Supercritical cycle and expansion valve used for refrigeration cycle
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0729543
(2007-03-29)
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등록번호 |
US-7797955
(2010-10-11)
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우선권정보 |
JP-2006-099145(2006-03-31) |
발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Harness, Dickey & Pierce, PLC
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인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
A supercritical cycle comprises an evaporator, a compressor, a gas cooler and a main valve portion of an expansion valve arranged in that order. An internal heat exchanger is arranged for exchanging heat between the high-pressure side refrigerant flowing toward the main valve portion of the expansio
A supercritical cycle comprises an evaporator, a compressor, a gas cooler and a main valve portion of an expansion valve arranged in that order. An internal heat exchanger is arranged for exchanging heat between the high-pressure side refrigerant flowing toward the main valve portion of the expansion valve from the gas cooler and the low-pressure side refrigerant flowing toward the compressor from the evaporator. The expansion valve is formed integrally with a temperature sensing portion for controlling the main valve portion, and includes a bypass for supplying the refrigerant to the temperature sensing portion from the upstream side of the internal heat exchanger in which the high-pressure side refrigerant flows and an orifice for supplying the refrigerant from the temperature sensing portion to the refrigerant circuit downstream of the main valve portion.
대표청구항
▼
The invention claimed is: 1. A supercritical cycle comprising an evaporator, a compressor, a radiator and an expansion valve, the supercritical cycle further comprising: an internal heat exchanger exchanging heat between high-pressure side refrigerant flowing toward a main valve portion of the expa
The invention claimed is: 1. A supercritical cycle comprising an evaporator, a compressor, a radiator and an expansion valve, the supercritical cycle further comprising: an internal heat exchanger exchanging heat between high-pressure side refrigerant flowing toward a main valve portion of the expansion valve from the radiator and low-pressure side refrigerant flowing toward the compressor from the evaporator; a fluid path supplying the refrigerant directly from the outlet of the high-pressure side of the internal heat exchanger to the main valve portion of the expansion valve; wherein the fluid path is connected to a refrigerant path downstream of the main valve portion via the main valve portion; a bypass extending from the high-pressure upstream side or an intermediate part of the internal heat exchanger; a temperature sensing portion controlling the main valve portion; a temperature sensing path supplying the refrigerant from the bypass to the temperature sensing portion; and a refrigerant return path supplying the refrigerant from the temperature sensing portion to the refrigerant path downstream of the main valve portion, wherein the refrigerant return path is a bypass of the main valve portion and connected to the refrigerant path downstream of the main valve portion. 2. The supercritical cycle according to claim 1, wherein the refrigerant return path, the main valve portion and the temperature sensing portion are formed integrally to constitute the expansion valve. 3. The supercritical cycle according to claim 2, wherein the refrigerant return path is formed in the body of the expansion valve. 4. The supercritical cycle according to claim 1, wherein the body of the expansion valve is formed with a through hole passing through the body from the temperature sensing portion to the main valve portion, and wherein a valve rod reaching the main valve portion from the temperature sensing portion is slidably inserted in the through hole, and the valve rod is formed with an orifice reaching the main valve portion from the temperature sensing portion. 5. The supercritical cycle according to claim 1, wherein the bypass is assembled integrally with the internal heat exchanger. 6. The supercritical cycle according to claim 5, wherein the bypass branches from a connector on the high-pressure side of the internal heat exchanger. 7. The supercritical cycle according to claim 5, wherein the upstream end of the bypass and the upstream end of the internal heat exchanger are connected to the radiator by a single coupler, and wherein the downstream end of the bypass and the downstream end of the internal heat exchanger are connected to the temperature sensing path and the expansion valve, respectively, by a single coupler. 8. The supercritical cycle according to claim 1, comprising a mixing portion formed at the intermediate part of the bypass and a mixing path extending to the mixing portion from the intermediate part of a path formed from the intermediate part on the high-pressure side or from the downstream side of the internal heat exchanger to the main valve portion, wherein the mixing portion mixes the refrigerant from the bypass with the refrigerant from the mixing path at an arbitrary ratio and supplies the mixture to the temperature sensing path. 9. The supercritical cycle according to claim 8, wherein the refrigerant from the bypass and the refrigerant from the mixing path are mixed and adjusted by the mixing portion at a ratio in the range of 0 to 100% based on the temperature of at least one of the refrigerant flowing from the bypass into the mixing portion and the refrigerant flowing from the mixing path into the mixing portion. 10. The supercritical cycle according to claim 8, wherein the refrigerant from the bypass and the refrigerant from the mixing path are mixed and adjusted by the mixing portion at a ratio in the range of 0 to 100% based on the pressure of the bypass or the mixing path. 11. The supercritical cycle according to claim 8, wherein the refrigerant from the bypass and the refrigerant from the mixing path are mixed and adjusted in such a manner that the temperature of the refrigerant flowing into the temperature sensing portion may not exceed a predetermined temperature. 12. The supercritical cycle according to claim 8, wherein the mixing portion is formed integrally with the expansion valve or the internal heat exchanger. 13. The supercritical cycle according to claim 1, wherein the internal heat exchanger constitutes a main internal heat exchanger and the bypass constitutes a first bypass, the super critical cycle further comprising: a second bypass arranged in parallel to the low-pressure side of the main internal heat exchanger and through which the low-pressure side refrigerant flows; and a subsidiary heat exchanger reducing the temperature of the refrigerant flowing into the temperature sensing portion through the first bypass by exchanging heat between the refrigerant flowing in the second bypass and the refrigerant flowing in the first bypass. 14. An expansion valve comprising: a main valve portion expanding refrigerant flowing from a high to low pressure side of a refrigeration cycle; a fluid path supplying the refrigerant from an outlet of a high-pressure side of an internal heat exchanger to the main valve portion, wherein the internal heat exchanger exchanges heat between the refrigerant downstream of a radiator and the refrigerant upstream of a compressor in a refrigeration cycle; wherein the fluid path is connected to a refrigerant path downstream of the main valve portion via the main valve portion; a temperature sensing portion controlling the main valve portion; a temperature sensing path introducing the refrigerant into the temperature sensing portion from the high-pressure upstream side or the intermediate part of the internal heat exchanger; and a refrigerant return path supplying the refrigerant from the temperature sensing portion to the refrigerant path downstream of the main valve portion, wherein the refrigerant return path is a bypass of the main valve portion and connected to the refrigerant path downstream of the main valve portion. 15. The expansion valve according to claim 14, wherein the temperature sensing path introduces the refrigerant into the temperature sensing portion directly from the internal heat exchanger. 16. A supercritical cycle comprising: an evaporator; a compressor receiving refrigerant from said compressor; a radiator receiving refrigerant from said compressor; an expansion valve receiving refrigerant from said radiator, the expansion valve including a main valve portion and a temperature sensing portion controlling an opening of said main valve portion; an internal heat exchanger exchanging heat between high-pressure side refrigerant flowing toward said expansion valve from the radiator and low-pressure side refrigerant flowing toward the compressor from the evaporator; a bypass separating said high-pressure side refrigerant flowing toward said expansion valve into a first flow flowing toward said temperature sensing portion and a second flow flowing toward said main valve portion, said second flow being separate from said first flow; and a refrigerant return path supplying refrigerant from the temperature sensing portion to a refrigerant path downstream of said main valve portion, the refrigerant return path bypassing said main valve portion.
이 특허에 인용된 특허 (4)
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Tomatsu Yoshitaka,JPX ; Ise Sadatake,JPX, Pressure control valve.
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Sakakibara Hisayoshi,JPX ; Nishida Shin,JPX ; Onimaru Sadahisa,JPX ; Sakajo Yuichi,JPX ; Ozaki Yukikatsu,JPX, Refrigerating system with pressure control valve.
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Kuroda Yasutaka,JPX ; Nishida Shin,JPX, Supercritical refrigerating apparatus.
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Yano, Masamichi; Minowa, Masakatsu, Thermal expansion valve.
이 특허를 인용한 특허 (1)
-
Ogasawara, Noboru; Hanafusa, Tatsuya; Numasawa, Makoto, Intermediate heat exchanger.
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