CN206957871U - Wind-driven generator and pneumatic membrane building - Google Patents

Abstract

It the utility model is related to pneumatic membrane building technical field, more particularly to a kind of pneumatic membrane building.It includes ground, film body, rope and wind-driven generator；The both ends of the film body are fixedly installed on the ground；The both ends of the rope are fixedly installed on the ground, and are connected with the film body, for the film body to be fixed；The air inlet and the exhaust outlet are arranged on the ground of the film body covering；Wind-driven generator is provided with the air inlet and/or the exhaust outlet.Pneumatic membrane building provided by the utility model, wind-driven generator is set in air inlet, the wind speed being blown into inside pneumatic membrane building can be reduced, while unnecessary wind-force is utilized, its electricity produced is stored, used when having a power failure；By setting wind-driven generator in the top of film body, wind energy is utilized, improves the utilization rate of the energy.

Description

Wind-driven generator and pneumatic membrane building

Technical field

Pneumatic membrane building technical field is the utility model is related to, more particularly, to a kind of wind-driven generator and pneumatic membrane building.

Background technology

Pneumatic membrane building is to do shell with special building film material, is equipped with a set of intelligentized electromechanical equipment in pneumatic membrane building Portion provides the malleation of air, a kind of architectural structural system that building base is supported.The pneumatic membrane building system of complete set It further comprises illuminator and gate control system.

Air film building structure inner outer draught head supports whole building.Due to intrinsic effective of the flexibility and structure of material Property and arc the bodily form so that pneumatic membrane building not by component that is curved, being turned round and be pressurized, and then make pneumatic membrane building have it is stronger Security, economy, comfortableness and convenience.

In present pneumatic membrane building, the substantial amounts of device for needing electric power to be driven is provided with, such as device for reducing dust, wet Control device, temperature control equipment etc. are spent, can so expend substantial amounts of electric energy, can be a large number of expenditure using pneumatic membrane building, The operation cost of pneumatic membrane building is greatly improved, while also consumes the substantial amounts of energy.

In order to make full use of the natural resources, the consumption of electric energy is reduced, have developed the device of photovoltaic generation now, but light Volt plate generates electricity, and itself is high to luminous energy dependence, and at night and dark weather can not fully generate electricity, and small area laying generated energy is few, then After increasing photovoltaic generation, moreover it is possible to further can not tap a new source of energy and be made full use of, be a problem for needing to solve.

Utility model content

The purpose of this utility model is to provide a kind of wind-driven generator and pneumatic membrane building, to solve to exist in the prior art Technical problem.

A kind of pneumatic membrane building provided by the utility model, it includes ground, film body, rope, blast apparatus and wind-power electricity generation Machine；

The both ends of the film body are fixedly installed on the ground；

The both ends of the rope are fixedly installed on the ground, and are connected with the film body, for the film body It is fixed；

The blast apparatus is by appendix with being connected in the space below the film body；

The air inlet and exhaust outlet of the blast apparatus are provided with wind-driven generator.

Further, also it is fixedly installed the wind-driven generator on the rope above the film body.

Further, the wind-driven generator is fixed by snap is arranged on the rope.

Further, photovoltaic panel is provided with above the film body, for carrying out solar power generation.

Further, the wind-driven generator includes flabellum, base, stator coil, hollow line shaft and rotor coil；

The base is hollow circular cylinder, is provided with cylindrical cavity in it；

The rotor coil, the hollow line shaft and the stator coil are arranged in the cavity, and with it is described Base is coaxial；

The flabellum is fixedly installed on one end of the hollow line shaft, can drive under the action of the forces of the wind described hollow Line shaft rotates；

The other end of the hollow line shaft is fixedly connected with the rotor coil, can drive institute under the action of the forces of the wind State rotor coil rotation；

Upper magnet is coaxially arranged with below the rotor coil；

The bottom of the chassis interior is coaxially arranged with lower magnet with the base；

It is repulsion between the upper magnet and the lower magnet, the rotor coil can be suspended in by the bottom by repulsion In seat；

The stator coil is enclosed on outside the rotor coil, and gap is provided between the rotor coil；

The bottom of the cavity is provided with locating dowel；

The locating dowel and the base are coaxial, and its one end is fixed on the base, and the other end stretches into the rotor line In circle, for preventing the rotor coil produces when rotating from rocking.

Further, wire guide is provided with the locating dowel, for electric current caused by the stator coil to be exported；

Sealing-plug is provided with the wire guide, for ensureing that the cavity is isolated from the outside.

Further, the rotary shaft of the flabellum and the rotary shaft of the hollow line shaft are coaxial；

The flabellum is uniformly arranged using the hollow line shaft as axis；

Or,

The rotary shaft of the flabellum is vertical with the rotary shaft of the hollow line shaft；

The flabellum passes through transmission mechanism and the hollow power axis connection；

The transmission mechanism includes power transmission shaft, drive bevel gear and driven wheel of differential；

The flabellum is that axis is uniformly and fixedly arranged on the outer wall of the power transmission shaft with the power transmission shaft；

The drive bevel gear is fixedly and coaxially connected with the power transmission shaft；

The driven wheel of differential is fixedly and coaxially connected with the hollow line shaft；

The drive bevel gear engages with the driven wheel of differential.

Further, one end that the hollow line shaft is stretched into the cavity is internally provided with spiral blinds, for The rotor coil radiating；

And/or

Heat-exchanger rig is provided with the stator coil.

Further, the hollow line shaft is provided with slip ring close to one end of the upper magnet；

The slip ring electrically connects with the rotor coil.

Further, side of the slip ring away from the upper magnet is provided with conductive pressing plate；

The conductive pressing plate is slidably connected with the slip ring, for extraneous electric current to be transferred into the slip ring so as to described Rotor coil is powered.

Wind-driven generator and pneumatic membrane building provided by the utility model, wind-driven generator is set in air inlet, can be reduced The wind speed being blown into inside pneumatic membrane building, while unnecessary wind-force is utilized, its electricity produced is stored, Used when power failure；By setting wind-driven generator in the top of film body, wind energy is utilized, improves the utilization of the energy Rate.

Brief description of the drawings

, below will be to needed for embodiment description in order to illustrate more clearly of the utility model embodiment The accompanying drawing to be used is briefly described, it should be apparent that, drawings in the following description are some embodiment party of the present utility model Formula, for those of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings Obtain other accompanying drawings.

Fig. 1 is the structural representation for the pneumatic membrane building that the utility model embodiment provides；

Fig. 2 is the structural representation for the wind-driven generator that the utility model embodiment provides；

Fig. 3 is Fig. 2 A-A sectional views；

Fig. 4 is the A-A sectional views of Fig. 2 another embodiment.

Reference：

1：Flabellum；2：Hollow line shaft；3：Sealing gasket；4：Upper lid；5：Main body；6：Stator coil；7：Fixed arm；8：Magnetic every From plate；9：Wire；10：Rotor coil；11：Lower magnet；12：Locating dowel；13：Wire guide；14：Upper magnet；15：Slip ring；16：Lead Voltage plate；17：Sealing plate；18：Spiral blinds；19：Conducting ring；20：Driven wheel of differential；21：Drive bevel gear；22：Power transmission shaft； 23：Rope；24：Film body；25：Ground；26：Air inlet；27：Blast apparatus；28：Wind-driven generator；29：Exhaust outlet；30：Gas transmission Pipe.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or implying phase To importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

As shown in accompanying drawing 1-4, the utility model provides a kind of pneumatic membrane building, and it includes ground 25, film body 24, rope 23rd, blast apparatus 27 and wind-driven generator 28；

The both ends of the film body 24 are fixedly installed on the ground 25；

The both ends of the rope 23 are fixedly installed on the ground 25, and are connected with the film body 24, for institute Film body 24 is stated to be fixed；

The blast apparatus 27 is by appendix 30 with being connected in the space of the lower section of film body 24；

The air inlet 26 and exhaust outlet 29 of the blast apparatus 27 are provided with wind-driven generator 28.

In the present embodiment, wind-driven generator 28 is arranged on the air inlet 26 and exhaust outlet 29 of blast apparatus 27, can Slow down the wind speed of intake and exhaust, so that increase pneumatic membrane building inside air pressure, there is provided while the stability of pneumatic membrane building, also increase The comfortableness inside pneumatic membrane building is added.

Meanwhile wind-driven generator 28 is arranged on air inlet 26 and exhaust outlet 29, additionally it is possible to which pneumatic membrane building is discharged Without using wind energy carry out again effectively with regard to those utilize.

In the present embodiment, wind-driven generator 28 is connected with electrical energy storage device, such as battery, and it can be effective The electricity that sends of storage wind-driven generator, to ensure having a power failure etc. in emergency circumstances, electricity uses enough.

Preferred embodiment is also to be fixedly installed the wind-power electricity generation on the rope 23 of the top of film body 24 Machine 28.

In the present embodiment, wind-driven generator 28 is arranged on the top of whole pneumatic membrane building, and it can be effectively using big Natural wind energy.

In the present embodiment, wind-driven generator 28 is arranged on rope 23, enables to wind-driven generator 28 when fixing, Pneumatic membrane building will not be damaged, and enable to the top of pneumatic membrane building more stable, it is also possible that wind-power electricity generation Machine is easy to be dismantled by rope.

Preferred embodiment, which is that the wind-driven generator 28 is fixed by snap, to be arranged on the rope 23.

It is pointed out that in the present embodiment, wind-driven generator 28 is fixedly installed on rope by way of buckle, But it is not limited solely to the mode of buckle, it can also be other fixed forms, such as can be binding, that is to say, that As long as wind-driven generator 28 can be fixedly installed on the top of pneumatic membrane building by it.

Preferred embodiment is that the top of film body 24 is additionally provided with photovoltaic panel, for carrying out solar power generation.

In the present embodiment, photovoltaic panel is also equipped with the top of film body 24, can be entered by photovoltaic panel using solar energy Row generates electricity, so that the consuming system inside pneumatic membrane building uses.

In the present embodiment, pneumatic membrane building both make use of solar energy by photovoltaic panel, be utilized further through wind-driven generator 28 Wind energy, and then pneumatic membrane building is greatly improved to natural resource utilizing rate.

Preferred embodiment is that wind-driven generator 28 includes flabellum 1, base, stator coil 6, hollow line shaft 2 and turned Subcoil 10；

Base is hollow circular cylinder, is provided with cylindrical cavity in it；

Rotor coil 10, hollow line shaft 2 and stator coil 6 are arranged in cavity, and coaxial with base；

Flabellum 1 is fixedly installed on one end of hollow line shaft 2, can drive hollow 2 turns of line shaft under the action of the forces of the wind It is dynamic；

The other end of hollow line shaft 2 is fixedly connected with rotor coil 10, can under the action of the forces of the wind, rotor driven coil 10 rotate；

The lower section of rotor coil 10 is coaxially arranged with upper magnet 14；

The bottom of chassis interior is coaxially arranged with lower magnet 11 with base；

It is repulsion between upper magnet 14 and lower magnet 11, rotor coil 10 can be suspended in by repulsion in base；

Stator coil 6 is enclosed on outside rotor coil 10, and gap is provided between rotor coil 10；

The bottom of cavity is provided with locating dowel 12；

Locating dowel 12 is coaxial with base, and its one end is fixed on base, and the other end is stretched into rotor coil 10, for preventing Rotor coil 10 is produced when rotating and rocked.

Stator coil 6 is placed in the cavity of main body 5 vertically by fixed arm 7, and it is fixed that rotor coil 10 is placed on vertically Between subcoil 6, by rotor coil 10, make the magnetic strength between the conductor wire cutting stator coil 6 on rotor coil 10 Line, so as to produce electric energy.Caused electric energy is exported again, so as to further utilize.

The lower section of rotor coil 10 is provided with a pair of electromagnet, and lower electromagnet is oppositely arranged with upper electromagnet, so as at both Between can produce repulsion.And rotor coil 10 can be suspended in the air by repulsion, so as to reduce friction between the two, Vibrations and the generation of noise will be further reduced, reach damping and Jing Yin effect, while decrease and produced because of friction Heat, improve generating efficiency.

Rotor coil 10 is during energization, inevitably output heat, and this can not be avoided or reduced, When heat ceaselessly accumulates, it is also possible to whole generator can be impacted.Therefore, the present embodiment passes through hollow line shaft 2, passed through by heat derives caused by rotor coil 10, and by cold air or cold water in hollow line shaft 2, by cold water or cold sky Gas carries out heat exchange with the heat on hollow line shaft 2, and then reduces the accumulation of heat on rotor coil 10, reduces heat pair The influence of generator.

, therefore, may be by outer during rotation in floating shape because rotor coil 10 is suspended in the air The influence of boundary's factor and produce and rock so that it plays pendulum during cutting magnetic induction line, be also easy for making Suddenly big or suddenly small unstable of electric current.

One locating dowel 12 coaxial with main body 5 is set in the cavity in main body 5, and the one end of locating dowel 12 is fixed on cavity Interior, the other end is stretched into rotor coil 10, and rotor coil 10 just can only be that axle is rotated with locating dowel 12 when rotating.

It is pointed out that locating dowel 12 can be stretched into rotor coil 10, it can also be and stretch into contact tube, its As long as can be that rotor coil 10 provides a rotary shaft；Locating dowel 12 can be entity, only positioning function, may be used also To be hollow, in addition to having positioning function, the heat in contact tube can also be exported out of locating dowel 12 centre bore, entered One step increases rate of heat dissipation.

Preferred embodiment is that wire guide 13 is provided with locating dowel 12, for electric current caused by stator coil 6 to be led Go out；

Sealing-plug is provided with wire guide 13, for ensureing that cavity is isolated from the outside.

Electric current caused by stator coil 6 is exported by wire 9, utilized for further.

One end connecting stator coil 6 of wire 9, the other end is through the wire guide 13 in locating dowel 12, from locating dowel 12 Between central shaft hole in pass.After wire 9 passes through wire guide 13, by sealing-plug plug on wire guide 13, enable wire guide 13 Enough sealings, not because making cavity be in communication with the outside the passing through of wire 9, and then the environment for making the environment in the external world have influence in cavity.

In order to reduce friction and because of heat caused by friction, vacuum will be arranged in cavity, so as to reduce air to rotor The caused resistance in rotation process of coil 10, further increases generating efficiency.

Upper lid 4 is set in main body 5, and hollow line shaft 2 is passed from upper lid 4 and is connected with external power source, is rotor coil 10 provide power.Sealed between hollow line shaft 2 and upper lid 4 by sealing gasket 3, to prevent external environment in main body 5 Cavity in environment influence, so as to destroy the vacuum in cavity.

Due to being provided with this generator for cutting magnetic induction line the generating magnetic field that generates electricity and for being produced by repulsion The suspension magnetic of suspending power, it is possible to produce the interference of magnetic force between two magnetic fields, so that especially two, two magnetic fields The intersection in magnetic field produces magnetic field sinuous flow, influences the stability in magnetic field, and then it is steady to have influence on electric current of the generating magnetic field when generating electricity Suspension stability of the qualitative and suspension magnetic when suspending.

In order to avoid the generation of the above situation, rotor coil 10 close to one end of upper magnet 14 set Magnetic isolation plate 8 or Person's magnetic conductive board, so as to which suspension magnetic and generating magnetic field be separated.

The potential source of magnetic interference be permanent magnet, electromagnet, the cable for being loaded with high current, motor, transformer and Other coil parts etc..Interference effect caused by magnetic field can pass through effect caused by magnetic screen, Magnetic isolation, conversion element etc. To minimize or eliminate.Because magnetic field is easily turned in atmosphere or in other medium materials by permeability magnetic material than them Move, so, " magnetic screen " usually makes circlewise or closed element come " transfer " with the magnetic material with high magnetic permeability Fall its neighbouring magnetic line of force and achieve the goal.

Magnetic isolation plate 8 is exactly to utilize sheet material made of magnetic shielding material, can be effectively by suspension magnetic and generating magnetic field Separate, reduce interfering between the two.

Further, anti-static coatings are provided with the inwall of main body 5.

Anti-static coatings are provided with the inwall of the cavity of main body 5, can effectively prevent to dry because of vacuum state Cavity in produce electrostatic, so as to produce interference to the generating magnetic field in main body 5 and suspension magnetic, influence generating efficiency.

Preferred embodiment is that the rotary shaft of flabellum 1 and the rotary shaft of hollow line shaft 2 are coaxial；

Flabellum 1 is uniformly arranged with hollow line shaft 2 for axis；

Or,

The rotary shaft of flabellum 1 is vertical with the rotary shaft of hollow line shaft 2；

Flabellum 1 is connected by transmission mechanism with hollow line shaft 2；

Transmission mechanism includes power transmission shaft 22, drive bevel gear 21 and driven wheel of differential 20；

Flabellum 1 is that axis is uniformly and fixedly arranged on the outer wall of power transmission shaft 22 with power transmission shaft 22；

Drive bevel gear 21 is fixedly and coaxially connected with power transmission shaft 22；

Driven wheel of differential 20 is fixedly and coaxially connected with hollow line shaft 2；

Drive bevel gear 21 engages with driven wheel of differential 20.

In the present embodiment, wind-driven generator can be horizontal axis wind-driven generator, or vertical axis aerogenerator, It can be installed and used according to specific usage scenario and the demand of user.

When in the present embodiment, as vertical axis aerogenerator, flabellum 1 directly with the hollow company of being fixed of line shaft 2 Connect.When there is wind, wind blows flabellum 1 so that flabellum 1 is rotated around hollow line shaft 2, and then causes hollow line shaft 2 Rotated under the drive of flabellum 1, the power generation part to chassis interior provides power.

When in the present embodiment, as horizontal axis wind-driven generator, flabellum 1 is fixedly installed on transmission mechanism, and flabellum 1 is first Drive transmission mechanism to rotate, and then driving hollow line shaft 2 to be rotated, further the power generation part to chassis interior provides Power.

In the present embodiment, transmission mechanism is Bevel Gear Transmission structure, i.e., carries out rotation direction by bevel-gear sett Change.

In the present embodiment, flabellum 1 is uniformly and fixedly arranged on the outer wall of power transmission shaft 22, one end and the active of power transmission shaft 22 Bevel gear 21 is fixedly and coaxially connected, and drive bevel gear 21 engages with driven wheel of differential 20, driven wheel of differential 20 and hollow line shaft 2 It is fixedly and coaxially connected, and then when flabellum 1 drives drive bevel gear 21 to rotate, driven wheel of differential 20 can be driven to be further driven to Hollow line shaft 2 is rotated, and then provides the power needed for generating electricity to master section.

It is pointed out that in the present embodiment, transmission mechanism is Bevel Gear Transmission structure, but it is not limited solely to bore A kind of this mode of gear transmission structure, it can also have other kinds of drive, such as can also be by connection flexible pipe mode It is driven, that is to say, that as long as it can realize that the horizontal power for providing flabellum 1 is converted to vertical power, and it is passed It is defeated by hollow line shaft 2.

Preferred embodiment is that one end that hollow line shaft 2 is stretched into cavity is internally provided with spiral blinds 18, is used for Radiated to rotor coil 10；

And/or

Heat-exchanger rig is provided with stator coil 6.

Spiral blinds 18 is set inside hollow line shaft 2, can be increased between hollow line shaft 2 and rotor coil 10 Heat exchange area, especially when adding hot fast drain in hollow line shaft 2, it can effectively increase hollow line shaft 2 and heat speed Heat-conducting area between drain, and then heat transfer efficiency between the two is added, can be quickly by caused by rotor coil 10 Heat is discharged, and smoothly cools down rotor coil 10.

Stator coil 6 also has heat generation due to magnetic field, by setting heat-exchanger rig in stator coil 6, Such as heat conducting pipe, by heat derives caused by stator coil 6, and then the service life of stator coil 6 can be extended.

Preferred embodiment is that hollow line shaft 2 is provided with slip ring 15 close to one end of upper magnet 14；

Slip ring 15 electrically connects with rotor coil 10.

Hollow line shaft 2 is provided with slip ring 15 close to one end of upper magnet 14, by slip ring 15 with rotor coil 10 by leading Line 9 connects.To enable wire 9 to realize, slip ring 15 is connected with rotor coil 10, can be by hollow line shaft 2 close to upper magnet 14 One end wire guide 13 is set, by one end connection slip ring 15 of wire 9, the other end connects rotor coil 10 through wire guide 13, real The purpose that now slip ring 15 is electrically connected with rotor coil 10.

Preferred embodiment is that side of the slip ring 15 away from upper magnet 14 is provided with conductive pressing plate 16；

Conductive pressing plate 16 is slidably connected with slip ring 15, for extraneous electric current to be transferred into slip ring 15 so as to rotor coil 10 Power supply.

Conductive pressing plate 16 is pressed on slip ring 15 by spring leaf or other elastic devices, then conductive pressing plate 16 is connected logical One end of electric wire, the other end of live wire connects external power supply with the central shaft hole of locating dowel 12 through slip ring 15, and then realizes Powered for rotor coil 10.

Side of the conductive pressing plate 16 away from upper magnet 14 is provided with sealing plate 17, by the spiral hundred in hollow line shaft 2 Leaf 18 is kept apart with conductive pressing plate 16, conductive to prevent the hot fast drain in hollow line shaft 2 from being contacted with conductive pressing plate 16, is entered And exchange hot systems and damage.

Slip ring 15 can also be arranged on hollow line shaft 2 in the cavity of main body 5 one end away from upper magnet 14 it is outer Side, and conducting ring 19 is set in side of the slip ring 15 away from upper magnet 14, connecting wire 9 on conducting ring 19, wire 9 by The wire guide 13 opened on upper lid 4 passes, then is sealed the wire guide 13 on upper lid 4 by sealing-plug.The wire 9 of stator coil 6 It can also be exported by the wire guide 13 on upper lid 4.

Wind-driven generator and pneumatic membrane building provided by the utility model, by setting wind-driven generator in the top of film body, Wind energy is utilized, improves the utilization rate of the energy；In wind-driven generator of the present utility model, the lower section of rotor coil 10 is set The magnet of a pair of opposing is put, using the repulsion between magnet, rotor coil 10 is suspended in the air, so as to eliminate axle Hold, and then reduce vibrations, also eliminate noise so that wind-driven generator when in use, is injured to caused by film body and fallen below It is minimum, it ensure that the safety in utilization of film body.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (10)

1. a kind of pneumatic membrane building, it is characterised in that including ground, film body, rope, blast apparatus and wind-driven generator；

The both ends of the film body are fixedly installed on the ground；

The both ends of the rope are fixedly installed on the ground, and are connected with the film body, for being carried out to the film body It is fixed；

The blast apparatus is by appendix with being connected in the space below the film body；

The air inlet and exhaust outlet of the blast apparatus are provided with wind-driven generator.

2. pneumatic membrane building according to claim 1, it is characterised in that also fixation is set on the rope above the film body It is equipped with the wind-driven generator.

3. pneumatic membrane building according to claim 2, it is characterised in that the wind-driven generator is fixed by snap to be arranged on On the rope.

4. pneumatic membrane building according to claim 1, it is characterised in that be provided with photovoltaic panel above the film body, be used for Carry out solar power generation.

5. pneumatic membrane building according to claim 1, it is characterised in that the wind-driven generator includes flabellum, base, stator Coil, hollow line shaft and rotor coil；

The base is hollow circular cylinder, is provided with cylindrical cavity in it；

The rotor coil, the hollow line shaft and the stator coil are arranged in the cavity, and with the base Coaxially；

The flabellum is fixedly installed on one end of the hollow line shaft, can drive the hollow power under the action of the forces of the wind Axle rotates；

The other end of the hollow line shaft is fixedly connected with the rotor coil, can drive described turn under the action of the forces of the wind Subcoil rotates；

Upper magnet is coaxially arranged with below the rotor coil；

The bottom of the chassis interior is coaxially arranged with lower magnet with the base；

It is repulsion between the upper magnet and the lower magnet, the rotor coil can be suspended in by the base by repulsion It is interior；

The stator coil is enclosed on outside the rotor coil, and gap is provided between the rotor coil；

The bottom of the cavity is provided with locating dowel；

The locating dowel and the base are coaxial, and its one end is fixed on the base, and the other end is stretched into the rotor coil, For preventing the rotor coil produces when rotating from rocking.

6. pneumatic membrane building according to claim 5, it is characterised in that wire guide is provided with the locating dowel, for inciting somebody to action Electric current caused by the stator coil exports；

Sealing-plug is provided with the wire guide, for ensureing that the cavity is isolated from the outside.

7. pneumatic membrane building according to claim 5, it is characterised in that the rotary shaft of the flabellum and the hollow line shaft Rotary shaft it is coaxial；

The flabellum is uniformly arranged using the hollow line shaft as axis；

Or,

The rotary shaft of the flabellum is vertical with the rotary shaft of the hollow line shaft；

The flabellum passes through transmission mechanism and the hollow power axis connection；

The transmission mechanism includes power transmission shaft, drive bevel gear and driven wheel of differential；

The flabellum is that axis is uniformly and fixedly arranged on the outer wall of the power transmission shaft with the power transmission shaft；

The drive bevel gear is fixedly and coaxially connected with the power transmission shaft；

The driven wheel of differential is fixedly and coaxially connected with the hollow line shaft；

The drive bevel gear engages with the driven wheel of differential.

8. pneumatic membrane building according to claim 5, it is characterised in that the hollow line shaft stretch into the cavity one End is internally provided with spiral blinds, for being radiated to the rotor coil；

And/or

Heat-exchanger rig is provided with the stator coil.

9. pneumatic membrane building according to claim 5, it is characterised in that the hollow line shaft is close to the one of the upper magnet End is provided with slip ring；

The slip ring electrically connects with the rotor coil.

10. pneumatic membrane building according to claim 9, it is characterised in that side of the slip ring away from the upper magnet is set It is equipped with conductive pressing plate；

The conductive pressing plate is slidably connected with the slip ring, for extraneous electric current to be transferred into the slip ring so as to the rotor Coil power supply.