Roof top air conditioning units having a centralized refrigeration system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25D-023/12
F24F-003/00
출원번호
US-0319272
(2009-01-05)
등록번호
US-8353175
(2013-01-15)
발명자
/ 주소
Wohlert, Calvin Wade
출원인 / 주소
Wohlert, Calvin Wade
인용정보
피인용 횟수 :
19인용 특허 :
7
초록▼
A system comprising a plurality of rooftop HVAC units having a centralized refrigeration unit is described along with a method for retrofitting existing independent HVAC units into the described system. The resulting multi-unit system offers increased efficiency and reliability over independently op
A system comprising a plurality of rooftop HVAC units having a centralized refrigeration unit is described along with a method for retrofitting existing independent HVAC units into the described system. The resulting multi-unit system offers increased efficiency and reliability over independently operating HVAC units.
대표청구항▼
1. A cooling system for a building, the system comprising: a plurality of roof top units, each roof top unit including,(i) one or more compressors,(ii) at least one outdoor coil,(iii) at least one expansion device,(iv) at least one indoor coil,(v) refrigerant pipes coupling the one or more compresso
1. A cooling system for a building, the system comprising: a plurality of roof top units, each roof top unit including,(i) one or more compressors,(ii) at least one outdoor coil,(iii) at least one expansion device,(iv) at least one indoor coil,(v) refrigerant pipes coupling the one or more compressors, the at least one outdoor coil, the at least one expansion device and the at least one indoor coil in a loop, the piping being configured to contain and permit the flow of refrigerant,(vi) a housing substantially containing the one or more compressors, the at least one outdoor coil, the at least one expansion device, the at least one indoor coil, and the piping,(vii) at least one first valve configured to selectively isolate flow of refrigerant through the refrigerant pipes between the indoor and outdoor coils,(viii) at least one pair of pipes exiting the roof top unit, the at least one pair of pipes being fluidly coupled to the refrigerant pipes,(ix) at least one second valve configured to selectively permit flow of refrigerant from the indoor coil through at least one pair of pipes exiting the roof top unit;a centralized refrigeration unit, the centralized refrigeration unit being separate and distinct from each of the plurality of roof top units and including at least one compressor; andconnector pipes coupling the at least one pair of pipes exiting each roof top unit to the centralized refrigeration unit. 2. The cooling system of claim 1, wherein the centralized refrigeration unit is a water-cooled system. 3. The cooling system of claim 1, wherein the at least one indoor coil comprises a cooling coil and the at least one outdoor coil comprises a condenser coil. 4. The cooling system of claim 1, wherein each roof top unit further includes at least one solenoid valve, the solenoid valve configured to permit the flow of refrigerant through refrigerant pipes from the at least one pair of pipes and the connector pipes from the centralized refrigeration unit to the expansion device and the indoor coil. 5. The cooling system of claim 1, wherein each of the plurality of roof top units comprises a heat pump. 6. The cooling system of claim 1, wherein each of the plurality of roof top units comprises an air conditioner. 7. A method of making a cooling system, the method comprising: providing a plurality of roof top units, each roof top unit including,(i) one or more compressors,(ii) at least one outdoor coil,(iii) at least one expansion device,(iv) at least one indoor coil,(v) refrigerant pipes coupling the one or more compressors, the at least one outdoor coil, the at least one expansion device and the at least one indoor coil in a loop, the piping being configured to contain and permit the flow of refrigerant therein,(vi) a housing substantially containing the one or more compressors, the at least one outdoor coil, the at least one expansion device, the at least one indoor coil, and the piping,(vii) at least one first valve configured to selectively isolate flow of refrigerant through the refrigerant pipes between the indoor and outdoor coils,(viii) at least one pair of pipes exiting the roof top unit, the at least one pair of pipes being fluidly coupled to the refrigerant pipes,(ix) at least one second valve configured to selectively permit flow of refrigerant from the indoor coil through at least one pair of pipes exiting the roof top unit;providing a centralized refrigeration unit;the centralized refrigeration unit being separate and distinct from each of the plurality of roof top units and including at least one compressor; andconnector pipes coupling the at least one pair of pipes exiting each roof top unit to the centralized refrigeration unit;operatively coupling the at least one pair of pipes to the refrigerant pipes;installing the at least one first valve;installing the at least one second valve; andoperatively coupling the at least one pair of pipes to the connector pipes. 8. The method of claim 7, wherein the plurality of roof top units were provided already operatively installed on a building. 9. A method of operating a cooling system of claim 1, the method comprising: a plurality of roof top units, each roof top unit including,(i) one or more compressors,(ii) at least one outdoor coil,(iii) at least one expansion device,(iv) at least one indoor coil,(v) refrigerant pipes coupling the one or more compressors, the at least one outdoor coil, the at least one expansion device and the at least one indoor coil in a loop, the piping being configured to contain and permit the flow of refrigerant therein,(vi) a housing substantially containing the one or more compressors, the at least one outdoor coil, the at least one expansion device, the at least one indoor coil, and the piping,(vii) at least one first valve configured to selectively isolate flow of refrigerant through the refrigerant pipes between the indoor and outdoor coils,(viii) at least one pair of pipes exiting the roof top unit, the at least one pair of pipes being fluidly coupled to the refrigerant pipes,(ix) at least one second valve configured to selectively permit flow of refrigerant from the indoor coil through at least one pair of pipes exiting the roof top unit;a centralized refrigeration unit, the centralized refrigeration unit being separate and distinct from each of the plurality of roof top units and including at least one compressor; andconnector pipes coupling the at least one pair of pipes exiting each roof top unit to the centralized refrigeration unit;closing the at least one first valve to prevent the flow of refrigerant between the indoor and outdoor coils; andopening the at least one second value to permit flow of refrigerant between the indoor coil and the centralized refrigeration unit. 10. The method of claim 9, wherein each roof top unit further includes at least one solenoid valve, the solenoid valve configured to permit the flow of refrigerant through refrigerant pipes from the at least one pair of pipes and the connector pipes from the centralized refrigeration unit to the expansion device and the indoor coil, and the method further comprises opening the solenoid valve to facilitate the flow of refrigerant to the indoor coil.
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이 특허에 인용된 특허 (7)
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