IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0744963
(2008-11-28)
|
등록번호 |
US-8387411
(2013-03-05)
|
우선권정보 |
JP-2007-311493 (2007-11-30) |
국제출원번호 |
PCT/JP2008/071620
(2008-11-28)
|
§371/§102 date |
20100527
(20100527)
|
국제공개번호 |
WO2009/069732
(2009-06-04)
|
발명자
/ 주소 |
- Fujimoto, Shuji
- Yoshimi, Atsushi
- Ueno, Yoshio
- Fujiyoshi, Ryusuke
- Kurihara, Toshiyuki
- Yoshioka, Shun
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
11 |
초록
▼
An air-conditioning apparatus uses carbon dioxide as a refrigerant, and includes a two-stage-compression-type compression mechanism, a heat source-side heat exchanger, an expansion mechanism, a usage-side heat exchanger, and an intercooler. The intercooler uses air as a heat source. The intercooler
An air-conditioning apparatus uses carbon dioxide as a refrigerant, and includes a two-stage-compression-type compression mechanism, a heat source-side heat exchanger, an expansion mechanism, a usage-side heat exchanger, and an intercooler. The intercooler uses air as a heat source. The intercooler is configured and arranged to cool refrigerant flowing through an intermediate refrigerant tube that draws refrigerant discharged from the first-stage compression element into the second-stage compression element. The intercooler is integrated with the heat source-side heat exchanger to form an integrated heat exchanger, with the intercooler disposed in an upper part of the integrated heat exchanger.
대표청구항
▼
1. A refrigeration apparatus using a refrigerant operating in a supercritical range, the refrigeration apparatus comprising: a compression mechanism having a plurality of compression elements including a first-stage compression element and a second-stage compression element, the compression mechanis
1. A refrigeration apparatus using a refrigerant operating in a supercritical range, the refrigeration apparatus comprising: a compression mechanism having a plurality of compression elements including a first-stage compression element and a second-stage compression element, the compression mechanism being configured and arranged to sequentially compress refrigerant in the first-stage compression element and then in the second-stage compression element;a heat source-side heat exchanger with air being used as a heat source;an expansion mechanism configured and arranged to depressurize the refrigerant;a usage-side heat exchanger; andan intercooler using air as a heat source, the intercooler being configured and arranged to cool refrigerant flowing through an intermediate refrigerant tube, the intermediate refrigerant tube drawing refrigerant discharged from the first-stage compression element into the second-stage compression,the intercooler being integrated with the heat source-side heat exchanger to form an integrated heat exchanger, the intercooler being disposed in an upper part of the integrated heat exchanger, and the intercooler being disposed in an upper upwind part, with the upper upwind part being a section in the upper part of the integrated heat exchanger arranged upwind relative to the flow direction of the air use as the heat source,the heat source-side heat exchanger having a plurality of high temperature heat transfer channels and plurality of low temperature heat transfer channels, the high and low temperature heat transfer channels being arranged vertically in multiple columns,the high-temperature heat transfer channels being disposed in a downwind part, the downwind part being a section in the heat transfer channels arranged farther downwind than the intercooler relative to the flow direction of the air used as the heat source,the low-temperature heat transfer channels being disposed in a lower upwind part, the lower upwind part being a section in a lower part of the intercooler arranged upwind of the high-temperature heat transfer channels relative to the flow direction of the air as the heat source,the number of low-temperature heat transfer channels being less than the number of high-temperature heat transfer channels, anddue to the configuration of the heat source-side heat exchanger, refrigerant fed from the high-temperature heat transfer channels to the low-temperature heat transfer channels flows into the low-temperature heat transfer channels after being mixed in a number of flow paths equal the number of low-temperature heat transfer channels. 2. The refrigeration apparatus according to claim 1, wherein the heat source-side heat exchanger and the intercooler are fin-and-tube heat exchangers; andthe intercooler is integrated with the heat source-side heat exchanger by sharing heat transfer fins with the heat source-side heat exchanger. 3. The refrigeration apparatus according to claim 1, wherein the refrigerant operating in the supercritical range is carbon dioxide. 4. A refrigeration apparatus using a refrigerant operating in a supercritical range, the refrigeration apparatus comprising: a compression mechanism having a plurality of compression elements including a first-stage compression element and a second-stage compression element, the compression mechanism being configured and arranged to sequentially compress refrigerant in the first-stage compression element and then in the second-stage compression element;a heat source-side heat exchanger with air being used as a heat source;an expansion mechanism configured and arranged to depressurize the refrigerant;a usage-side heat exchanger; andan intercooler using air as a heat source, the intercooler being configured and arranged to cool refrigerant flowing through an intermediate refrigerant tube, the intermediate refrigerant tube drawing refrigerant discharged from the first-stage compression element into the second-stage compression,the intercooler being integrated with the heat source-side heat exchanger to form an integrated heat exchanger, with the intercooler being disposed in an upper part of the integrated heat exchanger, andthe heat source-side heat exchanger and the intercooler being fin-and-tube heat exchangers, the intercooler being integrated with the heat source-side heat exchanger by sharing heat transfer fins with the heat source-side heat exchanger, and the fins extending in a direction transverse to the tubes and across tubes of both the intercooler and the heat source-side heat exchanger. 5. The refrigeration apparatus according to claim 4, wherein the intercooler is disposed above the heat source-side heat exchanger. 6. The refrigeration apparatus according to claim 4, wherein the intercooler is disposed in an upper upwind part, the upper upwind part being a section in the upper part of the integrated heat exchanger arranged upwind relative to the flow direction of the air used as the heat source. 7. The refrigeration apparatus according to claim 4, wherein the heat source-side heat exchanger has a high-temperature heat transfer channel configured and arranged to carry flow of high-temperature refrigerant, anda low-temperature heat transfer channel configured and arranged to carry flow of low-temperature refrigerant; andthe low-temperature heat transfer channel is disposed farther upwind than the high-temperature heat transfer channel relative to the flow direction of the air used as the heat source. 8. The refrigeration apparatus according to claim 5, wherein the heat source-side heat exchanger and the intercooler are fin-and-tube heat exchangers; andthe intercooler is integrated with the heat source-side heat exchanger by sharing heat transfer fins with the heat source-side heat exchanger. 9. The refrigeration apparatus according to claim 5, wherein the refrigerant operating in the supercritical range is carbon dioxide. 10. The refrigeration apparatus according to claim 6, wherein the heat source-side heat exchanger and the intercooler are fin-and-tube heat exchangers; andthe intercooler is integrated with the heat source-side heat exchanger by sharing heat transfer fins with the heat source-side heat exchanger. 11. The refrigeration apparatus according to claim 6, wherein the refrigerant operating in the supercritical range is carbon dioxide. 12. The refrigeration apparatus according to claim 7, wherein the heat source-side heat exchanger and the intercooler are fin-and-tube heat exchangers; andthe intercooler is integrated with the heat source-side heat exchanger by sharing heat transfer fins with the heat source-side heat exchanger. 13. The refrigeration apparatus according to claim 7, wherein the refrigerant operating in the supercritical range is carbon dioxide. 14. The refrigeration apparatus according to claim 4, wherein the refrigerant operating in the supercritical range is carbon dioxide.
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