CN205277691U - High -efficient intelligent power generating equipment of dual intensity - Google Patents

Abstract

The utility model relates to a high -efficient intelligent power generating equipment of dual intensity, include: base, frame, wind wheel, generator, solar photovoltaic board and battery. The frame is fixed on base, the fixed backup pad that sets up in top of frame, the wind wheel passes through the main shaft activity and sets up in the backup pad, the wind wheel includes the polylith blade, polylith blade and main shaft fixed connection follow the radial setting of main shaft, the rotor of generator is through rotating transmission parts and main shaft fixed connection, the solar photovoltaic board sets up the front end in the backup pad, the battery passes through the wire and is connected with the solar photovoltaic board. This power generating equipment has realized the maximize that wind energy and solar energy utilized, guarantees that high wind energy utilization rates, also can well generate electricity under the gentle breeze condition, is showing reduce cost, and simple structure move conveniently, has improved work efficiency and synthesis economic benefits.

Description

A kind of two energy high efficiency smart generating set

Technical field

The utility model relates to technical field of new energies, in particular to a kind of two energy high efficiency smart generating set.

Background technology

The energy is one of basic motive of national economy, under the Energy situation of sternness and the pressure of human ecological environment, countries in the world are all using developing the sustainable clean energy energy development strategy as future, and wherein sun power, wind energy are enriched with resource, do not had geographical boundary, the particular advantages such as cleaning to become the focus that people pay close attention to.

And China is one of area that wind energy, sun power are the abundantest in the world, along with the continuous quickening of industrialization and urbanization process, the rapid growth period that the energy expenditure of China entering, the energy has become the bottleneck of restriction China Economic development. Therefore, effective exploitation new forms of energy, it is to increase efficiency of energy utilization, set up based on the energy system of new forms of energy and renewable energy source, promote China's sustainable economic development, guarantee that energy security is very urgent.

At present, day by day remarkable taking large-sized unit, bulk power grid, high-voltage as the drawback of the large-scale power grid of main feature, and middle-size and small-size power generation system present stage is mainly based on road lighting, road instruction, navigation aids, the basic household electricity of small-sized single household; Power generation system running cost height of the prior art, runs difficulty big, it is difficult to adapts to the power demands of the more and more higher safety and reliability requirement of user and variation, maybe can not use productivity load, cause economy poor.

Practical novel content

A kind of two energy high efficiency smart generating sets that the application provides, solve or partly solve power generation system running cost height of the prior art, operation difficulty is big, productivity load can not be used, cause economy poor, it is difficult to adapt to more and more higher safety and reliability require and the technical problem of variation power demands, achieve wind energy and maximumization of Solar use, ensure extremely high wind energy utilization, significantly reduce costs, structure simple operation is convenient, it is to increase the technique effect of working efficiency and overall economic efficiency.

This application provides a kind of two energy high efficiency smart generating set, comprising:

Sole plate;

Frame, is fixed on described sole plate; The top of described frame is fixedly installed a back up pad;

Wind wheel, is arranged in described back up pad by main axis; Described wind wheel comprises polylith blade; Blade described in polylith is fixedly connected with described main shaft and arranges along the radial of described main shaft;

Generator, the rotor of described generator is fixedly connected with described main shaft by rotation transmission part;

Solar energy photovoltaic panel, is arranged in described back up pad;

Store battery, is connected with described solar energy photovoltaic panel;

Wherein, described wind wheel drives described main shaft to rotate under wind drive, and described main shaft drives the rotor turns of described generator by described rotation transmission part, and the work of described generator produces electric energy and is transported to extraneous load end; Described solar energy photovoltaic panel accepts illumination and converts solar energy into electrical energy, and the electric energy that solar energy photovoltaic panel described in described accumulators store produces also is transported to described extraneous load end.

As preferably, described back up pad is horizontally fixed on the top of described frame;

Described generating set also comprises: two pieces of engine room cover; Two pieces of described engine room cover are vertically fixed on the both sides of described back up pad respectively;

One end of described main shaft is movably arranged in described engine room cover; The pedestal of described generator is fixedly connected with described engine room cover.

As preferably, described wind wheel comprises: 4 pieces of mutual rectangular described blades;

Described blade is rectangular plate structure;

Two pieces of adjacent described blades are fixedly connected with by right angle corner brace.

As preferably, described generating set comprises: two described wind wheels, two described main shafts, two described rotation transmission parts and two described generators;

Two described wind wheels are separately positioned on two described main shafts;

Two described main shafts are connected with the rotor of corresponding described generator by two described rotation transmission parts respectively;

The electric energy of two described generator generations is transported to described extraneous load end.

As preferably, described rotation transmission part comprises: the first gear, the 2nd gear and coupling shaft;

The end of described main shaft is fixedly connected with described first gear;

Described first gear and described 2nd gears meshing;

Described 2nd gear is fixedly connected with one end of described coupling shaft;

The other end of described coupling shaft is fixedly connected with the rotor of described generator.

As preferably, described rotation transmission part is shaft coupling;

One end of described shaft coupling is fixedly connected with described main shaft, and the other end is fixedly connected with the rotor of described generator.

As preferably, described generating set comprises four pieces of described solar energy photovoltaic panels; Four pieces of described solar energy photovoltaic panels are connected with described store battery;

Described generating set also comprises: four stepper-motors and four rotating shafts;

Two described rotating shafts are rotatably connected on the left and right sides of described back up pad front end respectively, and other two described rotating shafts are rotatably connected on the left and right sides of described back up pad rear end respectively;

The output terminal of four described stepper-motors is fixedly connected with four described rotating shafts respectively;

Four pieces of described solar energy photovoltaic panels are fixedly connected with four described rotating shafts respectively;

Wherein, described stepper-motor works, and drives described rotating shaft to rotate, then drives described solar energy photovoltaic panel to overturn around described rotating shaft, it is achieved the adjustment of described solar energy photovoltaic panel angle.

As preferably, described generating set also comprises:

Empennage, is fixed on the rear end of described back up pad; Described empennage is slab construction, the plate face of described empennage and the blade rotary plane parallel of described wind wheel;

Tower cylinder, bottom is rotatably connected on the top of described frame by bearing, and top is fixed on the bottom surface of described back up pad;

Ring header, is arranged on described bearing; Described ring header is connected with the described cable on tower cylinder top and the cable of described frame lower;

Wherein, described frame is produced a moment of torsion by described empennage under wind effect, drives the described back up pad on described tower cylinder and top thereof to rotate relative to described frame, makes the Plane of rotation of described blade and wind direction keep parallel.

As preferably, described generating set also comprises:

Wind transducer, is arranged in described back up pad, and described wind transducer can detect wind direction and generate wind direction information;

Controller, is connected with described wind transducer;

Steer motor, is arranged in described tower cylinder; The output terminal of described steer motor is fixedly connected with described frame;

Wherein, described controller receives described wind direction information and produces rotation instruction; After described steer motor accepts described rotation instruction, the output terminal of described steer motor rotates, and then drives described tower cylinder to rotate relative to described frame.

As preferably, described generating set also comprises:

Air velocity transducer, is arranged in described back up pad; Described air velocity transducer is connected with described controller by wire;

Stopper, is arranged on described main shaft;

Wherein, the detection of described air velocity transducer flows through the wind speed of described wind wheel and generates wind speed information; Described controller receives described wind speed information and generates braking instruction according to described wind speed information, the rotating speed of the described wind wheel that slows down after braking instruction described in described brake receiver.

The one or more technical schemes provided in the application, at least have following technique effect or advantage:

Owing to have employed polylith blade along main shaft diameter to the wind wheel arranged, ensure that this wind wheel has high windage, high pulling torque power, the windage decay feature such as fast, wind energy utilization is extremely high, and also can well generate electricity under breeze conditions, simultaneously, it is provided with solar energy photovoltaic panel on the supporting plate, the sun power of absorption is converted into power storage in store battery, when generated energy at generator can not meet extraneous load end needs, the electric energy of storage can be sent to extraneous load end by store battery, ensure that the stability of whole system works. Like this, efficiently solve power generation system running cost height of the prior art, operation difficulty is big, can not use productivity load, cause economy poor, it is difficult to adapt to more and more higher safety and reliability require and the technical problem of variation power demands, achieve wind energy and maximumization of Solar use, ensure extremely high wind energy utilization, significantly reduce costs, structure simple operation is convenient, effectively improves the technique effect of working efficiency and overall economic efficiency.

Accompanying drawing explanation

The configuration diagram of two energy high efficiency smart generating sets that Fig. 1 provides for the first embodiment of the utility model;

The configuration diagram of two energy high efficiency smart generating sets that Fig. 2 provides for the utility model the 2nd kind of embodiment;

Fig. 3 is the wiring layout of main shaft and generator in Fig. 1;

Fig. 4 is the local of the wind wheel in Fig. 2 diagram.

(parts that in diagram, each label represents are followed successively by: 1 stepper-motor, 2 solar energy photovoltaic panels, 3 generators, 4 back up pads, 5 blades, 6 engine room cover, 7 empennages, 8 tower cylinders, 9 frames, 10 sole plates, 11 main shafts, 12 first gears, 13 stoppers, 14 the 2nd gears, 15 right angle corner braces, 16 shaft couplings)

Embodiment

A kind of two energy high efficiency smart generating sets that the embodiment of the present application provides, solve or partly solve power generation system running cost height of the prior art, operation difficulty is big, productivity load can not be used, cause economy poor, it is difficult to adapt to more and more higher safety and reliability require and the technical problem of variation power demands, achieve wind energy and maximumization of Solar use, ensure extremely high wind energy utilization, significantly reduce costs, structure simple operation is convenient, effectively improves the technique effect of working efficiency and overall economic efficiency.

FIGS 1 and 2, the embodiment of the present application provides a kind of two energy high efficiency smart generating set, comprising: sole plate 10, frame 9, wind wheel, generator 3, solar energy photovoltaic panel 2 and store battery.

Frame 9 is fixed on sole plate 10; The top of frame 9 is fixedly installed a back up pad 4; Frame 9 is the pipe structure vertically arranged, and back up pad 4 is horizontally fixed on the top of frame 9.

Wind wheel is rotated by main shaft 11 and is arranged in back up pad 4; Wind wheel comprises polylith blade 5; Polylith blade 5 is fixedly connected with main shaft 11 and arranges along the radial of main shaft 11; As a kind of preferred embodiment, wind wheel comprises: 4 pieces of mutual rectangular blades 5; Blade 5 is rectangular plate structure; FIGS 4, two pieces of adjacent blades 5 are fixedly connected with by right angle corner brace 15. The kinetic energy translative mode of traditional wind-force generating has been overturned in the design of the wind wheel of 4 blades 5, its novel appearance, structure are unique, having high windage, high pulling torque power, the windage decay feature such as fast, wind energy utilization is extremely high, and also can well generate electricity under breeze conditions.

The rotor of generator 3 is fixedly connected with main shaft 11 by rotation transmission part; As a kind of preferred embodiment, FIGS 3, rotation transmission part comprises: the first gear 12, the 2nd gear 14 and coupling shaft; The end of main shaft 11 is fixedly connected with the first gear 12; First gear 12 engages with the 2nd gear 14, and the transmitting ratio between the first gear 12 and the 2nd gear 14 is 1:1; 2nd gear 14 is fixedly connected with one end of coupling shaft; The other end of coupling shaft is fixedly connected with the rotor of generator 3. As another kind of preferred embodiment, FIGS 4, rotation transmission part is shaft coupling 16; Connection axle, one end of 16 is fixedly connected with main shaft 11, and the other end is fixedly connected with the rotor of generator 3.

Solar energy photovoltaic panel 2 is arranged in back up pad 4; FIGS 1, as a kind of preferred embodiment, generating set comprises four pieces of solar energy photovoltaic panels 2; Four pieces of solar energy photovoltaic panels 2 are connected with store battery; Generating set also comprises: four stepper-motors 1 and four rotating shafts; Two rotating shafts are rotatably connected on the left and right sides of back up pad 4 front end respectively, and other two rotating shafts are rotatably connected on the left and right sides of back up pad 4 rear end respectively; The output terminal of four stepper-motors 1 is fixedly connected with four rotating shafts respectively; Four pieces of solar energy photovoltaic panels 2 are fixedly connected with four rotating shafts respectively; Wherein, stepper-motor 1 works, and drives rotating shaft to rotate, and then drives solar energy photovoltaic panel 2 to overturn around the shaft, it is achieved the adjustment of solar energy photovoltaic panel 2 angle. Solar energy photovoltaic panel 2 one aspect can carry out sun power generating, can carry out leading wind for wind wheel on the other hand.

Store battery is connected with solar energy photovoltaic panel 2 by wire; Meanwhile, generator 3 is also connected with store battery by wire, and when the generated energy of generator 3 exceedes the electric energy needed for extraneous load end, unnecessary electric energy is inputted store battery by controller and stores by generator 3.

Wherein, wind wheel drives main shaft 11 to rotate under wind drive, and rotation transmission part is delivered to the rotor of generator 3 by rotating, and generator 3 works and produces electric energy and be transported to extraneous load end; Solar energy photovoltaic panel 2 accepts illumination and converts solar energy into electrical energy, the electric energy that accumulators store solar energy photovoltaic panel 2 produces also is transported to extraneous load end, like this, this generating set has wind energy, sun power complemental power-generation feature, plays maximum efficiency with suiting measures to local conditions.

Further, generating set also comprises: two pieces of engine room cover 6; Two pieces of engine room cover 6 are vertically fixed on the both sides of back up pad 4 respectively; One end of main shaft 11 is movably arranged in engine room cover 6; The pedestal of generator 3 is fixedly connected with engine room cover 6. Wind wheel can be played protective effect by engine room cover 6 one aspect, can form the air channel through wind wheel on the other hand, optimizes the wind condition of wind wheel.

FIGS 1, as the first preferred embodiment, generating set comprises: two wind wheels, two main shafts, 11, two rotation transmission parts and two generators 3; Two wind wheels are separately positioned on two main shafts 11; Two main shafts 11 are connected with the rotor of corresponding generator 3 by two rotation transmission parts respectively; The electric energy of two generator 3 generations is transported to extraneous load end. Two wind wheels are arranged side by side, and the process that both transform wind energy does not interfere with each other, and after a generation fault is shut down wherein, another can also continue work; Therefore, two wind wheel designs while realizing wind energy maximum using, reduces the fault outage probability of this generating set. FIGS 2, as the 2nd kind of preferred embodiment, generating set comprises: wind wheel, main shaft 11, rotation transmission part and generator 3; Wind wheel is fixedly installed on main shaft 11; Main shaft 11 is connected with the rotor of generator 3 by shaft coupling 16; The electric energy that generator 3 produces is transported to extraneous load end.

Further, generating set also comprises: empennage 7, tower cylinder 8 and ring header; Empennage 7 is fixed on the rear end of back up pad 4; Empennage 7 is slab construction, has guide functions, can follow the tracks of wind direction. The bottom of tower cylinder 8 is rotatably connected on the top of frame 9 by bearing, and top is fixed on the bottom surface of back up pad 4, and meanwhile, tower cylinder 8 is fixed with polylith stiffening web plate with the junction of back up pad 4; Ring header is arranged on bearing; Ring header is connected with the cable on tower cylinder 8 top and the cable of frame 9 bottom; Arranging ring header and can effectively prevent the cable generation twisting being arranged on 8 li, tower cylinder, sun power is also transported in store battery by ring header in addition.

Wherein, when changing in wind-force direction, frame 9 is produced a moment of torsion by empennage 7 under wind effect, back up pad 4 is driven to rotate corresponding angle under wind drive, the back up pad 4 on tower cylinder 8 and top thereof is driven to rotate relative to frame, ensure the plate face of empennage 7 and the blade rotary plane parallel of wind wheel, improve wind energy utilization like this.

Further, this generating set also comprises: wind transducer, controller and steer motor. Wind transducer is arranged in back up pad 4, and wind transducer can detect wind direction and generate wind direction information; Controller is connected with wind transducer by wire; Steer motor is arranged in tower cylinder 8; The output terminal of steer motor is fixedly connected with frame 9; Wherein, controller receives wind direction information and produces rotation instruction; After steer motor accepts to rotate instruction, the output terminal of steer motor rotates, and then drives tower cylinder 8 to rotate relative to frame 9, makes the Plane of rotation of blade 5 and wind direction keep parallel. If wind speed is less or empennage wind wheel can not be adjusted to the best windward orientation time, the fine adjustment to wind wheel direction is realized by wind transducer, controller and steer motor, ensure that the Plane of rotation of blade 5 and wind direction keep parallel, so also can well rotate at breeze conditions lower blade and generate electricity, to wind energy utilization height.

Further, FIGS 3, generating set also comprises: air velocity transducer and stopper 13; Air velocity transducer is arranged in back up pad 4, is fixedly connected with engine room cover 6; Air velocity transducer is connected with controller by wire; Stopper 13 is arranged on main shaft 11; Wherein, air velocity transducer detection flows through the wind speed of wind wheel and generates wind speed information; Controller generates braking instruction after receiving wind speed information, and wind wheel is braked after receiving braking instruction by stopper 13, and then the rotating speed of the wind wheel that slows down. After generator 3 reaches maximum rated rotating speed, if rotating speed increases the damage that just can cause generator 3 and blade 5 again, at this moment, wind speed information is transferred to controller by the air velocity transducer being arranged in engine room cover 6, braking instruction is sent to stopper by controller, stopper 13 work makes blade 5 speed of rotation become slow and then drive the speed of rotation of generator 3 to reduce, and effective like this avoids the too fast damage generator 3 of wind speed or blade 5.

The two energy principle of work of high efficiency smart generating set and the operation characteristic of each parts that the application are provided below by specific embodiment are specifically described:

This pair of energy high efficiency smart generating set comprises: main part, frame 9 as supportive body part, tower cylinder 8 and play the sole plate 10 of fixed action. Main part comprises: two wind wheels, engine room cover 6, four solar energy photovoltaic panels 2, empennage 7, back up pads 4. Frame 9, tower cylinder 8 and sole plate 10 connect successively. It is connected with in turn by main shaft 11: stopper 13, wind wheel, the first gear 12, the 2nd gear 14 and coupling shaft, 2nd gear 14 is arranged on the first gear 12 times and is engaged with, 2nd gear 14 connects generator 3 by coupling shaft, wind wheel comprises 4 pieces of mutual rectangular blades 5, and blade 5 root is fixed by right angle corner brace 15.

Back up pad 4 surrounding and gear outer setting have engine room cover 6, engine room cover 6 front end is provided with two pieces of solar energy photovoltaic panels 2, rear end is also provided with two pieces of solar energy photovoltaic panels 2, simultaneously, rear end is also provided with empennage 7, solar energy photovoltaic panel 2 root is connected by rotating shaft with back up pad 4, and stepper-motor 1 controls the folding of solar energy photovoltaic panel 2 by controller.

Frame 9, tower cylinder 8 and sole plate 10 are linked in sequence successively, wherein, between frame 9 and tower cylinder 8, bearing is installed, bearing is provided with ring header, bearing plays and drives main part rotary action, ring header prevents the mutual twisting of cable being arranged on 8 li, tower cylinder, is transferred in store battery by the electric energy that solar energy photovoltaic panel 2 sends simultaneously.

When main part front windward time, the blade 5 of wind wheel turns clockwise under Wind power propelling, thus drives the first gear 12 and the 2nd gear 14 to rotate, so drive generator 3 rotate so that it is generating. The swept surface that the wind wheel of this generating set compares tradition Three-blade structure wind is bigger, so under equal wind speed, moment of torsion power is bigger. When the wind-force that wind wheel is subject to increases further, wind wheel drives generator 3 rotating speed to accelerate further, after generator 3 reaches maximum rated rotating speed, if rotating speed increases the damage that just can cause generator 3 and blade 5 again, at this moment, the air velocity transducer being arranged in engine room cover 6 is by Signal transmissions to controller, and by controller output order to stopper, stopper 13 makes blade 5 speed of rotation become slow and then drive the speed of rotation of generator 3 to reduce.

When wind blows from a certain non-vertical wind wheel swept surface direction, empennage 7 is under wind effect, main body is driven to rotate by the bearing between frame 9 and tower cylinder 8, until main body energy front is windward, if wind speed is less or empennage wind wheel can not be adjusted to the best windward orientation time, the wind transducer being arranged in main body, the wind direction signals captured is issued controller, the instruction sent by controller is to steer motor, the direction of main body is adjusted until stopping after wind wheel alignment wind direction by bearing, so also can well rotate at breeze conditions lower blade and generate electricity, to wind energy utilization height. in order to prevent the cable generation twisting being arranged on 8 li, tower cylinder in the process, being provided with ring header in tower cylinder 8, the electric energy that sun power produces also is transported in store battery by ring header in addition.

In order to utilize sun power as much as possible, solar energy photovoltaic panel 2, when ensureing not affect wind energy utilization, is transferred to stepper-motor 1 signal by controller, and stepper-motor 1 controls the flip angle of solar energy photovoltaic panel 2, ensure as far as possible vertical with light ray, absorb more luminous energy and generate electricity.

The one or more technical schemes provided in the application, at least have following technique effect or advantage:

Owing to have employed the wind wheel that polylith blade 5 is arranged along main shaft 11 radial direction, ensure that this wind wheel has high windage, high pulling torque power, the windage decay feature such as fast, wind energy utilization is extremely high, and also can well generate electricity under breeze conditions, simultaneously, back up pad 4 is provided with solar energy photovoltaic panel 2, the sun power of absorption is converted into power storage in store battery, when generated energy at generator 3 can not meet extraneous load end needs, the electric energy of storage can be sent to extraneous load end by store battery, ensure that the stability of whole system works. Like this, efficiently solve power generation system running cost height of the prior art, operation difficulty is big, can not use productivity load, cause economy poor, it is difficult to adapt to more and more higher safety and reliability require and the technical problem of variation power demands, achieve wind energy and maximumization of Solar use, ensure extremely high wind energy utilization, significantly reduce costs, structure simple operation is convenient, effectively improves the technique effect of working efficiency and overall economic efficiency.

Above-described embodiment; the purpose of this utility model, technical scheme and useful effect have been further described; it is it should be understood that; the foregoing is only embodiment of the present utility model; it is not limited to the utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a two energy high efficiency smart generating set, it is characterised in that, described generating set comprises:

Sole plate;

Frame, is fixed on described sole plate; The top of described frame is fixedly installed a back up pad;

Wind wheel, is arranged in described back up pad by main axis; Described wind wheel comprises polylith blade; Blade described in polylith is fixedly connected with described main shaft and arranges along the radial of described main shaft;

Generator, the rotor of described generator is fixedly connected with described main shaft by rotation transmission part;

Solar energy photovoltaic panel, is arranged in described back up pad;

Store battery, is connected with described solar energy photovoltaic panel;

Wherein, described wind wheel drives described main shaft to rotate under wind drive, and described main shaft drives the rotor turns of described generator by described rotation transmission part, and the work of described generator produces electric energy and is transported to extraneous load end; Described solar energy photovoltaic panel accepts illumination and converts solar energy into electrical energy, and the electric energy that solar energy photovoltaic panel described in described accumulators store produces also is transported to described extraneous load end.

2. generating set as claimed in claim 1, it is characterised in that,

Described back up pad is horizontally fixed on the top of described frame;

Described generating set also comprises: two pieces of engine room cover; Two pieces of described engine room cover are vertically fixed on the both sides of described back up pad respectively;

One end of described main shaft is movably arranged in described engine room cover; The pedestal of described generator is fixedly connected with described engine room cover.

3. generating set as claimed in claim 1, it is characterised in that,

Described wind wheel comprises: 4 pieces of mutual rectangular described blades;

Described blade is rectangular plate structure;

Two pieces of adjacent described blades are fixedly connected with by right angle corner brace.

4. generating set as claimed in claim 3, it is characterised in that,

Described generating set comprises: two described wind wheels, two described main shafts, two described rotation transmission parts and two described generators;

Two described wind wheels are separately positioned on two described main shafts;

Two described main shafts are connected with the rotor of corresponding described generator by two described rotation transmission parts respectively;

The electric energy of two described generator generations is transported to described extraneous load end.

5. generating set as claimed in claim 1, it is characterised in that,

Described rotation transmission part comprises: the first gear, the 2nd gear and coupling shaft;

The end of described main shaft is fixedly connected with described first gear;

Described first gear and described 2nd gears meshing;

Described 2nd gear is fixedly connected with one end of described coupling shaft;

The other end of described coupling shaft is fixedly connected with the rotor of described generator.

6. generating set as claimed in claim 1, it is characterised in that,

Described rotation transmission part is shaft coupling;

One end of described shaft coupling is fixedly connected with described main shaft, and the other end is fixedly connected with the rotor of described generator.

7. generating set as claimed in claim 1, it is characterised in that,

Described generating set comprises four pieces of described solar energy photovoltaic panels; Four pieces of described solar energy photovoltaic panels are connected with described store battery;

Described generating set also comprises: four stepper-motors and four rotating shafts;

Two described rotating shafts are rotatably connected on the left and right sides of described back up pad front end respectively, and other two described rotating shafts are rotatably connected on the left and right sides of described back up pad rear end respectively;

The output terminal of four described stepper-motors is fixedly connected with four described rotating shafts respectively;

Four pieces of described solar energy photovoltaic panels are fixedly connected with four described rotating shafts respectively;

Wherein, described stepper-motor works, and drives described rotating shaft to rotate, then drives described solar energy photovoltaic panel to overturn around described rotating shaft, it is achieved the adjustment of described solar energy photovoltaic panel angle.

8. generating set as claimed in claim 1, it is characterised in that, described generating set also comprises:

Empennage, is fixed on the rear end of described back up pad; Described empennage is slab construction, the plate face of described empennage and the blade rotary plane parallel of described wind wheel;

Tower cylinder, bottom is rotatably connected on the top of described frame by bearing, and top is fixed on the bottom surface of described back up pad;

Ring header, is arranged on described bearing; Described ring header is connected with the described cable on tower cylinder top and the cable of described frame lower;

Wherein, described frame is produced a moment of torsion by described empennage under wind effect, drives the described back up pad on described tower cylinder and top thereof to rotate relative to described frame, makes the Plane of rotation of described blade and wind direction keep parallel.

9. generating set as claimed in claim 8, it is characterised in that, described generating set also comprises:

Wind transducer, is arranged in described back up pad, and described wind transducer can detect wind direction and generate wind direction information;

Controller, is connected with described wind transducer;

Steer motor, is arranged in described tower cylinder; The output terminal of described steer motor is fixedly connected with described frame;

Wherein, described controller receives described wind direction information and produces rotation instruction; After described steer motor accepts described rotation instruction, the output terminal of described steer motor rotates, and then drives described tower cylinder to rotate relative to described frame.

10. generating set as claimed in claim 9, it is characterised in that, described generating set also comprises:

Air velocity transducer, is arranged in described back up pad; Described air velocity transducer is connected with described controller by wire;

Stopper, is arranged on described main shaft;

Wherein, the detection of described air velocity transducer flows through the wind speed of described wind wheel and generates wind speed information; Described controller receives described wind speed information and generates braking instruction according to described wind speed information, the rotating speed of the described wind wheel that slows down after braking instruction described in described brake receiver.