초록 ▼

A heat pump system for providing water heating and air conditioning, comprising one or more compressors for circulating a refrigerant in the system, a hot water tank having a heat exchanger for heating and storing the hot water, an outdoor heat exchanger and a fan for rejecting or extracting heat to

A heat pump system for providing water heating and air conditioning, comprising one or more compressors for circulating a refrigerant in the system, a hot water tank having a heat exchanger for heating and storing the hot water, an outdoor heat exchanger and a fan for rejecting or extracting heat to or from the outdoor environment in air cooling, or water heating and/or air heating modes of operation respectively, an indoor heat exchanger with a fan for conditioning and supplying air to an indoor space. The system is particularly suitable in applications which require water heating and house cooling all year round. The system may also be adapted to other situations such as year-round water heating with seasonal air cooling, or year-round water heating with seasonal air cooling and heating, etc., and used for different applications, e.g., space heating and cooling simultaneously.

대표청구항 ▼

The invention claimed is: 1. A heat pump system for water heating and air conditioning, said system comprising: a compressor for circulating a refrigerant fluid through said system; a water tank for storing water; a first heat exchanger for heating water in said water tank; a second heat exchanger

The invention claimed is: 1. A heat pump system for water heating and air conditioning, said system comprising: a compressor for circulating a refrigerant fluid through said system; a water tank for storing water; a first heat exchanger for heating water in said water tank; a second heat exchanger for rejecting or extracting heat to or from an outdoor environment; a third heat exchanger and associated fan for conditioning and supplying air to an indoor space, wherein said system is adapted so that: when heating water stored in the water tank requires heating, the refrigerant fluid exhausted from the compressor passes through the first heat transfer heat to the water in the water tank and then passes trough the second heat exchanger; and after the water in the water tank is heated to a predetermined temperature, the refrigerant fluid exhausted from the compressor bypasses the first heat exchanger and is directly passed to the second heat exchanger to exhaust heat to the outdoor environment. 2. The heat pump system as claimed in claim 1, wherein said predetermined temperature is in the range of 60° C. to 65° C. 3. The heat pump system as claimed in claim 1, wherein said second heat exchanger has an associated fan for rejecting or extracting heat to or from said outdoor environment, said fan being activated when the temperature of the refrigerant exiting the second heat exchanger is higher than that of the outdoor environment by a predetermined amount. 4. The heat pump system as claimed in claim 3, wherein said second heat exchanger has an associated fan for rejecting or extracting heat to or from said outdoor environment, said fan being activated when the temperature of the refrigerant exiting the second heat exchanger is higher than that of the outdoor environment by a predetermined amount. 5. The heat pump system as claimed in claim 3, wherein the speed of operation of the fan associated with the second heat exchanger is variable in direct proportion to the amplitude of the temperature difference between the refrigerant exiting the second heat exchanger and the outdoor environment. 6. The heat pump system as claimed in claim 4, wherein the speed of operation of the fan associated with the second heat exchanger is variable in direct proportion to the amplitude of the temperature difference between the refrigerant exiting the second heat exchanger and the outdoor environment. 7. The heat pump system as claimed in claim 1, wherein the speed of operation of the fan associated with the third heat exchanger is variable depending upon cooling load. 8. The heat pump system as claimed in claim 3, wherein the speed of operation of the fan associated with the third heat exchanger is variable depending upon cooling load. 9. The heat pump system as claimed in claim 1, wherein the speed of operation of the compressor is variable depending upon cooling load. 10. The heat pump system as claimed in claim 3, wherein the speed of operation of the compressor is variable depending upon cooling load. 11. The heat pump system as claimed in claim 1, wherein said second heat exchanger is a finned coil type. 12. The heat pump system as claimed in claim 3, wherein said second heat exchanger is a finned coil type. 13. The heat pump system as claimed in claim 1, wherein said third heat exchanger is a finned coil type. 14. The heat pump system as claimed in claim 3, wherein said third heat exchanger is a finned coil type. 15. The heat pump system as claimed in claim 1, wherein a signal to control the path of the refrigerant fluid exhausted from the compressor is provided by a controller in response to a signal from a sensor measuring the temperature of the water. 16. The heat pump system as claimed in claim 2, wherein a signal to control the path of the refrigerant fluid exhausted from the compressor is provided by a controller in response to a signal from a sensor measuring the temperature of the water. 17. The heat pump system as claimed in claim 4, wherein a signal to control the path of the refrigerant fluid exhausted from the compressor is provided by a controller in response to a signal from a sensor measuring the temperature of the water. 18. The heat pump system as claimed in claim 3, wherein a signal to control the speed of the fan associated with the second heat exchanger is provided by a controller in response to a signal from temperature sensors measuring the temperature of the refrigerant exiting the second heat exchanger and the outdoor environment. 19. The heat pump system as claimed in claim 15, wherein a signal to control the speed of the fan associated with the second heat exchanger is provided by a controller in response to a signal from temperature sensors measuring the temperature of the refrigerant exiting the second heat exchanger and the outdoor environment.