KR100375606B1 - Radiation fin of heat exchanger and tube connecting method and construction - Google Patents

Abstract

The present invention is installed between the refrigerant tube for the refrigerant circulation of the heat exchanger used for the radiator of the air conditioner to install a heat radiation fin to the heat dissipation action, the heat radiation fin and the refrigerant tube formed of the same material of the same material The heat dissipation fin of the heat exchanger to improve the heat dissipation efficiency by improving the heat dissipation efficiency by brazing the heat dissipation fin of the same material and the refrigerant tube integrally and to facilitate the coupling of the heat dissipation fin of the same material and the refrigerant circulating refrigerant tube. And a tube coupling method and structure.

The present invention has a plurality of heat dissipation fins (2) and a refrigerant circulation refrigerant tube (1) for heat dissipation in a heat exchanger radiator, wherein the heat dissipation fins (2) and the refrigerant tube (1) are formed of the same material. And a filler material (3) containing no lead component on the surface of the refrigerant tube (1), and inserting the heat dissipation fins (2) into the outer circumference of the refrigerant tube (1) in the above state, and the refrigerant tube (1). ) And the heat dissipation fin (2) to be integrally coupled to the refrigerant tube (1) may be formed in a circular shape or may be formed in an oval shape, the outer surface of the refrigerant tube (1) Forming a groove in the longitudinal direction or the longitudinal direction, and inserting the heat radiation fins 2 of the same material into the refrigerant tube 1 and brazing them, and inserting the heat radiation fins 201 into the surface of the elliptical refrigerant tube 101. In the state the refrigerant tube 101 And tube-expanding it is configured to couple to the refrigerant tubes 101 and radiating fins 201 to the brazing operation.

Description

Heat radiation fin and tube joining method and structure of heat exchanger {RADIATION FIN OF HEAT EXCHANGER AND TUBE CONNECTING METHOD AND CONSTRUCTION}

The present invention is installed between the refrigerant tube for the refrigerant circulation of the heat exchanger used for the radiator of the air conditioner to install a heat radiation fin to the heat dissipation action, the heat radiation fin and the refrigerant tube formed of the same material of the same material The heat dissipation fin of the heat exchanger to improve the heat dissipation efficiency by improving the heat dissipation efficiency by brazing the heat dissipation fin of the same material and the refrigerant tube integrally and to facilitate the coupling of the heat dissipation fin of the same material and the refrigerant circulating refrigerant tube. And a tube coupling method and structure.

In general, heat exchangers such as evaporators used as radiators for air conditioners are provided with header pipes, and a plurality of refrigerant tubes for refrigerant circulation are inserted in the header pipes, and heat sink fins are installed between the refrigerant tubes to promote heat dissipation. In the state, when the refrigerant is circulated along the refrigerant tube, the heat dissipation action was to be performed.

Meanwhile, the refrigerant tube and the heat dissipation fin installed in the conventional heat dissipator configured as described above are formed of the same material, or the refrigerant tube is formed of aluminum and the heat dissipation fins installed between the refrigerant tubes are formed of the same material. It was configured to bend into a wave shape, and the heat dissipation fin, the coolant tube of the same material, and the coolant tube of the aluminum material and the heat dissipation fin of the same material were welded by using a lead or the like to be mutually coupled.

However, the above-described conventional one is very inconvenient because it is to be combined using the lead containing the harmful component in the state in which the refrigerant tube and the heat dissipation fin of the same material or the refrigerant tube and the heat dissipation fin are formed of different materials. There was a closed end, and the welding operation was inconvenient, and there was a defect that the coupling state was poor.

In addition, the refrigerant tube is formed of the same material, and the heat sink fin is formed of aluminum material, while the heat dissipation fin of the aluminum material is inserted into the refrigerant tube in the state that the coupling to the refrigerant tube, but some have been devised, Since the heat radiation fins are coupled to each other by the expansion of the refrigerant tube, if the expansion is not carried out correctly, the contact state between the heat radiation fin and the refrigerant tube is poor, and thus the thermal conductivity is greatly reduced, resulting in a low heat dissipation efficiency. There was a problem.

The present invention has been made in view of the above-mentioned conventional problems, the present invention is provided between the radiating fins to be installed between the refrigerant circulating refrigerant tube of the heat exchanger used for the radiator of the air conditioner, etc. The heat dissipation fin and the coolant tube are made of the same material, and the heat dissipation fin and the refrigerant tube are brazed to form the same material, thereby improving heat dissipation efficiency. It is intended to provide a heat dissipation fin and tube coupling method and structure of the heat exchanger to facilitate the coupling of the heat exchanger, which will be described below in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a bonding state of the embodiment of the present invention

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

3 and 4 are perspective views showing another embodiment of FIG.

Figure 5 is a cross-sectional view of another embodiment combining the heat sink fin and the refrigerant tube of the present invention

Explanation of symbols on the main parts of the drawing

1,101: Refrigerant tube

2,201: heat sink fin

3: dragon crayfish

4: Home

5,6: Yonggajae Home

In the heat exchanger radiator having a plurality of heat dissipation fins (2) and a refrigerant circulation refrigerant tube (1) for heat dissipation, the heat dissipation fin (2) and the refrigerant tube (1) formed of the same material and the refrigerant Applying the filler metal (3) containing no lead component on the surface of the tube (1) and inserting the heat radiation fin (2) to the outer periphery of the refrigerant tube (1) in the above state, the refrigerant tube (1) and the heat radiation fin Brazing (2) to be integrally coupled to the refrigerant tube (1) may be configured to form a circular shape or may be configured to form an oval.

In addition, the outer surface of the refrigerant tube 1 is formed with a groove 4 in the longitudinal direction to fill the filler material 3 in the groove 4 and in this state to the refrigerant tube 1 of the same material The heat dissipation fins 2 may be inserted to be brazed, or the filler metal grooves 5 may be formed at regular intervals in the longitudinal direction of the refrigerant tube 1.

In addition, a plurality of filler material grooves 6 in the longitudinal direction may be formed on the outer surface of the coolant tube 1, and the radiating fins 2 may be brazed and coupled to the surface of the coolant tube 101. It is possible to configure the coupling of the refrigerant tube 101 and the heat dissipation fin 201 by applying the filler material and expanding the refrigerant tube 101 in the state in which the heat dissipation fin 201 is inserted and brazing in this state. .

The present invention configured as described above is provided with a plurality of heat dissipation fins 2 and a refrigerant circulation refrigerant tube 1 for heat dissipation in the heat exchanger radiator, wherein the heat dissipation fins 2 and the refrigerant tube 1 are made of the same material. The heat dissipation fins 2 of the same material are formed on the outer circumference of the coolant tube 1 in a state of forming a copper material and applying a filler material 3 containing no lead component on the surface of the coolant tube 1. If the refrigerant tube (1) and the radiating fins (2) are coupled to each other by brazing them in a state in which the refrigerant tube (1) and the radiating fins (2) are coupled to each other, the contact portion of the refrigerant tube (1) and the radiating fins (2) is in close contact The refrigerant tube (1) is to be coupled in the same state as described above even if it is formed in a circular shape or an oval shape.

In addition, when the groove 4 is formed long in the longitudinal direction of the coolant tube 1 or the filler metal groove 5 is formed at a predetermined interval in the longitudinal direction of the coolant tube 1, the consumption of the filler metal is consumed. While reducing the cooling tube (1) and the radiating fin (2) integrally brazing it is possible to ensure the bonding.

In addition, a plurality of filler material grooves 6 in the longitudinal direction may be formed on the outer surface of the coolant tube 1, and the radiating fins 2 may be brazed and coupled to the surface of the coolant tube 101. Applying the filler material and expanding the refrigerant tube 101 in the state in which the heat radiation fin 201 is inserted therein and brazing operation in this state, even if the refrigerant tube 101 and the heat radiation fin 201 are combined, made of the same material. The coolant tube 1 and the heat dissipation fins 2 can be firmly and firmly bonded to each other, and the filler metal 3 is a material using self-fluxing, which does not contain harmful components such as lead. will be.

The present invention as described above in the installation of the refrigerant tube for the refrigerant circulation of the heat exchanger used for the radiator of the air conditioner as described above and the heat dissipation fin to the heat dissipation action therebetween, the heat dissipation fin and the refrigerant tube the same material It is formed of a phosphor material and is bonded by bonding the refrigerant tube and the heat dissipation piece by integral brazing, so that the junction between the refrigerant tube and the heat dissipation fin is in close contact and thus can significantly improve the thermal conductivity. It facilitates the coupling of the refrigerant tube and the heat dissipation fins, and thus does not use harmful components such as lead, thereby enabling environmental friendliness.

In addition, since the coolant tube and the heat dissipation fins are formed of the same material, it is not necessary to separate the coolant tube and the heat dissipation fins during regeneration thereof, and thus, the coolant tube and the heat dissipation fins can be effectively recycled. Will have.

Claims (8)

delete delete delete delete The heat exchanger radiator includes a plurality of heat dissipation fins (2) and a refrigerant circulation refrigerant tube (1) for heat dissipation, and the heat dissipation fins (2) and the refrigerant tube (1) are formed of the same material, and the refrigerant tube Applying the filler metal (3) to the surface of (1) and inserting the heat radiation fin (2) to the outer periphery of the refrigerant tube (1), so that the refrigerant tube (1) and the heat radiation fin (2) integrally brazed to combine In what is configured, The outer surface of the refrigerant tube 1 is formed with a groove 4 in the longitudinal direction to fill the filler material 3 in the groove 4 and in this state the heat radiation fins of the same material in the refrigerant tube ( 2) heat dissipation fin and tube coupling structure of the heat exchanger, characterized in that the brazing by inserting. The heat dissipation fin and the tube coupling structure of the heat exchanger according to claim 5, wherein the filler metal groove is formed at regular intervals in the longitudinal direction of the refrigerant tube. The heat exchanger radiator includes a plurality of heat dissipation fins (2) and a refrigerant circulation refrigerant tube (1) for heat dissipation, and the heat dissipation fins (2) and the refrigerant tube (1) are formed of the same material, and the refrigerant tube Applying the filler metal (3) to the surface of (1) and inserting the heat radiation fin (2) to the outer periphery of the refrigerant tube (1), so that the refrigerant tube (1) and the heat radiation fin (2) integrally brazed to combine In what is configured, The heat dissipation fin and the tube coupling structure of the heat exchanger, characterized in that formed on the outer surface of the refrigerant tube (1) to form a plurality of filler material grooves (6) in the longitudinal direction and to braze the heat dissipation fin (2). delete