IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0942724
(2004-09-16)
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등록번호 |
US-7272948
(2007-09-25)
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발명자
/ 주소 |
- Taras,Michael F.
- Lifson,Alexander
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
17 인용 특허 :
17 |
초록
▼
A heat pump system operates in heating and cooling modes. The heat pump is provided with both a reheat function and economizer circuit. The economizer circuit provides augmented performance to the heat pump, while the reheat coil allows enhanced control over temperature and humidity of the air supp
A heat pump system operates in heating and cooling modes. The heat pump is provided with both a reheat function and economizer circuit. The economizer circuit provides augmented performance to the heat pump, while the reheat coil allows enhanced control over temperature and humidity of the air supplied to the conditioned space. A bypass line around an outdoor heat exchanger is also provided to achieve additional flexibility of control for a sensible heat ratio. Selective operation of the abovementioned components and subsystems allows precise control over system operation parameters and hence satisfaction of a wide spectrum of sensible and latent load demands and improved reliability.
대표청구항
▼
What is claimed is: 1. A heat pump system comprising: at least one compressor, said compressor compressing refrigerant and delivering the refrigerant to a discharge line, said compressor receiving a refrigerant from a suction line; a flow control device for selectively controlling the flow of refri
What is claimed is: 1. A heat pump system comprising: at least one compressor, said compressor compressing refrigerant and delivering the refrigerant to a discharge line, said compressor receiving a refrigerant from a suction line; a flow control device for selectively controlling the flow of refrigerant from said discharge line, and for returning refrigerant to said suction line; an indoor heat exchanger and an outdoor heat exchanger, said flow control device being operable to send refrigerant from said discharge line to said outdoor heat exchanger, and then to said indoor heat exchanger when in a cooling mode, and operable to pass refrigerant from said compressor discharge line to said indoor heat exchanger and then to said outdoor heat exchanger when in a heating mode; and a reheat coil, said reheat coil being in communication with the refrigerant line to tap a refrigerant through a reheat coil, and return said refrigerant to said refrigerant line, an air moving device for passing air to an environment to be conditioned over said indoor heat exchanger, and at least a portion of said air over said reheat coil; an economizer circuit, said economizer circuit providing subcooling to a main flow of refrigerant by a tapped flow of refrigerant; and said economizer circuit includes a pair of economizer heat exchangers, with one economizer heat exchanger being dedicated to a heating mode and one being dedicated to a cooling mode. 2. A heat pump system comprising: at least one compressor, said compressor compressing refrigerant and delivering the refrigerant to a discharge line, said compressor receiving a refrigerant from a suction line; a flow control device for selectively controlling the flow of refrigerant from said discharge line, and for returning refrigerant to said suction line; an indoor heat exchanger and an outdoor heat exchanger, said flow control device being operable to send refrigerant from said discharge line to said outdoor heat exchanger, and then to said indoor heat exchanger when in a cooling mode, and operable to pass refrigerant from said compressor discharge line to said indoor heat exchanger and then to said outdoor heat exchanger when in a heating mode; a reheat coil, said reheat coil being in communication with the refrigerant line to tap a refrigerant through a reheat coil, and return said refrigerant to said refrigerant line, an air moving device for passing air to an environment to be conditioned over said indoor heat exchanger, and at least a portion of said air over said reheat coil; an economizer circuit, said economizer circuit providing subcooling to a main flow of refrigerant by a tapped flow of refrigerant; and said economizer circuit including a single economizer heat exchanger, and a second flow control device routing refrigerant to said economizer heat exchanger either downstream of said outdoor heat exchanger in a cooling mode, or downstream of said indoor heat exchanger in a heating mode. 3. The heat pump system as set forth in claim 2, wherein a flash tank is utilized as said economizer heat exchanger. 4. The heat pump system as set forth in claim 3, wherein a pair of expansion devices is positioned such that one operates to expand refrigerant heading to said flash tank, and the other operates to expand refrigerant downstream of said flash tank, with the roles of said two expansion devices reversing when the refrigerant system is in a cooling mode and when it is in a heating mode. 5. The heat pump system as set forth in claim 3, wherein a pair of expansion devices is positioned such that one operates to expand refrigerant heading to said flash tank, and the other operates to expand refrigerant downstream of said flash tank, with the roles of said two expansion devices staying the same whether the refrigerant system is in a cooling mode and when it is in a heating mode. 6. The heat pump system as set forth in claim 1, wherein said economizer heat exchanger and said reheat coil are positioned to be in parallel relationship with each other. 7. The heat pump system as set forth in claim 1, wherein said economizer heat exchanger and said reheat coil are positioned to be in serial relationship to each other. 8. The heat pump system as set forth in claim 1 includes tandem compressors connected in parallel. 9. The heat pump system as set forth in claim 1 includes multiple compressors connected in series. 10. The heat pump system as set forth in claim 1 includes a compound compressor. 11. The heat pump system as set forth in claim 1, wherein a bypass line is provided for bypassing refrigerant around said outdoor heat exchanger. 12. The heat pump system as set forth in claim 1, wherein said outdoor heat exchanger and said reheat coil are positioned to be in parallel relationship with each other. 13. The heat pump system as set forth in claim 1, wherein said outdoor heat exchanger and said reheat coil are positioned to be in serial relationship to each other. 14. A method of operating a heat pump system comprising the steps of: (1) providing a flow control device for routing refrigerant in either a cooling or heating mode, and providing a reheat coil, an indoor heat exchanger positioned to be adjacent said reheat coil, such that at least a portion of air passing over said indoor heat exchanger also passes over said reheat coil, and an economizer circuit; and (2) selectively operating said refrigerant system in one of said heating and cooling modes, and selectively routing refrigerant through said reheat coil to achieve desired temperature and humidity levels when desired, and selectively operating the economizer circuit to provide an economizer function when desired; (3) the economizer circuit includes a single economizer heat exchanger and a flow control device routing refrigerant to said economizer heat exchanger either downstream of the outdoor heat exchanger in a cooling mode, or downstream of the indoor heat exchanger in a heating mode. 15. The method of claim 14, further comprising the steps of providing a bypass around an outdoor heat exchanger, and selectively bypassing refrigerant around said outdoor heat exchanger to achieve additional control over sensible heat ratio when desired. 16. The method of claim 14, wherein said heat pump system includes tandem compressors connected in parallel, and said control selectively operates said tandem compressors. 17. The method of claim 14, wherein said heat pump system includes multiple compressors connected in series, and said control selectively operates said compressors. 18. The method of claim 14, wherein a compressor utilized with the heat pump system is a compound compressor, and said control selectively operating one or more stages of said compound compressor. 19. A method of operating a heat pump system comprising the steps of: (1) providing a flow control device for routing refrigerant in either a cooling or heating mode, and providing a reheat coil, an indoor heat exchanger positioned to be adjacent said reheat coil, such that at least a portion of air passing over said indoor heat exchanger also passes over said reheat coil, and an economizer circuit; and (2) selectively operating said refrigerant system in one of said heating and cooling modes, and selectively routing refrigerant through said reheat coil to achieve desired temperature and humidity levels when desired, and selectively operating the economizer circuit to provide an economizer function when desired; and (3) the economizer circuit includes a pair of economizer heat exchangers, with refrigerant passing through one economizer heat exchanger when in a heating mode, and passing through the other economizer heat exchanger when in a cooling mode.
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