CN205332407U - Air conditioner outdoor unit and air conditioner - Google Patents

Abstract

The utility model provides an air conditioner outdoor unit and air conditioner, wherein, air condensing units includes: heat exchanger, fan, wind power generation set and electric heater unit, wind power generation set sets up in the air -out direction of fan for become electric energy and output with wind energy conversion, electric heater unit fixes on the heat exchanger to be connected with the wind power generation set electricity. The utility model provides an air condensing units, through addding wind power generation set and electric heater unit, the wind energy conversion one -tenth electric energy that produces the fan is used for the heating to improve the evaporating temperature of ambient temperature and refrigerant, thereby effectively reduced the probability that the heat exchanger frosted, and make the refrigerant evaporation in the heat exchanger more complete, and then improved the heating performance of air conditioner greatly.

Description

Air-conditioner outdoor unit and air-conditioner

Technical field

This utility model relates to air-conditioning technical field, in particular to a kind of air-conditioner outdoor unit and the air-conditioner comprising this air-conditioner outdoor unit。

Background technology

At present, when air-conditioner runs at low ambient temperatures, the easy frosting of outdoor unit heat exchanger, affect the heating performance of air-conditioner and the comfort of user。

Utility model content

In order to solve above-mentioned technical problem at least one, a purpose of the present utility model is in that to provide a kind of wind energy utilizing off-premises station to produce effectively to delay the air-conditioner outdoor unit of outdoor unit heat exchanger frosting。

Another purpose of the present utility model is in that to provide a kind of air-conditioner comprising above-mentioned air-conditioner outdoor unit。

To achieve these goals, the embodiment of this utility model first aspect provides a kind of air-conditioner outdoor unit, including: heat exchanger；Fan；Wind power generation plant, described wind power generation plant is arranged on the air-out direction of described fan, is used for converting wind energy into electric energy and exporting；And electric heater unit, described electric heater unit is fixed on described heat exchanger, and electrically connects with described wind power generation plant, for converting the electric energy that described wind power generation plant exports to heat energy to delay described heat exchanger frosting。

The air-conditioner outdoor unit that the embodiment of this utility model first aspect provides, by setting up wind power generation plant and electric heater unit, convert the wind energy that fan produces to electric energy to be used for heating, to improve the evaporating temperature of ambient temperature and cold-producing medium, thus effectively reducing the probability of heat exchanger frosting, and make the cold-producing medium evaporation in heat exchanger more complete, and then substantially increase the heating performance of air-conditioner。

Specifically, existing air-conditioner when low temperature environment runs, the easy frosting of outdoor unit heat exchanger, affect the heating performance of air-conditioner and the comfort of user；And the air-conditioner outdoor unit that this utility model provides, by increasing small wind-driven generator, and on outdoor unit heat exchanger, increase electric heater unit, to utilize the electric energy that wind power generation plant sends to make electric heater unit produce heat, thus improve evaporating temperature and the ambient temperature of cold-producing medium, reduce the probability of outdoor unit heat exchanger frosting, and then improve the heating performance of air-conditioner。Specifically, air-conditioner is in the process run, the aerofoil fan of air-conditioner outdoor unit is rotating always, continuously output kinetic energy, and the wind power generation plant being arranged on fan air-out direction converts this part kinetic energy to electric energy, supply electric heater unit, electric heater unit energising produces heat, improves the temperature of surrounding on the one hand, and then improves the evaporating temperature of cold-producing medium, the evaporation making cold-producing medium is more complete, thus improve the heating performance of air-conditioner；On the other hand due to the rising of ambient temperature so that when heating, the probability of outdoor unit heat exchanger frosting is substantially reduced, thus further increasing the heating performance of air-conditioner。Additionally, wind power generation plant utilizes the wind energy that air-conditioner outdoor unit self produces to generate electricity, not by the impact of outside natural conditions, as long as air-conditioning is opened, just can produce wind-force, just can continuously generate electricity。

It addition, the air-conditioner outdoor unit in above-described embodiment of this utility model offer has following additional technical feature:

In technique scheme, described wind power generation plant includes: Eolic converter, and described Eolic converter is arranged on the air-out direction of described fan, is used for converting wind energy into mechanical energy；And electromotor, the input of described electromotor is connected with described Eolic converter, and outfan electrically connects with described electric heater unit, is used for converting mechanical energy into electric energy and exporting。

Wind power generation plant includes Eolic converter and electromotor, Eolic converter is positioned on the air-out direction of fan, preferably, it is located immediately at air outlet place, and its rotating shaft is centrally located on same level line with fan, convert mechanical energy to the wind energy to greatest extent fan produced, improve the utilization rate of wind energy；The rotating shaft of electromotor is fixing with the rotating shaft of Eolic converter to be connected, thus utilizing the mechanical energy that Eolic converter produces to generate electricity, it is achieved wind-power electricity generation process。

In any of the above-described technical scheme, described air-conditioner outdoor unit also includes: power inverter, the input of described power inverter electrically connects with the outfan of described electromotor, and outfan electrically connects with described electric heater unit, to power for described electric heater unit sustainedly and stably。

It not fixing due to outdoor air flows, thus the wind-force that fan rotates generation neither be stable, so the electric energy that wind-driven generator produces neither be stable, therefore by arranging power inverter, the electric energy that electromotor produces can be converted to stable high-quality electric energy, then resupply electric heater unit, can either ensure that electric heater unit runs sustainedly and stably, the service life of electric heater unit can be improved again。

In any of the above-described technical scheme, described power inverter includes: accumulator, and the input of described accumulator electrically connects with the outfan of described electromotor；And inverter, the input of described inverter electrically connects with the outfan of described accumulator, and outfan electrically connects with described electric heater unit, is supply described electric heater unit after alternating current for the DC conversion that described accumulator is exported。

Electromotor passes through charging circuit the electrical power storage produced in accumulator, and accumulator is with stable voltage output electric energy, thus guaranteeing to power for subsequent conditioning circuit sustainedly and stably；Inverter can supply electric heater unit after the converting direct-current power into alternating-current power of accumulator output, to ensure the normal operation of electric heater unit。

In any of the above-described technical scheme, described power inverter also includes: transformator, and the input of described transformator electrically connects with the outfan of described accumulator, and outfan electrically connects with the input of described inverter。

Owing to the output voltage of accumulator is fixing, by arranging transformator, the output voltage of accumulator can be changed over the voltage matched with electric heater unit, thus expand the range of choice of electric heater unit, and ensure that electric heater unit all can work when best。

In any of the above-described technical scheme, described power inverter also includes: commutator, and the input of described commutator electrically connects with the outfan of described transformator；And wave filter, the input of described wave filter electrically connects with the outfan of described commutator, and outfan electrically connects with the input of described inverter。

The alternating current that commutator exports transformator is transformed into Rectified alternating current, the alternating component that wave filter then reduces in the DC voltage of pulsation as far as possible retains its flip-flop, output voltage ripple coefficient is made to reduce, waveform becomes smoother, thus further increasing the quality of electric energy, further ensure the dependability of electric heater unit。

In any of the above-described technical scheme, the outside of described air-conditioner outdoor unit is provided with sheet metal component, described wind power generation plant and described power inverter and is fixed on described sheet metal component。

Wind power generation plant and power inverter are fixed on the outside sheet metal component of off-premises station, it is possible to effectively ensure the properly functioning of wind power generation plant and power inverter, and it can be avoided that the internal structure of air-conditioner outdoor unit complicates。It is of course also possible to be fixed on inside air-conditioner outdoor unit by wind power generation plant and power inverter, so wind power generation plant and power inverter can be played the effect of being effectively protected。

In any of the above-described technical scheme, described electric heater unit is fixed on the inner surface of described heat exchanger。

Owing to the probability of heat exchanger of air conditioner outdoor unit inner surface frosting is higher, therefore electric heater unit is arranged on the inner surface of heat exchanger, it is possible to play the effect better delaying frosting, thus better improving the heating performance of air-conditioner。

In any of the above-described technical scheme, described electric heater unit is electrothermal resistance silk, and described Eolic converter is windmill。

Electrothermal resistance silk is under the premise meeting electric heating function, cheap, it is convenient to install, and electrical heating resistance silk can be distributed on the inner surface of whole heat exchanger, with ensure each position of heat exchanger all will not frosting or postpone frosting, thus being effectively improved the heating performance of air-conditioner；Windmill is under the premise meeting wind-force translation function, cheap, and wind-force conversion efficiency is high。

The embodiment of this utility model second aspect provides a kind of air-conditioner, including the air-conditioner outdoor unit according to any one of above-mentioned first aspect embodiment。

The air-conditioner that the embodiment of this utility model second aspect provides, because including the air-conditioner outdoor unit any one of above-mentioned first aspect embodiment, thus significantly improves heating performance。

In technique scheme, the electric heater unit of described air-conditioner outdoor unit is electrically connected with the control module of described air-conditioner by stand-by circuit, when the wind power generation plant of described air-conditioner outdoor unit is not enough to drive described electric heater unit to work, described control module controls the conducting of described stand-by circuit。

Electric heater unit can electrically connect with the electronic control module of wind power generation plant and air-conditioner simultaneously, and namely the electronic control module of wind power generation plant and air-conditioner all can drive electric heater unit。Specifically, when wind power generation plant normal operation is enough to drive electric heater unit, wind power generation plant drive；When wind power generation plant breaks down or is not enough to drive electric heater unit, then driven by the electronic control module of air-conditioner, so can effectively ensure that the normal operation of electric heater unit, to delay outdoor unit heat exchanger frosting, thus improving the heating performance of air-conditioner。Certainly, electric heater unit can also be directly accessed in the circuit of air-conditioner, the electronic control module of air-conditioner drive, and is capable of delaying the purpose of outdoor unit heat exchanger frosting equally。

Additional aspect of the present utility model and advantage will become apparent upon in description below part, or recognized by practice of the present utility model。

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is the partial structurtes schematic diagram of air-conditioner outdoor unit described in the utility model；

Fig. 2 is the assembling structural representation of heat exchanger described in the utility model and electrothermal resistance silk。

Wherein, in Fig. 1 to Fig. 2, corresponding relation between accompanying drawing labelling and component names is:

10 heat exchangers, 20 fans, 30 wind power generation plants, 31 windmills, 32 electromotors, 40 power inverters, 41 accumulator, 42 inverters, 43 transformators, 44 commutators, 45 wave filter, 50 electric heater units, 51 electrothermal resistance silks。

Detailed description of the invention

In order to be more clearly understood that above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the drawings and specific embodiments, this utility model is further described in detail。It should be noted that when not conflicting, embodiments herein and the feature in embodiment can be mutually combined。

Elaborate a lot of detail in the following description so that fully understanding this utility model; but; this utility model can also adopt other to be different from other modes described here to implement, and therefore, protection domain of the present utility model is by the restriction of following public specific embodiment。

Air-conditioner outdoor unit according to some embodiments of this utility model and air-conditioner are described referring to Fig. 1 to Fig. 2。

As depicted in figs. 1 and 2, the air-conditioner outdoor unit that the embodiment of this utility model first aspect provides, including: heat exchanger 10, fan 20, wind power generation plant 30 and electric heater unit 50。

Specifically, wind power generation plant 30 is arranged on the air-out direction of fan 20, is used for converting wind energy into electric energy and exporting；Electric heater unit 50 is fixed on heat exchanger 10, and electrically connects with wind power generation plant 30, for converting the electric energy that wind power generation plant 30 exports to heat energy to delay the frosting of described heat exchanger 10。

The air-conditioner outdoor unit that the embodiment of this utility model first aspect provides, by increasing small wind-driven generator 30, and on outdoor unit heat exchanger 10, increase electric heater unit 50, to utilize the electric energy that wind power generation plant 30 sends to make electric heater unit 50 produce heat, thus improve evaporating temperature and the ambient temperature of cold-producing medium, reduce the probability of outdoor unit heat exchanger 10 frosting, and then improve the heating performance of air-conditioner。Specifically, air-conditioner is in the process run, the aerofoil fan 20 of air-conditioner outdoor unit is rotating always, output kinetic energy continuously, and the wind power generation plant 30 being arranged on fan 20 air-out direction converts this part kinetic energy to electric energy, supply electric heater unit 50, electric heater unit 50 energising produces heat, improves the temperature of surrounding on the one hand, and then improves the evaporating temperature of cold-producing medium, the evaporation making cold-producing medium is more complete, thus improve the heating performance of air-conditioner；On the other hand due to the rising of ambient temperature so that when heating, the probability of outdoor unit heat exchanger 10 frosting is substantially reduced, thus further increasing the heating performance of air-conditioner。Additionally, wind power generation plant 30 utilizes the wind energy that air-conditioner outdoor unit self produces to generate electricity, not by the impact of outside natural conditions, as long as air-conditioning is opened, just can produce wind-force, just can continuously generate electricity。

In embodiments more of the present utility model, as it is shown in figure 1, wind power generation plant 30 includes: Eolic converter and electromotor 32。

Specifically, Eolic converter is arranged on the air-out direction of fan 20, is used for converting wind energy into mechanical energy；The input of electromotor 32 is connected with Eolic converter, and outfan electrically connects with electric heater unit 50, is used for converting mechanical energy into electric energy and exporting。

In the above-described embodiments, wind power generation plant 30 includes Eolic converter and electromotor 32, Eolic converter is positioned on the air-out direction of fan 20, preferably, it is located immediately at air outlet place, and its rotating shaft is centrally located on same level line with fan 20, convert mechanical energy to the wind energy to greatest extent fan 20 produced, improve the utilization rate of wind energy；The rotating shaft of electromotor 32 is fixing with the rotating shaft of Eolic converter to be connected, thus utilizing the mechanical energy that Eolic converter produces to generate electricity, it is achieved wind-power electricity generation process。

In embodiments more of the present utility model, as it is shown in figure 1, air-conditioner outdoor unit also includes: power inverter 40, the input of power inverter 40 electrically connects with the outfan of electromotor 32, outfan electrically connects with electric heater unit 50, to power for electric heater unit 50 sustainedly and stably。

In the above-described embodiments, it not fixing due to outdoor air flows, thus the wind-force that fan 20 rotates generation neither be stable, so the electric energy that wind-driven generator 32 produces neither be stable, therefore by arranging power inverter 40, it is possible to the electric energy that electromotor 32 produces is converted to stable high-quality electric energy, then resupplies electric heater unit 50, can either ensure that electric heater unit 50 runs sustainedly and stably, the service life of electric heater unit 50 can be improved again。

In embodiments more of the present utility model, as it is shown in figure 1, power inverter 40 includes: accumulator 41 and inverter 42。

Specifically, the input of accumulator 41 electrically connects with the outfan of electromotor 32；The input of inverter 42 electrically connects with the outfan of accumulator 41, and outfan electrically connects with electric heater unit 50, and the DC conversion for accumulator 41 is exported is supply electric heater unit 50 after alternating current。

In the above-described embodiments, electromotor 32 passes through charging circuit the electrical power storage produced in accumulator 41, and accumulator 41 is with stable voltage output electric energy, thus guaranteeing to power for subsequent conditioning circuit sustainedly and stably；Electric heater unit 50 is supplied, to ensure the normal operation of electric heater unit 50 after the converting direct-current power into alternating-current power that inverter 42 can export accumulator 41。

In embodiments more of the present utility model, as it is shown in figure 1, power inverter 40 also includes: transformator 43, the input of transformator 43 electrically connects with the outfan of accumulator 41, and outfan electrically connects with the input of inverter 42。

In the above-described embodiments, owing to the output voltage of accumulator 41 is fixing, by arranging transformator 43, the output voltage of accumulator 41 can be changed over the voltage matched with electric heater unit 50, thus expand the range of choice of electric heater unit 50, and ensure that electric heater unit 50 all can work when best。

In embodiments more of the present utility model, as it is shown in figure 1, power inverter 40 also includes: commutator 44 and wave filter 45。

Specifically, the input of commutator 44 electrically connects with the outfan of transformator 43；The input of wave filter 45 electrically connects with the outfan of commutator 44, and outfan electrically connects with the input of inverter 42。

In the above-described embodiments, the alternating current that 44 transformators 43 of commutator export is transformed into Rectified alternating current, the alternating component that wave filter 45 then reduces in the DC voltage of pulsation as far as possible retains its flip-flop, output voltage ripple coefficient is made to reduce, waveform becomes smoother, thus further increasing the quality of electric energy, further ensure the dependability of electric heater unit 50。

In embodiments more of the present utility model, the outside of air-conditioner outdoor unit is provided with sheet metal component (not shown), wind power generation plant 30 and power inverter 40 and is fixed on sheet metal component。

In the above-described embodiments, wind power generation plant 30 and power inverter 40 are fixed on the outside sheet metal component of off-premises station, can effectively ensure the properly functioning of wind power generation plant 30 and power inverter 40, and it can be avoided that the internal structure of air-conditioner outdoor unit complicates。It is of course also possible to be fixed on inside air-conditioner outdoor unit by wind power generation plant 30 and power inverter 40, so wind power generation plant 30 and power inverter 40 can be played the effect of being effectively protected。

In embodiments more of the present utility model, as in figure 2 it is shown, electric heater unit 50 is fixed on the inner surface of heat exchanger 10。

In the above-described embodiments, owing to the probability of heat exchanger of air conditioner outdoor unit 10 inner surface frosting is higher, therefore electric heater unit 50 is arranged on the inner surface of heat exchanger 10, it is possible to play the effect better delaying frosting, thus better improving the heating performance of air-conditioner。

In an embodiment of the present utility model, as depicted in figs. 1 and 2, electric heater unit 50 is electrothermal resistance silk 51, and Eolic converter is windmill 31。

In this embodiment, electrothermal resistance silk 51 is under the premise meeting electric heating function, cheap, it is convenient to install, and electrical heating resistance silk can be distributed on the inner surface of whole heat exchanger 10, with ensure each position of heat exchanger 10 all will not frosting or postpone frosting, thus being effectively improved the heating performance of air-conditioner；Windmill 31 is under the premise meeting wind-force translation function, cheap, and wind-force conversion efficiency is high。

The air-conditioner (not shown) that the embodiment of this utility model second aspect provides, including the air-conditioner outdoor unit any one of above-mentioned first aspect embodiment。

The air-conditioner that the embodiment of this utility model second aspect provides, because including the air-conditioner outdoor unit any one of above-mentioned first aspect embodiment, thus significantly improves heating performance。

In embodiments more of the present utility model, the electric heater unit 50 of air-conditioner outdoor unit is electrically connected with the control module of air-conditioner by stand-by circuit, when the wind power generation plant 30 of air-conditioner outdoor unit is not enough to drive electric heater unit 50 to work, controls module and control stand-by circuit conducting。

In the above-described embodiments, electric heater unit 50 can electrically connect with the electronic control module of wind power generation plant 30 and air-conditioner simultaneously, and namely the electronic control module of wind power generation plant 30 and air-conditioner all can drive electric heater unit 50。Specifically, when wind power generation plant 30 normal operation is enough to drive electric heater unit 50, wind power generation plant 30 drive；When wind power generation plant 30 breaks down or is not enough to drive electric heater unit 50, then driven by the electronic control module of air-conditioner, so can effectively ensure that the normal operation of electric heater unit 50, to delay outdoor unit heat exchanger 10 frosting, thus improving the heating performance of air-conditioner。

Certainly, electric heater unit 50 can also be directly accessed in the circuit of air-conditioner, the electronic control module of air-conditioner drive, and is capable of delaying the purpose of outdoor unit heat exchanger 10 frosting equally。

In sum, the air-conditioner outdoor unit that this utility model provides, by setting up wind power generation plant and electric heater unit, convert the wind energy that fan produces to electric energy to be used for heating, to improve the evaporating temperature of ambient temperature and cold-producing medium, thus effectively reducing the probability of heat exchanger frosting, and make the cold-producing medium evaporation in heat exchanger more complete, and then substantially increase the heating performance of air-conditioner。

Specifically, existing air-conditioner when low temperature environment runs, the easy frosting of outdoor unit heat exchanger, affect the heating performance of air-conditioner and the comfort of user；And the air-conditioner outdoor unit that this utility model provides, by increasing small wind-driven generator, and on outdoor unit heat exchanger, increase electric heater unit, to utilize the electric energy that wind power generation plant sends to make electric heater unit produce heat, thus improve evaporating temperature and the ambient temperature of cold-producing medium, reduce the probability of outdoor unit heat exchanger frosting, and then improve the heating performance of air-conditioner。Specifically, air-conditioner is in the process run, the aerofoil fan of air-conditioner outdoor unit is rotating always, continuously output kinetic energy, and the wind power generation plant being arranged on fan air-out direction converts this part kinetic energy to electric energy, supply electric heater unit, electric heater unit energising produces heat, improves the temperature of surrounding on the one hand, and then improves the evaporating temperature of cold-producing medium, the evaporation making cold-producing medium is more complete, thus improve the heating performance of air-conditioner；On the other hand due to the rising of ambient temperature so that when heating, the probability of outdoor unit heat exchanger frosting is substantially reduced, thus further increasing the heating performance of air-conditioner。Additionally, wind power generation plant utilizes the wind energy that air-conditioner outdoor unit self produces to generate electricity, not by the impact of outside natural conditions, as long as air-conditioning is opened, just can produce wind-force, just can continuously generate electricity。

In this utility model, term " first ", " second " only for descriptive purposes, and it is not intended that instruction or hint relative importance。The term such as term " installation ", " being connected ", " connection ", " fixing " all should be interpreted broadly, for instance, " connection " can be fixing connection, it is also possible to is removably connect, or connects integratedly；" being connected " can be joined directly together, it is also possible to be indirectly connected to by intermediary。For the ordinary skill in the art, it is possible to understand above-mentioned term concrete meaning in this utility model as the case may be。

In the description of this specification, specific features, structure, material or feature that the description of term " embodiment ", " some embodiments ", " specific embodiment " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment of the present utility model or example。In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example。And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example。

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for a person skilled in the art, this utility model can have various modifications and variations。All within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model。

Claims (10)

1. an air-conditioner outdoor unit, it is characterised in that including:

Heat exchanger；

Fan；

Wind power generation plant, described wind power generation plant is arranged on the air-out direction of described fan, is used for converting wind energy into electric energy and exporting；With

Electric heater unit, described electric heater unit is fixed on described heat exchanger, and electrically connects with described wind power generation plant, for converting the electric energy that described wind power generation plant exports to heat energy to delay described heat exchanger frosting。

2. air-conditioner outdoor unit according to claim 1, it is characterised in that

Described wind power generation plant includes:

Eolic converter, described Eolic converter is arranged on the air-out direction of described fan, is used for converting wind energy into mechanical energy；With

Electromotor, the input of described electromotor is connected with described Eolic converter, and outfan electrically connects with described electric heater unit, is used for converting mechanical energy into electric energy and exporting。

3. air-conditioner outdoor unit according to claim 2, it is characterised in that also include:

Power inverter, the input of described power inverter electrically connects with the outfan of described electromotor, and outfan electrically connects with described electric heater unit, to power for described electric heater unit sustainedly and stably。

4. air-conditioner outdoor unit according to claim 3, it is characterised in that

Described power inverter includes:

Accumulator, the input of described accumulator electrically connects with the outfan of described electromotor；With

Inverter, the input of described inverter electrically connects with the outfan of described accumulator, and outfan electrically connects with described electric heater unit, is supply described electric heater unit after alternating current for the DC conversion that described accumulator is exported。

5. air-conditioner outdoor unit according to claim 4, it is characterised in that

Described power inverter also includes:

Transformator, the input of described transformator electrically connects with the outfan of described accumulator, and outfan electrically connects with the input of described inverter。

6. air-conditioner outdoor unit according to claim 5, it is characterised in that

Described power inverter also includes:

Commutator, the input of described commutator electrically connects with the outfan of described transformator；With

Wave filter, the input of described wave filter electrically connects with the outfan of described commutator, and outfan electrically connects with the input of described inverter。

7. the air-conditioner outdoor unit according to any one of claim 3 to 6, it is characterised in that

The outside of described air-conditioner outdoor unit is provided with sheet metal component, described wind power generation plant and described power inverter and is fixed on described sheet metal component。

8. air-conditioner outdoor unit according to claim 7, it is characterised in that

Described electric heater unit is fixed on the inner surface of described heat exchanger。

9. an air-conditioner, it is characterised in that include the air-conditioner outdoor unit as according to any one of the claims 1 to 8。

10. air-conditioner according to claim 9, it is characterised in that

The electric heater unit of described air-conditioner outdoor unit is electrically connected with the control module of described air-conditioner by stand-by circuit, when the wind power generation plant of described air-conditioner outdoor unit is not enough to drive described electric heater unit to work, described control module controls the conducting of described stand-by circuit。