Claims
- 1. A refrigeration apparatus, comprising:
- a compressor to compress and discharge refrigerant;
- a condenser to cool and condense high-temperature, high-pressure gas-phase refrigerant discharged from said compressor;
- a pressure-reducing means to reduce pressure of liquid-phase refrigerant condensed by said condenser;
- a gas-liquid separation means to separate gas-liquid two-phase refrigerant pressure-reduced by said pressure-reducing means into liquid-phase refrigerant and gas-phase refrigerant;
- a liquid-phase refrigerant discharge passage to discharge liquid-phase refrigerant separated by said gas-liquid separation means from said gas-liquid separation means;
- a gas-phase refrigerant discharge passage to discharge gas-phase refrigerant separated by said gas-liquid separation means from said gas-liquid separation means;
- an auxiliary pressure-reducing means provided in said liquid-phase refrigerant discharge passage to reduce pressure of refrigerant;
- an evaporator connected to a downstream side passage of said auxiliary pressure-reducing means and evaporating said refrigerant which is pressure-reduced by said auxiliary pressure-reducing means so that gas-phase refrigerant is generated; and
- an evaporator outlet side passage to unite gas-phase refrigerant from said gas-phase refrigerant discharge passage with said gas-phase refrigerant evaporated by said evaporator and to lead said gas-phase refrigerant to an intake side of said compressor,
- wherein an aperture resistance to reduce pressure of gas-phase refrigerant flow is provided in said gas-phase refrigerant discharge passage.
- 2. A refrigeration apparatus according to claim 8, wherein said compressor is driven by an engine for automotive use, and said evaporator is utilized as a cooler to cool air for passenger compartment air-conditioning use.
- 3. A refrigeration apparatus, comprising:
- a compressor to compress and discharge refrigerant;
- a condenser to cool and condense high-temperature, high-pressure gas-phase refrigerant discharged from said compressor;
- a temperature-operating type expansion valve having a restricting passage to reduce pressure of liquid-phase refrigerant condensed by said condenser and a valve to regulate a degree of opening of said restricting passage;
- a gas-liquid separation means to separate gas-liquid two-phase refrigerant pressure-reduced by said temperature-operating type expansion valve into liquid-phase refrigerant and gas-phase refrigerant;
- a liquid-phase refrigerant discharge passage to discharge liquid-phase refrigerant separated by said gas-liquid separation means from said gas-liquid separation means;
- a gas-phase refrigerant discharge passage to discharge gas-phase refrigerant separated by said gas-liquid separation means from said gas-liquid separation means;
- an evaporator connected to a downstream side passage of said liquid-phase refrigerant discharge passage to introduce said refrigerant from liquid-phase refrigerant discharge passage and evaporating said refrigerant;
- an evaporator outlet side passage to unite gas-phase refrigerant from said gas-phase refrigerant discharge passage with said gas-phase refrigerant evaporated by said evaporator and to lead said gas-phase refrigerant to an intake side of said compressor;
- wherein said temperature-operating type expansion valve further includes a temperature-sensing means disposed in a location in said evaporator outlet side passage which is upstream of a union location of gas-phase refrigerant evaporated by said evaporator and gas-phase refrigerant from said gas-phase refrigerant discharge passage, to sense temperature of gas-phase refrigerant evaporated by said evaporator; and
- a valve operating means for regulating a degree of opening of said valve in correspondence to said gas-phase refrigerant temperature sensed by means of said temperature sensing means,
- wherein an aperture resistance to reduce pressure of gas-phase refrigerant flow is provided in said gas-phase refrigerant discharge passage.
- 4. A refrigeration apparatus according to claim 3, wherein said gas-liquid separation means is a centrifugal type separator forming swirl flow in refrigerant flow to separate refrigerant gas and liquid by means of centrifugal force generated by means of said swirl flow.
- 5. A refrigeration apparatus according to claim 3, wherein said gas-liquid separation means is a centrifugal type separator forming swirl flow in refrigerant flow to separate refrigerant gas and liquid by means of centrifugal force generated by means of said swirl flow, and wherein further said centrifugal type separator is disposed immediately after a restricting passage of said temperature-operating type expansion valve, and said centrifugal type separator and said temperature-operating type expansion valve are structured integrally.
- 6. A refrigeration apparatus according to claim 3, wherein an evaporation pressure regulating valve to regulate refrigerant evaporation pressure in said evaporator is provided in said evaporator outlet side passage.
- 7. A refrigeration apparatus according to claim 3, wherein said compressor is structured as a variable-capacity type enabling discharge capacity thereof to be caused to change, and is structured so as to control refrigerant evaporation pressure in said evaporator by means of capacity control of said compressor.
- 8. A refrigeration apparatus according to claim 3, wherein said compressor is driven by an engine for automotive use, and said evaporator is utilized as a cooler to cool air for passenger compartment air-conditioning use.
- 9. A refrigeration apparatus, comprising:
- a compressor to compress and discharge refrigerant;
- a condenser to cool and condense high-temperature, high-pressure gas-phase refrigerant discharged from said compressor;
- a temperature-operating type expansion valve having a restricting passage to reduce pressure of liquid-phase refrigerant condensed by said condenser and a valve to regulate a degree of opening of said restricting passage;
- a gas-liquid separation means to separate gas-liquid two-phase refrigerant pressure-reduced by said temperature-operating type expansion valve into liquid-phase refrigerant and gas-phase refrigerant;
- a liquid-phase refrigerant discharge passage to discharge liquid-phase refrigerant separated by said gas-liquid separation means from said gas-liquid separation means;
- a gas-phase refrigerant discharge passage to discharge gas-phase refrigerant separated by said gas-liquid separation means from said gas-liquid separation means;
- an auxiliary pressure-reducing means provided in said liquid-phase refrigerant discharge passage to reduce pressure of refrigerant;
- an evaporator connected to a downstream side passage of said auxiliary pressure-reducing means and evaporating said refrigerant which is pressure-reduced by said auxiliary pressure-reducing means so that gas-phase refrigerant is generated;
- an evaporator outlet side passage to unite gas-phase refrigerant from said gas-phase refrigerant discharge passage with said gas-phase refrigerant evaporated by said evaporator and to lead said gas-phase refrigerant to an intake side of said compressor;
- wherein said temperature-operating type expansion valve further includes a temperature-sensing means disposed in a location in said evaporator outlet side passage which is upstream of a union location of gas-phase refrigerant evaporated by said evaporator and gas-phase refrigerant from said gas-phase refrigerant discharge passage, to sense temperature of gas-phase refrigerant evaporated by said evaporator; and
- a valve operating means for regulating a degree of opening of said valve in correspondence to said gas-phase refrigerant temperature sensed by means of said temperature-sensing means,
- wherein an aperture resistance to reduce pressure of gas-phase refrigerant flow is provided in said gas-phase refrigerant discharge passage.
- 10. A refrigeration apparatus according to claim 9, wherein said auxiliary pressure-reducing means is aperture resistance composed of an orifice or a nozzle.
- 11. A refrigeration apparatus according to claim 9, wherein said gas-liquid separation means is a centrifugal type separator forming swirl flow in refrigerant flow to separate refrigerant gas and liquid by means of centrifugal force generated by means of said swirl flow.
- 12. A refrigeration apparatus according to claim 9, wherein said gas-liquid separation means is a centrifugal type separator forming swirl flow in refrigerant flow to separate refrigerant gas and liquid by means of centrifugal force generated by means of said swirl flow, and wherein further said centrifugal type separator is disposed immediately after a restricting passage of said temperature-operating type expansion valve, and said centrifugal type separator and said temperature-operating type expansion valve are structured integrally.
- 13. A refrigeration apparatus according to claim 9, wherein an evaporation pressure regulating valve to regulate refrigerant evaporation pressure in said evaporator is provided in said evaporator outlet side passage.
- 14. A refrigeration apparatus according to claim 9, wherein said compressor is structured as a variable-capacity type enabling discharge capacity thereof to be caused to change, and is structured so as to control refrigerant evaporation pressure in said evaporator by means of capacity control of said compressor.
- 15. A refrigeration apparatus according to 9 wherein said compressor is driven by an engine for automotive use, and said evaporator is utilized as a cooler to cool air for passenger compartment air-conditioning use.
Priority Claims (2)
Number |
Date |
Country |
Kind |
6-073325 |
Apr 1994 |
JPX |
|
6-228112 |
Sep 1994 |
JPX |
|
CROSS REFERENCE TO RELATED APPLICATIONS
This application is based upon and claims priority from Japanese Patent Application No. Hei 6-73325 filed Apr. 12, 1994 and Japanese Patent Application No. Hei 6-228112 filed Sep. 22, 1994, with the contents of each document being incorporated herein by reference.
US Referenced Citations (4)
Foreign Referenced Citations (3)
Number |
Date |
Country |
2650935 |
May 1978 |
DEX |
5-18635 |
Jan 1993 |
JPX |
5-79725 |
Mar 1993 |
JPX |