Combined air-conditioning and hot-water supply system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24F-005/00
F25B-013/00
F25B-049/02
F24D-011/02
F24D-019/10
출원번호
US-0647510
(2012-12-11)
등록번호
US-9631826
(2017-04-25)
국제출원번호
PCT/JP2012/082002
(2012-12-11)
국제공개번호
WO2014/091548
(2014-06-19)
발명자
/ 주소
Kimura, Takanao
Kouge, Hirofumi
Yabuuchi, Hironori
출원인 / 주소
Mistubishi Electric Corporation
대리인 / 주소
Posz Law Group, PLC
인용정보
피인용 횟수 :
0인용 특허 :
5
초록
The controller controls a bypass solenoid valve and hot-water supply expansion unit in a defrosting operation based on a refrigerant temperature detected by a first temperature sensor and a heat medium temperature detected by a second temperature sensor.
대표청구항▼
1. A combined air-conditioning and hot-water supply system comprising: a refrigeration cycle in which a compressor, an outdoor heat exchanger, an air-conditioning expansion unit, and an indoor heat exchanger are connected to one another in series by using pipes, in which the compressor, the outdoor
1. A combined air-conditioning and hot-water supply system comprising: a refrigeration cycle in which a compressor, an outdoor heat exchanger, an air-conditioning expansion unit, and an indoor heat exchanger are connected to one another in series by using pipes, in which the compressor, the outdoor heat exchanger, a hot-water supply expansion unit, and a refrigerant-side passage of a refrigerant-heat medium heat exchanger are connected to one another in series by using pipes, in which the refrigerant-side passage of the refrigerant-heat medium heat exchanger and the hot-water supply expansion unit are connected in parallel with a bypass path by using pipes, the bypass path including a bypass solenoid valve and bypassing the refrigerant-heat medium heat exchanger, and in which refrigerant circulates;a hot-water supply load circuit in which a circulation pump, a heat medium passage of the refrigerant-heat medium heat exchanger, and a hot-water-storing tank are connected to one another in series by using pipes, and in which a heat medium circulates,the refrigeration cycle and the hot-water supply load circuit being connected in cascade with each other to perform heat exchange between the refrigerant and the heat medium in the refrigerant-heat medium heat exchanger; anda controller that controls the air-conditioning expansion unit, the hot-water supply expansion unit, and the bypass solenoid valve,the controller controllingthe bypass solenoid valve and the hot-water supply expansion unit in a defrosting operation, based on a refrigerant temperature on a refrigerant inlet side of the refrigerant-heat medium heat exchanger and a heat medium temperature on a heat medium inlet side of the refrigerant-heat medium heat exchanger, whereinthe controller calculates a third temperature that is a temperature of the refrigerant at which the heat medium freezes when the heat medium temperature is higher than a first temperature and where a value obtained by subtracting the heat medium temperature from a preset heat medium temperature is lower than a second temperature, andthe controller closes the bypass solenoid valve and opens the hot-water supply expansion unit if the refrigerant temperature is higher than a value obtained by adding a water freezing margin to the third temperature. 2. The combined air-conditioning and hot-water supply system of claim 1, wherein in a case where the heat medium temperature is lower than the first temperature and higher than a fourth temperature,the controller calculates the third temperature, andin a case where the refrigerant temperature is higher than a value obtained by adding a water freezing margin to the third temperature,the controller opens the bypass solenoid valve and also opens the hot-water supply expansion unit. 3. The combined air-conditioning and hot-water supply system of claim 1, wherein in a case where the heat medium temperature is higher than the first temperature and where a value obtained by subtracting the heat medium temperature from the preset heat medium temperature is higher than the second temperature,the controller calculates the third temperature, andin a case where the refrigerant temperature is higher than a value obtained by adding a water freezing margin to the third temperature,the controller opens the bypass solenoid valve and also opens the hot-water supply expansion unit. 4. The combined air-conditioning and hot-water supply system of claim 1, wherein in a case where the heat medium temperature is lower than the first temperature and is also lower than a fourth temperature,the controller opens the bypass solenoid valve and closes the hot-water supply expansion unit. 5. The combined air-conditioning and hot-water supply system of claim 1, wherein in a case where the heat medium temperature is lower than the first temperature and is higher than a fourth temperature,the controller calculates the third temperature, andin a case where the refrigerant temperature is lower than a value obtained by adding a water freezing margin to the third temperature,the controller opens the bypass solenoid valve and closes the hot-water supply expansion unit. 6. The combined air-conditioning and hot-water supply system of claim 1, wherein in a case where the heat medium temperature is higher than the first temperature and where a value obtained by subtracting the heat medium temperature from a preset heat medium temperature is higher than the second temperature,the controller calculates the third temperature, andin a case where the refrigerant temperature is lower than a value obtained by adding a water freezing margin to the third temperature,the controller opens the bypass solenoid valve and closes the hot-water supply expansion unit. 7. The combined air-conditioning and hot-water supply system of claim 1, wherein in a case where the heat medium temperature is higher than the first temperature and where a value obtained by subtracting the heat medium temperature from the preset heat medium temperature is lower than the second temperature,the controller calculates the third temperature, andin a case where the refrigerant temperature is lower than a value obtained by adding a water freezing margin to the temperature,the controller opens the bypass solenoid valve and closes the hot-water supply expansion unit. 8. The combined air-conditioning and hot-water supply system of claim 1, wherein the controller repeatedly controls the bypass solenoid valve and the hot-water supply expansion unit at regular intervals, in the defrosting operation. 9. The combined air-conditioning and hot-water supply system of claim 1, wherein a first temperature sensor that detects the refrigerant temperature is disposed on the refrigerant inlet side of the refrigerant-heat medium heat exchanger, anda second temperature sensor that detects the heat medium temperature is disposed on the heat medium inlet side of the refrigerant-heat medium heat exchanger. 10. The combined air-conditioning and hot-water supply system of claim 1, further comprising: a flow rate detection sensor that detects a flow rate of the heat medium and that is provided to the hot-water supply load circuit, whereinthe controller controls the bypass solenoid valve and the hot-water supply expansion unit in the defrosting operation, based on the refrigerant temperature, the heat medium temperature, and the flow rate of the heat medium detected by the flow rate detection sensor. 11. The combined air-conditioning and hot-water supply system of claim 10, wherein the flow rate detection sensor is disposed on the heat medium inlet side of the refrigerant-heat medium heat exchanger. 12. The combined air-conditioning and hot-water supply system of claim 10, wherein the circulation pump changes the flow rate of the heat medium circulating in the hot-water supply load circuit.
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