KR20010064286A - Airconditioner for vehicle with dual evaporator ASS'Y - Google Patents

Abstract

PURPOSE: An air conditioner for vehicle having dual evaporator structure is provided to improve air-conditioning efficiency of evaporators by increasing overcooling of refrigerant at the inlet of an expansion valve and to mount a refrigerant tube easily by integrating a liquid pipe with a gas pipe. CONSTITUTION: A condenser(2) and a receiver drier(3) are connected to a compressor(1), and two front and rear evaporators(4,5) having each blower(6,7) are connected thereto through a refrigerant tube(8). When compressed refrigerant flows through the condenser and the receiver drier from the compressor, the refrigerant is divided at a liquid branch pipe(9). The refrigerant flows to the front and the rear evaporator respectively to be evaporated and cooled. The refrigerant is heat-exchanged in a liquid pipe(10) toward the rear evaporator and a tube(12) integral with a refrigerant tube(11). The heat-exchanged liquid refrigerant flows to the rear evaporator to be evaporated smoothly. The inner pipe and the outer pipe of the tube integral with the refrigerant tube are arranged at the same virtual concentric shaft. Thereby, heat transfer is performed therebetween. The efficiency of the rear evaporator is enhanced.

Description

Air conditioner for vehicle with dual evaporator structure {Airconditioner for vehicle with dual evaporator ASS'Y}

The present invention relates to a vehicle air conditioner system having two evaporators, the expansion of the evaporator unit having a gas, liquid heat exchanger combined pipe combined with two pipes of different diameters and spaced apart from the condenser through the pipe. To improve the cooling capacity of the evaporator by increasing the supercooling of the refrigerant at the inlet of the device, and to provide a vehicle air conditioner having a double evaporator structure to facilitate the installation of the refrigerant pipe by forming the liquid and gas piping integrally will be.

Conventionally, the inside of a vehicle is provided with an air conditioning system that is a cooling device for cooling, the air conditioning system is composed of an evaporator, a condenser and a compressor, the condenser discharges heat to the outside, the refrigerant compressed by the compressor It was configured to evaporate while absorbing the heat of the air drawn into the evaporator unit to lower the air and supply the lowered air to the interior of the vehicle using a blower.

In addition, in order to improve the cooling efficiency, the refrigerant circuit has been provided with two evaporators as shown in FIG. 1, which has one condenser 2 and a compressor 1, and one receiver dryer ( 3, the two expansion devices 601, 701 and two evaporators 401, 501 are connected to each other to form a refrigerant circuit, and these evaporators 401, 501 are the condenser 2 It was configured to be installed in a location that is generally far away from the.

However, since the evaporator is installed far away from the condenser, the conventional method as described above increases the length of the refrigerant pipe connecting them, and the closed end of the refrigerant pressure drop due to the increased pipe length increases. As a result, the refrigerant pressure at the inlet of the evaporator unit is lowered and the difference between the refrigerant temperature and the condensation saturation temperature (supercooling) corresponding to the pressure of the refrigerant is reduced, thereby reducing the latent heat of evaporation. There was a problem in that the cooling efficiency is reduced while the gas is generated to significantly reduce the flow rate of the refrigerant passing through the expansion device.

The present invention has been made in view of the above-described conventional problems, the present invention is a vehicle air conditioner system having two evaporators, provided with a gas, liquid heat exchanger combined pipe combined with two pipes of different diameters. And increase the supercooling of the refrigerant at the inlet of the expansion device of the evaporator unit spaced far from the condenser through the pipe, thereby improving the cooling capacity of the evaporator and forming the liquid pipe and the gas pipe as an integrated unit. It is to provide a vehicle air conditioner having a dual evaporator structure to facilitate the bar, which will be described in detail based on the accompanying drawings as follows.

1 is a configuration diagram showing a configuration of a conventional air conditioner device

2 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention.

3 is a refrigerant pressure and enthalpy diagram of an embodiment of the present invention

Explanation of symbols on the main parts of the drawing

1: compressor

2: condenser

3: receiver dryer

4,5: front and rear evaporator

6,7 blower

8: refrigerant tube

9: liquid branch tube

10: liquid tube

11: gas refrigerant pipe

12: tube

One condenser 2 and a receiver dryer 3 are connected to one compressor 1 and two front and rear evaporators 4 and 5 having respective blowers 6 and 7 are connected to a refrigerant tube (1). 8) In the vehicle air conditioner system, the refrigerant passing through the condenser (2) and the receiver dryer (3) is separated from the liquid branch pipe (9) and the liquid pipe (10) going to the rear evaporator (5). A tube 12 having a gas refrigerant tube 11 coming out of the rear evaporator 5 is formed so that heat exchange is performed therein, and the rear evaporator 5 is connected to the tube 12. It is composed.

In addition, the inner tube outer tube of the tube 12 in which the liquid tube gas tube is integrally formed is arranged on the same imaginary concentric axis so that the heat transfer between the two fluids is made to perform the auxiliary heat exchanger action.

The present invention configured as described above connects one condenser (2) and the receiver dryer (3) to the one compressor (1) and has two front and rear evaporators (4) having respective blowers (6) (7). In a vehicle air conditioner system in which the refrigerant pipe (5) is connected to the refrigerant pipe (8), when the refrigerant compressed by the compressor (1) passes through the condenser (2) and the receiver dryer (3), the refrigerant is a liquid. It is separated from the branch pipe (9) and separated into the front evaporator (4) and the rear evaporator (5) and the cooling action while evaporating in each of the evaporator (4) (5) in the liquid branch pipe (9) The liquid tube 10 which is separated to the rear evaporator 5 and the refrigerant tube 11 in the gaseous state coming out of the rear evaporator 5 are formed to form a tube 12 so as to perform heat exchange therein. The refrigerant separated from the branch pipe (9) is transferred to the rear evaporator (5), As the refrigerant, which has been heat-exchanged in the tube 12 and is transferred to the rear evaporator 5, a smooth evaporation action is also performed in the rear evaporator 5.

In addition, the inner tube outer tube of the tube 12 in which the liquid tube gas tube is integrally formed is arranged on the same imaginary concentric axis to allow heat transfer between the two fluids so that the auxiliary heat exchanger action is performed to the rear evaporator ( 5) to improve the efficiency.

As described above, the present invention provides an air conditioner system including one condenser 2 and a receiver dryer 3 in one compressor 1 and two front and rear evaporators 4 and 5 installed therein. Refrigerant, which is separated from the liquid branch pipe (9) through the receiver dryer (3) and transferred to the rear evaporator (5), performs heat exchange in the tube (12) in which the liquid pipe and the gas pipe are integrally formed. By forming in a liquid state it is possible to improve the evaporation efficiency of the rear evaporator (5) which is installed at a position away from the condenser (2) and to improve the cooling efficiency of the vehicle significantly I have it.

Claims (2)

One condenser 2 and a receiver dryer 3 are connected to one compressor 1 and two front and rear evaporators 4 and 5 having respective blowers 6 and 7 are connected to a refrigerant tube (1). 8) In the vehicle air conditioner system, the refrigerant passing through the condenser (2) and the receiver dryer (3) is separated from the liquid branch pipe (9) and the liquid pipe (10) to the rear evaporator (5); A tube 12 having a gaseous refrigerant pipe 11 coming out of the rear evaporator 5 is formed so that heat exchange takes place therein, and the refrigerant heat-exchanged in the tube 12 is the rear evaporator 5. Vehicle air conditioner having a dual evaporator structure, characterized in that configured to be connected to. According to claim 1, wherein the inner tube outer tube of the tube 12 is formed integrally with the liquid tube gas pipe is arranged in the same imaginary concentric axis to allow the heat transfer between the two fluids is configured to perform the secondary heat exchanger action Vehicle air conditioner having a dual evaporator structure characterized in that.