KR100351147B1 - Valuable capacity type compressor reliability testing apparatus - Google Patents

Abstract

The present invention relates to a variable displacement compressor reliability test apparatus, and the present invention relates to a condenser communicated to the discharge side of the compressor to be tested, an expansion mechanism communicated to the outlet side of the condenser, and the outlet side of the expansion mechanism In the compressor reliability test apparatus comprising an evaporator connected to the suction side of a compressor; At the inlet side of the condenser, a plurality of refrigerant pipes are piped together at the outlet side, and at the inlet side of the evaporator, a plurality of the refrigerant pipes are further piped at the outlet side, and the outlet side is piped together. By installing the valve member only in the refrigerant pipe, the flow rate of the refrigerant is controlled by varying the opening and closing degree according to the capacity of the compressor to be tested, thereby varying the flow rate of the refrigerant or the rotational speed of the cooling fan according to the compressor to be tested. Reliability tester can test all compressors of different capacity.

Description

Variable Capacity Compressor Reliability Test Equipment {VALUABLE CAPACITY TYPE COMPRESSOR RELIABILITY TESTING APPARATUS}

The present invention relates to a reliability testing apparatus for a compressor for testing the reliability of the compressor, and more particularly to a variable capacity compressor reliability testing apparatus for testing the reliability of the compressor according to the phase change of the refrigerant.

In general, the reliability test of the compressor is to determine whether the compressor satisfies the design criteria by checking the operation of the compressor according to the state of the refrigerant in the refrigeration cycle apparatus including the compressor.

As shown in FIG. 1, the conventional reliability test apparatus has a structure similar to that of a conventional refrigeration cycle apparatus, in which both ends of the refrigerant pipe P are connected in a closed curve to the discharge port and the suction port of the test compressor C having a predetermined capacity. The condenser 1 communicates with the discharge port of the test compressor C, the expansion mechanism 2 communicated with the outlet side of the condenser 1, and the evaporator communicated with the outlet side of the expansion mechanism 2. It is largely comprised by (3).

Between the condenser 1 and the expansion mechanism 2 detects the temperature of the condensed refrigerant to control the speed of the condenser cooling fan 4 to remove moisture from the temperature sensor 5 and the refrigerant to control the condensation degree of the refrigerant The side glass 7 and the like are provided in order to confirm the dryer 6 and the amount of moisture in the refrigerant, and to confirm the phase change state of the refrigerant.

At each end of the tester refrigerant tube communicating with the discharge port of the compressor (C) and the tester refrigerant tube communicating with the suction port, the bypass pipe (BP) is installed so as to communicate with each other, the compressor (P1) in the compressor In the intermittent operation of (C), a solenoid valve 8 is provided to quickly remove the pressure difference between the discharge side and the suction side to achieve pressure balance.

The condenser 1 and the evaporator 3 are each connected to two stems P1 and P2 P3 and P4 through which a refrigerant pipe P for an experiment is piped.

In the drawing, reference numeral 9 denotes an evaporator cooling fan, V1 and V2 are on / off valves used to replace the compressor, and RP and V3 are refrigerant removal pipes and on / off valves used to remove residual refrigerant in the refrigerant pipe when the compressor is replaced. Valve off.

The test process using the reliability test apparatus of the conventional compressor as described above is as follows.

First, when both ends of the refrigerant pipe P for the tester are connected to the discharge port and the suction port of the test compressor C, and then the compressor C is driven, the refrigerant gas is compressed and discharged by the drive of the compressor C. Is introduced into each of the branch pipes (P1, P2) of the condenser (1) and condensed into a liquid refrigerant, the liquid refrigerant is removed through the dryer (6) to remove the water flow into the expansion valve (2) After being introduced into the evaporator (3), the evaporator is converted into a gas refrigerant and sucked back into the compressor (C).

At this time, the temperature of the liquid refrigerant passed through the condenser (1) is sensed by the temperature sensor (5), and the condensation degree of the liquid refrigerant is controlled while the speed of the condensation cooling fan (4) is controlled according to the detected temperature do. In addition, the liquid refrigerant passing through the dryer 6 repeats a series of processes in which the amount of moisture in the refrigerant is confirmed by the human eye as it passes through the side glass 7 and the phase change of the refrigerant is confirmed.

However, the conventional compressor reliability test apparatus as described above is a capacity invariant test apparatus in which the capacity of the condenser 1 and the evaporator 3 is already determined according to the cooling capacity (or heating capacity) of each compressor (C). Compressor reliability tester can test only the compressor of cooling and heating capacity that is suitable for it, so the compressor (C) with different heating and cooling capability has to be equipped with a reliability tester of different capacity accordingly, so that the accurate test can be performed. there was.

The present invention has been made in view of the above problems of the conventional compressor reliability test apparatus, and an object of the present invention is to provide a reliability test apparatus of a compressor capable of a renal test for a compressor of various capacities.

1 is a schematic diagram showing a reliability test apparatus of a conventional compressor.

Figure 2 is a schematic diagram showing a reliability test apparatus of the present invention compressor.

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

1: condenser 2: expansion mechanism

3: evaporator 5: temperature sensor

11, 12, 13, 14: refrigerant flow rate control valve 21, 22: inverter type cooling fan

C: Compressor to test

In order to achieve the object of the present invention, in a reliability test apparatus for a compressor, a condenser communicated to the discharge side of the compressor to be tested, an expansion mechanism communicated to the outlet side of the condenser, and an outlet side of the expansion mechanism, In the compressor reliability test apparatus comprising an evaporator connected to the suction side of a compressor; At the inlet side of the condenser, a plurality of refrigerant pipes are piped together at the outlet side, and at the inlet side of the evaporator, a plurality of the refrigerant pipes are further piped at the outlet side, and the outlet side is piped together. There is provided a variable capacity compressor reliability test apparatus characterized in that the valve member is mounted only on the refrigerant pipe to adjust the flow rate of the refrigerant while varying the opening and closing degree according to the capacity of the compressor to be tested.

Hereinafter, the variable displacement compressor reliability test apparatus according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 2 is a schematic diagram showing a reliability test apparatus of the compressor of the present invention.

As shown therein, in the reliability test apparatus of the compressor according to the present invention, a condenser 1 communicating with the refrigerant pipe P is provided on the discharge side of the compressor C to be tested, and the refrigerant on the outlet side of the condenser 1 is provided. The tube is equipped with a temperature sensor 5, a dryer 6 and a side glass 7 in series, and an expansion mechanism 2 communicating with the refrigerant pipe P is provided at the outlet side of the side glass 7. An evaporator 3 is installed in the refrigerant pipe P communicating with the outlet side of the expansion mechanism 2, and a valve for adjusting the flow rate of the refrigerant at each inlet side and the outlet side of the condenser 1 and the evaporator 3, respectively. Members 11 and 12 and 13 and 14 are mounted, and each side of the condenser 1 and the evaporator 3 is provided with a cooling fan 21 for condensation and a cooling fan 22 for evaporation, respectively. It is done.

Since the refrigerant pipe P communicating with the condenser 1 and the evaporator 3 is branched into the plurality of refrigerant pipes P1 and P2 P3 and P4 at each inlet side, the refrigerant pipes P are connected together at the outlet side again. The valve members 11, 12, 13, 14 are provided at the inlet and outlet sides of the condenser 1 and the evaporator 3, respectively.

As shown in FIG. 2, when the refrigerant pipes P forming the condenser 1 and the evaporator are divided into two branch pipes P1 and P2 (P3 and P4), the valve members 11 and 12 and 13 and 14 are described. Is installed on the same line, the valve members (11, 12) (13, 14) may be installed only at the inlet side of each condenser (1) and evaporator (3), but in this case the pressure difference between the two refrigerant pipes (P) Since the refrigerant flows back as it is generated, it is preferable that the valve members 11, 12, 13, 14 be installed at both the inlet side and the outlet side of the condenser 1 and the evaporator 3.

The valve members (11, 12) (13, 14) are manual or automatic valves whose opening and closing are added or subtracted according to the capacity of the compressor (C) to be tested.

The condensation cooling fan 21 and the evaporation cooling fan 22 are inverter type cooling fans whose rotation speed is added or subtracted according to the temperature of the refrigerant sensed by the temperature sensor 5.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

BP, which is not described in the drawing, is a bypass tube for communicating a suction side and a discharge side of the compressor to induce a part of the discharge gas to the suction side when starting up, and 8 is a solenoid valve installed in the bypass tube and automatically opened and closed. V2 is an on / off valve used to replace the compressor, and RP and V3 are refrigerant removal pipes and on / off valves used to remove residual refrigerant in the refrigerant pipe when the compressor is replaced.

The variable displacement compressor reliability test apparatus of the present invention as described above is operated as follows.

First, when both ends of the refrigerant pipe P for the tester are connected to the discharge port and the suction port of the test compressor C, and then the compressor C is driven, the refrigerant gas is compressed and discharged by the drive of the compressor C. Is introduced into each of the branch pipes (P1, P2) of the condenser (1) and condensed into a liquid refrigerant, the liquid refrigerant is removed through the dryer (6) to remove the water flow into the expansion valve (2) After being introduced into the evaporator (3), the evaporator is converted into a gas refrigerant and sucked back into the compressor (C).

At this time, the temperature of the liquid refrigerant passed through the condenser (1) is sensed by the temperature sensor (5), the condensation degree of the liquid refrigerant is controlled while the speed of the condensation cooling fan 21 is controlled in accordance with the detected temperature do. In addition, the liquid refrigerant passing through the dryer 6 repeats a series of processes in which the amount of moisture in the refrigerant is confirmed by the human eye as it passes through the side glass 7 and the phase change of the refrigerant is confirmed.

Here, if the compressor (C) to be tested is replaced with a larger or smaller capacity than the compressor (C) tested before, the inlet and outlet sides of the condenser (1) and the inlet and outlet of the evaporator (3) accordingly. By controlling the opening and closing degree of the valve member (11, 12) (13, 14) respectively mounted on the side, the amount of circulation of the refrigerant is adjusted according to the capacity of the compressor (C).

In this way, it is possible to test all the compressors of various capacities with only one test apparatus even without a separate test apparatus according to the capacity change of the compressor (C).

In addition, the temperature of the refrigerant is sensed using the temperature sensor 5 without adjusting the circulation amount of the refrigerant flowing into the condenser 1 and the evaporator 3, and accordingly, each condensing cooling fan 21 and By operating the rotational speed of the cooling fan 22 for evaporation, it is possible to control the degree of condensation and the degree of evaporation in each condenser 1 and the evaporator 3, so that one compressor can test all compressors of various capacities. It becomes possible.

In the variable capacity compressor reliability test apparatus according to the present invention, a plurality of refrigerant pipes are piped at the inlet side of the condenser, and are piped together at the outlet side, and at the same time, a plurality of refrigerant pipes are further pipeted at the inlet side of the evaporator, and then the outlet side And the valve member is installed in only one refrigerant pipe among the branched refrigerant pipes to adjust the flow rate of the refrigerant while varying the opening and closing degree according to the capacity of the compressor to be tested. All of the compressors can be tested.

Claims (3)

In the compressor reliability test apparatus comprising a condenser communicated to the discharge side of the compressor to be tested, an expansion mechanism communicated to the outlet side of the condenser, and an evaporator communicated to the outlet side of the expansion mechanism and to the suction side of the compressor described above. In; At the inlet side of the condenser, a plurality of refrigerant pipes are piped together at the outlet side, and at the same time, a plurality of refrigerant pipes are further piped at the inlet side of the evaporator, and then at the outlet side. A variable capacity compressor reliability test apparatus characterized in that the valve member is installed only in one refrigerant pipe of the branched refrigerant pipe to adjust the flow rate of the refrigerant while varying the opening and closing degree according to the capacity of the compressor to be tested. delete delete