KR20030010971A - Radiation fin of heat exchanger - Google Patents

Abstract

PURPOSE: A radiating fin for heat exchanger is provided to stably join a tube and the radiating fin and to improve radiating efficiency. CONSTITUTION: Insertion parts(3) with supporting protrusions(4) formed thereon are formed on upper ends and lower ends of parts of a radiating fin(2) contacting with a refrigerant tube. The refrigerant tube is inserted to and mounted on the insertion parts and has both sides supported by the supporting protrusions. Radiating efficiency of a condenser using the radiating fin is improved as contacting area of the refrigerant tube and the radiating fin is expanded thereby.

Description

Heat sink fin for heat exchanger {RADIATION FIN OF HEAT EXCHANGER}

The present invention provides a condenser in which a flat tube of a heat exchanger used for a heat radiator of a vehicle heat exchanger is provided, wherein the heat dissipation fins provided on the condenser are formed in a wave shape, and the tubes are disposed above and below the heat dissipation fins which are in contact with the tube of the condenser. In the heat radiation fin for heat exchanger to form an insertion portion to be inserted, to ensure that the tube is seated in the insertion portion to stably couple the tube and the heat dissipation fin, and to increase the contact surface between the heat dissipation fin and the tube to improve the heat dissipation effect. It is about.

In general, a heat exchanger condenser installed in a vehicle heat exchanger and performing heat dissipation and having heat dissipation has a pair of headers having a refrigerant inlet and an outlet and a refrigerant tube 101 through which the refrigerant is circulated. In addition, between the coolant tubes 101, a heat dissipation fin 102 is installed to dissipate heat together with the air supplied from the blower.

On the other hand, the conventional condenser configured as described above forms a refrigerant tube 101 installed between the headers as shown in FIGS. 1 and 2 in a rectangular flat shape and contacts the outside of the refrigerant tube 101 formed in this flat shape. The heat dissipation fins 102 are formed so as to be made, and they are configured to join them.

However, in the related art, the heat dissipation fin 102 and the coolant are installed on the flat refrigerant tube 101 because the heat dissipation fin 102 is connected to the refrigerant tube 101 in a line contact state at its end. The contact area of the tube 101 is very small. Accordingly, the heat dissipation efficiency between the refrigerant tube 101 and the heat dissipation fin 102 is not large, and thus the heat dissipation efficiency is low. Since the space as much as the thickness of the refrigerant tube 101 is formed while being bonded to the refrigerant tube 101 in a line contact state, there is a drawback that the air flowing through the space is greatly reduced as the air flows backward, and the heat radiation fin ( There was a closed end where the contact area between the 102 and the refrigerant tube 101 was small, and thus the bonding state thereof was poor. Accordingly, the condenser in which the refrigerant tube 101 and the heat dissipation fin 102 were assembled was carried. In the course of installation there is a problem in that the light radiating fin 102 is being desorbed refrigerant occurs in tube 101 and the thermal efficiency of the condenser room greatly reduced while the defective product rate is increased by the desorption phenomenon.

The present invention has been made in view of the above-mentioned conventional problems, and the present invention provides a condenser in which a flat tube of a heat exchanger used for a heat radiator of a vehicle heat exchanger is provided, wherein the heat dissipation fins provided in the condenser are corrugated. And inserting the tube into the upper and lower sides of the heat dissipation fins which are in contact with the tube of the condenser, and stably coupling the tube and the heat dissipation fins by allowing the tube to be seated in the insertion part. It is to provide a heat dissipation fin for the heat exchanger to improve the heat dissipation effect by increasing the contact surface of the bar, which will be described in detail based on the accompanying drawings and examples below.

1 is a perspective view showing the structure of a heat dissipation fin for a conventional heat exchanger

2 is a configuration diagram showing a state in which the conventional heat radiation fins and the tube is coupled

Figure 3 is a perspective view showing the structure of the heat dissipation fin for heat exchanger embodiment of the present invention

Figure 4 is a block diagram showing a coupling state of the heat dissipation fin and the tube of the embodiment of the present invention

Explanation of symbols on the main parts of the drawing

1: refrigerant tube

2: heat radiation fin

3: Insertion part

4: support jaw

In the heat exchanger condenser in which a rectangular refrigerant tube (1) having a rectangular shape is installed between the headers, and each of the heat dissipation fins (2) is installed between the refrigerant tubes (1) of the rectangular shape, the refrigerant of the heat dissipation fin (2). Inserting portions 3 having support jaw 4 formed at upper and lower ends of tube contact portions are respectively formed, and the support jaw 4 is inserted into each inserting portion 3 while the refrigerant tube 1 is seated. By installing so that both sides are supported.

In the present invention configured as described above, in the condenser for heat exchanger in which a rectangular refrigerant tube (1) having a rectangular shape is installed between the headers, and each of the heat dissipation fins (2) is provided between the rectangular refrigerant tubes (1), With the coolant tube 1 seated on the respective inserts 3 with the inserts 3 having the support jaw 4 formed on the upper and lower ends of the coolant tube contact portions of the heat dissipation fins 2, respectively. When inserted and stacked, the refrigerant tube 1 is coupled in a state of being embedded between the heat dissipation fins 2 as shown in FIG. 4, and in this state, the refrigerant tube 1 is coupled by a brazing method. Both sides are supported by the supporting jaw 4 of the heat dissipation fin 2 in a state in which the heat dissipation fin 2 is inserted into the insertion portion 3, and the entire refrigerant tube 1 is embedded in the heat dissipation fin 2. It was made possible.

When air is introduced between the heat dissipation fins 2 by a blower or outside air in the assembled state as described above, the air introduced is circulated while being supplied to the heat dissipation fin 2 as a whole. The heat dissipation effect is generated by dissipating heat from the refrigerant tube 1 coupled to the heat dissipation, and the contact surface between the refrigerant tube 1 and the heat dissipation fin 2 is formed to be wide, thereby increasing the heat dissipation effect and preventing backflow of air. Will be.

As described above, the present invention forms an insertion part 3 formed above and below the end of the heat dissipation fin 2 in the upper and lower portions of the heat dissipation fin 2 to which the refrigerant tube 1 is directly contacted. The refrigerant tube (1) is installed in the state in which the refrigerant tube (1) is embedded in the heat radiation fin (2) by inserting the refrigerant tube (1) in the insertion portion 3, the heat radiation fin (2) and the refrigerant tube (1) mutually As the contact surface between the coolant tube 1 and the heat dissipation fin 2 is widened, the heat dissipation efficiency of the condenser using the heat dissipation fin 2 can be greatly improved, and the coolant tube is disposed on the heat dissipation fin 2. As the (1) is buried, the bonding state thereof is firmly formed, and voids are not formed, thereby preventing backflow of air, and the firmness of the heat dissipation fin (2) and the refrigerant tube (1) prevents occurrence of leaks and defects. Characteristics of lighting that can greatly reduce outbreak With gong.

Claims (1)

In the heat exchanger condenser in which a rectangular refrigerant tube (1) having a rectangular shape is installed between the headers, and each of the heat dissipation fins (2) is installed between the refrigerant tubes (1) of the rectangular shape, the refrigerant of the heat dissipation fin (2). Inserting portions 3 having support jaw 4 formed at upper and lower ends of tube contact portions are respectively formed, and the support jaw 4 is inserted into each inserting portion 3 while the refrigerant tube 1 is seated. Heat dissipation fin for heat exchanger, characterized in that the installation is configured so that both sides are supported by.