KR20140058911A - Defrost heater arrangement structure - Google Patents

Abstract

The present invention relates to a tube arrangement structure for a heater of a heat exchanger, comprising a refrigerant tube which allows refrigerant to flow into it; and a heater tube for defrosting the refrigerant tube. The cross section of the refrigerant tube is vertical to the cross section of the heater tube. The present invention improves space efficiency by decreasing the width of the heat exchanger in comparison with a conventional heat exchanger which is arranged in a horizontal manner and relatively increasing the internal capacity of a refrigerator including a kimchi refrigerator as the cross section of the refrigerant tube is vertical to the cross section of the heater tube; and improves heat exchange performance by reducing airflow resistance of the heat exchanger.

Description

Defrost heater arrangement structure of a heat exchanger

The present invention relates to a heater tube arrangement structure of a heat exchanger for reducing the volume of a heat exchanger by changing the arrangement of the heater tubes of the heat exchanger.

Generally, a heat exchanger refers to a condenser and an evaporator of a refrigeration cycle apparatus installed in an air conditioner and a refrigerator. Such a heat exchanger discharges or absorbs heat due to a phase change of a refrigerant, which is a heat transfer medium, It is used for cooling.

The heat exchanger is roughly divided into a condenser and an evaporator. The evaporator is a fin-tube heat exchanger in which a plurality of cooling fins are inserted into a refrigerant tube. The evaporator is mainly used as an evaporator such as a refrigerator or an air conditioner. And the heat exchange area is broadened by the cooling fins inserted so as to be in close contact with the refrigerant tube so that heat exchange is rapidly performed. The refrigerant tubes provided with the cooling fins are supported by the supports on both sides.

In this heat exchanger, the refrigerant is circulated in the refrigerant tube, heat exchange is performed by heat exchange with the outside air, and the refrigerant tube and the cooling fin are conceived by the absolute humidity of the ambient air. And the defrosting is performed by a separately installed heater tube.

A structure of a general heater tube for exerting such a function is disclosed in Korean Patent No. 0709918 (defrost apparatus of a heat exchanger), Korean Patent No. 0524713 (defrost sensor installation structure of a pin-tube integral heat exchanger) .

However, since the structure of the conventional heater tube is limited to only a part of the heat exchanger, the heat is not transferred to the heat exchanger as a whole, and defrost efficiency is low. Therefore, the defrosting effect is exerted only in a part of the heat exchanger, so that the heat exchanger has a low thermal efficiency and the refrigerating efficiency of the refrigerator deteriorates.

Furthermore, the area of the heat exchanger as a whole increases due to the arrangement of the heater tubes, thereby reducing the volume of the refrigerators and the like relatively.

The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to reduce the volume of a heat exchanger to increase the inner volume of the refrigerator, thereby improving space efficiency and reducing heat exchange air flow resistance. And an object of the present invention is to provide a heater tube arrangement structure of a heat exchanger having a heater.

The present invention relates to a refrigerant tube in which a refrigerant flows into the inside thereof; And a heater tube provided for defrosting the refrigerant tube, wherein an end surface of the refrigerant tube and an end surface of the heater tube are vertically arranged.

In the present invention, the end face of the refrigerant tube and the end face of the heater tube are located on a straight line parallel to a direction in which cool air flows in the furnace.

In the present invention, the refrigerant tube is bended several times to form a plurality of rows, and the heater tube is bent a number of times along the outer peripheral surface of the refrigerant tube to form a plurality of rows.

In the present invention, the refrigerant tube is constituted by a parallel portion arranged in parallel and an even number of rows, and a bending portion bending and connecting the parallel portions mating with each other, And the heater tube is disposed.

According to the heater tube arrangement structure of the heat exchanger of the present invention, the following effects can be obtained.

The width of the heat exchanger can be reduced compared with a heat exchanger arranged horizontally by arranging the cross section of the refrigerant tube of the heat exchanger and the cross section of the heater tube so as to be perpendicular to each other so that the content of the refrigerator including the Kimchi refrigerator can be relatively increased, .

Further, by arranging the refrigerant tube and the heater tube such that the end face of the refrigerant tube and the end face of the heater tube are arranged on a straight line parallel to the flow direction of cold air in the hearth, the resistance of the heat exchange air volume can be reduced, The performance can be further improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 show a heater tube arrangement structure of a heat exchanger according to a preferred embodiment of the present invention. FIG.
3 is a sectional view taken along the line A-A 'in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

As shown in FIG. 1, a heater tube arrangement structure of a heat exchanger according to a preferred embodiment of the present invention includes a refrigerant tube 100, a heater tube 200, and a pair of supports 300.

The refrigerant flows into the interior of the refrigerant tube 100, and is bended several times to form a plurality of rows.

That is, in the present embodiment, the refrigerant tube 100 includes parallel parts 110a and 110b arranged in parallel with each other to form an even number of rows as shown in FIG. 2, parallel parts 110a and 110b, And a bending part 150 for connecting the bending part 150 and the bending part 150, respectively. Although the two pairs of parallel portions 110a and 110b are shown in the drawings, the number of parallel portions 110a and 110b may be different.

As described above, the refrigerant tubes 100 bending a number of times and bending a plurality of rows are bended so as to form a layered layer again, thus forming a hexahedron as shown in FIG.

The heater tube 200 is provided to exhibit defrost performance and heat exchange performance of the refrigerant tube 100.

3, the cross section of the heater tube 200 is preferably arranged perpendicular to the cross section of the tube 100 for the coolant.

It is more preferable that the end face of the heater tube 200 and the end face of the refrigerant tube 100 are located on a straight line parallel to the direction in which cool air flows in the furnace.

Further, the heater tube 200 is bent several times along the outer circumferential surface of the refrigerant tube 100 bending a plurality of times to form a plurality of rows.

Particularly, it is preferable that the heater tube 200 is disposed inside the pair of parallel parts 110a and 110b of the refrigerant tube 100 in terms of reducing the volume of the heat exchanger.

The cross section of the portion where the parallel portions 110a and 110b of the refrigerant tube 100 are positioned by the heater tube 200 arranged as described above is as shown in Fig. 3, and as shown in Fig. 3, The end face of the heater tube 200 is located inside the end face of the parallel portion 110a and the end face of the heater tube 200 is positioned inside the end face of the parallel portion 110b which are paired with each other.

The support base 300 is provided at both bent ends of the refrigerant tube 100 to support the refrigerant tube 100. In this embodiment, the support base 300 is rectangular in shape, which is long in the vertical direction, but it may vary depending on the shape in which the refrigerant tube 100 is disposed.

The support base 300 is formed with a plurality of insertion holes 310 through which the bending portion 150 of the refrigerant tube 100 and the bent portion of the heater tube 200 are inserted. In this embodiment, the insertion hole 310 is formed so that the refrigerant tube 100 and the heater tube 200 are inserted together. The insertion hole 310 is a rectangular shape in which each corner is rounded, The holes may be separately formed so that the heater 100 and the heater tube 200 are separately inserted, and the shape of the insertion hole 310 may be changed.

A plurality of radiating fins may be provided on the outer circumferential surface of the refrigerant tube 100. In this case, the refrigerant tube 100, which is not adjacent to the heater tube 200, As shown in FIG. The shape and arrangement of the radiating fins can be variously modified in accordance with the embodiment.

Hereinafter, a method of arranging the heater tubes of the heat exchanger of the present invention constructed as described above will be described.

The refrigerant tube 100 and the heater tube 200 are arranged such that the end face of the refrigerant tube 100 and the end face of the heater tube 200 are positioned on a straight line parallel to the flow direction of cold air in the furnace.

At this time, it is preferable that the refrigerant tube 100 bends several times to form a plurality of rows, and the heater tube 200 bends a plurality of times along the outer peripheral surface of the refrigerant tube 100 to form a plurality of rows.

According to the arrangement structure of the heater tubes of the heat exchanger of the present invention as described above, by arranging the end face of the refrigerant tube 100 of the heat exchanger and the end face of the heater tube 200 to be perpendicular to each other, Since the breadth of the cooker can be reduced, the content of the refrigerator including the kimchi refrigerator can be relatively increased, thereby improving the space efficiency.

The refrigerant tube 100 and the heater tube 200 are arranged such that the end face of the refrigerant tube 100 and the end face of the heater tube 200 are positioned on a straight line parallel to the flow direction of cold air in the furnace The resistance of the heat exchanging air volume can be reduced, and the heat exchanging performance can be further improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

100: Refrigerant tubes 110a, 110b:
150: bending part 200: heater tube
300: support member 310: insertion hole

Claims (4)

A refrigerant tube into which a refrigerant flows; And
And a heater tube provided for defrosting the refrigerant tube,
Wherein an end surface of the refrigerant tube and an end surface of the heater tube are vertically arranged. The method according to claim 1,
Wherein a cross section of the refrigerant tube and a cross section of the heater tube are located on a straight line parallel to a direction in which cool air flows in the furnace. 3. The method according to claim 1 or 2,
The refrigerant tube is bent several times to form a plurality of rows,
Wherein the heater tube is bent several times along the outer circumferential surface of the refrigerant tube to form a plurality of rows of heat. The method of claim 3,
Wherein the refrigerant tube is composed of a parallel portion arranged in parallel and an even number of rows and a bending portion bent and connected to the parallel portions,
And the heater tubes are disposed inside the parallel parts which are paired with each other.

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