KR20010093539A - Coolant tube of heat exchanger - Google Patents

Abstract

PURPOSE: A refrigerant tube for a heat exchanger is provided to achieve an improved volume ratio of a refrigerant tube and to increase the heat transfer area between the air passing through refrigerant tubes. CONSTITUTION: A header pipe of a heat exchanger has a plurality of refrigerant tubes(1), and heat exchange operation is performed by the heat transfer action of the refrigerant flowing from the refrigerant tube. The refrigerant tube is formed in a zigzag fashion to form a corrugated shape, and has refrigerant circulation holes(2) formed in a drawing method, corresponding to the shape of the refrigerant tube. The refrigerant tube has radiation fins(3) protruded integrally from the outer surface of the refrigerant tube so as to allow the refrigerant tube to be assembled and installed. Thus, air passing through refrigerant pipes has an increased contact area.

Description

Refrigerant tube of heat exchanger {COOLANT TUBE OF HEAT EXCHANGER}

In the present invention, in the installation of a plurality of refrigerant circulation refrigerant tubes between header pipes of a heat exchanger used for an air conditioner of an air conditioner, the refrigerant tubes are formed in a zigzag-shaped mountain shape and the refrigerant tubes of this acid type. A plurality of flow path holes are formed in the inside of the refrigerant tube, and a plurality of heat dissipation fins are formed to protrude on the outer surface of the refrigerant tube to increase the contact state of air passing between the refrigerant tubes, thereby increasing the volume ratio of the refrigerant tube. It relates to a refrigerant tube of the heat exchanger to improve the heat transfer area and increase the heat transfer area.

In general, heat exchangers such as condensers used as radiators of air conditioners are 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 perform heat dissipation. Heat exchange was achieved.

Meanwhile, in forming the coolant tube 101 installed in the header pipe configured as described above, a circular coolant circulation channel hole 102 or an inner pin 103 is formed in a straight coolant tube 101 as shown in FIG. 1. And a plurality of flow path holes 104 or rectangular coolant flow path holes 105 formed by the same, and the refrigerant flows through the flow path holes 102 to radiate heat. Each of the heat dissipation fins was provided between 101).

However, the conventional method as described above is configured to form the flow path holes 102, 104, 105, such as circular or square, while the coolant tube 101 is formed in a straight line. The refrigerant tube 101 is very difficult to form, and because the refrigerant tube 101 is formed in a straight line, the air passing through the refrigerant tubes 101 passes in a linear state to radiate heat. Although there is a heat dissipation fin between the 101, the contact area of the air was not large, and thus the heat dissipation area was small and sufficient heat dissipation was not achieved.

In addition, since the flow path holes of the refrigerant tubes 101 are formed in the shape of a circle, a square, and the like at regular intervals, there are many partition walls therebetween, and the size of the flow path holes is inevitably small. As the volume ratio in the ball decreases, the heat transfer area is reduced and the heat dissipation efficiency is greatly reduced, thereby degrading the performance of the heat exchanger.

The present invention has been made in view of the above-mentioned conventional problems. The present invention provides a plurality of refrigerant circulation tubes for the refrigerant circulation between header pipes of a heat exchanger used for a radiator of an air conditioner. It is formed in a zigzag shape, and forms a plurality of flow path holes in the refrigerant tube of the acid type, and a plurality of heat dissipation fins are formed on the outer surface of the refrigerant tube to protrude heat from the refrigerant to pass between the refrigerant tubes. It is to provide a refrigerant tube of the heat exchanger to improve the volume ratio of the refrigerant tube and increase the heat transfer area by increasing the contact state of air, which will be described in detail below with reference to the accompanying drawings.

1 is a cross-sectional view showing the configuration of a conventional refrigerant tube

Figure 2 is a cutaway perspective view showing the configuration of the refrigerant tube of the embodiment of the present invention

Explanation of symbols on the main parts of the drawing

1: refrigerant tube

2: flow path for refrigerant circulation

3: projection type heat dissipation fin

A plurality of refrigerant tubes 1 are installed in the header pipe of the heat exchanger, and the heat exchange is performed by heat transfer of the refrigerant flowing in the refrigerant tube 1, so that the refrigerant tube 1 is formed in a zigzag-shaped mountain shape. The coolant tube 1 has a plurality of coolant circulation flow path holes 2 which are formed to be bent in accordance with the shape thereof by drawing or the like. ) Is integrally formed to assemble and install the refrigerant tubes (1).

In the present invention configured as described above, a plurality of refrigerant tubes 1 are installed in the header pipe of the heat exchanger, and the heat exchange is performed by heat transfer of the refrigerant flowing in the refrigerant tube 1, wherein the refrigerant tube 1 ) Is formed in a zigzag mountain shape, and the coolant tube 1 passes through the coolant tubes 1 by drawing a plurality of coolant circulation flow path holes 2 formed by bending or the like. While the heat dissipating action is in contact with the zigzag form as shown in Figure 2, the contact area of the air is large.

In addition, the air dissipation fins 3 of the projection type are formed on the outer surface of the coolant tube 1 by integrally forming the heat dissipation fins 3 having a plurality of protrusions to assemble and install the coolant tubes 1. As the contact time increases and the time the air stays in the refrigerant tube 1 increases, the heat transfer area increases, and the heat dissipation efficiency of the heat exchanger is greatly improved.

Therefore, the coolant circulated along the flow path 2 of the coolant tubes 1 is circulated while being distributed over the coolant tube 1 and the flow path hole 2 formed in the zigzag shape, thereby improving the volume ratio to 100%. It is possible to increase the heat transfer area to the maximum.

As described above, the present invention forms a coolant tube 1 and a plurality of flow path holes 2 formed therein in a zigzag-shaped mountain shape, so that the air passing along the coolant tubes 1 passes through the coolant. Since the remaining time between the tubes (1) becomes long and the air passing through the projection-type heat radiation fin (3) is subjected to a lot of resistance can increase the heat transfer area in the refrigerant tube (1). Accordingly, the heat dissipation efficiency can be greatly improved, and according to the shape of the coolant tube 1, the flow path holes 2 are formed by drawing or the like, thereby greatly improving the overall volume ratio of the coolant tube 1. It becomes possible to form the refrigerant tube (1), the flow path hole (2) and the heat radiation fin (3) integrally, so that the manufacturing and installation of the heat bridge using the refrigerant tube It is possible to greatly improve the efficiency of ventilation, and the like.

Claims (1)

A plurality of refrigerant tubes 1 are installed in the header pipe of the heat exchanger, and the heat exchange is performed by heat transfer of the refrigerant flowing in the refrigerant tube 1, so that the refrigerant tube 1 is formed in a zigzag-shaped mountain shape. The coolant tube 1 has a plurality of coolant circulation flow path holes 2 which are formed to be bent in accordance with the shape thereof by drawing or the like. Refrigerant tube of the heat exchanger, characterized in that is configured to form a) integrally assembled and installed the refrigerant tubes (1).