IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0209183
(2005-08-22)
|
등록번호 |
US-7275385
(2007-10-02)
|
발명자
/ 주소 |
- Abel,Gnanakumar Robertson
- Wu,Man Wai
- Lau,Ka Yiu
|
출원인 / 주소 |
- Emerson Climate Technologies, Inc.
|
대리인 / 주소 |
Harness, Dickey & Pierce, P.L.C.
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
41 |
초록
▼
A heat pump system includes a first heat exchanger, a second heat exchanger in fluid communication with the first heat exchanger, a scroll compressor in fluid communication with each of the first and second heat exchangers, and a flash tank in fluid communication with each of the first and second he
A heat pump system includes a first heat exchanger, a second heat exchanger in fluid communication with the first heat exchanger, a scroll compressor in fluid communication with each of the first and second heat exchangers, and a flash tank in fluid communication with each of the first and second heat exchangers and the scroll compressor. The flash tank includes an inlet fluidly coupled to the first and second heat exchangers and receives liquid refrigerant from the first and second heat exchangers. The flash tank also includes a first outlet fluidly coupled to the first and second heat exchangers that delivers sub-cooled-liquid refrigerant to the second heat exchanger and a second outlet fluidly coupled to the scroll compressor that delivers vaporized refrigerant to the scroll compressor in a heating mode.
대표청구항
▼
What is claimed is: 1. A heat pump system comprising: a first heat exchanger operable to pass refrigerant in a first flow direction and a second flow direction; a second heat exchanger in fluid communication with said first heat exchanger and operable to pass refrigerant in said first flow directio
What is claimed is: 1. A heat pump system comprising: a first heat exchanger operable to pass refrigerant in a first flow direction and a second flow direction; a second heat exchanger in fluid communication with said first heat exchanger and operable to pass refrigerant in said first flow direction and said second flow direction; a scroll compressor in fluid communication with each of said first and second heat exchangers and operable to compress refrigerant in said first flow direction and said second flow direction; and a fluid circuit including a flash tank and a bypass conduit, said flash tank having an intake conduit and a first outlet conduit in fluid communication with said first and second heat exchangers and operable to deliver sub-cooled-liquid refrigerant to said second heat exchanger in said first flow direction, said bypass conduit disposed between said intake conduit and said first outlet conduit and operable to create a pressure differential between said bypass conduit and said flash tank to prevent flow of sub-cooled liquid refrigerant to said first heat exchanger in said second flow direction. 2. The heat pump system of claim 1, further comprising an expansion device disposed in said bypass conduit and operable to reduce a pressure of refrigerant in said second flow direction. 3. The heat pump system of claim 1, wherein said expansion device is one of a capillary tube, a thermal expansion valve, or an electronic expansion valve. 4. The heat pump system of claim 1, wherein said scroll compressor includes a vapor injection port in fluid communication with said flash tank and operable to receive vaporized refrigerant in said first flow direction. 5. The heat pump system of claim 4, further comprising a check valve disposed between said vapor injection port and said flash tank to prevent refrigerant flow from said vapor injection port to said flash tank. 6. The heat pump system of claim 1, further comprising a four-way valve disposed at an outlet of said scroll compressor and operable to direct refrigerant in said first flow direction and said second flow direction to selectively toggle the heat pump between heating and cooling functions. 7. The heat pump system of claim 1, wherein said first flow direction is one of a heating mode and a cooling mode. 8. The heat pump system of claim 7, wherein said second flow direction is the other of said heating mode and said cooling mode. 9. The heat pump system of claim 1, further comprising an expansion device disposed between said first heat exchanger and said flash tank. 10. The heat pump system of claim 9, wherein said expansion device is one of a capillary tube, a solenoid valve, a thermal expansion valve, and an electronic expansion valve. 11. The heat pump system of claim 1, wherein said first heat exchanger is one of a condenser and an evaporator. 12. The heat pump system of claim 11, wherein said second heat exchanger is the other of said condenser and said evaporator. 13. The heat pump system of claim 1, further comprising an expansion device disposed proximate to said outlet conduit of said flash tank. 14. The heat pump system of claim 13, wherein said expansion device is one of a capillary tube, a solenoid valve, a thermal expansion valve, and an electronic expansion valve. 15. The heat pump system of claim 1, wherein said flash tank includes a vapor injection conduit fluidly coupled to said scroll compressor and operable to deliver vaporized refrigerant to said scroll compressor in said first flow direction. 16. In a heat pump system of the type which re-circulates refrigerant through a fluid circuit between a first heat exchanger and a second heat exchanger including a scroll compressor coupled to the fluid circuit, a vapor injection system comprising: a flash tank having an intake conduit and a first outlet conduit in fluid communication with said first and second heat exchangers and operable to deliver sub-cooled-liquid refrigerant to said second heat exchanger in a first flow direction; and a bypass conduit disposed between said intake conduit and said first outlet conduit and operable to create a pressure differential between said bypass conduit and said flash tank to prevent flow of sub-cooled liquid refrigerant to said first heat exchanger in a second flow direction. 17. The vapor injection system of claim 16, further comprising an expansion device disposed in said bypass conduit and operable to reduce a pressure of refrigerant in said second flow direction. 18. The vapor injection system of claim 16, wherein said expansion device is one of a capillary tube, a thermal expansion valve, or an electronic expansion valve. 19. The vapor injection system of claim 16, wherein said scroll compressor includes a vapor injection port in fluid communication with said flash tank and operable to receive vaporized refrigerant in said first flow direction. 20. The vapor injection system of claim 19, further comprising a check valve disposed between said vapor injection port and said flash tank to prevent refrigerant flow from said vapor injection port to said flash tank. 21. The vapor injection system of claim 16, further comprising a four-way valve disposed at an outlet of said scroll compressor and operable to direct refrigerant in said first flow direction and said second flow direction to selectively toggle the vapor injection between heating and cooling functions. 22. The vapor injection system of claim 16, wherein said first flow direction is one of a heating mode and a cooling mode. 23. The vapor injection system of claim 22, wherein said second flow direction is the other of said heating mode and said cooling mode. 24. The vapor injection system of claim 16, further comprising an expansion device disposed between said first heat exchanger and said flash tank. 25. The vapor injection system of claim 24, wherein said expansion device is one of a capillary tube, a solenoid valve, a thermal expansion valve, and an electronic expansion valve. 26. The vapor injection system of claim 16, wherein said first heat exchanger is one of a condenser and an evaporator. 27. The vapor injection system of claim 26, wherein said second heat exchanger is the other of said condenser and said evaporator. 28. The vapor injection system of claim 16, further comprising an expansion device disposed proximate to said outlet conduit of said flash tank. 29. The vapor injection system of claim 28, wherein said expansion device is one of a capillary tube, a solenoid valve, a thermal expansion valve, and an electronic expansion valve. 30. The vapor injection system of claim 16, wherein said flash tank includes a vapor injection conduit fluidly coupled to said scroll compressor and operable to deliver vaporized refrigerant to said scroll compressor in said first flow direction. 31. A heat pump system operable between a heating mode and a cooling mode, the heat pump system comprising: a first heat exchanger; a second heat exchanger in fluid communication with said first heat exchanger; a scroll compressor in fluid communication with each of said first and second heat exchangers; a flash tank in fluid communication with each of said first and second heat exchangers and said scroll compressor, said flash tank including an inlet fluidly coupled to said first and second heat exchangers, a first outlet fluidly coupled to said first and second heat exchangers, and a second outlet fluidly coupled to said scroll compressor and operable to deliver vaporized refrigerant to said scroll compressor in a first mode; and an expansion device disposed between said second heat exchanger and said first heat exchanger and operable to reduce refrigerant to said flash tank to prevent said flash tank from providing vaporized refrigerant to said scroll compressor in a second mode. 32. The heat pump system of claim 31, wherein said expansion device is one of a capillary tube, a solenoid valve, a thermal expansion valve, and an electronic expansion valve. 33. The heat pump system of claim 31, further comprising a check valve disposed proximate to said first outlet of said flash tank to prevent refrigerant from flowing into said first outlet. 34. The heat pump system of claim 31, further comprising an expansion device disposed proximate to said first outlet. 35. The heat pump system of claim 34, wherein said expansion device is one of a capillary tube, a solenoid valve, a thermal expansion valve, and an electronic expansion valve. 36. The heat pump system of claim 31, wherein said first mode is one of a cooling mode and a heating mode. 37. The heat pump system of claim 36, wherein said second mode is the other of said cooling mode and said heating mode.
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