KR19990001309A - Finned Flat Tube Heat Exchanger - Google Patents

Abstract

The present invention relates to a fin of a flat tube type heat exchanger, and in particular, an object thereof is to change the fin structure of the flat tube type heat exchanger to be suitable for home air conditioners.

In order to achieve the above object, the present invention includes a pair of headers, a flat tube positioned between the headers to serve as a flow path of refrigerant gas, and a fin positioned between the flat tubes to dissipate heat. In the fin, the louver is formed in a flat tube heat exchanger, and the pitch of the fin is configured to be about 0.6 mm to 1.5 mm so that the flat tube heat exchanger is suitable for a low speed air conditioner.

Description

Finned Flat Tube Heat Exchanger

The present invention relates to a flat tube type heat exchanger, and more particularly, to a fin of a flat tube type heat exchanger adapted to be adapted to a home air conditioner by changing the fin structure of the flat tube type heat exchanger.

As shown in FIG. 1, a conventional flat tube type heat exchanger has a plurality of headers 1 and 1 'spaced apart from each other and a plurality of headers 1 and 1' positioned between the headers 1 and 1 'to serve as a flow path for the refrigerant. And a fin (3) positioned between the flat tube (2) and the flat tube (2) to dissipate heat. The headers (1, 1 '), the flat tube (2) and the fin (3) It is welded integrally.

The pin 3 is formed with a louver 4 for widening the heat transfer area as shown in FIGS. 2 and 3.

In the conventional flat tube heat exchanger configured as described above, the refrigerant gas is introduced into the header 1 through an inlet pipe (not shown in the drawing), and is distributed from the header 1 to each flat tube 2, and the flat tube The refrigerant gas distributed to (2) flows through each of the flat tubes (2), conducts heat exchange with the intake air through the fins (3), condenses them, and collects them again in the header (1 '). Is discharged to the outside of the heat exchanger.

At this time, a new boundary layer develops, grows and disappears in each of the fins 3 discontinuously formed by the louver-formed fins (hereinafter referred to as louver pins), and the thickness of the boundary layer is thinner on average than in the case of a continuous surface. Since the heat resistance on the heat transfer surface is reduced, the heat transfer performance can be improved.

That is, in the case of continuous surface flow, the heat transfer coefficient of the leading edge is large, but the boundary layer becomes thicker and the heat transfer coefficient decreases toward the downstream, so the heat transfer coefficient of the louver fin is divided even if it has the same heat transfer area. It is possible to maintain a high heat transfer coefficient, and even if the frictional drag increases, the advantage of the improvement of the heat transfer performance can offset these disadvantages.

However, such a conventional flat tube heat exchanger was mainly used only for automobiles, and recently, there has been a movement to be introduced into household air conditioners while the superiority of the flat tube heat exchanger has been proved.

Here, when the louver pin is used in a high speed car, air flows between the louvers as shown in FIG. 3A, so that the flow efficiency and heat transfer performance are increased. Flowing like (duct flow) was not effective in terms of heat transfer performance, there was a problem that a large pressure loss occurs.

In order to solve this problem, it is necessary to reduce the pitch of the fins so that the air can contact the louver effectively. In this case, there is a limit in reducing the pitch of the fins due to the adjacent louvers, and it helps to improve the louver that does not play a role. There was a louver that could not be there was a problem that these louvers increase the pressure loss.

In view of the above, the present invention forms louvers only on one surface of a fin formed between the flat tubes, and reduces the pitch, thereby improving heat transfer performance of the flat tube heat exchanger, and reducing pressure loss and applying it to the home air conditioner. The purpose is to make it possible.

1 is a perspective view of a conventional flat tube heat exchanger.

Figure 2 is a detailed view of the flat tube and fin of the conventional flat tube type heat exchanger.

3 is a fin of a conventional flat tube heat exchanger,

(A) is a cross-sectional view.

(B) is side sectional view.

4 is a fin of the present invention flat tube heat exchanger,

(A) is a cross-sectional view.

(B) is side sectional view.

*** Explanation of symbols for the main parts of the drawing ***

101: pin 102: louver

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4, the fin 101 of the flat tube heat exchanger according to the present invention has only conventional one surface of the fin 101 so as to be applied to a home air conditioner while maintaining excellent heat transfer performance and reducing pressure loss. The louver 102 is molded.

And, the pitch of the fin 101 is configured to about 0.6mm ~ 1.5mm to improve the heat transfer performance.

Referring to the operation of the present invention configured as described above is as follows.

First, the refrigerant gas flows into the flat tube heat exchanger, flows through the flat tube (not shown), heat exchanges with the suction air through the fin 101, and then condenses and is discharged to the outside of the heat exchanger.

At this time, the louver 102 is formed on only one surface of the pin 101 so as to reduce the pitch of the pin 101 so as to be used at a low speed, thereby minimizing the pressure loss, thereby significantly improving the heat transfer performance and significantly reducing the pressure loss. It is possible to show excellent performance even in household air conditioners.

In another embodiment of the present invention may be used by molding a slit (slit) instead of the louver 102 is formed on one surface of the pin (101).

As described above, the present invention has the effect of reducing the pitch of the fins and forming the louvers only on one surface of the fins to improve the heat transfer performance and to greatly reduce the pressure loss.

Claims (2)

A pair of headers, a flat tube positioned between the headers to serve as a flow path for refrigerant gas, and a pin positioned between the flat tubes to dissipate heat, and the pins are formed in a flat tube type with louvers. In the heat exchanger, Fins of the flat tube heat exchanger, characterized in that the pitch of the fin is configured to about 0.6mm to 1.5mm to be suitable for a low speed air conditioner. The method of claim 1, Fins of the flat tube type heat exchanger, characterized in that the louver or slit is formed only on one surface of the fin.