CN202370812U - Test bed system of refrigeration compressor - Google Patents

Abstract

The utility model discloses a test bed system of refrigeration compressor. The test bed system comprises a first pressure measuring device, a first temperature measuring device, a second pressure measuring device, a first gas throttling device, a second gas throttling device, a gas cooler, a liquid storage tank, a liquid throttling device, a mixing tank, a flow meter and a cooling device. An inlet pipeline of a tested compressor is provided with the first pressure measuring device and the first temperature measuring device, and an outlet pipeline of the tested compressor is provided with the second pressure measuring device; and the first gas throttling device is connected with the second pressure measuring device, and the second gas throttling device is connected with the first pressure measuring device. The test bed system of the refrigeration compressor can not only be applied to transcritical or supercritical systems, but also be applied to subcritical systems, and the application range of the test bed system of the refrigeration compressor is effectively broadened.

Description

The refrigeration compressor experimental bench system

Technical field

The utility model belongs to technical field of refrigeration compressors, relates to a kind of refrigeration compressor test stand, relates in particular to a kind of refrigeration compressor experimental bench system that can be used for striding critical or supercritical system.

Background technique

Existing refrigeration compressor experimental bench system mainly comprises: tested compressor inlet and outlet pressure temperature transducer, deaerator, scavenger valve, condenser, liquid container, filter, pressurized gas throttling arrangement, highly pressurized liquid throttling device, mixing tank, flowmeter, cooling water recirculation system etc.Experimental bench system is controlled condensing temperature by cooling water recirculation system, by pressurized gas throttling arrangement control pressure of inspiration(Pi), by highly pressurized liquid throttling device control inhalation temperature, by cooling water recirculation system control exhaust pressure.

When test stand was worked, the pressurized gas throttling arrangement was adjusted the throttling arrangement aperture through the signal that spreads out of that receives the compressor air inlet pressure sensor, controlled pressure of inspiration(Pi) with the flow of regulating vapor phase refrigerant; The highly pressurized liquid throttling device is adjusted the throttling arrangement aperture through the signal that spreads out of that receives the compressor inlet air temperatures sensor, controls gas-liquid phase refrigeration agent mixed temperature in mixing tank to regulate the liquid phase refrigerant flow; Cooling water recirculation system is regulated cooling water flow through reception Compressor Discharge Pressure signal and is controlled condensing temperature and then control condensing pressure.

This kind control methods deficiency is: when refrigeration system was in subcritical cycle, because fluid is at subcritical state, condensing pressure and condensing temperature were associated, and can reach that to control condensing pressure be the purpose of Compressor Discharge Pressure through the control condensing temperature.And be in and stride critical cycle or overcritical circulation time when refrigeration system, be in pressure and temperature separate of the fluid of supercritical state, can't control its pressure through controlling its temperature.So existing refrigeration compressor experimental bench system can only be used for the subcritical cycle process and can not be used to stride critical cycle or overcritical cyclic process.

The model utility content

The utility model technical problem to be solved is: a kind of refrigeration compressor experimental bench system is provided, can be applicable to stride critical or supercritical system, also can be applied to subcritical systems and use the refrigeration compressor experimental bench system.

For solving the problems of the technologies described above, the utility model adopts following technological scheme:

A kind of refrigeration compressor experimental bench system, said system comprises: first manometer, first temperature measuring equipment, second manometer, first gas throttle device, second gas throttle device, gas cooler, liquid container, liquid throttling arrangement, mixing tank, flowmeter, cooling unit; The inlet ductwork of tested compressor is provided with said first manometer, first temperature measuring equipment, and the export pipeline of tested compressor is provided with said second manometer; The outlet of tested compressor is divided into two-way, leads up to first gas throttle device, second gas throttle device to connect mixing tank, and another road connects mixing tank through gas cooler, liquid container, liquid throttling arrangement successively; Said first gas throttle device connects said second manometer, receives the coherent signal of the detected tested compressor exhaust pressure of second manometer, to regulate refrigeration system high pressure section pressure; Said second gas throttle device connects said first manometer, receives the coherent signal of the detected tested compressor pressure of inspiration(Pi) of first manometer, to regulate refrigeration system low pressure stage pressure; Said cooling unit connects gas cooler, is used for refrigeration agent in the cooled gas cooler.

As a kind of preferred version of the utility model, said cooling unit connects said first temperature measuring equipment, and the cooling medium consumption of importing into according to it of coming the adjustments of gas cooler with tested compressor inlet temperature coherent signal.

As a kind of preferred version of the utility model, said gas cooler is the water-cooled gas cooler; The coolant outlet of said cooling unit connects the inlet of gas cooler, and the cooling water inlet of cooling unit connects the outlet of gas cooler; Said cooling unit comprises water chiller, variable frequency pump, and said variable frequency pump is connected with first temperature measuring equipment, and import into according to it come the cooling water flow of adjustments of gas cooler with the inlet temperature coherent signal.

As a kind of preferred version of the utility model, said gas cooler is air-cooled gas cooler; Said cooling unit is an air cooling system, in order to receiving the tested compressor inlet temperature coherent signal that first temperature measuring equipment transmits, and regulates the air quantity wind speed of the air-cooled gas cooler of flowing through with this.

As a kind of preferred version of the utility model, said liquid throttling arrangement is connected with first temperature measuring equipment, and import into according to it come the refrigerant flow of adjustments of gas cooler with tested compressor inlet temperature coherent signal.

As a kind of preferred version of the utility model, said system also comprises constant-current stabilizer, and it is located between first gas throttle device, second gas throttle device; The gas throttling section of said system comprises first gas throttle device, constant-current stabilizer, second gas throttle device.

As a kind of preferred version of the utility model, said constant-current stabilizer has been the device or the pipeline of fluid steady flow result.

A kind of preferred version as the utility model; The refrigeration agent that tested compressor is discharged is divided into two-way; The gas throttling section of leading up to connects mixing tank; Another road connects mixing tank through gas cooler, liquid container, liquid throttling arrangement successively, is mixing in-tank mixing with the refrigeration agent of last road process gas throttling section; Perhaps, the two-way refrigeration agent converges into one the tunnel and gets into mixing tank again after throttling respectively, and mixed refrigeration agent flows back to tested compressor again.

As a kind of preferred version of the utility model, the outlet of said tested compressor also is provided with second temperature measuring equipment.

As a kind of preferred version of the utility model, the refrigerant outlet of said gas cooler connects an import of liquid container, and the liquid container outlet connects the import of liquid throttling arrangement, and the outlet of liquid throttling arrangement is connected with another import of mixing tank; The outlet of said mixing tank connects the tested compressor import through flowmeter; Said cooling unit and gas cooler are connected to form cooling circuit, and cooling unit comprises the controlling device of can regulate through the cooling medium consumption of gas cooler.

The beneficial effect of the utility model is: the refrigeration compressor experimental bench system that the utility model proposes, can be applied to stride critical or supercritical system is used the refrigeration compressor experimental bench system, and also can be applied to subcritical systems and use the refrigeration compressor experimental bench system; Effectively expanded the application area of refrigeration compressor test stand.The gas throttle device of the utility model system part is made up of two throttling arrangements and the constant-current stabilizer that is between them; Compressor Discharge Pressure is controlled by previous gas throttle device; Pressure of inspiration(Pi) is controlled by a back gas throttle device, and the constant-current stabilizer that is between them is used for reducing the gas pressure fluctuation that gets into a back gas throttle device.

Description of drawings

Fig. 1 is among the embodiment one being the composition schematic representation of regulating the refrigeration compressor experimental bench system of Compressor Inlet Temperature with the adjusting cooling water flow;

It among Fig. 2 embodiment two the composition schematic representation of regulating the refrigeration compressor experimental bench system of Compressor Inlet Temperature with the refrigerant flow of regulating the gas coming through cooler;

Fig. 3 be among the embodiment three when adopting air-cooled gas cooler the composition schematic representation of refrigeration compressor experimental bench system.

Embodiment

Specify the preferred embodiment of the utility model below in conjunction with accompanying drawing.

Embodiment one

See also Fig. 1; The utility model has disclosed a kind ofly strides critical or supercritical system is used the refrigeration compressor experimental bench system, and said system comprises: first manometer 2, first temperature measuring equipment 3, second manometer 4, second temperature measuring equipment 5, first gas throttle device 6, constant-current stabilizer 7, second gas throttle device 8, gas cooler 11, liquid container 12, liquid throttling arrangement 13, mixing tank 9, flowmeter 10, cooling unit 14.Said constant-current stabilizer 7 has been the device or the pipeline of fluid steady flow result, certainly, also constant-current stabilizer 7 can be set; In addition, the pipeline of 8 of first gas throttle devices 6, second gas throttle device also plays the current stabilization effect of a part.

The inlet ductwork of tested compressor 1 is provided with said first manometer 2, first temperature measuring equipment 3, and the export pipeline of tested compressor 1 is provided with said second manometer 4, second temperature measuring equipment 5.The outlet of tested compressor 1 is divided into two-way, leads up to first gas throttle device 6, constant-current stabilizer 7, second gas throttle device 8 to connect mixing tanks 9; Another road connects mixing tank 9 through gas cooler 11, liquid container 12, liquid throttling arrangement 13 successively.Promptly; The refrigeration agent that tested compressor 1 is discharged is divided into two-way; The gas throttling section (comprising first gas throttle device 6, constant-current stabilizer 7, second gas throttle device 8) of leading up to connects mixing tank 9; Another road connects mixing tank 9 through gas cooler 11, liquid container 12, liquid throttling arrangement 13 successively, is mixing in-tank mixing 9 with the refrigeration agent of last road process gas throttling section; Perhaps, the two-way refrigeration agent converges into one the tunnel and gets into mixing tank 9 again after throttling respectively, and mixed refrigeration agent flows back to tested compressor 1 again.

Particularly; As shown in Figure 1; The relief opening threeway of said tested compressor 1 is connected with first gas throttle device 6 with gas cooler 11 refrigerant inlet respectively; 6 outlets of first gas throttle device are connected with constant-current stabilizer 7 imports, and constant-current stabilizer 7 outlets are connected with 8 imports of second gas throttle device, and 8 outlets of second gas throttle device are connected with an import of mixing tank 9.The refrigerant outlet of said gas cooler 11 connects liquid container 12 imports, and liquid container 12 outlets connect 13 imports of liquid throttling arrangement, and 13 outlets of liquid throttling arrangement are connected with another import of mixing tank 9; The outlet of said mixing tank 9 connects tested compressor 1 import through flowmeter 10.

Said first gas throttle device 6 connects said second manometer 4, receives the coherent signal of second manometer, 4 detected tested compressor 1 exhaust pressure, to regulate refrigeration system high pressure section pressure.Said second gas throttle device 8 connects said first manometer 2, receives the coherent signal of first manometer, 2 detected tested compressor 1 pressures of inspiration(Pi), to regulate refrigeration system low pressure stage pressure.

Said cooling unit 14 connects gas coolers 11, is used for refrigeration agent in the cooled gas cooler 11.As shown in Figure 1, said cooling unit 14 connects said first temperature measuring equipment 3, and the cooling medium consumption of importing into according to it of coming adjustments of gas cooler 11 with tested compressor 1 inlet temperature coherent signal.The refrigerant outlet of said gas cooler 11 connects an import of liquid container 12, and liquid container 12 outlets connect 13 imports of liquid throttling arrangement, and 13 outlets of liquid throttling arrangement are connected with another import of mixing tank 9; The outlet of said mixing tank 9 connects tested compressor 1 import through flowmeter 10.

Said cooling unit 14 is connected to form cooling circuit with gas cooler 11, and cooling unit 14 comprises the controlling device (like variable frequency pump) of can regulate through the cooling medium consumption of gas cooler 11.In the present embodiment, said gas cooler 11 is the water-cooled gas cooler; The coolant outlet of said cooling unit 14 connects the inlet of gas cooler 11, and the cooling water inlet of cooling unit 14 connects the outlet of gas cooler 11.Said cooling unit 14 comprises water chiller 141, variable frequency pump 142, and said variable frequency pump 142 is connected with first temperature measuring equipment 3, and import into according to it come the cooling water flow of adjustments of gas cooler 11 with tested compressor 1 inlet temperature coherent signal.

Embodiment two

See also Fig. 2; Present embodiment and embodiment's one difference is; In the present embodiment, said liquid throttling arrangement 13 is connected with first temperature measuring equipment 3, and import into according to it come the refrigerant flow of adjustments of gas cooler 11 with tested compressor inlet temperature coherent signal.

Embodiment three

See also Fig. 3, present embodiment and embodiment's one difference is that in the present embodiment, said gas cooler 11 is air-cooled gas cooler; Said cooling unit 14 is an air cooling system 143, in order to receiving the tested compressor 1 inlet temperature coherent signal that first temperature measuring equipment 3 transmits, and regulates the air quantity wind speed of the air-cooled gas cooler 11 of flowing through with this.

In sum, the refrigeration compressor experimental bench system that the utility model proposes can be applied to stride critical or supercritical system is used the refrigeration compressor experimental bench system, also can be applied to subcritical systems and use the refrigeration compressor experimental bench system; Effectively expanded the application area of refrigeration compressor test stand.The gas throttle device of the utility model system part is made up of two throttling arrangements and the constant-current stabilizer that is between them; Compressor Discharge Pressure is controlled by previous gas throttle device; Pressure of inspiration(Pi) is controlled by a back gas throttle device, and the constant-current stabilizer that is between them is used for reducing the gas pressure fluctuation that gets into a back gas throttle device.

Here description of the utility model and application is illustrative, is not to want the scope of the utility model is limited in the above-described embodiments.Here the embodiment's who is disclosed distortion and change are possible, and embodiment's replacement is known with the various parts of equivalence for those those of ordinary skill in the art.Those skilled in the art are noted that under the situation of spirit that does not break away from the utility model or substantive characteristics, and the utility model can be with other form, structure, layout, ratio, and realize with other assembly, material and parts.Under the situation that does not break away from the utility model scope and spirit, can carry out other distortion and change here to the embodiment who is disclosed.

Claims (10)

1. refrigeration compressor experimental bench system; It is characterized in that said system comprises: first manometer, first temperature measuring equipment, second manometer, first gas throttle device, second gas throttle device, gas cooler, liquid container, liquid throttling arrangement, mixing tank, flowmeter, cooling unit;

The inlet ductwork of tested compressor is provided with said first manometer, first temperature measuring equipment, and the export pipeline of tested compressor is provided with said second manometer;

The outlet of tested compressor is divided into two-way, leads up to first gas throttle device, second gas throttle device to connect mixing tank, and another road connects mixing tank through gas cooler, liquid container, liquid throttling arrangement successively;

Said first gas throttle device connects said second manometer, receives the coherent signal of the detected tested compressor exhaust pressure of second manometer, to regulate refrigeration system high pressure section pressure;

Said second gas throttle device connects said first manometer, receives the coherent signal of the detected tested compressor pressure of inspiration(Pi) of first manometer, to regulate refrigeration system low pressure stage pressure;

Said cooling unit connects gas cooler, is used for refrigeration agent in the cooled gas cooler.

2. refrigeration compressor experimental bench system according to claim 1 is characterized in that:

Said cooling unit connects said first temperature measuring equipment, and the cooling medium consumption of importing into according to it of coming the adjustments of gas cooler with tested compressor inlet temperature coherent signal.

3. refrigeration compressor experimental bench system according to claim 2 is characterized in that:

Said gas cooler is the water-cooled gas cooler; The coolant outlet of said cooling unit connects the inlet of gas cooler, and the cooling water inlet of cooling unit connects the outlet of gas cooler;

Said cooling unit comprises water chiller, variable frequency pump, and said variable frequency pump is connected with first temperature measuring equipment, and import into according to it come the cooling water flow of adjustments of gas cooler with the inlet temperature coherent signal.

4. refrigeration compressor experimental bench system according to claim 2 is characterized in that:

Said gas cooler is air-cooled gas cooler; Said cooling unit is an air cooling system, in order to receiving the tested compressor inlet temperature coherent signal that first temperature measuring equipment transmits, and regulates the air quantity wind speed of the air-cooled gas cooler of flowing through with this.

5. refrigeration compressor experimental bench system according to claim 1 is characterized in that:

Said liquid throttling arrangement is connected with first temperature measuring equipment, and import into according to it come the refrigerant flow of adjustments of gas cooler with tested compressor inlet temperature coherent signal.

6. according to the described refrigeration compressor experimental bench system of one of claim 1 to 5, it is characterized in that:

Said system also comprises constant-current stabilizer, and it is located between first gas throttle device, second gas throttle device;

The gas throttling section of said system comprises first gas throttle device, constant-current stabilizer, second gas throttle device.

7. refrigeration compressor experimental bench system according to claim 6 is characterized in that:

Said constant-current stabilizer has been the device or the pipeline of fluid steady flow result.

8. refrigeration compressor experimental bench system according to claim 6 is characterized in that:

The refrigeration agent that tested compressor is discharged is divided into two-way; The gas throttling section of leading up to connects mixing tank; Another road connects mixing tank through gas cooler, liquid container, liquid throttling arrangement successively, is mixing in-tank mixing with the refrigeration agent of last road process gas throttling section;

Perhaps, the two-way refrigeration agent converges into one the tunnel and gets into mixing tank again after throttling respectively, and mixed refrigeration agent flows back to tested compressor again.

9. according to the described refrigeration compressor experimental bench system of one of claim 1 to 5, it is characterized in that:

The outlet of said tested compressor also is provided with second temperature measuring equipment.

10. according to the described refrigeration compressor experimental bench system of one of claim 1 to 5, it is characterized in that:

The refrigerant outlet of said gas cooler connects an import of liquid container, and the liquid container outlet connects the import of liquid throttling arrangement, and the outlet of liquid throttling arrangement is connected with another import of mixing tank; The outlet of said mixing tank connects the tested compressor import through flowmeter;

Said cooling unit and gas cooler are connected to form cooling circuit, and cooling unit comprises the controlling device of can regulate through the cooling medium consumption of gas cooler.

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