KR100670739B1 - Receiver dryer - Google Patents

Abstract

The present invention discloses a receiver drier in which only a pure liquid refrigerant is supplied to an evaporator by sufficiently exchanging a refrigerant with outside air, thereby greatly improving the cooling performance of the air conditioner.

The constitution of the present invention comprises a condensation unit for condensing the refrigerant, a drying unit for removing moisture in the refrigerant, and a storage unit for storing the condensed liquid refrigerant, and an inner pin for exchanging the refrigerant supplied to the condensation unit with outside air. A summary is provided in the condensation unit.

Receiver dryer, inner fin, refrigerant, condensation, heat exchange, sub cool, cooling performance

Description

Receiver dryer {RECEIVER DRYER}

1 is a block diagram showing an air conditioner of a typical vehicle including a receiver dryer.

2 is a view showing a conventional receiver drier

3 shows a receiver dryer according to the present invention.

4 is a view showing an example of an inner pin applied to the present invention

5 is a view showing an example of the inner pin in the form of a wave applied to the present invention

6: Moliere diagram for explaining the effects of the present invention

<Explanation of symbols for main parts of the drawings>

100 receiver drier 110 condensation unit

111,131: space 120: drying part

130: storage 140: inlet pipe

150: outlet pipe 160170: inner pin

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner of an automobile, and more particularly, to a receiver drier installed between a condenser and an expansion valve constituting an air conditioner of an automobile to remove moisture and foreign substances in a refrigerant.

As shown in FIG. 1, an air conditioner of a typical vehicle includes a compressor 11, a condenser 12, an expansion valve 13, and an evaporator 14, and includes a condenser 12 and an expansion valve ( A receiver drier 15 for temporarily receiving the liquid refrigerant condensed in the condenser 12 and removing water and foreign matter contained in the refrigerant is provided between the portions 13).

Accordingly, the refrigerant gas compressed to high temperature and high pressure in the compressor 11 is liquefied by being forcedly cooled by the blower fan 16 in the condenser 12, and the liquefied refrigerant passes through the receiver drier 15, where moisture and foreign matter are accumulated. In addition to being removed, it is sent to the expansion valve (13) in a high pressure liquid state. Then, the high-pressure liquid refrigerant rapidly expands in the expansion valve 13 to enter a low-temperature low-pressure state and enters the evaporator 14, which takes the heat of the ambient air by the blower 17 from the evaporator 14 and recompresses the compressor 11 again. Follow the cycle of transportation to).

2 illustrates an example of a conventional receiver drier. As shown, the interior of the receiver dryer 20 is a condensation unit 21 in which the refrigerant is condensed, a drying unit 22 in which moisture in the refrigerant is removed, and a storage unit 23 in which the pure liquid refrigerant is stored. Are separated. In the condensation unit 21, the gaseous refrigerant in the refrigerant supplied into the receiver dryer 20 through the inlet pipe 24 is condensed by heat exchange with the outside air. In addition, in the drying unit 22, moisture in the refrigerant is absorbed by the drying agent filled therein, so that only the pure liquid refrigerant is sent to the storage unit 23. The pure liquid refrigerant sent to the storage unit 23 is discharged from the receiver dryer 20 to the evaporator side through the outlet pipe 25.

By the way, in the conventional receiver dryer 20, since the heat exchange in the condenser 21 is performed using only the outer wall of the receiver dryer 20, condensation efficiency is not so excellent. This causes a problem that the cooling performance of the air conditioner is deteriorated by supplying a gaseous refrigerant that is not completely condensed according to the performance of the condenser, engine fluctuations, and changes in the surrounding environment, to the evaporator.

The present invention has been made in order to improve the conventional problems as described above, the object of the present invention is to sufficiently heat exchange the refrigerant with the outside to supply only the pure liquid refrigerant to the evaporator to greatly improve the cooling performance of the air conditioner It is to provide a receiver drier.

The receiver dryer according to the present invention for achieving the above object comprises a condensation unit for condensing the refrigerant, a drying unit for removing moisture in the refrigerant and a storage unit for storing the condensed liquid refrigerant, the refrigerant supplied to the condensation unit An inner pin which heat-exchanges with outside air has the structure provided in the said condensation part.

In addition, an inner pin may be further installed in the reservoir to further condense the liquid refrigerant to the outside air. In addition, the inner pin is preferably made of a structure wound around a wave-shaped plate of a high thermal conductivity material. In addition, it is preferable that spaces are provided at the upper side of the inner pin of the condensation part and the lower side of the inner pin of the storage part for smooth flow of the refrigerant.

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

3 shows a receiver drier according to the invention. As shown, the receiver dryer 100 of the present invention is divided into three parts, the condenser 110, the drying unit 120 and the storage 130 of the housing, the refrigerant flows into the bottom of the housing And inlet pipes 140 and outlet pipes 150 that flow out.

In the condenser 110, the refrigerant introduced through the inlet pipe 140 condenses by exchanging heat with the outside air, thereby making the liquid refrigerant. In particular, an inner fin 160 is installed in the condenser 110. have. As the inner pin 160 has a structure in which a plurality of pipes are densely arranged as shown in FIG. 4, the inner pin 160 is sufficient to increase the surface area where the refrigerant in the condensation unit 110 exchanges heat with the outside air. Allow for heat exchange. This allows the gaseous refrigerant to phase change into a liquid refrigerant almost completely. The structure of the inner pin 160 may be variously implemented in addition to the structure illustrated in the drawings.

The refrigerant phase-converted in the liquid phase in the condensation unit 110 is introduced into the drying unit 120. The drying unit 120 is filled with a desiccant, and moisture in the refrigerant is absorbed by the desiccant.

The refrigerant passing through the drying unit 120 moves to the storage unit 130, and the inner fin 170 is installed in the storage unit 130 similarly to the condensation unit 110. Accordingly, the liquid refrigerant in the storage unit 130 is further condensed by heat exchange with the outside air by the inner pin 170 installed in the storage unit 130. The liquid refrigerant thus condensed is discharged from the receiver dryer 100 to the evaporator through the outlet pipe 150.

Meanwhile, the spaces 111 and 131 may be formed at the upper side of the inner fin 160 of the condenser 110 and the lower side of the inner fin 170 of the storage 130, respectively, for smooth flow of the refrigerant.

In addition, the above-described inner fins 160 and 170 are preferably applied with a plate of a high thermal conductivity material such as aluminum, and furthermore, if the plate is manufactured in a wave shape as shown in FIG. You can improve further.

6 shows a Mollier diagram (P-h diagram) for explaining the effect of the present invention according to the installation structure of the inner pins 160 and 170 described above. As shown in this Moliere diagram, when the receiver dryer of the present invention provided with an inner fin is applied, the sub cool (supercooling) area in the condenser is increased by the area A-A '. That is, in the conventional receiver dryer, the cooling capacity exerted according to the amount and temperature of the liquid refrigerant supplied to the evaporator side is shown in the BA area, but in the receiver dryer of the present invention, as the high efficiency heat exchange is performed by the inner fin, the liquid as much as the AA 'area is applied. As the refrigerant is subcooled, the cooling capacity is increased to the BA 'region.

As described above, the receiver drier according to the present invention exhibits the effect of overcooling the refrigerant by sufficient heat exchange with the outside air through the structure in which the inner fin is provided, thereby increasing the subcooling area of the refrigerant. Accordingly, only the pure liquid refrigerant sufficiently condensed is supplied to the evaporator, thereby exhibiting an effect of greatly improving the cooling performance of the air conditioner.

Claims (5)

Condensation unit for condensing the refrigerant, a drying unit for removing the moisture in the refrigerant, and a storage unit for storing the condensed liquid refrigerant, And a receiver dryer having an inner pin formed in the condensation unit, the inner pin having a structure in which a wave plate of a high thermal conductivity material for heat-exchanging the refrigerant supplied to the condensation unit with the outside air. The method of claim 1, The receiver dryer, characterized in that a space is provided for the smooth flow of the refrigerant above the inner pin of the condensation unit. The method of claim 1, In the storage unit, the receiver dryer is further characterized in that the inner pin is further condensed by allowing the liquid refrigerant to exchange heat with the outside air. The method of claim 3, And a space is provided under the inner pin of the storage unit for a smooth flow of the refrigerant. delete

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