Heat pump system with auxiliary water heating
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-029/00
F25B-013/00
G05D-009/00
출원번호
US-0630081
(2005-06-03)
등록번호
US-8220531
(2012-07-17)
국제출원번호
PCT/BR2005/000097
(2005-06-03)
§371/§102 date
20080103
(20080103)
국제공개번호
WO2006/128262
(2006-12-07)
발명자
/ 주소
Murakami, Toshio
Tesche, Carlos A.
Fernandez, Roberto G.
출원인 / 주소
Carrier Corporation
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
7인용 특허 :
40
초록▼
A heat pump system (10) includes a compressor (20), a reversing valve (30), an outdoor heat exchanger (40) and an indoor heat exchanger (50) coupled via refrigerant lines (35, 45, 55) in a conventional refrigeration circuit, and a refrigerant-to-water heat exchanger (60). In the air cooling with wat
A heat pump system (10) includes a compressor (20), a reversing valve (30), an outdoor heat exchanger (40) and an indoor heat exchanger (50) coupled via refrigerant lines (35, 45, 55) in a conventional refrigeration circuit, and a refrigerant-to-water heat exchanger (60). In the air cooling with water heating mode, the air heating with water heating mode and the water heating only mode, water from a water reservoir (64), such as a storage tank or swimming pool, is passed through heat exchanger (60) in heat exchange relationship with refrigerant passing through line (35). A refrigerant reservoir (70) may be provided for use in refrigerant charge control. A refrigerant line (71) couples reservoir (70) to the refrigerant circuit intermediate the outdoor and indoor heat exchangers for directing liquid refrigerant into the reservoir (70) and a refrigerant line (73) couples the refrigerant circuit upstream of the suction inlet to the compressor (20) for returning refrigerant to the refrigerant circuit. A controller (100) controls flow into and from the refrigerant reservoir (70) through selective opening and closing of control valve (72) in line (71) and control valve (74) in line (73).
대표청구항▼
1. A refrigerant circuit heat pump system operable in at least an air cooling mode and an air heating air mode and having liquid heating capability comprising: a refrigerant compressor having a suction port and a discharge port;a selectively positionable reversing valve having a first port, a second
1. A refrigerant circuit heat pump system operable in at least an air cooling mode and an air heating air mode and having liquid heating capability comprising: a refrigerant compressor having a suction port and a discharge port;a selectively positionable reversing valve having a first port, a second port, a third port and a fourth port, said reversing valve being positionable in a first position for coupling the first port and the second port in fluid flow communication and the third port and the fourth port in fluid flow communication, said reversing valve being positionable in a second position for coupling the first port and the third port in fluid flow communication and the second port and the fourth port in fluid flow communication;a refrigerant circuit providing a closed loop refrigerant circulation flow path, said refrigerant circuit having a first refrigerant line establishing a flow path between the discharge port of said compressor and the first port of said reversing valve, a second refrigerant line establishing a flow path between the second port of said reversing valve and the third port of said reversing valve, and a third refrigerant line establishing a flow path between the fourth port of said reversing valve and the suction port of said compressor; an outdoor heat exchanger operatively associated with the second refrigerant line and adapted for passing refrigerant passing through the second refrigerant line in heat exchange relationship with ambient air;an indoor heat exchanger operatively associated with the second refrigerant line and adapted for passing refrigerant passing through the second refrigerant line in heat exchange relationship with the air from the comfort zone, said indoor heat exchanger disposed downstream of said outdoor exchanger with respect to refrigerant flow in the air cooling mode and upstream of the outdoor heat exchanger with respect to refrigerant flow through the second refrigerant line in the air heating mode;a refrigerant to liquid heat exchanger operatively associated with the first refrigerant line and adapted for passing refrigerant passing through the first refrigerant line in heat exchange relationship with a liquid;a refrigerant reservoir having an inlet coupled in fluid flow communication to said second refrigerant line at a location intermediate said outdoor heat exchanger and said indoor heat exchanger and an outlet line coupled in fluid flow communication to said third refrigerant line, the outlet line bypassing the refrigerant to liquid heat exchanger;a first flow control valve operatively associated with said refrigerant reservoir for controlling the flow refrigerant from the second refrigerant line to the inlet of said refrigerant reservoir, said first control valve having an open position and a closed position;a second flow control valve operatively associated with said refrigerant reservoir for controlling the flow refrigerant between the outlet of said refrigerant reservoir and the third refrigerant line, said second control valve having an open position and a closed position;and a controller operatively associated with said first and second flow control valves, said controller operative to selectively control the respective positioning of said first and second flow control valves between their respective open and closed positions so as to selectively control the refrigerant charge within the refrigerant circuit. 2. The heat pump system as recited in claim 1 wherein said first and second flow control valves comprise valves having at least one partially open position between their respective open and closed positions; and said controller is further operative to selectively modulate the respective positioning of said first and second flow control valves between open position, at least one partially open position and closed position. 3. The heat pump system as recited in claim 2 wherein said first and second flow control valves comprise pulse width modulated solenoid valves. 4. The heat pump system as recited in claim 1 further comprising a liquid level sensor operatively associated with said refrigerant reservoir, said liquid level sensor operative to sense the level of liquid refrigerant in said refrigerant reservoir and provide a signal indicative of the liquid level within said refrigerant reservoir to said controller. 5. The heat pump system as recited in claim 4 wherein said controller is operative to selectively control the respective positioning of said first and second flow control valves between their respective open and closed positions so as to selectively control the refrigerant charge within the refrigerant circuit in response to the liquid level signal received from said liquid level sensor. 6. The heat pump system as recited in claim 1 further comprising: a first expansion valve disposed in said second refrigerant line intermediate said outdoor heat exchanger and the location the inlet of said refrigerant reservoir is coupled in fluid flow communication with said second refrigerant line;a second expansion valve disposed in said second refrigerant line intermediate said indoor heat exchanger and the location the inlet of said refrigerant reservoir is coupled in fluid flow communication with said second refrigerant line;said first expansion valve being operatively associated with said indoor heat exchanger and said second expansion valve being operatively associated with said outdoor heat exchanger. 7. The heat pump system as recited in claim 1 further comprising: a first expansion valve bypass line operatively associated with said second refrigerant line for bypassing refrigerant passing through said second refrigerant line in a direction from said outdoor heat exchanger to said indoor heat exchanger around said first expansion valve and through said second expansion valve. 8. The heat pump system as recited in claim 1 further comprising: a second expansion valve bypass line operatively associated with said second refrigerant line for bypassing refrigerant passing through said second refrigerant line in a direction from said indoor heat exchanger to said outdoor heat exchanger around said second expansion valve and through said first expansion valve. 9. A refrigerant circuit heat pump system operable in at least an air cooling mode and an air heating air mode and having liquid heating capability comprising: a refrigerant compressor having a suction port and a discharge port; a first selectively positionable valve having a first port, a second port, a third port and a fourth port, said reversing valve being positionable in a first position for coupling the first port and the second port in fluid flow communication and the third port and the fourth port in fluid flow communication, said reversing valve being positionable in a second position for coupling the first port and the third port in fluid flow communication and the second port and the fourth port in fluid flow communication;a refrigerant circuit providing a closed loop refrigerant circulation flow path, said refrigerant circuit having a first refrigerant line establishing a flow path between the discharge port of said compressor and the first port of said first selectively positionable valve, a second refrigerant line establishing a flow path between the second port of said first selectively positionable valve and the third port of said selectively positionable valve, and a third refrigerant line establishing a flow path between the fourth port of said selectively positionable valve and the suction port of said compressor;an outdoor heat exchanger operatively associated with the second refrigerant line and adapted for passing refrigerant passing through the second refrigerant line in heat exchange relationship with ambient air;an indoor heat exchanger operatively associated with the second refrigerant line and adapted for passing refrigerant passing through the second refrigerant line in heat exchange relationship with the air from the comfort zone, said indoor heat exchanger disposed downstream of said outdoor exchanger with respect to refrigerant flow in the air cooling mode and upstream of the outdoor heat exchanger with respect to refrigerant flow through the second refrigerant line in the air heating mode;a refrigerant to liquid heat exchanger operatively associated with the first refrigerant line and adapted for passing refrigerant passing through the first refrigerant line in heat exchange relationship with a liquid;a second selectively positionable valve having a first port, a second port, a third port and a fourth port, said second selectively positionable valve being positionable in a first position for coupling the first port and the second port in fluid flow communication and the third port and the fourth port in fluid flow communication, said second selectively positionable valve being positionable in a second position for coupling the first port and the third port in fluid flow communication and the second port and the fourth port in fluid flow communication, said second selectively positionable valve being disposed in said second refrigerant line with the first port in flow communication with said indoor heat exchanger and the second port in flow communication with the third port of said first selectively positionable valve;a refrigerant reservoir having an inlet coupled by a fourth refrigerant line in fluid flow communication to said second refrigerant line at a location intermediate said outdoor heat exchanger and said indoor heat exchanger and an outlet coupled by a fifth refrigerant line in direct fluid flow communication to said third refrigerant line; anda bypass bleed flow circuit having a first bleed line coupled in flow communication between said fifth refrigerant line and the third port of said second selectively positionable valve and a second bleed line coupled in flow communication between said indoor heat exchanger and the fourth port of said second selectively positionable valve. 10. The heat pump system as recited in claim 9 further comprising: a first flow control valve operatively associated with said refrigerant reservoir for controlling the flow refrigerant from the second refrigerant line to the inlet of said refrigerant reservoir, said first control valve having an open position and a closed position;a second flow control valve operatively associated with said refrigerant reservoir for controlling the flow refrigerant between the outlet of said refrigerant reservoir and the third refrigerant line, said second control valve having an open position and a closed position;and a controller operatively associated with said first and second flow control valves, said controller operative to selectively control the respective positioning of said first and second flow control valves between their respective open and closed positions so as to selectively control the refrigerant charge within the refrigerant circuit. 11. The heat pump system as recited in claim 10 wherein said first and second flow control valves comprise valves having at least one partially open position between their respective open and closed positions; and said controller is further operative to selectively modulate the respective positioning of said first and second flow control valves between their open, at one partially open and closed positions. 12. The heat pump system as recited in claim 11 wherein said first and second flow control valves comprise pulse width modulated solenoid valves. 13. The heat pump system as recited in claim 10 further comprising a liquid level sensor operatively associated with said refrigerant reservoir, said liquid level sensor operative to sense the level of liquid refrigerant in said refrigerant reservoir and provide a signal indicative of the liquid level within said refrigerant reservoir to said controller. 14. The heat pump system as recited in claim 13 wherein said controller is operative to selectively control the respective positioning of said first and second flow control valves between their respective open and closed positions so as to selectively control the refrigerant charge within the refrigerant circuit in response to the liquid level signal received from said liquid level sensor. 15. The heat pump system as recited in claim 9 further comprising: a first expansion valve disposed in said second refrigerant line intermediate said outdoor heat exchanger and the location the inlet of said refrigerant reservoir is coupled in fluid flow communication with said second refrigerant line;a second expansion valve disposed in said second refrigerant line intermediate said indoor heat exchanger and the location the inlet of said refrigerant reservoir is coupled in fluid flow communication with said second refrigerant line;said first expansion valve being operatively associated with said indoor heat exchanger and said second expansion valve being operatively associated with said outdoor heat exchanger. 16. The heat pump system as recited in claim 9 further comprising: a first expansion valve bypass line operatively associated with said second refrigerant line for bypassing refrigerant passing through said second refrigerant line in a direction from said outdoor heat exchanger to said indoor heat exchanger around said first expansion valve and through said second expansion valve. 17. The heat pump system as recited in claim 9 further comprising: a second expansion valve bypass line operatively associated with said second refrigerant line for bypassing refrigerant passing through said second refrigerant line in a direction from said indoor heat exchanger to said outdoor heat exchanger around said second expansion valve and through said first expansion valve.
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이 특허에 인용된 특허 (40)
Guilbault Pierre (1781 Carolyn St. Bruno ; Quebec CAX J3V 2W1) Pilon Pierre (61-A 3rd Ave Nord Boisbriand ; Quebec CAX J7G 1E4), Add on heat pump swimming pool heater control.
Smorol Michael E. (Syracuse NY) Wituszynski Michael C. (Liverpool NY) Woollis Theodore L. (Clay NY), Combination refrigerant circuit and hot water preheater.
Uselton Robert B. (Lancaster TX) Dean William J. (Grapevine TX) Longman Michael G. (Flower Mound TX), Combined multi-modal air conditioning apparatus and negative energy storage system.
Best Jerry (Sacramento CA) Bourne Richard C. (Davis CA) Hoeschele Marc (Davis CA) Bos Willem (Sacramento CA), Optimal control system for refrigeration-coupled thermal energy storage.
Li, Haijun; Wang, Weijuan; Shen, Guangyu, Heat pump system, heat pump unit using the same, and method for controlling multiple functional modes thereof.
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