allow the heater 18 to be inserted into the mounting portions 22, 33. Then, when the heater 18 is mounted on the evaporator, the heater 18 is put into the upper heater mounting part 36 of the left evaporator holder 30 and the upper and lower evacuation grooves 34 and 35, and the left and right evaporator. The heater 18 is inserted into the lower heater mounting portions 22 and 32 of the holders 20 and 30, and the fixing pieces 23 and 33 are bent and fixed. Finally, the fixing piece 36 of the upper left evaporator holder 30 is fixed. Should be tightened).

As described above, in order to fasten the heater 18 to the evaporator, various operations must be performed, and when the heater 18 is inserted into the upper and lower heater mounting portions 22 and 32 of the left and right evaporator holders 20 and 30, the heater is There is not enough space for the 18 to be mounted, which makes it difficult to install the heater 18.

In addition, since the heater 18 is mounted to the left and right evaporator holders 20 and 30 together with the refrigerant pipe 10, the structure of the evaporator holder is complex, which causes a problem in that processing time and processing cost are high when the evaporator holder is manufactured.

Another problem with the conventional fastening method of the heater 18 is that deformation may occur in the heater 18 after mounting the heater 18. That is, the sheath heater 18 melts the frost inside the evaporator with the heat generated at this time as the surface of the heating part heater 18 rises to a high temperature, and water generated when the frost melts falls on the top of the heater 18. The temperature at the top of the heater 18 is lowered. Therefore, the surface temperature of the top and bottom of the heater 18 is different, so that the central portion of the heater 18 is bent upwards. Since the heater 18 is fixed only at both ends, such a deformation cannot be prevented and the heater 18 is bent. The bottom of the evaporator comes into contact with the fin 12 and the coating of the heater 18 and the fin 12 is peeled off.

In addition, since the heater 18 is fixed only at the left and right sides by the evaporator holder, the center portion of the heater 18 sags due to the weight of the heater 18, which is another cause of the deformation of the heater 18.

As described in the sheath heater 18 installation method, the right side (“ga”) portion of the heater 18 is fixed only by the heater 18 mounting portion 22 at the bottom of the right evaporator holder 20, unlike the left side. As a result, the left and right flow of the heater 18 cannot be prevented efficiently, so that the “lower” portion of the heater 18 shown in FIG. 1 comes into contact with the freezer compartment inner case. At this time, since the heater 18 is very high temperature, there is a safety problem, such as a fire may occur when contacting the inner case of the freezer compartment made of plastic.

The present invention is devised to solve the above problems, an object of the present invention is to provide a heater support that can easily mount the heater to the evaporator.

Another object of the present invention is to improve the fastening force of the evaporator and the heater to provide a heater support that can prevent the deformation of the heater and ensure the safety of the internal structure of the refrigerator.

1 is a state diagram of a conventional defrost heater installation.

Figures 2a, 2b is a side view and a front view of a conventional right evaporator holder.

3 is a detail view of portion A of FIG. 2;

4A and 4B are a side view and a front view of a conventional left evaporator holder.

FIG. 5 is a detail view of portion B of FIG. 4. FIG.

Figure 6 is a side view of the heater support for the evaporator according to the present invention.

FIG. 7 is a detail view of portion C of FIG. 6; FIG.

8 is a sectional view taken along the line D-D in FIG.

9 is an installation state of the defrost heater using a heater support according to the present invention.

10 is a cross-sectional view taken along the line E-E of FIG.

Explanation of symbols on the main parts of the drawings

10,150: refrigerant pipe 12,160: fin

18,130: Sheath heater 20,170: Right evaporator holder

30,170 ': Left evaporator holder 21,31: Refrigerant plate insertion hole

22, 32, 36: Holder heater mounting portion 23, 33, 174: Fixed piece

34,35,172: Heater evacuation groove 100: Heater support

110: heater passage hole 120: support heater mounting portion

122: entrance guide 124: guide

126: mounting portion 112,128: flange

In order to achieve the above object, the heater supporter according to the present invention is a refrigerant pipe passing hole for supporting a refrigerant pipe and a flange of a certain height is formed along the edge perpendicular to at least one surface; A heater mounting portion for supporting the heater, the flange being formed at a predetermined height along the edge of the horizontal opening and perpendicular to at least one surface thereof; One side of the defrost heater for the evaporator is configured to be fixed to the evaporator.

The refrigerant pipe through-hole is formed in a pair, the heater mounting portion is molded in a shape that one side is opened.

The heater mounting portion inlet guide portion inclined inward; A heater guide part communicating with the inlet guide part but smaller in diameter than the inlet guide part; The heater guide portion communicates with one another, but is larger in diameter than the heater guide portion and includes a circular heater seating portion.

According to the present invention, if the heater tube is installed in the heater mounting part after the refrigerant pipe passes through the refrigerant tube through-hole of the heater supporter at the central part of the evaporator with severe deformation of the heater, the heater is simply fixed without the help of a holder. The production process can be simplified and the cost can be reduced by simplifying the structure of the evaporator holder.

Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention.

6 is a side view of the heater support according to the present invention. As shown in the heater supporter 100, a pair of refrigerant pipe through-holes 110 through which the refrigerant pipe 150 penetrates are formed side by side, the heater 130 may be mounted in the center The heater mounting portion 120 is formed so that one side is opened. The refrigerant pipe passage hole 110 may be one in a small refrigerator having a small evaporator.

FIG. 7 is a detailed view of the heater mounting part 120 of FIG. 6. The heater mounting portion 120 is inclined inlet guide portion 122, the heater guide portion 124 and the heater guide portion 124 connected in a straight line and smaller in diameter than the inlet guide portion 122 And a semicircular heater seating portion 126 connected thereto.

Since the inlet guide part 122 of the heater mounting part is inclined toward the heater guide part 124 and its diameter is larger than that of the heater guide part 124, the inlet guide part 122 of the heater mounting part is formed to facilitate the operation when the heater 130 is mounted. have. In addition, the inlet guide part 122 of the heater mounting part 120 may be molded to open forward or may be molded backward to open when installed in the evaporator refrigerant pipe 150.

In addition, the heater guide part 124 is formed to be slightly smaller than the diameter of the heater 130 so that the heater 130 can be fitted, but the heater 130 is not easily separated. In addition, the guide part 124 guides the heater 130 from the heater mounting part inlet guide part 122 to the heater seating part 126 and functions to prevent the heater 130 from being easily detached after the heater 130 is seated.

The heater seating portion 126 has a circular cross section close to a semicircle, and the portion connected to the heater guide portion 124 has a width smaller than that of the inside to prevent the heater 130 from being detached.

Since the heater mounting part 120 formed of the above components is horizontally formed, the heater mounting part 120 may prevent the heater 130 from contacting the fin 160 by preventing the vertical flow of the heater 130 inserted therein. As a result, damage to the internal structure of the refrigerator can be prevented.

FIG. 8 is a cross-sectional view of a portion D-D of the refrigerant pipe through-hole 110 of FIG. 6, and shows a flange 112 having a predetermined height perpendicular to the heater support 100. In addition, the flange portion 128 is formed in the heater mounting portion 120 in the same manner. Then, the ground area of the fixed refrigerant pipe 150 and the heater 130 and the heater support 100 is widened, so that the right and left flow of the refrigerant pipe 150 and the heater 130 is prevented, thereby tightening the tightening force and exchanging heat. Efficiency can also be increased.

9 is a view illustrating a heater supporter 100 for an evaporator according to the present invention, and FIG. 10 is a cross-sectional view of a portion E-E provided with the heater supporter 100. The operation of the heater supporter 100 according to the present invention will be described with reference to this while looking at the heater 130 fixing method using the heater supporter 100.

When the fin 160 is inserted into the refrigerant pipe 150 at a predetermined interval and then the left and right ends are bent into a U-shape at a predetermined length as in the case of installing a general evaporator, the heater supporter is located at the center of the lowermost refrigerant pipe 150. Insert (100). That is, the heater supporter 100 is installed by passing the refrigerant pipe 150 through the coolant pipe passage hole 110 of the heater supporter 100.

Thereafter, the refrigerant 130 is inserted into and fixed in the left and right evaporator holder refrigerant pipe insertion holes 21 and 31 having no heater 130 fixing device, and a central portion of the heater 130 is supported by the heater supporter 100. The installation of the heater is mounted horizontally from the front or rear in accordance with the direction of the inlet guide 122 in the mounting portion 120. At this time, the heater support 100 may be installed at one or more places in the lower center portion of the refrigerant pipe 150 according to the size of the evaporator.

By using the heater support 100 according to the present invention as described above, the heater 130 can be strongly fixed to the evaporator alone without the heater fixing part of the left / right evaporator holder. Due to the heater 130, the vertical flow and the left and right flow can be prevented. Therefore, damage to the fins and the heater due to the up and down flow of the heater 130 can be prevented, and the occurrence of fire in the freezer compartment inner case due to the left and right flow of the heater 130 can be prevented in advance.

In addition, since a structure for fixing a heater such as a heater mounting part of a conventional evaporator holder and a heater evacuation groove is not required, the structure of the evaporator holders 170 and 170 'is simplified, thereby simplifying the production process and reducing costs.

And according to the present invention it is possible to simply fix the heater by pushing the heater 130 horizontally into the heater mounting portion 120 of the heater support 100.

On the other hand, when the heater 130 is fixed by the present invention, in order to prevent damage to the heater support 100 that may occur during transportation of the evaporator, the right evaporator holder 170 for fixing the refrigerant pipe 150 The length of should be installed equal to or longer than the length of the heater support 100 is installed (see Fig. 10).

In addition, in case the horizontal length of the heater 130 is long so as to contact the evaporator holder, the heater evacuation groove 172 by forming the lower center portion of the right evaporator holder 170 or the left evaporator holder 170 'concave upward. If so, it is possible to secure a space for fixing the heater 130 may facilitate the fixing of the heater 130.

In order to reinforce the fixing force of the heater 130 mounting according to the present invention, on the lower end of the right evaporator holder 170 or the upper or lower end of the left evaporator holder 170 ', the auxiliary fixing heater mounting part and the fixing piece as in the conventional method ( 174).

Effects on the heater support according to the present invention made as described above are as follows.

First, since a separate fixing heater support is used without fixing the heater by the evaporator holder, the fixing process is easy and the production process is shortened and the cost is reduced by simplifying the evaporator holder structure.

Secondly, since the heater supporter according to the present invention is fixed together with the refrigerant pipe in the central portion of the heater where the deformation of the heater is severe, it is possible to prevent deformation of the heater and strengthen the fixing force unlike the existing method.

Third, since the fixing force of the evaporator and the heater is enhanced as described above, it is possible to prevent a fire that may occur due to the left and right interlocking of the heater in the case of the conventional method can solve the safety problem.

Claims (3)

A refrigerant pipe through-hole supporting a refrigerant pipe and having a flange having a predetermined height along an edge perpendicular to at least one surface thereof; A heater mounting portion for supporting the heater, the flange being formed at a predetermined height along the edge of the horizontal opening and perpendicular to at least one surface thereof; Heater support characterized in that one side of the defrost heater for the evaporator can be fixed to the evaporator. The heater support of claim 1, wherein the refrigerant pipe through-holes are formed in a pair, and the heater mounting part is formed in a shape in which one side is opened. The method of claim 1, wherein the heater mounting portion, Entrance guide sloped to the inside; A heater guide part communicating with the inlet guide part but smaller in diameter than the inlet guide part; The heater supporter is in communication with the heater guide portion, but comprises a heater seating portion having a larger diameter and circular than the heater guide portion.