A rotating air conditioner apparatus and method comprising an elongated shaft, whereby one or more of a condenser coil, an evaporator coil, and a compressor rotate around the elongated shaft. In one embodiment, balancing weights rotate with the shaft and are positioned to prevent uneven rotation of
A rotating air conditioner apparatus and method comprising an elongated shaft, whereby one or more of a condenser coil, an evaporator coil, and a compressor rotate around the elongated shaft. In one embodiment, balancing weights rotate with the shaft and are positioned to prevent uneven rotation of rotating air conditioner during operation. The evaporator and condenser contain a plurality of fins and/or fan blades and coils for refrigerant. Inlets and/or adjustably directed outlets on the evaporator and/or the condenser provide for circulation of air through the rotating air conditioner apparatus.
대표청구항▼
1. A rotating air conditioner apparatus, comprising: at least one elongated shaft;a compressor;an evaporator, said evaporator comprising an evaporator coil through which a refrigerant flows, said evaporator coil being mounted to said elongated shaft for rotation around said at least one elongated sh
1. A rotating air conditioner apparatus, comprising: at least one elongated shaft;a compressor;an evaporator, said evaporator comprising an evaporator coil through which a refrigerant flows, said evaporator coil being mounted to said elongated shaft for rotation around said at least one elongated shaft;a condenser, said condenser comprising condenser coils through which said refrigerant flows, said condenser coils being mounted to said elongated shaft for rotation around said at least one elongated shaft; anda fluid rotary joint for fluidly connecting said compressor with said evaporator and said condenser, said rotary joint comprising a stationary connection on one side and a rotating connection on an opposite side. 2. The rotating air conditioner apparatus of claim 1, said evaporator further comprising a cylindrical evaporator housing, an inlet duct, an outlet duct, and an evaporator blower configured around said at least one elongated shaft. 3. The rotating air conditioner apparatus of claim 1, said condenser further comprising a housing, an inlet air duct, an outlet air duct configured around said at least one elongated shaft. 4. The rotating air conditioner apparatus of claim 1, further comprising a blower motor that rotates around said at least one elongated shaft and further comprising a plurality of electrical slip rings for transferring power to said compressor. 5. The rotating air conditioner apparatus of claim 1, further comprising a motor to rotate said shaft. 6. The rotating air conditioner apparatus of claim 1, further comprising at least two balancing weights placed on opposite sides of said at least one elongated shaft to balance rotational movement during operation of said rotating air conditioner, said at least two balancing weights rotating around said at least one elongated shaft. 7. The rotating air conditioner apparatus of claim 1, wherein said compressor rotates around the axis of said at least one elongated shaft. 8. A rotating air conditioner apparatus, comprising: a shaft;an evaporator comprising evaporator coils mounted for rotation around said shaft;a condenser comprising condenser coils mounted for rotation around said shaft;a compressor operable for compressing a refrigerant; anda fluid rotary joint for fluidly connecting said compressor with said evaporator and said condenser, said rotary joint comprising a stationary connection on one side and a rotating connection on an opposite side. 9. The rotating air conditioner apparatus of claim 8, said evaporator further comprising a cylindrical evaporator housing, an evaporator air inlet duct, and an evaporator air outlet duct. 10. The rotating air conditioner apparatus of claim 8, said condenser further comprising a cylindrical housing, a condenser air inlet duct, and a condenser outlet duct. 11. The rotating air conditioner apparatus of claim 8, further comprising a clutch and an electric switch to operate said clutch. 12. The rotating air conditioner apparatus of claim 8, further comprising a pulley mounted to said shaft. 13. A method for a rotating air conditioner apparatus, comprising: providing an at least one elongated shaft mounted for rotation;providing a compressor;providing an evaporator comprising evaporator coils mounted for rotation around said at least one elongated shaft;providing a condenser comprising condenser coils mounted for rotation around said at least one elongated shaft; andproviding a fluid rotary joint for fluidly connecting said compressor with said evaporator and said condenser, said rotary joint comprising a stationary connection on one side and a rotating connection on an opposite side. 14. The method of claim 13, further comprising providing that said evaporator comprises a cylindrical evaporator housing, an evaporator air inlet duct, and an evaporator air outlet duct. 15. The method of claim 13, further comprising providing a blower motor which rotates around said shaft. 16. The method of claim 13, further comprising providing a motor to rotate said at least one elongated shaft. 17. The method of claim 13, further comprising providing at least two balancing weights placed on opposite sides of said at least one elongated shaft to regulate rotational movement of said shaft during operation of said rotating air conditioner. 18. A method for making a rotating air conditioner apparatus, comprising: providing at least one elongated shaft mounted for rotation;providing a compressor;providing an evaporator comprising evaporator coils;providing a condenser comprising condenser coils;providing that at least one of said evaporator coils or said condenser coils are mounted for rotation around said at least one elongated shaft;providing a fluid rotary joint for fluidly connecting said compressor with said evaporator and said condenser, andproviding that said rotary joint comprises a stationary connection on one side and a rotating connection on an opposite side.
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이 특허에 인용된 특허 (16)
Hisashi Ueda JP; Katsuyuki Ohsaki JP; Keizo Goto JP, Air passage controlling system for air conditioning apparatus.
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