IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0179964
(2005-07-12)
|
우선권정보 |
JP-2004-205089(2004-07-12); JP-2004-369882(2004-12-21) |
발명자
/ 주소 |
- Takano,Yoshiaki
- Inaba,Atsushi
- Ban,Koichi
- Takahashi,Koji
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
6 |
초록
▼
A vapor compression refrigerator having a refrigeration cycle (200) is disclosed. In a Rankine cycle (300), a refrigerant is circulated through a pump (310), a heater ( 320), an expander (330) and a condenser (220) in that order, and power is recovered by the expander 330 due to the expansion of the
A vapor compression refrigerator having a refrigeration cycle (200) is disclosed. In a Rankine cycle (300), a refrigerant is circulated through a pump (310), a heater ( 320), an expander (330) and a condenser (220) in that order, and power is recovered by the expander 330 due to the expansion of the refrigerant from the heater (320). In a host gas cycle (500), on the other hand, the inlet of the compressor ( 210) can be connected from a point between the pump (310) and the heater (320) by a switching path (510) having a first restricting portion (510), the refrigerant is circulated by the compressor (210) through the heater (320) and the switching path (510) in that order, and the heater (320) exhibits the function of heating a heat generating device (10).
대표청구항
▼
The invention claimed is: 1. A vapor compression refrigerator wherein the refrigerant is sucked into and compressed by a compressor and circulated through a condenser, a pressure reducing device and an evaporator in that order while the evaporator exhibits the refrigeration function, comprising: a
The invention claimed is: 1. A vapor compression refrigerator wherein the refrigerant is sucked into and compressed by a compressor and circulated through a condenser, a pressure reducing device and an evaporator in that order while the evaporator exhibits the refrigeration function, comprising: a Rankine cycle where the refrigerant is circulated through a pump for discharging the refrigerant, a heater for heating the refrigerant with the waste heat of a heat generating device as a heat source, an expander and a condenser in that order, and power is recovered by the expander due to the expansion of the refrigerant from the heater; and a hot gas cycle where a switching path having a first restricting portion can connect a point between the pump and the heater and the suction side of the compressor, the refrigerant is circulated through the heater and the switching path in that order, and the heater exhibits the function of heating the heat generating device. 2. A vapor compression refrigerator according to claim 1, wherein the heat generating device is a heat engine. 3. A vapor compression refrigerator according to claim 1, further comprising a heater using the waste heat of the heat generating device as a heat source. 4. A vapor compression refrigerator according to claim 1, wherein the heater is arranged in the refrigerant path connecting the compressor and the condenser. 5. A vapor compression refrigerator according to claim 1, wherein the compressor functions as an expander when the refrigerant flowing out from the heater flows into the compressor. 6. A vapor compression refrigerator according to claim 1, wherein the condenser includes a gas-liquid separator for separating the refrigerant flowing out from the condenser into a gas-phase refrigerant and a liquid-phase refrigerant, and a liquid refrigerant super-cooler for supercooling the liquid-phase refrigerant flowing out from the gas-liquid separator as long as the Rankine cycle is working. 7. A vapor compression refrigerator according to claim 1, further comprising an accumulator in which while the hot gas cycle is working, the refrigerant is separated into a gas-phase refrigerant and a liquid-phase refrigerant at the inlet of the compressor, and the gas-phase refrigerant is supplied to the compressor. 8. A vapor compression refrigerator according to claim 7, wherein the accumulator is arranged displaced from the refrigerant path while the evaporator exhibits the refrigeration function. 9. A vapor compression refrigerator according to claim 1, further comprising a heat pump cycle in which a bypass having a second restricting portion can bypass the pump, the refrigerant is circulated through the heater, the bypass and the condenser in that order by the compressor so that the condenser exhibits the heat-absorbing function while the heater exhibits the function of heating the heat generating device. 10. A vapor compression refrigerator according to claim 1, used for a hybrid car including a drive power source having a heat engine as a heat generating device and a drive motor. 11. An automotive climate control system comprising: a main heater for heating the passenger compartment using the engine cooling water; a compressor; a high-pressure-side heat emitter connected to the outlet of the compressor; a low-pressure-side heat absorber connected to the inlet of the compressor and arranged upstream of the main heater in a duct for sending air into the compartments; a first pressure reducing means arranged at the inlet of the low-pressure-side heat absorber; an accumulator arranged in the path connecting the outlet of the low-pressure-side heat absorber and the inlet of the compressor; a switching means arranged in the path connecting the compressor and the high-pressure-side radiator; a bypass connected to the path leading from the inlet of the switching means to the low-pressure-side heat absorber and the accumulator by circumventing the high-pressure heat emitter; a second pressure reducing means arranged in the bypass; and a water-refrigerant heat exchanger arranged upstream of the main heater in the cooling water flow between the engine and the main heater to exchange heat between the refrigerant discharged from the compressor and the cooling water discharged from the engine; wherein, during the cooling operation, the refrigerant flows from the compressor through the water-refrigerant heat exchanger, the switching means, the high-pressure-side heat emitter, the first pressure reducing means, the low-pressure-side heat absorber and the accumulator in that order and returns to the compressor; and wherein, during the heating operation, the refrigerant from the compressor flows through the water-refrigerant heat exchanger, the switching means, the second pressure reducing means and the accumulator in that order and returns to the compressor, thereby bypassing the low-pressure heat absorber. 12. An automotive climate control system according to claim 11, wherein the water-refrigerant heat exchanger is arranged downstream instead of upstream of the main heater in the cooling water flow. 13. An automotive climate control system according to claim 11, wherein the compressor is driven by an engine.
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