IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0298518
(2005-12-12)
|
등록번호 |
US-7481071
(2009-01-27)
|
우선권정보 |
KR-10-2004-0105034(2004-12-13) |
발명자
/ 주소 |
- Choi,Chang Min
- Kang,Seung Tak
- Choi,Won Jae
- Lim,Hyung Soo
- Hwang,Yoon Jei
|
출원인 / 주소 |
|
대리인 / 주소 |
Birch, Stewart, Kolasch & Birch, LLP
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
7 |
초록
▼
A cooling/heating apparatus using a cogeneration system is disclosed. The cooling/heating apparatus includes a discharge-side refrigerant heating unit which supplies heat of exhaust gas generated from an engine to a discharge-side refrigerant line connected to a compressor included in a cooling/heat
A cooling/heating apparatus using a cogeneration system is disclosed. The cooling/heating apparatus includes a discharge-side refrigerant heating unit which supplies heat of exhaust gas generated from an engine to a discharge-side refrigerant line connected to a compressor included in a cooling/heating unit, a suction-side refrigerant heating unit which supplies heat of cooling water used to cool the engine and the heat of the exhaust gas to a suction-side refrigerant line connected to the compressor, a discharge-side refrigerant temperature sensor which senses a temperature of a refrigerant passing through the discharge-side refrigerant line, and a bypass unit which bypasses the exhaust gas heat supplied to the discharge-side refrigerant line via the discharge-side refrigerant heating unit when the refrigerant temperature sensed by the discharge-side refrigerant temperature sensor is not lower than a predetermined temperature, to cut off the supply of the exhaust gas heat or to adjust an amount of the supplied exhaust gas heat. The exhaust gas heat and cooling water heat are appropriately distributed to both the suction and discharge sides of the compressor, so that it is possible to achieve an enhancement in heating performance and an enhancement in system efficiency.
대표청구항
▼
What is claimed is: 1. A cooling/heating apparatus using a cogeneration system comprising: an engine which drives a generator to generate electricity; a cooling/heating unit which comprises at least one compressor, a 4-way valve, an outdoor heat exchanger, an expansion device, and an indoor heat ex
What is claimed is: 1. A cooling/heating apparatus using a cogeneration system comprising: an engine which drives a generator to generate electricity; a cooling/heating unit which comprises at least one compressor, a 4-way valve, an outdoor heat exchanger, an expansion device, and an indoor heat exchanger, to establish a heat pump refrigerant cycle; a discharge-side refrigerant heating unit which supplies heat of exhaust gas generated from the engine to a discharge-side refrigerant line connected to the compressor; a discharge-side refrigerant temperature sensor which senses a temperature of a refrigerant passing through the discharge-side refrigerant line; a bypass unit which bypasses the exhaust gas heat supplied to the discharge-side refrigerant line via the discharge-side refrigerant heating unit when the refrigerant temperature sensed by the discharge-side refrigerant temperature sensor is not lower than a predetermined temperature, to cut off the supply of the exhaust gas heat or to adjust an amount of the supplied exhaust gas heat; and a suction-side refrigerant heating unit which supplies heat of cooling water used to cool the engine and the heat of the exhaust gas generated from the engine to a suction-side refrigerant line connected to the compressor. 2. The cooling/heating apparatus according to claim 1, wherein the discharge-side refrigerant heating unit comprises: at least one exhaust gas heat exchanger arranged in an exhaust conduit of the engine, to heat-exchange with the exhaust gas flowing through the exhaust conduit; a discharge-side refrigerant heating line which receives heat recovered from the exhaust gas heat exchanger; and a discharge-side refrigerant heating heat exchanger in which heat exchange is performed between the discharge-side refrigerant heating line and the discharge-side refrigerant line. 3. The cooling/heating apparatus according to claim 2, wherein the at least one exhaust gas heat exchanger comprises: a first exhaust gas heat exchanger arranged in the exhaust conduit of the engine; and a second exhaust gas heat exchanger arranged in the exhaust conduit of the engine downstream from the first exhaust gas heat exchanger in a flowing direction of the exhaust gas. 4. The cooling/heating apparatus according to claim 1, wherein the suction-side refrigerant heating unit comprises: a third exhaust gas heat exchanger arranged in the exhaust conduit of the engine, to heat-exchange with the exhaust gas flowing through the exhaust conduit; a cooling water line through which the cooling water flows to absorb heat from the engine; a cooling water heat exchanger through which the cooling water line extends; a suction-side refrigerant heating line which receives heat recovered by the third exhaust gas heat exchanger and the cooling water heat exchanger; and a suction-side refrigerant heating heat exchanger in which heat exchange is performed between the suction-side refrigerant heating line and the suction-side refrigerant line. 5. The cooling/heating apparatus according to claim 4, wherein the bypass unit bypasses the exhaust gas heat through the suction-side refrigerant heating line of the suction-side refrigerant heating unit. 6. The cooling/heating apparatus according to claim 5, wherein the bypass unit comprises: a bypass line branched from the discharge-side refrigerant heating line and joined to the suction-side refrigerant heating line; and a valve unit arranged at the branching or joining point of the bypass line, to adjust a flow rate of a heat transfer medium flowing through the bypass line in accordance with the refrigerant temperature sensed by the discharge-side refrigerant temperature sensor. 7. The cooling/heating apparatus according to claim 4, further comprising: a radiating unit connected to the suction-side refrigerant heating unit, to adjust an amount of heat supplied to the suction-side refrigerant line or to cut off the supply of the heat. 8. A cooling/heating apparatus using a cogeneration system comprising: an engine which drives a generator to generate electricity; a cooling/heating unit which comprises at least one compressor, a 4-way valve, an outdoor heat exchanger, an expansion device, and an indoor heat exchanger, to establish a heat pump refrigerant cycle; a discharge-side refrigerant heating unit which supplies heat of exhaust gas generated from the engine to a discharge-side refrigerant line connected to the compressor; a suction-side refrigerant heating unit which supplies heat of cooling water used to cool the engine and the heat of the exhaust gas generated from the engine to a suction-side refrigerant line connected to the compressor; a discharge-side refrigerant temperature sensor which senses a temperature of a refrigerant passing through the discharge-side refrigerant line; and a bypass unit which bypasses the exhaust gas heat supplied to the discharge-side refrigerant line via the discharge-side refrigerant heating unit when the refrigerant temperature sensed by the discharge-side refrigerant temperature sensor is not lower than a predetermined temperature, to cut off the supply of the exhaust gas heat or to adjust an amount of the supplied exhaust gas heat, wherein: the discharge-side refrigerant heating unit comprises a first exhaust gas heat exchanger arranged in the exhaust conduit of the engine, to heat-exchange with the exhaust gas flowing through the exhaust conduit, and a second exhaust gas heat exchanger arranged in the exhaust conduit of the engine downstream from the first exhaust gas heat exchanger in a flowing direction of the exhaust gas, to heat-exchange with the exhaust gas flowing through the exhaust conduit; and the suction-side refrigerant heating unit comprises a third exhaust gas heat exchanger arranged in the exhaust conduit of the engine downstream from the second exhaust gas heat exchanger in the flowing direction of the exhaust gas, to heat-exchange with the exhaust gas flowing through the exhaust conduit. 9. The heating/cooling apparatus according to claim 8, wherein the bypass unit comprises: a bypass line branched from a heat transfer line of the discharge-side refrigerant heating unit and joined to a heat transfer line of the suction-side refrigerant heating unit; and a valve unit arranged at the branching or joining point of the bypass line, to adjust a flow rate of a heat transfer medium flowing through the bypass line in accordance with the refrigerant temperature sensed by the discharge-side refrigerant temperature sensor. 10. The cooling/heating apparatus according to claim 8, further comprising: a radiating unit connected to the suction-side refrigerant heating unit, to adjust an amount of heat supplied to the suction-side refrigerant line or to cut off the supply of the heat. 11. A cooling/heating apparatus using a cogeneration system comprising: an engine which drives a generator to generate electricity; a cooling/heating unit which comprises at least one compressor, a 4-way valve, an outdoor heat exchanger, an expansion device, and an indoor heat exchanger, to establish a heat pump refrigerant cycle; a discharge-side refrigerant heating unit and a suction-side refrigerant heating unit which supply heat of exhaust gas generated from the engine to a discharge-side refrigerant line connected to the compressor and a suction-side refrigerant line connected to the compressor, respectively; and a bypass unit which adjusts an amount of the exhaust gas heat supplied to the discharge-side refrigerant line through the discharge-side refrigerant heating unit in accordance with a temperature of a refrigerant passing through the discharge-side refrigerant line, wherein the suction-side refrigerant heating unit comprises; a third exhaust gas heat exchanger arranged in the exhaust conduit of the engine, to heat-exchange with the exhaust gas flowing through the exhaust conduit; a cooling water line through which the cooling water flows to absorb heat from the engine; a cooling water heat exchanger through which the cooling water line extends; a suction-side refrigerant heating line which receives heat recovered by the third exhaust gas heat exchanger and the cooling water heat exchanger; and a suction-side refrigerant heating heat exchanger in which heat exchange is performed between the suction-side refrigerant heating line and the suction-side refrigerant line. 12. The cooling/heating apparatus according to claim 11, wherein the discharge-side refrigerant heating unit comprises: at least one exhaust gas heat exchanger arranged in an exhaust conduit of the engine, to heat-exchange with the exhaust gas flowing through the exhaust conduit; a discharge-side refrigerant heating line which receives heat recovered from the exhaust gas heat exchanger; and a discharge-side refrigerant heating heat exchanger in which heat exchange is performed between the discharge-side refrigerant heating line and the discharge-side refrigerant line. 13. The cooling/heating apparatus according to claim 12, wherein the at least one exhaust gas heat exchanger comprises: a first exhaust gas heat exchanger arranged in the exhaust conduit of the engine; and a second exhaust gas heat exchanger arranged in the exhaust conduit of the engine downstream from the first exhaust gas heat exchanger in a flowing direction of the exhaust gas. 14. The cooling/heating apparatus according to claim 11, wherein the bypass unit bypasses the exhaust gas heat through the suction-side refrigerant heating line of the suction-side refrigerant heating unit. 15. The cooling/heating apparatus according to claim 11, further comprising: a radiating unit connected to the suction-side refrigerant heating unit, to adjust an amount of heat supplied to the suction-side refrigerant line or to cut off the supply of the heat.
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