초록 ▼

An air refrigerant cooling apparatus has magnetic bearings with high reliability and high efficiency. The air refrigerant cooling apparatus includes a motor having a first magnetic bearing and a second magnetic bearing for supporting a shaft, a compressor and an expansion turbine. The compressor is

An air refrigerant cooling apparatus has magnetic bearings with high reliability and high efficiency. The air refrigerant cooling apparatus includes a motor having a first magnetic bearing and a second magnetic bearing for supporting a shaft, a compressor and an expansion turbine. The compressor is connected to the shaft and separated from the first magnetic bearing by a first labyrinth. The expansion turbine is connected to the shaft and separated from the second magnetic bearing by a second labyrinth. Pressure differences are generated between spaces where the first magnetic bearing and the second magnetic bearing are provided and respective inlet of the compressor and outlet of the expansion turbine by an external pressure outside the motor.

대표청구항 ▼

The invention claimed is: 1. An air refrigerant cooling apparatus comprising: a motor having a first magnetic bearing and a second magnetic bearing for supporting a shaft; a compressor; and an expansion turbine, wherein said compressor is connected to said shaft and separated from said first magnet

The invention claimed is: 1. An air refrigerant cooling apparatus comprising: a motor having a first magnetic bearing and a second magnetic bearing for supporting a shaft; a compressor; and an expansion turbine, wherein said compressor is connected to said shaft and separated from said first magnetic bearing by a first labyrinth, said expansion turbine is connected to said shaft and separated from said second magnetic bearing by a second labyrinth, and pressure differences are generated between spaces where said first magnetic bearing and said second magnetic bearing are provided and respective of an inlet of said compressor and an outlet of said expansion turbine by an external pressure outside said motor. 2. The air refrigerant cooling apparatus according to claim 1, further comprising sensors for detecting a position of said shaft, wherein said sensors are provided adjacent to said first magnetic bearing and said second magnetic bearing, and a pressure difference is generated between a space where said sensors are provided and an outside of a casing of said motor by an external pressure outside said motor. 3. An air refrigeration system comprising: the air refrigerant cooling apparatus according to claim 1; a first heat exchanger; a second heat exchanger; a refrigerator; a filter; and a fan, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said refrigerator, an outlet of said refrigerator is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, and said fan supplies fluid into a casing of said motor through said filter. 4. An air refrigeration system comprising: the air refrigerant cooling apparatus according to claim 1; a first heat exchanger; a second heat exchanger; a refrigerator; and a radiator, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said refrigerator, an outlet of said refrigerator is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, said radiator is provided outside said air refrigerant cooling apparatus, and an inlet and an outlet of said radiator are connected to air vents which are provided on a casing of said motor and associated with respective of said inlet and said outlet of said radiator. 5. An air refrigeration system comprising: the air refrigerant cooling apparatus according to claim 1; a first heat exchanger; a second heat exchanger; and a refrigerator, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said refrigerator, an outlet of said refrigerator is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, a conduit connected to said outlet of said second heat exchanger is branched for cooling down an inside of said motor, said branched conduit is connected to an air vent provided on a casing of said motor, and said inlet of said compressor in said refrigerant cooling apparatus is connected to another air vent provided on said casing. 6. A refrigerator container comprising: the air refrigerant cooling apparatus according to claim 1; a first heat exchanger; a second heat exchanger; a container box; and a radiator, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said container box, an outlet of said container box is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, said radiator is provided outside said air refrigerant cooling apparatus for cooling down an inside of said motor in said air refrigerant cooling apparatus, and an inlet and an outlet of said radiator are connected to air vents which are provided on a casing of said motor and associated with respective of said inlet and said outlet of said radiator, and said air refrigerant cooling apparatus, said first heat exchanger, said second heat exchanger, said container box, and said radiator are configured to be transportable. 7. An air refrigeration system comprising: the air refrigerant cooling apparatus according to claim 2; a first heat exchanger; a second heat exchanger; a refrigerator; a filter; and a fan, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said refrigerator, an outlet of said refrigerator is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, and said fan supplies fluid into a casing of said motor through said filter. 8. An air refrigeration system comprising: the air refrigerant cooling apparatus according to claim 2; a first heat exchanger; a second heat exchanger; a refrigerator; and a radiator, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said refrigerator, an outlet of said refrigerator is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, said radiator is provided outside said air refrigerant cooling apparatus, and an inlet and an outlet of said radiator are connected to air vents which are provided on a casing of said motor and associated with respective of said inlet and said outlet of said radiator. 9. An air refrigeration system comprising: the air refrigerant cooling apparatus according to claim 2; a first heat exchanger; a second heat exchanger; and a refrigerator, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said refrigerator, an outlet of said refrigerator is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, a conduit connected to said outlet of said second heat exchanger is branched for cooling down an inside of said motor, said branched conduit is connected to an air vent provided on a casing of said motor, and said inlet of said compressor in said refrigerant cooling apparatus is connected to another air vent provided on said casing. 10. A refrigerator container comprising: the air refrigerant cooling apparatus according to claim 2; a first heat exchanger; a second heat exchanger; a container box; and a radiator, wherein an outlet of said compressor in said air refrigerant cooling apparatus is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine in said air refrigerant cooling apparatus, an outlet of said expansion turbine in said air refrigerant cooling apparatus is connected to an inlet of said container box, an outlet of said container box is connected to an inlet of said compressor in said air refrigerant cooling apparatus through said second heat exchanger, said radiator is provided outside said air refrigerant cooling apparatus for cooling down an inside of said motor in said air refrigerant cooling apparatus, and an inlet and an outlet of said radiator are connected to air vents which are provided on a casing of said motor and associated with respective of said inlet and said outlet of said radiator, and said air refrigerant cooling apparatus, said first heat exchanger, said second heat exchanger, said container box, and said radiator are configured to be transportable. 11. An air refrigerant cooling apparatus comprising: a motor having a first magnetic bearing and a second magnetic bearing for supporting a shaft; a compressor; an expansion turbine; and a means for generating pressure differences between spaces where said first magnetic bearing and said second magnetic bearing are provided and respective of an inlet of said compressor and an outlet of said expansion turbine, wherein said compressor is connected to said shaft and separated from said first magnetic bearing by a first labyrinth, and said expansion turbine is connected to said shaft and separated from said second magnetic bearing by a second labyrinth. 12. The air refrigerant cooling apparatus according to claim 11, further comprising: sensors for detecting a position of said shaft, said sensors provided adjacent to said first magnetic bearing and said second magnetic bearing; and a means for generating a pressure difference between a space where said sensors are provided and an outside of a casing of said motor. 13. An air refrigeration system comprising: a first bearing for supporting a shaft; a compressing mechanism; an expansion turbine; a first heat exchanger; a second heat exchanger; and a first conduit, wherein an outlet of said compressing mechanism is connected to an inlet of said first heat exchanger, an outlet of said first heat exchanger is connected to an inlet of said second heat exchanger, an outlet of said second heat exchanger is connected to an inlet of said expansion turbine, an outlet of said expansion turbine is connected to an inlet of a refrigerator, an outlet of said refrigerator is connected to an inlet of said compressing mechanism through said second heat exchanger, a compressor in said compressing mechanism is connected to said shaft and is separated from said first bearing by a first labyrinth, said expansion turbine is connected to said shaft, and said first conduit supplies an air refrigerant from between an outlet of said compressor and said inlet of said refrigerator to a space where said first bearing is provided. 14. The air refrigeration system according to claim 13, further comprising: a second bearing supporting said shaft at a position closer to said expansion turbine than said compressor; and a second conduit for supplying said air refrigerant from said space where said first bearing is provided to a space where said second bearing is provided. 15. The air refrigeration system according to claim 14, further comprising a third conduit for supplying said air refrigerant from said space where said second bearing is provided to said outlet of said expansion turbine. 16. The air refrigeration system according to claim 13, further comprising a motor for rotating said shaft, wherein said first bearing and said second bearing are magnetic bearings. 17. The air refrigeration system according to claim 13, wherein said first conduit is configured to derive said air refrigerant from said inlet of said expansion turbine. 18. The air refrigeration system according to claim 13, said compressing mechanism further includes an auxiliary compressor provided upstream of said compressor. 19. A refrigerator container comprising the air refrigeration system according to claim 13; and a container box connected to said outlet of said expansion turbine. 20. The air refrigeration system according to claim 14, further comprising a motor for rotating said shaft, wherein said first bearing and said second bearing are magnetic bearings. 21. The air refrigeration system according to claim 11, further comprising a motor for rotating said shaft, wherein said first bearing and said second bearing are magnetic bearings.