IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0213268
(2005-08-26)
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등록번호 |
US-7475565
(2009-01-13)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Michael Best & Friedrich LLP
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인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
A refrigeration system includes a compressor operable to produce a flow of compressed refrigerant. The refrigeration system includes a flow splitter positioned to split the flow of compressed refrigerant into a first flow that flows along a first flow path and a second flow that flows along a second
A refrigeration system includes a compressor operable to produce a flow of compressed refrigerant. The refrigeration system includes a flow splitter positioned to split the flow of compressed refrigerant into a first flow that flows along a first flow path and a second flow that flows along a second flow path. An expansion device is positioned in the second flow path and is operable to reduce the temperature of the second flow. A heat exchanger has a first side that receives the first flow and a second side that receives the second flow such that the second flow cools the first flow.
대표청구항
▼
What is claimed is: 1. A refrigeration system including a compressor operable to produce a flow of compressed refrigerant, the refrigeration system comprising: a flow splitter positioned to split the flow of compressed refrigerant into a first flow that flows along a first flow path and a second fl
What is claimed is: 1. A refrigeration system including a compressor operable to produce a flow of compressed refrigerant, the refrigeration system comprising: a flow splitter positioned to split the flow of compressed refrigerant into a first flow that flows along a first flow path and a second flow that flows along a second flow path; an expansion device positioned in the second flow path and operable to reduce the temperature of the second flow; a heat exchanger having a first side that receives the first flow and a second side that receives the second flow such that the second flow cools the first flow; and a three-way valve positioned in the first flow path and movable between a first position in which the first flow bypasses the first side of the heat exchanger and a second position in which the first flow passes through the first side of the heat exchanger. 2. The refrigeration system of claim 1, further comprising a receiver positioned in the first flow path such that the first flow exits the heat exchanger and flows into the receiver. 3. The refrigeration system of claim 2, further comprising an expansion device and an evaporator positioned in the first flow path to receive refrigerant from the receiver. 4. The refrigeration system of claim 1, further comprising a suction header positioned to receive the first flow from the first flow path and the second flow from the second flow path. 5. The refrigeration system of claim 1, further comprising a valve movable between a first position in which no refrigerant flows along the second flow path and a second position in which refrigerant flows along both the first flow path and the second flow path. 6. The refrigeration system of claim 5, further comprising a suction header having a suction pressure, the valve being movable in response to at least a measured suction pressure below a predetermined value. 7. The refrigeration system of claim 6, further comprising a receiver positioned in the first flow path such that the first flow exits the heat exchanger and flows into the receiver, the receiver having an outlet defining a receiver outlet temperature, the valve movable in response to the measured suction pressure below the predetermined value and a measured outlet temperature above a predetermined value. 8. A refrigeration system including a compressor operable to produce a flow of compressed refrigerant, the refrigeration system comprising: a flow splitter positioned to split the flow of compressed refrigerant into a first flow that flows along a first flow path and a second flow that flows along a second flow path; an expansion device positioned in the second flow path and operable to reduce the temperature of the second flow; a heat exchanger having a first side that receives the first flow and a second side that receives the second flow such that the second flow cools the first flow; and a receiver positioned in the first flow path such that the first flow exits the heat exchanger and flows into the receiver, wherein the receiver includes a first receiver tank that collects compressed liquid refrigerant and a second receiver tank that collects compressed liquid refrigerant and compressed vapor refrigerant. 9. A refrigeration system including an evaporator positioned to cool a space, the refrigeration system comprising: a suction header having a suction pressure; a compressor operable to draw refrigerant from the suction header and discharge compressed refrigerant; a heat exchanger at least partially defining a first flow path and a second flow path, the first flow path directing refrigerant from the compressor through the heat exchanger to the evaporator, and the second flow path directing refrigerant from the compressor through the heat exchanger to the suction header; a valve movable between a first position in which all of the refrigerant enters the first flow path to a second position in which a portion of the refrigerant enters the second flow path and the remainder of the refrigerant enters the first flow path; and a three-way valve positioned in the first flow path and movable between a first position in which the first flow bypasses the first side of the heat exchanger and a second position in which the first flow passes through the first side of the heat exchanger. 10. The refrigeration system of claim 9, further comprising a receiver positioned in the first flow path such that refrigerant exits the heat exchanger and flows into the receiver. 11. The refrigeration system of claim 10, further comprising an expansion device positioned between the receiver and the evaporator. 12. The refrigeration system of claim 9, wherein the valve is movable in response to at least a measured suction pressure below a predetermined value. 13. The refrigeration system of claim 12, further comprising a receiver positioned in the first flow path such that the first flow exits the heat exchanger and flows into the receiver, the receiver having an outlet defining a receiver outlet temperature, the valve movable in response to the measured suction pressure below the predetermined value and a measured outlet temperature above a predetermined value. 14. The refrigeration system of claim 9, wherein the compressor includes a plurality of compressors arranged in parallel. 15. The refrigeration system of claim 14, wherein each of the plurality of compressors is substantially the same size. 16. The refrigeration system of claim 9, wherein refrigerant within the portion of the second flow path defined by the heat exchanger cools refrigerant within the portion of the first flow path defined by the heat exchanger. 17. A refrigeration system including an evaporator positioned to cool a space, the refrigeration system comprising: a suction header having a suction pressure; a compressor operable to draw refrigerant from the suction header and discharge compressed refrigerant; a heat exchanger at least partially defining a first flow path and a second flow path, the first flow path directing refrigerant from the compressor through the heat exchanger to the evaporator, and the second flow path directing refrigerant from the compressor through the heat exchanger to the suction header; a valve movable between a first position in which all of the refrigerant enters the first flow path to a second position in which a portion of the refrigerant enters the second flow path and the remainder of the refrigerant enters the first flow path; and a receiver positioned in the first flow path such that refrigerant exits the heat exchanger and flows into the receiver, wherein the receiver includes a first receiver tank that collects compressed liquid refrigerant and a second receiver tank that collects compressed liquid refrigerant and compressed vapor refrigerant. 18. A refrigeration system comprising: a suction header having a suction pressure; an evaporator; a discharge path providing fluid communication between the evaporator and the suction header; a compressor operable to draw refrigerant from the suction header and produce a flow of refrigerant; a heat exchanger having a first side defining a first inlet and a first outlet and a second side defining a second inlet and a second outlet; a first flow path having a first portion that provides fluid communication between the compressor and the first inlet and a second portion that provides fluid communication between the first outlet and the evaporator; a second flow path having a first portion that provides fluid communication between the first portion of the first flow path and the second inlet and a second portion that provides fluid communication between the second outlet and the suction header; an expansion device positioned in the first portion of the second flow path; a control valve movable between an open position and a closed position in response to at least the suction pressure; and a three-way valve positioned in the first flow path and movable between a first position in which the first flow bypasses the first side of the heat exchanger and a second position in which the first flow passes through the first side of the heat exchanger. 19. The refrigeration system of claim 18, further comprising a receiver positioned in the first flow path such that refrigerant exiting the first outlet enters the receiver. 20. The refrigeration system of claim 19, further comprising an expansion device positioned between the receiver and the evaporator. 21. The refrigeration system of claim 18, wherein the control valve is positioned in the second flow path and no refrigerant flows along the second flow path when the valve is in the closed position. 22. The refrigeration system of claim 18, wherein the valve is movable in response to at least a measured suction pressure below a predetermined value. 23. The refrigeration system of claim 22, further comprising a receiver positioned in the first flow path such that the first flow exits the heat exchanger and flows into the receiver, the receiver having an outlet defining a receiver outlet temperature, the valve movable in response to the measured suction pressure below the predetermined value and a measured outlet temperature above a predetermined value. 24. The refrigeration system of claim 18, wherein the compressor includes a plurality of compressors arranged in parallel. 25. The refrigeration system of claim 24, wherein each of the plurality of compressors is substantially the same size. 26. The refrigeration system of claim 18, wherein refrigerant within the second side of the heat exchanger cools refrigerant within the first side of the heat exchanger. 27. A refrigeration system comprising: a suction header having a suction pressure; an evaporator; a discharge path providing fluid communication between the evaporator and the suction header; a compressor operable to draw refrigerant from the suction header and produce a flow of refrigerant; a heat exchanger having a first side defining a first inlet and a first outlet and a second side defining a second inlet and a second outlet; a first flow path having a first portion that provides fluid communication between the compressor and the first inlet and a second portion that provides fluid communication between the first outlet and the evaporator; a second flow path having a first portion that provides fluid communication between the first portion of the first flow path and the second inlet and a second portion that provides fluid communication between the second outlet and the suction header; an expansion device positioned in the first portion of the second flow path; a control valve movable between an open position and a closed position in response to at least the suction pressure; and a receiver positioned in the first flow path such that refrigerant exiting the first outlet enters the receiver, wherein the receiver includes a first receiver tank that collects compressed liquid refrigerant and a second receiver tank that collects compressed liquid refrigerant and compressed vapor refrigerant.
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