Heat pump water heater and operating method thereof
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-030/02
F25B-013/00
F25B-047/02
F24H-004/04
출원번호
US-0125906
(2009-12-02)
등록번호
US-8839636
(2014-09-23)
우선권정보
JP-2008-319184 (2008-12-16)
국제출원번호
PCT/JP2009/006533
(2009-12-02)
§371/§102 date
20110425
(20110425)
국제공개번호
WO2010/070828
(2010-06-24)
발명자
/ 주소
Hamada, Mamoru
Unezaki, Fumitake
Tashiro, Yusuke
출원인 / 주소
Mitsubishi Electric Corporation
대리인 / 주소
Buchanan Ingersoll & Rooney PC
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A refrigerant circuit of a heat pump water heater has a compressor, a four-way valve, a water heat exchanger, a heat storage transfer pipe contained in a heat storage water tank, an expansion valve, and an air heat exchanger and forms a refrigerating cycle by sequentially connecting them. A water ci
A refrigerant circuit of a heat pump water heater has a compressor, a four-way valve, a water heat exchanger, a heat storage transfer pipe contained in a heat storage water tank, an expansion valve, and an air heat exchanger and forms a refrigerating cycle by sequentially connecting them. A water circuit of the heat pump water heater has a water inlet pipeline that supplies water to the water heat exchanger, a hot water tank, and a water outlet pipeline that allows the water heat exchanger to communicate with the hot water tank, in which water is supplied to the heat storage water tank through a heat storage water tank water feed pipe branching from the water inlet pipeline by opening a heat storage water tank water feed opening/closing valve) and the water in the heat storage water tank can be discharged through the heat storage water tank water discharge pipe (by opening a heat storage water tank water discharge opening/closing valve).
대표청구항▼
1. A heat pump water heater having a refrigerant circuit and a water circuit thermally connected through a refrigerant-water heat exchanger that performs heat exchange between a refrigerant and water, wherein said refrigerant circuit includes a compressor, a four-way valve, said refrigerant-water he
1. A heat pump water heater having a refrigerant circuit and a water circuit thermally connected through a refrigerant-water heat exchanger that performs heat exchange between a refrigerant and water, wherein said refrigerant circuit includes a compressor, a four-way valve, said refrigerant-water heat exchanger, expanding means, and a refrigerant-air heat exchanger, forms a water heating circuit composed by sequentially connecting said compressor, said four-way valve, said refrigerant-water heat exchanger, said expanding means, said refrigerant-air heat exchanger, and said four-way valve, and forms a defrosting operation circuit composed by sequentially connecting said compressor, said four-way valve, said refrigerant-air heat exchanger, said expanding means, said refrigerant-water heat exchanger, and said four-way valve by switching of said four-way valve;said water circuit includes a water inlet pipeline communicating with said refrigerant-water heat exchanger, a water circulating device, a bypass three-way valve, a water tank, and a hot water tank sequentially installed in said water inlet pipeline from the upstream side to the downstream side, the hot water tank, a water outlet pipeline that allows the hot water tank to communicate with said refrigerant-water heat exchanger, a water tank three-way valve installed in the water outlet pipeline, a water tank pipeline that allows one of inlets/outlets of the water tank three-way valve to communicate with said water tank, a water tank water circulating device installed in the water tank pipeline, and a bypass pipeline that allows one of inlets/outlets of said bypass three-way valve, said water tank three-way valve of said water outlet pipeline, and said hot water tank to communicate with each other;said water circuit is configured to directly enter water having passed through said water inlet pipeline into either said hot water tank or the water tank via said bypass three-way valve;when said water heating circuit is formed, in said refrigerant circuit, warm heat is delivered to water that flowed into said refrigerant-water heat exchanger from the refrigerant flowing through said refrigerant-water heat exchanger;in said water circuit, the water having passed through said water inlet pipeline flows into said refrigerant-water heat exchanger via the water tank and is heated and then, directly flows into said hot water tank;when said defrosting operation circuit is formed, in said refrigerant circuit, after defrosting of said refrigerant-air heat exchanger, the refrigerant having passed through said expanding means receives warm heat from water that flowed into said refrigerant-water heat exchanger and returns to said compressor; andin said water circuit, inflow of water from said water inlet pipeline to the water tank and said hot water tank is stopped, and in said refrigerant-water heat exchanger, the water which has delivered warm heat to the refrigerant flows from one of inlets/outlets of said water tank three-way valve to said water tank through said water tank pipeline and then, returns to said refrigerant-water heat exchanger through said water inlet pipeline; and said water which has delivered warm heat to the refrigerant in said refrigerant-water heat exchanger is stopped flowing into said hot water tank. 2. The heat pump water heater of claim 1, wherein a water tank water discharge pipeline in which a water tank water discharge opening/closing valve is installed is connected to said water tank so that water stored in said water tank can be discharged through the water tank discharge pipeline. 3. The heat pump water heater of claim 1, wherein the water circuit is configured so that hot water in the hot water tank can be used even during the defrosting operation. 4. A method of operating a heat pump water heater having a refrigerant circuit and a water circuit thermally connected through a refrigerant-water heat exchanger that performs heat exchange between a refrigerant and water, wherein said refrigerant circuit includes a compressor, a four-way valve, said refrigerant-water heat exchanger, expanding means, and a refrigerant-air heat exchanger, forms a water heating circuit composed by sequentially connecting said compressor, said four-way valve, said refrigerant-water heat exchanger, said expanding means, said refrigerant-air heat exchanger, and said four-way valve, and forms a defrosting operation circuit composed by sequentially connecting said compressor, said four-way valve, said refrigerant-air heat exchanger, said expanding means, said refrigerant-water heat exchanger, and said four-way valve by switching of said four-way valve,said water circuit includes a water inlet pipeline communicating with said refrigerant-water heat exchanger, a water circulating device, a bypass three-way valve, a water tank, and a hot water tank sequentially installed in said water inlet pipeline from the upstream side to the downstream side, the hot water tank, a water outlet pipeline that allows the hot water tank to communicate with said refrigerant-water heat exchanger, a water tank three-way valve installed in said water outlet pipeline, a water tank pipeline that allows one of inlets/outlets of the water tank three-way valve to communicate with said water tank, a water tank water circulating device installed in the water tank pipeline, and a bypass pipeline that allows one of inlets/outlets of said bypass three-way valve, said water tank three-way valve of said water outlet pipeline, and said hot water tank to communicate with each other,said water circuit is configured to directly enter water having passed through said water inlet pipeline into either said hot water tank or the water tank via said bypass three-way valve, andwhen said defrosting operation circuit is formed, said expanding means is controlled so that water circulates between said refrigerant-water heat exchanger and said water tank, and the temperature of the refrigerant flowing out of said refrigerant-water heat exchanger is higher than the temperature of the refrigerant flowing out of said expanding means, and inflow of water from said water inlet pipeline to the water tank and said hot water tank is stopped, and said water which has delivered warm heat to the refrigerant in said refrigerant-water heat exchanger is stopped flowing into said hot water tank. 5. The method of claim 4, further comprising: using hot water in the hot water tank during the defrosting operation.
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