KR100388128B1 - Test method and apparatus of heat exchanger core - Google Patents

Abstract

The present invention provides a heat exchanger such as an air conditioner system provided in a vehicle, wherein the condenser and the evaporator that perform the heat exchange operation of the heat exchanger are installed in a single vehicle state in a single vehicle state, and the refrigerant is automatically supplied or recovered to the condenser. The present invention relates to a test method and apparatus for a core for a heat exchanger, which makes it easy to test both the and the evaporator in one system and to produce a good condenser and the evaporator according to the above test.

The present invention includes a chamber (1) for supplying a refrigerant and a test section (2) for installing test samples such as a condenser and an evaporator, respectively, and a compressor (3) is installed in the chamber (1). The pressure switch (4) and the pressure detector (5) and the oil separator (6) are connected to one side of the pressure detector (5), and the evaporator tank (7) is connected to the oil separator (6). A heat exchanger (8) and a condenser (9) having a two-way valve (10) are installed, and the excess density heat exchanger (8) is installed between the condensation sample pressure detectors (11) provided in the test section (2). It is connected to the sample condenser 12, and the condenser (9) is connected to the receiver 13 having a liquid level meter (14), the receiver 13 has a sub-cooling tank (15) and an auxiliary device ( 16) and the subcool tank 15 is connected to the refrigerant flow meter 17 and the expansion valve 18 provided in the test section 2, respectively. The evaporation sample pressure detectors 20 in the test section 2 are connected to each other via a vacuum pump 19, and a sample evaporator 21 is installed therebetween, and the condenser 9 and the auxiliary devices 16 are connected to the chamber. It is connected to the cooling device 22 installed on the outside of (1), and the refrigerant recovery tank 23 is installed in the recovery line of the sample evaporator so that the condenser and the evaporator can be tested in one system.

Description

Test Method and Apparatus for Core for Heat Exchanger {TEST METHOD AND APPARATUS OF HEAT EXCHANGER CORE}

The present invention provides a heat exchanger such as an air conditioner system provided in a vehicle, wherein the condenser and the evaporator that perform the heat exchange operation of the heat exchanger are installed in a single vehicle state in a single vehicle state, and the refrigerant is automatically supplied or recovered to the condenser. The present invention relates to a test method and apparatus for a core for a heat exchanger, which makes it easy to test both the and the evaporator in one system and to produce a good condenser and the evaporator according to the above test.

In general, the air conditioning system of a vehicle condenses compressed refrigerant as in a heat exchanger such as a general air conditioner, and cools the oil by circulating while evaporating the condensed refrigerant, or supplies the cooled air to the interior of the vehicle. Therefore, it was configured to achieve cooling of the room, and a heat exchanger core including a condenser and an evaporator was installed to achieve efficient circulation circulating and heat exchange of the refrigerant during the above cooling operation.

The condenser and the evaporator in the heat exchanger configured as described above must be tested and inspected before installing the condensation and evaporation conditions in a vehicle, etc., so that a good product can be provided. 1 and 2 were provided with a test means of the evaporator and a test means of the condenser.

The conventional evaporator test means as described above is equipped with a compressor 103 having a plurality of pressure detectors 102 in the chamber 101, as shown in Figure 1 and the refrigerant recovery and supply line 104, 105 of the refrigerant The recovery and supply device 106 is installed, and the compressor 103 is connected to the condenser 108 and the valve 109 connected through the oil separator 107, and the condenser 108 is an external cooling device 110. And the auxiliary device 111 and the heater 112 in the chamber are connected to each other, and the compressor 103 and the heater 112 are provided with a test unit 113 having a sample pressure detector 114 and a coolant flow meter 115. And the sample evaporator 116 for testing was installed in the test section 113 to test the evaporator.

In addition, the condenser test means separate from the test means, the refrigerant recovery and supply device connected to the pressure detector 119 and the refrigerant recovery and supply line 120, 121 in the chamber 117 as shown in FIG. 122 is connected to the compressor 118, and the compressor 118 is connected with the oil separator 123 and the heater 124, and the oil separator 123 is connected with the overdensity heat exchanger 125, and this overcrowding In addition, the heat exchanger 125 and the compressor 118 are connected to a test unit 126 provided outside the chamber 117. The test unit 126 includes an expansion valve 127 and a refrigerant flowmeter 128 and The sample pressure detector 129 was provided to test the condenser by installing a sample condenser 130 for the test. The evaporator and the condenser test means were supplied with the compressed and condensed refrigerant through the compressors. Evaporation and condensation, their pressure and internal pressure It was adapted to the test.

However, the conventional test means, such as the means for testing the evaporator and the condenser were provided separately to perform a separate test had to be equipped with a separate facility for testing the cores, accordingly for the test The facility was enormous and there was a lot of trouble for the test to be carried out separately, the test efficiency was greatly reduced, there was a problem of lighting that requires a lot of test labor according to the test.

The present invention has been made in view of the above-described conventional problems, and the present invention is a heat exchanger such as an air conditioning system provided in a vehicle, the condenser and the evaporator that performs the heat exchange action of the heat exchanger in a single vehicle state of the actual vehicle In order to automatically supply or recover refrigerant to them, to test both the condenser and the evaporator in one system, and to simplify the testing of the condenser and the evaporator according to the test. It is intended to provide a test method and apparatus for a core for a heat exchanger, which will be described below in detail with reference to the accompanying drawings.

1 is a block diagram showing a conventional evaporator test apparatus

2 is a block diagram showing a conventional condenser test apparatus

3 is a block diagram showing a test apparatus of an embodiment of the present invention

Figure 4 is a schematic view showing a state of testing the evaporator of the embodiment of the present invention

5 is a configuration diagram showing a state in which the condenser of the embodiment of the present invention is tested.

Explanation of symbols on the main parts of the drawing

1: chamber

2: test part

3: compressor

6: oil separator

7: evaporator tank

8: high density heat exchanger

9: condenser

12: sample condenser

13: receiver

15: subcool tank

16: auxiliary device

18: expansion valve

19 vacuum pump

21: sample evaporator

22: cooling device

23: refrigerant recovery tank

A chamber 1 for supplying a refrigerant and a test unit 2 for installing a test sample such as a condenser and an evaporator are respectively provided, and a compressor 3 is installed in the chamber 1 to pressurize the compressor 3. A switch 4 and a plurality of pressure detectors 5 and an oil separator 6 are connected to each other, and an evaporator tank 7 is connected to one of the pressure detectors 5, and an overdensity heat exchanger is connected to the oil separator 6. (8) and a condenser (9) having a two-way valve (10), wherein the excess density heat exchanger (8) is a sample condenser provided between the condensation sample pressure detector (11) provided in the test section (2) 12 and the condenser 9 is connected to a receiver 13 having a liquid level gauge 14.

The receiver 13 is connected to the subcool tank 15 and the auxiliary device 16, and the subcool tank 15 is connected to the refrigerant flow meter 17 and the expansion valve 18 provided in the test unit 2, respectively. The compressor 3 is connected to the evaporation sample pressure detectors 20 in the test unit 2 through a vacuum pump 19, and a sample evaporator 21 is installed therebetween, and the condenser 9 is connected thereto. And the auxiliary device 16 is to be connected to the cooling device 22 is installed on the outside of the chamber (1), and the refrigerant recovery tank 23 is configured in the recovery line of the sample evaporator (21).

The present invention configured as described above is provided with a chamber 1 for supplying the refrigerant and a test unit 2 for installing test samples such as a condenser and an evaporator, respectively, as shown in FIGS. 4 and 5. When the evaporator is to be tested, the refrigerant compressed by the compressor 3 in the chamber 1 as shown in FIG. 4 is transferred to the oil separator 6 through the pressure switch 4 and the pressure detectors 5. ) And the evaporator tank (7), and the refrigerant passing through the oil separator (6) is sent to the receiver (13) via the condenser (9) and the two-way valve (10) while the external cooling device (22) To allow the condenser to cool.

The refrigerant sent to the receiver 13 is sent to the sub-cooling tank 15 to be heat-exchanged by the auxiliary device 16 connected to the external cooling device 22 and the heat-exchanged refrigerant is tested part 2 It is sent to the sample evaporator 21 through the refrigerant flow meter 17 and the expansion valve 18 therein, and the vacuum pump 19 connected to the compressor 3 supplies the refrigerant to the sample evaporator 21. (21) The inside of the vacuum is made to smoothly supply the refrigerant.

As the refrigerant is supplied to the sample evaporator 21 as described above and the refrigerant circulates as in a normal refrigeration cycle, the sample evaporator 21 performs the same evaporation as in a real vehicle state and the evaporation state is The evaporation sample pressure detectors 20 are to be labeled to test the sample evaporator 21.

When the condenser is to be tested, as shown in FIG. 5, when the refrigerant compressed from the compressor 3 is sent to the overdense heat exchanger 8 through the oil separator 6, the overdense heat exchanger 8 Heat exchange is carried out in the sample condenser 12 is supplied to the sample condenser 12 installed therebetween through the condensed sample pressure detector 11 provided in the test unit (2) And the condensation state when the sample condenser 12 is operated can be confirmed through the sample pressure detector 11, and the refrigerant condensed in the sample condenser 12 is the refrigerant recovery tank 23 through the sample evaporator. ) To be recovered.

As described above, the sample evaporator and the sample condenser may be selectively tested in one test system by the above-described method, and when the sample evaporator and the sample condenser are tested simultaneously, the test line of the sample evaporator as shown in FIG. And the test lines of the sample condenser while operating all the condensed refrigerant from the sample condenser 12 to the sample evaporator 21 to be tested at the same time as in the actual vehicle.

As described above, the present invention can be easily and accurately performed by allowing the condenser and the evaporator to be selectively or simultaneously tested in one test system, and thus the refrigerant used in the test can be recovered as it is. It is possible to prevent the waste of the refrigerant and has a feature of lighting that can greatly reduce the man-hour according to the test while greatly reducing the test time.

Claims (2)

It is provided with a chamber (1) for supplying a refrigerant and a test unit (2) for installing test samples, such as a condenser and an evaporator, respectively, and the refrigerant compressed in the compressor (3) installed in the chamber (1) is a pressure switch (4). And a condenser having an overdensity heat exchanger (8) and a two-way valve (10) connected to the evaporator tank (7) and the oil separator (6) through a plurality of pressure detectors (5) and an oil separator (6). 9), the over-density heat exchanger (8) is to test the sample condenser (12) installed between the condensation sample pressure detector (11) provided in the test section (2), to the receiver 13 The subcool tank 15 and the auxiliary device 16 are connected to each other, and the subcool tank 15 is connected to the refrigerant flowmeter 17 and the expansion valve 18 provided in the test unit 2, respectively. 3) The sample evaporator 21 in the test section 2 is brought into a vacuum state through a vacuum pump 19 connected to 3), and then the sample evaporator 21 is compressed. The sample evaporator 21 is tested while supplying a compressed refrigerant from the sample, and the refrigerant after the test can be selectively or simultaneously tested while recovering the refrigerant to the refrigerant recovery tank 23 through a recovery line. Test method of the core for heat exchangers, characterized in that. A chamber 1 for supplying a refrigerant and a test unit 2 for installing a test sample such as a condenser and an evaporator are respectively provided, and a compressor 3 is installed in the chamber 1 to pressurize the compressor 3. A switch 4 and a plurality of pressure detectors 5 and an oil separator 6 are connected to each other, and an evaporator tank 7 is connected to one side of the pressure detector 5, and an overdensity heat exchanger is connected to the oil separator 6. 8) and a condenser (9) having a two-way valve (10), wherein the excess density heat exchanger (8) is a sample condenser provided between the condensation sample pressure detector (11) provided in the test unit ( 12), the condenser (9) is connected to the receiver 13 having a liquid level meter (14), the receiver 13 is connected to the sub cool tank 15 and the auxiliary device (16) The sub-cooling tank 15 is connected to the refrigerant flow meter 17 and the expansion valve 18 provided in the test section 2, respectively, and the compressor 3 has a vacuum pump 1 9) the sample evaporator 21 is installed between the evaporation sample pressure detectors 20 in the test section 2, and the condenser 9 and the auxiliary devices 16 are connected to the chamber 1; It is connected to the cooling device 22 is installed on the outside of the sample evaporator, the recovery line of the refrigerant recovery tank 23 is installed in the system characterized in that the condenser and evaporator can be configured to selectively or simultaneously tested Test apparatus for the core for heat exchangers.