A flash water heater using a heat pump includes a heat exchanger in which a refrigerant flow path exchanges heat with a water flow path. Tap water is led directly to the water flow path, and hot water supplied from the water flow path is used. The water heater includes at least one of the following
A flash water heater using a heat pump includes a heat exchanger in which a refrigerant flow path exchanges heat with a water flow path. Tap water is led directly to the water flow path, and hot water supplied from the water flow path is used. The water heater includes at least one of the following elements: 1) a load setter for setting a heating amount in the heat exchanger, and a heating controller for regulating a heating amount in response to an amount set by the load setter; 2) a heater for heating water flowing through the water flow path in the heat exchanger and water flowing the path before and after the heat exchanger; 3) plural compressors; and 4) plural heat-pump cycles. The water heater is excellent in start-up of hot water temperature when the hot water supply starts, controllability, and efficiency.
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The invention claimed is: 1. A heat-pump hot water device comprising: a heat pump cycle including: a compressor; a radiator; a decompressor; a heat absorber; and a refrigerant flow path that couples the compressor, the radiator, the decompressor and the heat absorber in a closed circuit; a heat exc
The invention claimed is: 1. A heat-pump hot water device comprising: a heat pump cycle including: a compressor; a radiator; a decompressor; a heat absorber; and a refrigerant flow path that couples the compressor, the radiator, the decompressor and the heat absorber in a closed circuit; a heat exchanger including a water flow path that exchanges heat with the refrigerant flow path; a water supply pipe for supplying tap water to the water flow path; a hot water supply circuit for directing the water from the water flow path to a hot water supply terminal; and a heater for heating the water flowing through any one of the water supply pipe, the water flow path and the hot water supply circuit, wherein the heater includes a heat accumulator disposed in series with any one of the water supply pipe, the heat exchanger and the hot water supply circuit. 2. The heat-pump hot water device of claim 1, wherein the heater includes a mixer which mixes water heated by the heat accumulator with the water of any one of the water supply pipe, the heat exchanger, and the hot water supply circuit. 3. The heat-pump hot water device of claim 1, wherein the heater includes a switcher which directs water heated by the heat accumulator to any one of the water supply pipe, the heat exchanger, and the hot water supply circuit, and directs the water of the water supply pipe, the heat exchanger, and the hot water supply circuit to the heat accumulator. 4. The heat-pump hot water device of claim 1, wherein the heater includes a heat retainer for maintaining a temperature of a heat accumulating mass at a given temperature. 5. The heat-pump hot water device of claim 4, wherein the heat retainer includes the radiator. 6. The heat-pump hot water device of claim 1, wherein the heater includes a circulating water path that has at least one of the water supply pipe, the heat exchanger, and the hot water supply circuit, and the heater maintains a temperature of water circulating in the circulating water path. 7. The heat-pump hot water device of claim 6, wherein the heat-pump cycle for the water flow path maintains the temperature of the water circulating in the circulating water path. 8. The heat-pump hot water device of claim 6 wherein the circulating water path includes a heat accumulator. 9. The heat-pump hot water device of claim 1, wherein a temperature of a heat accumulating mass in the heat accumulator is set higher than a temperature of hot water supplied from the hot water supply circuit. 10. The heat-pump hot water device of claim 1, wherein the heat accumulator includes a storage tank which stores water in at least one of the water supply pipe, the heat exchanger and the hot water supply circuit. 11. The heat-pump hot water device of claim 1, wherein the heat-pump cycle is a super critical pressure heat pump cycle wherein refrigerant pressure exceeds a critical pressure, and wherein a refrigerant above its critical pressure heats water flowing through the water flow path in the heat exchanger. 12. The heat-pump hot water device of claim 1, wherein a flow direction of the refrigerant flow path is opposite to a flow direction of the water flow path in the heat exchanger. 13. A heat-pump hot water device comprising: a heat pump cycle including: a compressor; a radiator; a decompressor; a heat absorber; and a refrigerant flow path that couples the compressor, the radiator, the decompressor and the heat absorber in a closed circuit; a heat exchanger including a water flow path that exchanges heat with the refrigerant flow path; a water supply pipe for supplying tap water to the water flow path; a hot water supply circuit for directing the water from the water flow path to a hot water supply terminal; and a heater for heating the water flowing through any one of the water supply pipe, the water flow path and the hot water supply circuit, wherein the heater includes a heat accumulator disposed in parallel with any one of the water supply pipe, the heat exchanger and the hot water supply circuit. 14. The heat-pump hot water device of claim 13, wherein the heater includes a mixer which mixes water heated by the heat accumulator with the water of any one of the water supply pipe, the heat exchanger, and the hot water supply circuit. 15. The heat-pump hot water device of claim 13, wherein the heater includes a switcher which directs water heated by the heat accumulator to any one of the water supply pipe, the heat exchanger, and the hot water supply circuit, and directs the water of the water supply pipe, the heat exchanger, and the hot water supply circuit to the heat accumulator. 16. The heat-pump hot water device of claim 13, wherein the heater includes a heat retainer for maintaining a temperature of a heat accumulating mass at a given temperature. 17. The heat-pump hot water device of claim 16, wherein the heat retainer includes the radiator. 18. The heat-pump hot water device of claim 13, wherein a temperature of a heat accumulating mass in the heat accumulator is set higher than a temperature of hot water supplied from the hot water supply circuit. 19. The heat-pump hot water device of claim 13, wherein the heat accumulator includes a storage tank which stores water in at least one of the water supply pipe, the heat exchanger and the hot water supply circuit. 20. The heat-pump hot water device of claim 13, wherein the heat-pump cycle is a super critical pressure heat pump cycle wherein refrigerant pressure exceeds a critical pressure, and wherein a refrigerant above its critical pressure heats water flowing through the water flow path in the heat exchanger. 21. The heat-pump hot water device of claim 13, wherein a flow direction of the refrigerant flow path is opposite to a flow direction of the water flow path in the heat exchanger.
Ito, Koji; Shindo, Tomohide; Okumura, Yoshihiko; Tokunaga, Takahiro; Yamauchi, Yoshiyuki, Heater with two different heat sources and air conditioner using the same.
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