Heat exchanger and combined cycle system using the same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-027/00
출원번호
US-0829996
(2004-04-22)
우선권정보
JP-0122280 (2003-04-25)
발명자
/ 주소
Sasaki, Minoru
Inaba, Atsushi
Yamanaka, Takashi
Torigoe, Eiichi
출원인 / 주소
Denso Corporation
대리인 / 주소
Harness, Dickey &
인용정보
피인용 횟수 :
8인용 특허 :
13
초록▼
A radiator for a vapor-compression refrigerant cycle and a condenser for a Rankine cycle are integrated to construct a heat exchanger. The heat exchanger includes a core portion for performing a heat exchange, and is disposed to have a first function portion used as the radiator and a second functio
A radiator for a vapor-compression refrigerant cycle and a condenser for a Rankine cycle are integrated to construct a heat exchanger. The heat exchanger includes a core portion for performing a heat exchange, and is disposed to have a first function portion used as the radiator and a second function portion used as the condenser. A function ratio changing ratio includes a displacement member such as a plunger disposed in a header tank of the heat exchanger, and changes a ratio between the first function portion and the second function portion. For example, the displacement member partitions an inner space of the header tank into two space parts when both the vapor-compression refrigerant cycle and the Rankine cycle are operated, and does not partition the inner space when only one of the vapor-compression refrigerant cycle and the Rankine cycle is operated.
대표청구항▼
1. A heat exchanger for a combined cycle system that includes: a vapor-compression refrigerant cycle having a compressor for compressing refrigerant, a radiator for cooling high-pressure refrigerant discharged from the compressor and an evaporator for evaporating low-pressure refrigerant after being
1. A heat exchanger for a combined cycle system that includes: a vapor-compression refrigerant cycle having a compressor for compressing refrigerant, a radiator for cooling high-pressure refrigerant discharged from the compressor and an evaporator for evaporating low-pressure refrigerant after being decompressed; and a Rankine cycle which recovers energy by expanding a super-heat vapor fluid and has a condenser for cooling and condensing the vapor fluid after being expanded, the heat exchanger comprisinga core portion in which at least one of the refrigerant and the fluid flows to perform heat exchange, the core portion being provided to have at least one of a first function portion used as the radiator and a second function portion used as the condenser; and a function ratio changing unit which changes a ratio between the first function portion and the second function portion in the core portion. 2. The heat exchanger according to claim 1, wherein the fluid is the same material as the refrigerant.3. The heat exchanger according to claim 1, wherein the core portion includes a plurality of tubes through which at least one of the refrigerant and the fluid flows, the heat exchanger further comprisingfirst and second header tanks disposed at two end sides of each tube in a tube longitudinal direction, respectively, wherein: each of the first and second header tanks extends in a tank longitudinal direction perpendicular to the tube longitudinal direction to communicate with the tubes; and the function ratio changing unit is disposed in each of the first and second header tanks to change the ratio between the first function portion and the second function portion in the core portion. 4. The heat exchanger according to claim 3, wherein:the function ratio changing unit includes a displacement member that is displaced in a direction perpendicular to the tank longitudinal direction to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition due to the displacement member; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 5. The heat exchanger according to claim 3, wherein:the function ratio changing unit includes a valve body having a through hole, disposed in each of the first and second header tanks; the valve body is disposed in each of the first and second header tanks to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 6. The heat exchanger according to claim 3, wherein:the function ratio changing unit includes a butterfly valve body disposed in each of the first and second header tanks; the valve body is disposed in each of the first and second header tanks to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 7. The heat exchanger according to claim 3, wherein:the function ratio changing unit includes a displacement member that is displaced in the tank longitudinal direction to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 8. The heat exchanger according to claim 1, wherein the core portion includes a plurality of tubes through which at least one of the refrigerant and the fluid flows, the heat exchanger further comprisinga header tank disposed at one end side of each tube in a tube longitudinal direction, to extend in a tank longitudinal direction perpendicular to the tube longitudinal direction to communicate with the tubes, wherein the function ratio changing unit is disposed in the header tank to change the ratio between the first function portion and the second function portion in the core portion. 9. The heat exchanger according to claim 1, wherein the function ratio changing unit continuously changes the ratio between the first function portion and the second function portion.10. A combined cycle system comprising:a vapor-compression refrigerant cycle including a compressor for compressing a fluid, a radiator for cooling a high-pressure fluid discharged from the compressor, and an evaporator for evaporating a low-pressure fluid after being decompressed; and a Rankine cycle including an expansion device that expands a super-heat fluid for recovering energy, and a condenser for cooling and condensing the fluid flowing from the expansion device, wherein the radiator and the condenser are integrated to form a heat exchanger including a core portion in which the fluid flows to perform heat exchange, the heat exchanger being constructed to have at least one of a first function portion used as the radiator and a second function portion used as the condenser, the combined cycle system further comprising a function ratio changing unit provided in the heat exchanger to change a ratio between the first function portion and the second function portion in the core portion. 11. The combined cycle system according to claim 10, wherein:the core portion includes a plurality of tubes through which the fluid flows; the heat exchanger further includes first and second header tanks disposed at two end sides of each tube in a tube longitudinal direction, respectively; each of the first and second header tanks extends in a tank longitudinal direction perpendicular to the tube longitudinal direction to communicate with the tubes; and the function ratio changing unit is disposed in each of the first and second header tanks to change the ratio between the first function portion and the second function portion in the core portion. 12. The combined cycle system according to claim 11, wherein:the function ratio changing unit includes a displacement member that is displaced in a direction perpendicular to the tank longitudinal direction to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition due to the displacement member; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 13. The combined cycle system according to claim 11, wherein:the function ratio changing unit includes a valve body having a through hole, disposed in each of the first and second header tanks; the valve body is disposed in each of the first and second header tanks to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 14. The heat exchanger according to claim 11, wherein:the function ratio changing unit includes a butterfly valve body disposed in each of the first and second header tanks; the valve body is disposed in each of the first and second header tanks to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 15. The combined cycle system according to claim 11, wherein:the function ratio changing unit includes a displacement member that is displaced in the tank longitudinal direction to switch between a first case where an inner space of each header tank is separated into plural space parts and a second case where the inner space of each header tank is a single communication space without a partition; and the function ratio changing unit changes the ratio between the first function portion and the second function portion in the core portion by switching between the first case and the second case. 16. The combined cycle system according to claim 10, wherein:when both the vapor-compression refrigerant cycle and the Rankine cycle are operated, the function ratio changing unit is operated to have both the first function portion and the second function portion in the core portion; when only the vapor-compression refrigerant cycle is operated, the function ratio changing unit is operated to have only the first function portion in the core portion; and when only the Rankine cycle is operated, the function ratio changing unit is operated to have only the second function portion in the core portion. 17. The combined cycle system according to claim 10, wherein the function ratio changing unit continuously changes the ratio between the first function portion and the second function portion in accordance with a heat load of the vapor-compression refrigerant cycle and a power amount to be recovered in the Rankine cycle.
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