KR200274143Y1 - coolant tube of heat exchanger - Google Patents

Abstract

The present invention provides a plurality of refrigerant circulation flow path holes formed inside the refrigerant tube when installing a plurality of refrigerant circulation refrigerant tubes between the header pipe of the condenser used for the radiator of the air conditioner. The present invention relates to a refrigerant tube of a heat exchanger that can improve the volume ratio of the refrigerant tube and increase the heat transfer area.

The present invention is to install a plurality of refrigerant tubes (1) in the header pipe of the heat exchanger to heat exchange by the heat transfer action of the refrigerant flowing in the refrigerant tube (1), a plurality of circular to the refrigerant tube (1) It forms a refrigerant circulation flow path (2) and is configured to radiate heat as the refrigerant flows through the flow path holes (2) to each of the space formed between the circular flow path hole (2) of the refrigerant tube (1) The auxiliary flow path 3 may be formed, and the flow path holes 201 may be configured to increase the heat transfer area by forming a straight spline groove 5 or a spiral groove 4. .

Description

Coolant tube of heat exchanger

The present invention provides a plurality of refrigerant circulation flow path holes formed inside the refrigerant tube when installing a plurality of refrigerant circulation refrigerant tubes between the header pipe of the condenser used for the radiator of the air conditioner. The present invention relates to a refrigerant tube of a heat exchanger that can improve the volume ratio of the refrigerant tube and increase the heat transfer area.

In general, a condenser used as a radiator for an air conditioner is provided with a header pipe made of aluminum. In this header pipe, a plurality of refrigerant circulation tubes are inserted into the header pipe, and the refrigerant is circulated along the refrigerant tube to radiate heat. It was to be done.

Meanwhile, in forming the refrigerant tube 101 installed in the header pipe configured as described above, conventionally, as shown in FIG. 1, a plurality of rectangular refrigerant circulation passage holes 102 are formed in the refrigerant tube 101 and the passage holes are formed. It was configured to dissipate heat as the refrigerant flows through the 102.

However, in the related art, since the flow path holes 102 formed in the coolant tube 101 are formed in a rectangular state, it is very difficult to form them uniformly, and the flow path holes 102 in the rectangular state are also formed. Since the refrigerant does not reach each corner of the rectangular channel hole 102, and thus the volume ratio decreases in the channel hole of the refrigerant tube, the heat transfer area is reduced, thereby reducing the heat dissipation efficiency. there was.

The present invention has been devised in view of the above-mentioned conventional problems. The present invention provides a plurality of refrigerant circulation refrigerant tubes between the header pipes of a condenser used for a radiator of an air conditioner. It is to provide a refrigerant tube of the heat exchanger to improve the volume ratio of the refrigerant tube and to increase the heat transfer area by improving a plurality of refrigerant circulation flow path holes formed in the circular, based on the accompanying drawings When described in detail as follows.

1 is a cross-sectional view of a conventional refrigerant tube

2 is a cross-sectional view of the refrigerant tube of the present invention

3 is a cross-sectional view of a refrigerant tube showing another embodiment of FIG.

4 is a perspective view of a cutaway refrigerant tube showing another embodiment of FIG.

5 is a cutaway perspective view of a refrigerant tube showing another embodiment of FIG.

<Description of the code | symbol about the principal part of drawing>

1: refrigerant tube

2,201: Refrigerant circulation flow path

3: auxiliary euro ball

4: spiral groove

5: spline groove

A plurality of refrigerant tubes 1 are installed in the header pipe of the heat exchanger, and heat exchange is performed by heat transfer action of the refrigerant flowing in the refrigerant tube 1, thereby circulating a plurality of circular refrigerants in the refrigerant tube 1. The flow path hole (2) is formed, and the coolant flows through the flow path holes (2) and is configured to radiate heat.

The auxiliary flow paths 3 may be formed in the margin portions formed between the circular flow path holes 2 of the refrigerant tube 1, and the spline grooves 5 may be formed in the flow path holes 201. ) Or a helical groove 4 may be formed to increase the heat transfer area.

The present invention configured as described above is provided with a plurality of refrigerant tubes (1) in the header pipe of the heat exchanger, and the heat exchange by the heat transfer action of the refrigerant flowing in the refrigerant tube (1), the refrigerant tube (1) ) And a plurality of circular refrigerant circulation flow path holes (2) in the circular flow path through the circular flow path holes (2) is configured to radiate heat, so that the refrigerant circulated along the flow path holes (2) As it is distributed throughout the flow path 2, the volume ratio can be improved to 100%, so that the heat transfer area can be increased to the maximum.

In addition, when the auxiliary flow paths 3 are formed in the blank portions formed between the circular flow path holes 2 of the refrigerant tube 1, the auxiliary flow paths are also formed in the blank portions of the flow path holes 2. The refrigerant can be circulated along the hole 3 and the volume ratio of the entire refrigerant tube 1 can be increased. The flow path holes 201 form a straight spline groove 5 or a spiral groove 4. ), It is possible to increase the heat transfer area of the refrigerant tube (1) and to further form an auxiliary flow path in the refrigerant tube (1) formed with the spiral groove portion 4 and the spline groove portion (5) It is.

The present invention as described above forms a plurality of flow path holes (2) shape formed in the coolant tube (1) as described above in a circular shape, the auxiliary flow path (3) in the margin of the coolant tube (1) Since it is possible to greatly increase the overall volume ratio of the refrigerant tube to increase the heat transfer area accordingly to be able to significantly improve the efficiency of the heat exchanger using the refrigerant tube.

Claims (4)

delete In the header pipe of the heat exchanger is provided with a refrigerant tube (1) having a circular flow path for the refrigerant circulation (2), the refrigerant flowing through the refrigerant tube (1) to radiate heat by heat exchange action, Refrigerant tube of the heat exchanger, characterized in that the auxiliary passage hole (3) is formed in the blank portion formed between each passage hole (2) of the refrigerant tube (1). The method of claim 2, Refrigerant tube of the heat exchanger, characterized in that the passage hole 201 is formed with a spiral groove (4). The method of claim 2, The flow path hole 201 is a refrigerant tube of the heat exchanger, characterized in that the linear spline groove (5) is formed.