CN202867096U

CN202867096U - Aeration wind power generating system

Info

Publication number: CN202867096U
Application number: CN2012204500385U
Authority: CN
Inventors: 陈国辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-09-05
Filing date: 2012-09-05
Publication date: 2013-04-10
Anticipated expiration: 2022-09-05

Abstract

The utility model relates to an aeration wind power generating system. The aeration wind power generating system comprises a plurality of buoyancy parafoil strings, at least one power generating parafoil, a power generating cabin, two air sacs, and a wind vane rotating blade string, wherein the plurality of the byoyancy parafoil strings are formed by a plurality of byoyancy parafoils and the plurality of the byoyancy parafoils are arranged from up to down and are connected in sequence. The power generating parafoil is arranged below the plurality of the buoyancy parafoil strings and is connected with the plurality of the buoyancy parafoil strings, and a turbine power generator is arranged inside the power generating parafoil. The power generating cabin is arranged below the power generating parafoil and is connected with the power generating parafoil. The two air sacs are respectively arranged at two sides of the power generating cabin and are connected with the power generating cabin, and the wind vane rotating blade string formed by splicing of a plurality of wind vane rotating blades is connected with the power generating cabin and drives a power generator inside the power generating cabin to generate power. The byoyancy parafoil provides buoyancy to enable the power generating parafoil, the power generating cabin, the air sacs and the wind vane rotating blades to be suspended in the air. The aeration wind power generating system is simple in power generating system, easy to implement, and capable of effectively utilizing wind force high in the air to generate power.

Description

A kind of aerial wind power generating system

Technical field

The utility model relates to wind-power generating system, more particularly, relates to a kind of aerial wind power generating system.

Background technique

The size of wind energy is directly proportional with wind speed, road clearance and impeller area, and therefore, present commercial wind generating unit is the usage level axis wind power generator all, and these horizontal axis wind-driven generators are installed on the high tower, are equipped with the impeller of longspan.The whole high of the wind generating unit of up-to-date construction surpasses 200 meters, and weight reaches more than 200 ton, and construction cost is high, and generating more is limited by the restriction of season, region and networking distance etc.The construction cost of the wind generating unit that some are marine especially twenty or thirty doubly to the construction cost of land.For these reasons, a lot of wind generating units are not brought into play due economic benefit, and the benefit that wind-powered electricity generation is failed to enjoy in most this area of enjoying wind-powered electricity generation.

Present commercial wind generating unit can only be at low idle job, because the wind speed in low latitude is unstable, the electric energy that produces can not directly be surfed the Net, and can only dump be changed to direct current energy again by inverter output, and conversion efficiency is low, and the cost of surfing the net that causes generating electricity is high.And aerial at height, it is large that upper wind has a wind speed, distributes wide, and stability is high, waits constantly all the year characteristics, and therefore, overhead wind power generator becomes the focus of people's research gradually.

In a US Patent No. 6781254B2, a kind of flight electricity generating device is disclosed, this flight electricity generating device uses 4 motors to drive blade, approximately 4500 meters the predetermined operation high-altitude of ascending to heaven from ground.Then main body slightly recedes, and blade meets with the strong wind that head-on comes, and motor moment is changed the generator generating into.Flight electricity generating device has a running repairs difficult problem in this, and equipment cost is expensive, so far also not for commercial applications.

In another US Patent No. 7786610B2, disclose another kind of aerial wind power generating set, this aerial wind power generating set comprises the airship that is filled with helium, and the airship front end has funnel-shaped opening, can suck high wind, high wind is discharged generating by turbofan from the rear end slot.This aerial wind power generating set leaks the helium of walking because often needing to replenish, and the regular maintenance difficulty can not the output of persevering steady reliably electric power.

In another US Patent No. 733500, another kind of aerial wind power generating set is disclosed, this aerial wind power generating set uses an air bag that is full of helium, utilizes the helium uplift that generator is promoted to approximately 300 meters aerial.Then air bag rolls around horizontal axis, drives the generator generating that is suspended on the air bag both sides.Air bag links to ground location with cable, use cable delivery of electrical energy to ground.This aerial wind power generating set faces the problem that helium leaks equally, and the not very easily just positive running of facining the wind aloft of monosaccate, and in addition, the complex structure of air bag and suspension generator will use many cables to link ground and locate.

The model utility content

The purpose of this utility model is to provide a kind of aerial wind power generating system, and this aerial wind power generating system comprises:

A plurality of buoyancy parafoils, described a plurality of buoyancy parafoils link to each other successively from top to bottom and form buoyancy parafoil string;

At least one parafoil that generates electricity, described generating parafoil hangs on the below of described buoyancy parafoil string, is provided with turbogenerator in the described generating parafoil;

Generator bay, described generator bay hangs on the below of described generating parafoil;

Two air bags, two described air bags lay respectively at the both sides of described generator bay and link to each other with described generator bay, and described air bag drives the generator generating of described generator bay;

A plurality of weathercock revolving vanes, described a plurality of weathercock revolving vanes link to each other to form weathercock revolving vane string successively, and described weathercock revolving vane string links to each other with described generator bay and the generator that orders about in the described generator bay generates electricity;

Described buoyancy parafoil string provides uplift that described generating parafoil, generator bay, air bag and weathercock revolving vane are suspended in the air.

In aerial wind power generating system described in the utility model, be filled with air in the described air bag, described air bag links to each other with the generator of described generator bay by scalable rotating shaft, and the outer surface of described air bag has facings the wind around the leaf lobe of described scalable rotating shaft rotation described air bag.

In aerial wind power generating system described in the utility model, described air bag is done around described retractable spindle down with the wind and is rotated counterclockwise.

In aerial wind power generating system described in the utility model, on the described air bag automatic inflation pump is installed, the volume that described automatic inflation pump is used for replenishing air in described air bag and controls described air bag.

In aerial wind power generating system described in the utility model, described generating parafoil is by the below of cable suspended in described buoyancy parafoil string, and described generator bay is by the below of cable suspended in described generating parafoil.

In aerial wind power generating system described in the utility model, a plurality of described weathercock revolving vanes form described weathercock revolving vane string by the connecting rod series winding, described connecting rod links to each other with generator in the described generator bay, and described weathercock revolving vane string is used for controlling the direction of described generator bay so that the axis of described air bag is vertical with airflow direction.

In aerial wind power generating system described in the utility model, described weathercock revolving vane comprises the narrow cylindrical shell of the wide rear port of front port, is positioned at the axis on the tubular axis and is positioned at the internal surface of cylindrical shell and the oblique leaf lobe on the outer surface, during the described weathercock revolving vane of air-flow process, described oblique leaf lobe makes described cylindrical shell around middle shaft rotation.

In aerial wind power generating system described in the utility model, described generating parafoil has roomy opening end, a plurality of described turbogenerators are arranged on the lower position of described generating parafoil inside, described generating parafoil bottom is provided with the exhaust port corresponding with described turbogenerator, and air-flow is entered in the described generating parafoil also through being discharged by described exhaust port behind the described turbogenerator by described opening end.

In aerial wind power generating system described in the utility model, described generator bay by hawser with arrange on the ground or the strander on the water surface floating platform links to each other, the electric power of described generator bay and the generation of described generating parafoil is by being compounded in cable transfer on the hawser to ground or mode by wireless transmission of electricity is delivered to and is arranged on ground receiving station.

In aerial wind power generating system described in the utility model, the main body of described buoyancy parafoil, generating parafoil, air bag and weathercock revolving vane is made of nylon in lightweight cloth, and the framework of described buoyancy parafoil, generating parafoil, air bag and weathercock revolving vane adopts carbon fiber structural.

The utility model also provides another kind of aerial wind power generating system, comprises generator bay, and two air bags that are arranged on described generator bay both sides, and described air bag links to each other with generator in the described generator bay and drives described generator generating; Also comprise a plurality of weathercock revolving vanes, described a plurality of weathercock revolving vanes link to each other to form weathercock revolving vane string successively, and described weathercock revolving vane string links to each other with described generator bay and the generator that orders about in the described generator bay generates electricity; Be filled with helium in the described air bag, the buoyancy that described air bag produces is suspended in described generator bay and weathercock revolving vane in the air.

The utility model also provides another kind of aerial wind power generating system, comprising:

Described buoyancy parafoil string provides uplift that described generating parafoil is suspended in the air;

Described generating parafoil has roomy opening end, a plurality of described turbogenerators are arranged on the lower position of described generating parafoil inside, described generating parafoil bottom is provided with the exhaust port corresponding with described turbogenerator, and air-flow is entered in the described generating parafoil also through being discharged by described exhaust port behind the described turbogenerator by described opening end.

Generator bay, described generator bay hang on the below of described buoyancy parafoil string;

Described buoyancy parafoil string provides uplift that described generator bay, air bag and weathercock revolving vane are suspended in the air.

The utility model also provides another kind of aerial wind power generating system, comprise the hanger rope net of building between between the steel tower or the mountain ridge and the mountain ridge, and be suspended on the online weathercock revolving vane electricity generating device of hanger rope, described weathercock revolving vane electricity generating device comprises and is arranged on the online generator of hanger rope, and the weathercock revolving vane string that links to each other with described generator, described weathercock revolving vane string comprises a plurality of weathercock revolving vanes that connect by connecting rod series winding, described weathercock revolving vane at air-flow through out-of-date rotation and order about described generator generating.

Implement aerial wind power generating system of the present utility model, has following beneficial effect: because of the air-flow of annual all persevering steady high speed in the high-altitude, aerial wind power generating system of the present utility model can adopt the alternator generation of Cheap highly effective energy, electric current output is permanent steady, only need by just networking after the simple and easy processing, can effectively utilize high aerial wind-force to generate electricity; And simple in structure, easily implement.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the first embodiment's of aerial wind power generating system of the present utility model schematic diagram;

Fig. 2 is the first embodiment's of aerial wind power generating system of the present utility model partial schematic diagram;

Fig. 3 a is the front schematic view of buoyancy parafoil among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 3 b is the side schematic view of buoyancy parafoil among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 4 a is the front schematic view of generating parafoil among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 4 b is the schematic perspective view of generating parafoil among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 4 c is the generating schematic diagram of generating parafoil among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 5 a is the front schematic view of two air bag electricity generating devices among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 5 b is the schematic perspective view of two air bag electricity generating devices among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 6 a is one of schematic perspective view of weathercock revolving vane among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 6 b be weathercock revolving vane among the first embodiment of aerial wind power generating system of the present utility model schematic perspective view two;

Fig. 6 c is the side schematic view of weathercock revolving vane among the first embodiment of aerial wind power generating system of the present utility model;

Fig. 6 d is A-A sectional drawing among Fig. 6 c;

Fig. 7 is the second embodiment's of aerial wind power generating system of the present utility model schematic diagram;

Fig. 8 is the 3rd embodiment's of aerial wind power generating system of the present utility model schematic diagram;

Fig. 9 a is the schematic perspective view of weathercock revolving vane string among the 3rd embodiment of aerial wind power generating system of the present utility model;

Fig. 9 b is the side schematic view of weathercock revolving vane string among the 3rd embodiment of aerial wind power generating system of the present utility model.

Embodiment

Understand for technical characteristics of the present utility model, purpose and effect being had more clearly, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

As shown in Figure 1, be the first embodiment's of aerial wind power generating system of the present utility model schematic diagram, this aerial wind power generating system comprises: the weathercock revolving vane string that the buoyancy parafoil string that a plurality of buoyancy parafoils 1 consist of, generating parafoil 2, generator bay 3, two air bags 4 and a plurality of weathercock revolving vane 5 consist of.

Referring to Fig. 1, Fig. 2, Fig. 3 a and Fig. 3 b, in the present embodiment, buoyancy parafoil string is connected in turn by hawser 6 from top to bottom by a plurality of buoyancy parafoils 1, and let fly away at height aerial, buoyancy parafoil 1 has the umbrella cover that opens, the camera wing is the same, can produce uplift under the effect of air-flow aloft, and the uplift that a plurality of buoyancy parafoils 1 consist of the generation of buoyancy parafoil string can make generating parafoil 2, generator bay 3, air bag 4 and weathercock revolving vane 5 be suspended in height in the air.Hawser 6 adopts compound mooring rope, is made by composite material, has intensity high, the characteristics that quality is light.

Referring to Fig. 1, Fig. 2, Fig. 4 a to Fig. 4 c, generating parafoil 2 is positioned at the below of buoyancy parafoil string, links to each other with buoyancy parafoil string by hawser 6, is provided with turbogenerator 21 in the generating parafoil 2, can utilize aerial air-flow to generate electricity.Concrete, in the present embodiment, generating parafoil 2 has roomy opening end 22, a plurality of turbogenerators 21 are arranged on the lower position of generating parafoil 2 inside, generating parafoil 2 bottoms also are provided with the exhaust port 23 corresponding with turbogenerator 21, and air-flow enters in the generating parafoil 2 by opening end 22 and through being discharged by exhaust port 23 behind the turbogenerators 21.Aerial at height, because air-flow is very powerful, be very suitable for carrying out wind-power electricity generation, because air-flow is discharged by the exhaust port 23 of the below of generating parafoil 2, in this case, generating parafoil 2 self also can produce suitable uplift, assists buoyancy parafoil 1 that aerial generating system is suspended in the air.The area of generating parafoil 2 can be greater than the area of buoyancy parafoil 1, so that turbogenerator etc. conveniently to be set.

Referring to Fig. 1, Fig. 2, Fig. 5 a and Fig. 5 b, below generating parafoil 2, be hung with generator bay 3, be provided with generator in the generator bay 3, the both sides of generator bay 3 respectively are provided with an air bag 4, consist of double-air sac structure.Two air bags 4 link to each other with generator bay respectively and order about generators generating in the generator bay 3.Be filled with air in the air bag 4, air bag 4 links to each other with the generator of generator bay 3 by scalable rotating shaft 41, the outer surface of air bag 4 has leaf lobe 42, leaf lobe 42 can make air bag 4 do around scalable rotating shaft 41 down with the wind and be rotated counterclockwise, air bag 4 under airflow function when telescopic rotating shaft 41 rotation, by scalable rotating shaft 41 moment of torsion is passed to generator in the generator bay 3, generate electricity to drive generator.When air bag 4 rotates, also can produce uplift under airflow function, high aerial to assist aerial wind power generating system to rest on.Because gas leakage causes change in shape, and two air bags 4 are respectively arranged with automatic inflation pump, automatic inflation pump is used for to air bag 4 interior additional air and controls the volume of air bag 4 for fear of air bag 4, the electric power of automatic inflation pump can from generator bay 3.Regulate volume and the scalable rotating shaft 41 of air bag 4 and can regulate uneven moment, guarantee that two air bags 4 can positive down with the wind running.

Referring to Fig. 1, Fig. 2, Fig. 5 b, Fig. 6 a to Fig. 6 d, for can positively being facingd the wind, aerial wind power generating system operates, further, on generator bay 3, also be connected with the weathercock revolving vane string that a plurality of weathercock revolving vanes 5 consist of, a plurality of weathercock revolving vanes 5 get up by connecting rod 50 series windings, form weathercock revolving vane string, weathercock revolving vane string links to each other with generator bay 3 and orders about generator bay 3 interior generators and generate electricity.Weathercock revolving vane string also doubles as the location tail into generator bay 3, under the effect of air-flow, bearing of trend and the airflow direction of weathercock revolving vane string are consistent, like this, weathercock revolving vane string can be used for controlling the direction of generator bay 3 so that the axis of air bag 4 is vertical with airflow direction, so that whole aerial wind power generating system can better be utilized wind energy.In the present embodiment, weathercock revolving vane 5 comprises the narrow cylindrical shell 51 of the wide rear port of front port, is positioned at the axis 52 on cylindrical shell 51 axis and is positioned at the internal surface of cylindrical shell 51 and the oblique leaf lobe 53 on the outer surface, during air-flow process weathercock revolving vane 5, tiltedly leaf lobe 53 makes cylindrical shell 51 around axis 52 rotations, the moment of torsion that produces during weathercock revolving vane 5 rotation of whole weathercock revolving vane string is passed to generator in the generator bay 3 by connecting rod 50, and the generators that can drive in the generator bay 3 generate electricity.Weathercock revolving vane string had both played leading role, can have electricity generate function concurrently again, had utilized to greatest extent wind energy.

Referring to Fig. 1, in the present embodiment, generator bay 3 by hawser 6 with arrange on the ground or the strander 8 on the water surface floating platform 7 links to each other, the electric power that generator bay 3 and generating parafoil 2 produce is by being compounded in cable transfer on the hawser 6 to ground, perhaps also can be delivered to by the mode of wireless transmission of electricity and be arranged on ground receiving station 9, cable can be compounded in the inside of hawser 6, perhaps is attached on the hawser 6.

In aerial wind power generating system of the present utility model, the main body of buoyancy parafoil 1, generating parafoil 2, air bag 4 and weathercock revolving vane 5 is made of nylon in lightweight cloth, perhaps adopt other lightweight materials to make, the frame part of buoyancy parafoil 1, generating parafoil 2, air bag 4 and weathercock revolving vane 5 can adopt carbon fiber structural, helps like this to reduce the weight of whole airflight wind-power generating system.

Aerial wind power generating system of the present utility model is abandoned tradition expensive high tower and fan impeller, need not use external force such as expensive and rare helium uplift under, the uplift of only using a string buoyancy parafoil 1 of in advance letting fly away just can be suspended on thousands of meters high aerial to whole aerial wind power generating system, utilizes wind-power electricity generation powerful in the high-altitude.

Aerial wind power generating system of the present utility model has the following advantages with existing aerial wind power generating system relatively:

1), owing to only using the uplift of the buoyancy parafoil of letting fly away just generator set to be suspended on the predetermined operation high-altitude in advance, exempt from but frequently to replenish the difficult problem of helium;

2), fill air in the air bag and be equipped with automatic inflation pump, guarantee the correct volume of air bag, the program of removing inflation from;

3), use the weathercock revolving vane as directed tail, guarantee the positive running of facining the wind aloft of two air bags; The weathercock revolving vane that rotates also available connecting rod reaches the generator bay generating to moment of torsion;

4), air bag can be in one or two km or higher aerial running, in such high-altitude, wind speed is throughout the year permanent steady, can make electric energy that efficient and reliable output is arranged;

5), the buoyancy parafoil, the generating parafoil, two air bags and weathercock revolving vane and transmission pole etc. only use nylon cloth and carbon fiber bar structure, but long-term operation, regular maintenance is easy;

6), available fewer purpose cable just can link the flight generator set to ground and locates.

Referring to Fig. 7, be the second embodiment's of aerial wind power generating system of the present utility model schematic diagram, this embodiment's aerial wind power generating system comprises: the weathercock revolving vane string that the buoyancy parafoil string that a plurality of buoyancy parafoils 1 consist of, generating parafoil 2, generator bay 3, two air bags 4 and a plurality of weathercock revolving vane 5 consist of.When different from the first embodiment, the aerial wind power generating system of the present embodiment is to use afloat aerial wind power generating system, generator bay 3 links to each other with strander 8 on being arranged on water surface floating platform 7 by hawser 6, and the electric power that generator bay 3 and generating parafoil 2 produce is by being compounded in cable transfer on the hawser 6 to ground or mode by wireless transmission of electricity is delivered to and is arranged on ground receiving station 9.

The structure of the buoyancy parafoil 1 among the second embodiment, generating parafoil 2, generator bay 3, air bag 4 and weathercock revolving vane 5 is identical with the first embodiment's structure, repeats no more.

Referring to Fig. 8, Fig. 9 a and Fig. 9 b, it is the 3rd embodiment's of aerial wind power generating system of the present utility model schematic diagram, in this embodiment, only adopt weathercock revolving vane 5 to set up aerial wind power generating system, do not need buoyancy parafoil 1, generating parafoil 2 and two air bag, this embodiment's aerial wind power generating system comprises the hanger rope net 10 of building between between the steel tower 11 or mountain ridge 12 and the mountain ridge 12, and be suspended on weathercock revolving vane electricity generating device on the hanger rope net 10, weathercock revolving vane electricity generating device comprises the generator 55 that is arranged on the hanger rope net 10, and the weathercock revolving vane string that links to each other with generator 55, weathercock revolving vane string comprises a plurality of weathercock revolving vanes 5 that connect by connecting rod 50 series winding, weathercock revolving vane 5 at air-flow through out-of-date rotation and order about generator 55 generatings.

Aerial wind power generating system of the present utility model can also adopt following structure, buoyancy parafoil 1 in the first embodiment and the second enforcement and generating parafoil 2 are removed, only keep two air bags 4, generator bay 3 and weathercock revolving vane string, the air that fill in two air bags 4 this moment is substituted by helium, and the uplift of utilizing two air bags 4 to produce is suspended in generator bay 3 and weathercock revolving vane 5 in the air.

In addition, can also utilize buoyancy parafoil string and generating parafoil to consist of aerial wind power generating system, utilize the buoyancy parafoil string parafoil that will generate electricity to be suspended in high in the air, utilize the built-in turbogenerator of parafoil that generates electricity to generate electricity.Perhaps also can, utilize buoyancy parafoil string that generator bay, two air bag and weathercock revolving vane string are suspended in high aerial, consist of aerial wind power generating system.

The above is described embodiment of the present utility model by reference to the accompanying drawings; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment only is schematic; rather than restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away from the scope situation that the utility model aim and claim protect, also can make a lot of forms, these all belong within the protection of the present utility model.

Claims

1. an aerial wind power generating system is characterized in that, comprising:

A plurality of buoyancy parafoils (1), described a plurality of buoyancy parafoils (1) link to each other successively from top to bottom and form buoyancy parafoil string;

At least one parafoil (2) that generates electricity, described generating parafoil (2) hangs on the below of described buoyancy parafoil string, is provided with turbogenerator (21) in the described generating parafoil (2);

Generator bay (3), described generator bay (3) hangs on the below of described generating parafoil (2);

Two air bags (4), two described air bags (4) lay respectively at the both sides of described generator bay (3) and link to each other with described generator bay (3), and described air bag (4) drives the generator generating of described generator bay (3);

A plurality of weathercock revolving vanes (5), described a plurality of weathercock revolving vanes (5) link to each other successively and form weathercock revolving vane string, and described weathercock revolving vane string links to each other with described generator bay (3) and orders about the interior generator generating of described generator bay (3);

Described buoyancy parafoil string provides uplift that described generating parafoil (2), generator bay (3), air bag (4) and weathercock revolving vane (5) are suspended in the air.

2. aerial wind power generating system according to claim 1, it is characterized in that, described air bag is filled with air in (4), described air bag (4) links to each other by the generator of scalable rotating shaft (41) with described generator bay (3), and the outer surface of described air bag (4) has facings the wind around the leaf lobe (42) of described scalable rotating shaft (41) rotation described air bag (4); Described air bag (4) is done around described retractable spindle down with the wind and is rotated counterclockwise; Described air bag is equipped with automatic inflation pump on (4), the volume that described automatic inflation pump is used for replenishing air in described air bag (4) and controls described air bag (4).

3. aerial wind power generating system according to claim 1, it is characterized in that, a plurality of described weathercock revolving vanes (5) form described weathercock revolving vane string by connecting rod (50) series winding, generator in described connecting rod (50) and the described generator bay (3) links to each other, and described weathercock revolving vane string is for controlling the direction of described generator bay (3) so that the axis of described air bag (4) is vertical with airflow direction; Described weathercock revolving vane (5) comprises the narrow cylindrical shell (51) of the wide rear port of front port, is positioned at the axis (52) on cylindrical shell (51) axis and is positioned at the internal surface of cylindrical shell (51) and the oblique leaf lobe (53) on the outer surface, during the air-flow described weathercock revolving vane of process (5), described oblique leaf lobe (53) makes described cylindrical shell (51) rotate around axis (52).

4. aerial wind power generating system according to claim 1, it is characterized in that, described generating parafoil (2) has roomy opening end (22), a plurality of described turbogenerators (21) are arranged on the inner lower position of described generating parafoil (2), described generating parafoil (2) bottom is provided with the exhaust port (23) corresponding with described turbogenerator (21), and air-flow is entered in the described generating parafoil (2) and through described turbogenerator (21) is rear by described opening end (22) and discharged by described exhaust port (23); The main body of described buoyancy parafoil (1), generating parafoil (2), air bag (4) and weathercock revolving vane (5) is made of nylon in lightweight cloth, and the framework of described buoyancy parafoil (1), generating parafoil (2), air bag (4) and weathercock revolving vane (5) adopts carbon fiber structural.

5. aerial wind power generating system according to claim 1, it is characterized in that, described generating parafoil (2) hangs on the below of described buoyancy parafoil string by hawser (6), described generator bay (3) hangs on the below of described generating parafoil (2) by hawser (6); Perhaps described generator bay (3) by hawser (6) with arrange on the ground or the strander (8) on the water surface floating platform (7) links to each other, the electric power of described generator bay (3) and described generating parafoil (2) generation is by being compounded in cable transfer on the hawser (6) to ground or mode by wireless transmission of electricity is delivered to and is arranged on ground receiving station (9).

6. aerial wind power generating system, it is characterized in that, comprise generator bay (3), and two air bags (4) that are arranged on described generator bay (3) both sides, described air bag (4) links to each other and drives described generator with generator in the described generator bay (3) and generates electricity; Also comprise a plurality of weathercock revolving vanes (5), described a plurality of weathercock revolving vanes (5) link to each other successively and form weathercock revolving vane string, and described weathercock revolving vane string links to each other with described generator bay (3) and orders about the interior generator generating of described generator bay (3); Described air bag is filled with helium in (4), and the buoyancy that described air bag (4) produces is suspended in described generator bay (3) and weathercock revolving vane (5) in the air.

7. aerial wind power generating system according to claim 6, it is characterized in that, described air bag (4) links to each other by the generator of scalable rotating shaft (41) with described generator bay (3), and the outer surface of described air bag (4) has facings the wind around the leaf lobe (42) of described scalable rotating shaft (41) rotation described air bag (4); A plurality of described weathercock revolving vanes (5) form described weathercock revolving vane string by connecting rod (50) series winding, generator in described connecting rod (50) and the described generator bay (3) links to each other, and described weathercock revolving vane string is for controlling the direction of described generator bay (3) so that the axis of described air bag (4) is vertical with airflow direction; Described weathercock revolving vane (5) comprises the narrow cylindrical shell (51) of the wide rear port of front port, is positioned at the axis (52) on cylindrical shell (51) axis and is positioned at the internal surface of cylindrical shell (51) and the oblique leaf lobe (53) on the outer surface, during the air-flow described weathercock revolving vane of process (5), described oblique leaf lobe (53) makes described cylindrical shell (51) rotate around axis (52).

8. an aerial wind power generating system is characterized in that, comprising:

Described buoyancy parafoil string provides uplift that described generating parafoil (2) is suspended in the air;

Described generating parafoil (2) has roomy opening end (22), a plurality of described turbogenerators (21) are arranged on the inner lower position of described generating parafoil (2), described generating parafoil (2) bottom is provided with the exhaust port (23) corresponding with described turbogenerator (21), and air-flow is entered in the described generating parafoil (2) and through described turbogenerator (21) is rear by described opening end (22) and discharged by described exhaust port (23).

9. an aerial wind power generating system is characterized in that, comprising:

Generator bay (3), described generator bay (3) hangs on the below of described buoyancy parafoil string;

Described buoyancy parafoil string provides uplift that described generator bay (3), air bag (4) and weathercock revolving vane (5) are suspended in the air.

10. aerial wind power generating system, it is characterized in that, comprise and building between the steel tower (11) or the hanger rope net (10) between the mountain ridge (12) and the mountain ridge (12), and be suspended on weathercock revolving vane electricity generating device on the hanger rope net (10), described weathercock revolving vane electricity generating device comprises the generator (55) that is arranged on the hanger rope net (10), and the weathercock revolving vane string that links to each other with described generator (55), described weathercock revolving vane string comprises a plurality of weathercock revolving vanes (5) that connect by connecting rod (50) series winding, described weathercock revolving vane (5) at air-flow through out-of-date rotation and order about described generator (55) generating.