CN203771682U - Air-source heat pump water heater powered by wind-solar hybrid power generating system - Google Patents

Abstract

The utility model relates to an air-source heat pump water heater powered by a wind-solar hybrid power generating system, and belongs to the field of clean energy application technology. Electrical current generated when sunlight shines on a solar cell passes through a conductive wire, a photovoltaic controller and a photovoltaic inverter and is input to a junction device; wind power blows blades to rotate, thereby driving current generated by a wind turbine to pass through a conductive wire and a wind power controller and then be input to the junction device; electric current output from the junction device is input to a compressor through conductive wires to serve as driving electrical power. Driven by the compressor, a refrigerant cycles unceasingly in the wind-solar hybrid power generating system, the refrigerant evaporates in an evaporator and absorbs heat energy in the air so as to transform from liquid refrigerant to gaseous refrigerant; after entering a condenser, the gaseous refrigerant releases high temperature heat energy used for heating water, and the gaseous refrigerant cools to the liquid refrigerant. The photovoltaic electrical current and the wind current are collected in the junction device to serve as the driving electrical power, so that air-source heat pump water heater is driven to generate a lot of hot water to be supplied to users. The air-source heat pump water heater has the advantage that no coal is burnt when water is heated, thereby protecting the environment and saving energy.

Description

The air-source heat pump hot water of wind and solar hybrid generating system power supply

Technical field

The utility model relates to the air-source heat pump hot water of wind and solar hybrid generating system power supply, belongs to clean energy resource applied technical field.

Background technology

The first day is opened in spring transportation on January 17th, 2014, and Beijing meets with first serious haze weather in this year, and PM2.5 concentration surpasses 500 microgram/cubic meters.There is obvious air heavy air pollution process twice in the 31Tian Zhong Beijing in January, 2014, at nearly 26 days haze day.Lasting haze has affected air quality and health, and the acute case fatality rate in crowd, respiratory disease and cardiovascular disease case fatality rate obviously increase.On February 20th, 2014, Beijing started air pollution ' orange early warning ' emergency measure for the first time, and suggestion middle and primary schools, kindergarten stop outdoor activities.

The power supply that existing air-source heat pump hot water relies in power supply network is completely supplied electric power by conductor wire, electric power in the power supply network of Eastern China mainly generates electricity from burning coal at present, many power consumptions mean many burning coals, be unfavorable for control combustion coal total amount, long-term burning coal is too much, is to cause haze weather to continue the main cause occurring.In order to reduce air pollution, accomplish neither to rely on direct burning coal and carry out manufacture hot water, do not rely on again burning coal generating, then re-use coal electricity and produce a large amount of hot water by electric heating approach.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, and the air-source heat pump hot water of wind and solar hybrid generating system power supply is provided.

Some areas in In South China, East China, North China, Central China, northeast, Inner Mongol, Xinjiang are existing than more rich wind energy resources, also have than more rich solar energy resources, in recent years, the technological progress of the complementary power supply of the wind-power electricity generation that these are regional and solar energy power generating is very fast, generating scale varies, and can provide sufficient electric power to meet the need for electricity of the air-source heat pump hot water of Multiple Type.

Solar light irradiation solar cell produces direct current, direct current is inputted in photovoltaic controller and is adjusted by conductor wire, from the direct current of photovoltaic controller output, by conductor wire, input photovoltaic DC-to-AC converter, converting direct-current power into alternating-current power in photovoltaic DC-to-AC converter, from the direct current of photovoltaic controller output, by conductor wire, also can input energy-storage battery first store electrical energy, from the alternating current of photovoltaic DC-to-AC converter output, by conductor wire, input junction station, wind blows blade quick rotation, drive wind-driven generator generation current, the wind-driven generator is here alternating current generator, from the alternating current of wind-driven generator output, by conductor wire, inputting wind-powered electricity generation controller adjusts, from the alternating current of wind-powered electricity generation controller output, by conductor wire, input junction station, after the electric current that the electric current that photovoltaic generation produces and wind-power electricity generation produce converges in junction station, then by conductor wire, input compressor reducer, the running of drive compression device, the running of compressor reducer circulates refrigerant in system, environmental protection refrigerant R134A or R415A or R415B or R417A be constantly circulation in system, refrigerant is in evaporimeter, daytime no matter, evening, cloudy day, the temperature that low temperature heat energy improves refrigerant can be drawn in sleet sky from air, from liquid refrigerants, be varied to gaseous coolant, gaseous coolant discharges high temperature heat heating cold water after circulation enters condenser, gaseous coolant is cooled and becomes liquid refrigerants in condenser, refrigerant is in constantly circulating, with low temperature heat energy in air, change high temperature heat into, by water temp. heating to 35 ℃-65 ℃.Air-source heat pump hot water only consumes the electric energy of drive compression device running, refrigerant constantly discharges the heat energy of taking from air in condenser, the energy that heating water obtains is greater than the energy that heat pump consumes, the utilization ratio of the energy significantly improves, and the power consumption of the water of heating equal volume, same temperature only has 1/4th of common electric heater.Photovoltaic electric current and wind-force electric current are all clean energy resourcies.The effect of the energy-saving and emission-reduction of the air-source heat pump hot water of wind and solar hybrid generating system power supply is fairly good.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

By solar cell 1, conductor wire 2, photovoltaic pillar 3, photovoltaic controller 4, photovoltaic DC-to-AC converter 5, energy-storage battery first 6, blade 7, wind-driven generator 8, wind-driven generator pillar 9, wind-powered electricity generation controller 10, energy-storage battery second 11, junction station 12, air-source heat pump hot water shell body 13, evaporimeter 14, compressor reducer 15, reservoir 16, filter 17, expansion valve 18, condenser 19, base 20, circulating water pipe first 21, circulating water pipe second 22, attemperater 23, cold water inlet 24, the common air-source heat pump hot water that forms wind and solar hybrid generating system power supply of hot water outlet pipe 25,

By solar cell 1, conductor wire 2, photovoltaic pillar 3, photovoltaic controller 4, photovoltaic DC-to-AC converter 5, energy-storage battery first 6, blade 7, wind-driven generator 8, wind-driven generator pillar 9, wind-powered electricity generation controller 10, energy-storage battery second 11, junction station 12 forms wind and solar hybrid generating system, on the upper left side of junction station 12, photovoltaic pillar 3 is installed, and solar cell 1 is installed above photovoltaic pillar 3, between solar cell 1 and junction station 12, conductor wire 2 is installed, photovoltaic controller 4, photovoltaic DC-to-AC converter 5, energy-storage battery first 6, installs wind-driven generator pillar 9 in the upper right side of junction station 12, and wind-driven generator 8 is installed above wind-driven generator pillar 9, blade 7 is installed conductor wire 2 between wind-driven generator 8 and junction station 12, wind-powered electricity generation controller 10, energy-storage battery second 11 is installed by air-source heat pump hot water shell body 13 below junction station 12, evaporimeter 14, compressor reducer 15, reservoir 16, filter 17, expansion valve 18, condenser 19, air-source heat pump hot water that base 20 forms, condenser 19 is arranged on air-source heat pump hot water inside, a side closer apart from attemperater 23, evaporimeter 14 is arranged on air-source heat pump hot water inside, the opposite side distant apart from attemperater 23, compressor reducer 15 is arranged on the centre on the top of condenser 19 and the top of evaporimeter 14, reservoir 16, filter 17, expansion valve 18 is arranged on the centre of the bottom of evaporimeter 14 and the bottom of condenser 19 successively, and base 20 is installed below air-source heat pump hot water, in a side closer apart from condenser 19, attemperater 23 is installed in the place not far apart from air-source heat pump hot water shell body 13 simultaneously, on a side of attemperater 23, with the top of the centre of the air-source heat pump hot water of mutual vicinity, circulating water pipe first 21 is installed, circulating water pipe second 22 is installed in bottom, on the top of another side of attemperater 23, cold water inlet 24 is installed, hot water outlet pipe 25 is installed in bottom,

Solar cell 1 is connected with photovoltaic controller 4 by conductor wire 2, photovoltaic controller 4 is connected with energy-storage battery first 6 by conductor wire 2, photovoltaic controller 4 is connected with photovoltaic DC-to-AC converter 5 by conductor wire 2, photovoltaic DC-to-AC converter 5 is connected with junction station 12 by conductor wire 2, wind-driven generator 8 is connected with wind-powered electricity generation controller 10 by conductor wire 2, wind-powered electricity generation controller 10 is connected with energy-storage battery second 11 by conductor wire 2, wind-powered electricity generation controller 10 is connected with junction station 12 by conductor wire 2, junction station 12 is connected with compressor reducer 15 by conductor wire 2, cold water inlet 24 and attemperater 23, the upper wall portions of the side of air-source heat pump hot water connects dorsad, hot water outlet pipe 25 and attemperater 23, the lower wall portion of the side of air-source heat pump hot water connects dorsad, the upper wall portions of the closer side of distance air-source heat pump hot water on circulating water pipe first 21 and attemperater 23, and connect and intercommunication with the corresponding top on air-source heat pump hot water shell body 13 sides, the lower wall portion of the closer side of distance air-source heat pump hot water on circulating water pipe second 22 and attemperater 23, and connect and intercommunication with the corresponding bottom on air-source heat pump hot water shell body 13 sides, in air-source heat pump hot water shell body 13, the pipeline on condenser 19 tops is connected and communicates with the pipeline on evaporimeter 14 tops through compressor reducer 15, the pipeline of condenser 19 bottoms is through reservoir 16, filter 17, expansion valve 18 is connected and communicates with the pipeline of evaporimeter 14 bottoms.

Solar cell 1 is monocrystaline silicon solar cell or polysilicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.

Wind-driven generator 8 is perpendicular axis type wind-driven generator or horizontal axial type wind-driven generator.

Compared with prior art, the beneficial effects of the utility model are: 1. both taken full advantage of wind energy resources generating, and taken full advantage of solar energy resources generating simultaneously, two kinds of main clean energy resourcies of occurring in nature are fully utilized simultaneously.2. with the electric power that clean energy resource electric power replacement burning coal produces, drive air-source heat pump hot water; can reduce the power consumption of the electric power of coal fired power generation generation; reduced the quantity combusted of coal; reduced in the process of burning coal to the quantity discharging pollutants in air; be conducive to reduce the harm of haze, protected ecological environment.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

The specific embodiment

The electric current that solar light irradiation solar cell produces passes through conductor wire, photovoltaic controller, photovoltaic DC-to-AC converter input junction station, wind blows blade rotary, the electric current that drives wind-driven generator to produce passes through conductor wire, wind-powered electricity generation controller input junction station, from the electric current of junction station output, by conductor wire, input compressor reducer as driving electric power, the running of compressor reducer drives refrigerant ceaselessly circulation in system, refrigerant evaporates the airborne heat energy of absorption and becomes gaseous coolant by liquid refrigerants in evaporimeter, gaseous coolant discharges high temperature heat heating water and is cooled to liquid refrigerants after entering condenser, photovoltaic electric current and wind-force electric current collect as driving electric power in junction station, drive air-source heat pump hot water to produce a large amount of hot water supply users.Burning coal not when the utility model is produced hot water, is conducive to protection of the environment and saves the energy.

The utility model is further described in connection with the embodiment in accompanying drawing below:

By solar cell 1, conductor wire 2, photovoltaic pillar 3, photovoltaic controller 4, photovoltaic DC-to-AC converter 5, energy-storage battery first 6, blade 7, wind-driven generator 8, wind-driven generator pillar 9, wind-powered electricity generation controller 10, energy-storage battery second 11, junction station 12, air-source heat pump hot water shell body 13, evaporimeter 14, compressor reducer 15, reservoir 16, filter 17, expansion valve 18, condenser 19, base 20, circulating water pipe first 21, circulating water pipe second 22, attemperater 23, cold water inlet 24, the common air-source heat pump hot water that forms wind and solar hybrid generating system power supply of hot water outlet pipe 25,

By solar cell 1, conductor wire 2, photovoltaic pillar 3, photovoltaic controller 4, photovoltaic DC-to-AC converter 5, energy-storage battery first 6, blade 7, wind-driven generator 8, wind-driven generator pillar 9, wind-powered electricity generation controller 10, energy-storage battery second 11, junction station 12 forms wind and solar hybrid generating system, on the upper left side of junction station 12, photovoltaic pillar 3 is installed, and solar cell 1 is installed above photovoltaic pillar 3, between solar cell 1 and junction station 12, conductor wire 2 is installed, photovoltaic controller 4, photovoltaic DC-to-AC converter 5, energy-storage battery first 6, installs wind-driven generator pillar 9 in the upper right side of junction station 12, and wind-driven generator 8 is installed above wind-driven generator pillar 9, blade 7 is installed conductor wire 2 between wind-driven generator 8 and junction station 12, wind-powered electricity generation controller 10, energy-storage battery second 11 is installed by air-source heat pump hot water shell body 13 below junction station 12, evaporimeter 14, compressor reducer 15, reservoir 16, filter 17, expansion valve 18, condenser 19, air-source heat pump hot water that base 20 forms, condenser 19 is arranged on air-source heat pump hot water inside, a side closer apart from attemperater 23, evaporimeter 14 is arranged on air-source heat pump hot water inside, the opposite side distant apart from attemperater 23, compressor reducer 15 is arranged on the centre on the top of condenser 19 and the top of evaporimeter 14, reservoir 16, filter 17, expansion valve 18 is arranged on the centre of the bottom of evaporimeter 14 and the bottom of condenser 19 successively, and base 20 is installed below air-source heat pump hot water, in a side closer apart from condenser 19, attemperater 23 is installed in the place not far apart from air-source heat pump hot water shell body 13 simultaneously, on a side of attemperater 23, with the top of the centre of the air-source heat pump hot water of mutual vicinity, circulating water pipe first 21 is installed, circulating water pipe second 22 is installed in bottom, on the top of another side of attemperater 23, cold water inlet 24 is installed, hot water outlet pipe 25 is installed in bottom,

Solar cell 1 is connected with photovoltaic controller 4 by conductor wire 2, photovoltaic controller 4 is connected with energy-storage battery first 6 by conductor wire 2, photovoltaic controller 4 is connected with photovoltaic DC-to-AC converter 5 by conductor wire 2, photovoltaic DC-to-AC converter 5 is connected with junction station 12 by conductor wire 2, wind-driven generator 8 is connected with wind-powered electricity generation controller 10 by conductor wire 2, wind-powered electricity generation controller 10 is connected with energy-storage battery second 11 by conductor wire 2, wind-powered electricity generation controller 10 is connected with junction station 12 by conductor wire 2, junction station 12 is connected with compressor reducer 15 by conductor wire 2, cold water inlet 24 and attemperater 23, the upper wall portions of the side of air-source heat pump hot water connects dorsad, hot water outlet pipe 25 and attemperater 23, the lower wall portion of the side of air-source heat pump hot water connects dorsad, the upper wall portions of the closer side of distance air-source heat pump hot water on circulating water pipe first 21 and attemperater 23, and connect and intercommunication with the corresponding top on air-source heat pump hot water shell body 13 sides, the lower wall portion of the closer side of distance air-source heat pump hot water on circulating water pipe second 22 and attemperater 23, and connect and intercommunication with the corresponding bottom on air-source heat pump hot water shell body 13 sides, in air-source heat pump hot water shell body 13, the pipeline on condenser 19 tops is connected and communicates with the pipeline on evaporimeter 14 tops through compressor reducer 15, the pipeline of condenser 19 bottoms is through reservoir 16, filter 17, expansion valve 18 is connected and communicates with the pipeline of evaporimeter 14 bottoms.

Solar cell 1 is monocrystaline silicon solar cell or polysilicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.

Wind-driven generator 8 is perpendicular axis type wind-driven generator or horizontal axial type wind-driven generator.

Chinese Environmental Protection Department satellite remote sensing on February 21st, 2014 detects and shows; there is gray haze in Middle And Eastern China; gray haze influence area is about 1,430,000 square kilometres; heavy haze area is about 810,000 square kilometres; mainly concentrate on province, the cities such as Beijing, Hebei, Shanxi, Shandong, Henan, Liaoning, major pollutants are PM2.5.Northern country resident needs to use a large amount of hot water in living in the winter time, with coal furnace manufacture hot water, can in air, discharge a large amount of pollutants, urban residents in North need to be used a large amount of hot water in living in the winter time equally, with electric heater manufacture hot water, need to consume a large amount of electric power.In the electric power of carrying in the power supply network of North City at present, have more than 80 percent and generate electricity from burning coal, the ratio that the electric power that solar electrical energy generation, wind-power electricity generation, marsh gas power generation produce occupies in power supply network is little.On February 4th, 2014 is the lunar calendar ' the beginning of spring ' season, February 19 was the lunar calendar ' rainwater ' season, it is warm that weather becomes gradually, temperature changes high temperature heat with regard to being applicable to drawing airborne low temperature heat energy with the refrigerant in air-source heat pump hot water by circulation in when more than 0 ℃, discharge high temperature heat and be used for heating cold water, add that spring breeze blows, illumination strengthens, the efficiency of wind-power electricity generation and solar electrical energy generation improves, the electric current of two kinds of new forms of energy generations complements one another, after converging, wind-force electric current and solar energy electric current to compressor reducer power supply, make its running by conductor wire, thereby drive air-source heat pump hot water work, produce a large amount of hot water and supply urban and rural residents, this is to reducing burning coal, reduce haze harm, protection people ' s health has great importance.

The electric current that solar light irradiation solar cell produces is inputted photovoltaic controller by conductor wire, from the electric current of photovoltaic controller output, by conductor wire, inputting energy-storage battery first stores, from the electric current of photovoltaic controller output, also can pass through conductor wire, photovoltaic DC-to-AC converter input junction station, wind blows blade fast rotational, the electric current that drives wind-driven generator to produce is inputted wind-powered electricity generation controller by conductor wire, from the electric current of wind-powered electricity generation controller output, by conductor wire, inputting energy-storage battery second stores, from the electric current of wind-powered electricity generation controller output, by conductor wire, input junction station, after converging in junction station, photovoltaic electric current and wind-force electric current input compressor reducer by conductor wire, in compressor reducer, electric energy converts mechanical energy to as power, the machine operation of compressor reducer drives refrigerant ceaselessly circulation in system, while evaporating in the pipeline of refrigerant in evaporimeter, draw airborne heat energy and become gaseous coolant by liquid refrigerants, gaseous coolant is recycled to and in the pipeline in condenser, discharges high temperature heat heating and from attemperater, in the pipe by circulating water pipe first and circulating water pipe second, circulate the current that come, the flow heated water that is enhanced temperature in air-source heat pump hot water shell body enters circulating water pipe first, the water circulation system of attemperater and circulating water pipe second inside, hot water flows to attemperater to hot water user hot-water supply.

Now enumerate embodiment as follows:

Embodiment mono-:

The electric current that solar light irradiation monocrystaline silicon solar cell produces passes through conductor wire, photovoltaic controller, photovoltaic DC-to-AC converter input junction station, wind blows blade rotary, the electric current that drives perpendicular axis type wind-driven generator to produce passes through conductor wire, wind-powered electricity generation controller input junction station, after photovoltaic electric current and wind-force electric current converge in junction station, from the electric current of junction station output, by conductor wire, input compressor reducer as driving electric power, the running of compressor reducer drives refrigerant ceaselessly circulation in system, refrigerant evaporates the airborne low temperature heat energy of absorption and becomes gaseous coolant by liquid refrigerants in evaporimeter, gaseous coolant discharges high temperature heat heating water and is cooled to liquid refrigerants after entering condenser, photovoltaic electric current and wind-force electric current collect as driving electric power in junction station, drive air-source heat pump hot water to produce a large amount of hot water supply users.Burning coal not when the utility model is produced hot water, is conducive to protection of the environment and saves the energy.

Embodiment bis-:

The electric current that solar light irradiation polysilicon solar cell produces passes through conductor wire, photovoltaic controller, photovoltaic DC-to-AC converter input junction station, wind blows blade rotary, the electric current that drives horizontal axial type wind-driven generator to produce passes through conductor wire, wind-powered electricity generation controller input junction station, after photovoltaic electric current and wind-force electric current converge in junction station, from the electric current of junction station output, by conductor wire, input compressor reducer as driving electric power, the running of compressor reducer drives refrigerant ceaselessly circulation in system, refrigerant evaporates the airborne low temperature heat energy of absorption and becomes gaseous coolant by liquid refrigerants in evaporimeter, gaseous coolant discharges high temperature heat heating water and is cooled to liquid refrigerants after entering condenser, photovoltaic electric current and wind-force electric current collect as driving electric power in junction station, drive air-source heat pump hot water to produce a large amount of hot water supply users.Burning coal not when the utility model is produced hot water, is conducive to protection of the environment and saves the energy.

Claims (3)

1. the air-source heat pump hot water that wind and solar hybrid generating system is powered, it is characterized in that, by solar cell (1), conductor wire (2), photovoltaic pillar (3), photovoltaic controller (4), photovoltaic DC-to-AC converter (5), energy-storage battery first (6), blade (7), wind-driven generator (8), wind-driven generator pillar (9), wind-powered electricity generation controller (10), energy-storage battery second (11), junction station (12), air-source heat pump hot water shell body (13), evaporimeter (14), compressor reducer (15), reservoir (16), filter (17), expansion valve (18), condenser (19), base (20), circulating water pipe first (21), circulating water pipe second (22), attemperater (23), cold water inlet (24), hot water outlet pipe (25) forms the air-source heat pump hot water of wind and solar hybrid generating system power supply jointly,

By solar cell (1), conductor wire (2), photovoltaic pillar (3), photovoltaic controller (4), photovoltaic DC-to-AC converter (5), energy-storage battery first (6), blade (7), wind-driven generator (8), wind-driven generator pillar (9), wind-powered electricity generation controller (10), energy-storage battery second (11), junction station (12) forms wind and solar hybrid generating system, photovoltaic pillar (3) is installed on upper left side at junction station (12), solar cell (1) is installed in top at photovoltaic pillar (3), between solar cell (1) and junction station (12), conductor wire (2) is installed, photovoltaic controller (4), photovoltaic DC-to-AC converter (5), energy-storage battery first (6), installs wind-driven generator pillar (9) in the upper right side of junction station (12), in the top of wind-driven generator pillar (9), wind-driven generator (8) is installed, blade (7) is installed conductor wire (2) between wind-driven generator (8) and junction station (12), wind-powered electricity generation controller (10), energy-storage battery second (11), installs by air-source heat pump hot water shell body (13) in the below of junction station (12), evaporimeter (14), compressor reducer (15), reservoir (16), filter (17), expansion valve (18), condenser (19), air-source heat pump hot water that base (20) forms, condenser (19) is arranged on air-source heat pump hot water inside, a side closer apart from attemperater (23), evaporimeter (14) is arranged on air-source heat pump hot water inside, apart from the distant opposite side of attemperater (23), compressor reducer (15) is arranged on the centre on the top of condenser (19) and the top of evaporimeter (14), reservoir (16), filter (17), expansion valve (18) is arranged on the centre of the bottom of evaporimeter (14) and the bottom of condenser (19) successively, and base (20) is installed below air-source heat pump hot water, in a side closer apart from condenser (19), attemperater (23) is installed in the place not far apart from air-source heat pump hot water shell body (13) simultaneously, on a side of attemperater (23), with the top of the centre of the air-source heat pump hot water of mutual vicinity, circulating water pipe first (21) is installed, circulating water pipe second (22) is installed in bottom, on the top of another side of attemperater (23), cold water inlet (24) is installed, hot water outlet pipe (25) is installed in bottom,

Solar cell (1) is connected with photovoltaic controller (4) by conductor wire (2), photovoltaic controller (4) is connected with energy-storage battery first (6) by conductor wire (2), photovoltaic controller (4) is connected with photovoltaic DC-to-AC converter (5) by conductor wire (2), photovoltaic DC-to-AC converter (5) is connected with junction station (12) by conductor wire (2), wind-driven generator (8) is connected with wind-powered electricity generation controller (10) by conductor wire (2), wind-powered electricity generation controller (10) is connected with energy-storage battery second (11) by conductor wire (2), wind-powered electricity generation controller (10) is connected with junction station (12) by conductor wire (2), junction station (12) is connected with compressor reducer (15) by conductor wire (2), cold water inlet (24) and attemperater (23), the upper wall portions of the side of air-source heat pump hot water connects dorsad, hot water outlet pipe (25) and attemperater (23), the lower wall portion of the side of air-source heat pump hot water connects dorsad, the upper wall portions of the side that the upper distance air-source heat pump hot water of circulating water pipe first (21) and attemperater (23) is closer, and connect and intercommunication with the corresponding top on air-source heat pump hot water shell body (13) side, the lower wall portion of the side that the upper distance air-source heat pump hot water of circulating water pipe second (22) and attemperater (23) is closer, and connect and intercommunication with the corresponding bottom on air-source heat pump hot water shell body (13) side, in air-source heat pump hot water shell body (13), the pipeline on condenser (19) top is connected and communicates with the pipeline on evaporimeter (14) top through compressor reducer (15), the pipeline of condenser (19) bottom is through reservoir (16), filter (17), expansion valve (18) is connected and communicates with the pipeline of evaporimeter (14) bottom.

2. the air-source heat pump hot water that wind and solar hybrid generating system according to claim 1 is powered, it is characterized in that, described solar cell (1) is monocrystaline silicon solar cell or polysilicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.

3. the air-source heat pump hot water of wind and solar hybrid generating system power supply according to claim 1, is characterized in that, described wind-driven generator (8) is perpendicular axis type wind-driven generator or horizontal axial type wind-driven generator.