CN108386315A - Super-huge high-efficiency wind energy generating set - Google Patents
Super-huge high-efficiency wind energy generating set Download PDFInfo
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- CN108386315A CN108386315A CN201810438983.5A CN201810438983A CN108386315A CN 108386315 A CN108386315 A CN 108386315A CN 201810438983 A CN201810438983 A CN 201810438983A CN 108386315 A CN108386315 A CN 108386315A
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03D—WIND MOTORS
- F03D5/00—Other wind motors
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03D—WIND MOTORS
- F03D13/00—Assembly, mounting or commissioning of wind motors; Arrangements specially adapted for transporting wind motor components
- F03D13/20—Arrangements for mounting or supporting wind motors; Masts or towers for wind motors
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03D—WIND MOTORS
- F03D15/00—Transmission of mechanical power
- F03D15/10—Transmission of mechanical power using gearing not limited to rotary motion, e.g. with oscillating or reciprocating members
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03D—WIND MOTORS
- F03D80/00—Details, components or accessories not provided for in groups F03D1/00 - F03D17/00
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03D—WIND MOTORS
- F03D9/00—Adaptations of wind motors for special use; Combinations of wind motors with apparatus driven thereby; Wind motors specially adapted for installation in particular locations
- F03D9/20—Wind motors characterised by the driven apparatus
- F03D9/25—Wind motors characterised by the driven apparatus the apparatus being an electrical generator
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05B—INDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
- F05B2240/00—Components
- F05B2240/20—Rotors
- F05B2240/30—Characteristics of rotor blades, i.e. of any element transforming dynamic fluid energy to or from rotational energy and being attached to a rotor
- F05B2240/302—Segmented or sectional blades
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05B—INDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
- F05B2260/00—Function
- F05B2260/40—Transmission of power
- F05B2260/402—Transmission of power through friction drives
- F05B2260/4022—Transmission of power through friction drives through endless chains
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/60—Planning or developing urban green infrastructure
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/30—Wind power
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/728—Onshore wind turbines
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- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Sustainable Energy (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Aviation & Aerospace Engineering (AREA)
- Wind Motors (AREA)
Abstract
The invention discloses super-huge high-efficiency wind energy generating sets, relate generally to wind power generation device field.Including support high building, rotating frame, transmission device assembly and generator, for rotating frame around support high building rotation, it includes the first framework, the second framework and third framework that the rotation of rotating frame, which drives the rotation of generator input shaft, rotating frame,;Rectangular array is equipped with ventilation opening and retractable blade, amplitude limiting device on third framework;Transmission device assembly includes traction chain and Non-standard chain, and the bottom periphery in support high building is arranged in generator, and the input shaft of generator is equipped with and the matched generator sprocket wheel of Non-standard chain.The beneficial effects of the present invention are:It is not influenced by wind direction when power generation, no matter any wind direction can carry out wind energy to make full use of power generation;Wind energy utilization is high, simple in structure;There is very great meaning to national kinetic energy transition, sustainable development, energy-saving and emission-reduction, improvement energy resource structure etc..
Description
Technical field
The present invention relates to wind power generation device field, specifically super-huge high-efficiency wind energy generating set.
Background technology
Wind power generation plant is to convert wind energy into mechanical work, and mechanical work drives generator amature rotation, final output electricity
The power equipment of stream.Existing wind power generation plant is mostly horizontal axis wind generating device, and this device shares 3 blades, leaf
Piece inclined-plane receives wind-force, and wind area is small, and the utilization rate of wind is low, causes installed capacity small, it is difficult to form the big rule of wind-power electricity generation
Modelling.
Invention content
The purpose of the present invention is to provide super-huge high-efficiency wind energy generating sets, not by the shadow of wind direction when it is applied to generate electricity
It rings, no matter any wind direction can carry out wind energy to make full use of power generation;And the present apparatus has that wind energy utilization is high, simple in structure,
Not complicated workpiece;Using when the models such as large-scale, super-huge can be made according to application environment, gradually replace " thermoelectricity ",
" nuclear power " to national economy transition, low-carbon, environmental protection, green, sustainable development, energy-saving and emission-reduction, improves energy resource structure, raising sky
Makings amount etc. has very great meaning.
The present invention to achieve the above object, is achieved through the following technical solutions:
Super-huge high-efficiency wind energy generating set, including support high building, rotating frame, transmission device assembly and generator, institute
It states rotating frame to be supported by support high building, and the rotating frame, around support high building rotation, the rotation of the rotating frame is logical
It is round reinforced concrete structure, institute to cross transmission device assembly and can drive the rotation of generator input shaft, the support high building
It includes the first framework, the second framework and third framework to state rotating frame, and lapping plate, the overlap joint are equipped on the inside of first framework
The first steel ball runway is equipped between plate and support tower roof of storied building, second framework is arranged on the inside of the first framework, and is located at and takes
Fishplate bar top position is connected between second framework and the first framework by hack lever, the third framework annular array setting
In the first framework periphery;Rectangular array is equipped with ventilation opening and retractable blade, each retractable blade top on the third framework
It is equipped with amplitude limiting device on the third framework in portion;The transmission device assembly is chain and sprocket driving device comprising traction chain
And Non-standard chain, described traction chain one end and the first framework inside are connect, the traction chain other end and non-standard chain
Item connects, and the second steel ball runway, the Non-standard chain bottom end are equipped between support high building on the inside of first framework bottom end
Equipped with support walking mechanism, traveling wheel circular motion walking on the second steel ball runway of the support walking mechanism is described non-
Standard chain is approximate circle at one in support high building periphery, and the generator annular array is arranged in the bottom of support high building
The input shaft of periphery, the generator is equipped with and the matched generator sprocket wheel of Non-standard chain.
The retractable blade is adapted with ventilation opening size, and the retractable blade is hinged at the top of ventilation opening, described
Retractable blade is equipped with four rectangular apertures of sphere of movements for the elephants shape, and high strength light weight waterproof cloth is equipped at the rectangular aperture,
The retractable blade center position is equipped with cushion pad.
The amplitude limiting device includes cross-bar, and the third structure in retractable vane tip is arranged in described cross-bar one end
On frame, the cross-bar other end is equipped with cylindricality seat, and internal thread hole is equipped in the cylindricality seat, and the internal thread hole internal thread connects
It is connected to trimming bolt, described trimming bolt one end is equipped with rubber ball, and the trimming bolt is equipped with locking nut.
Further include blade opening device assembly, each third framework is correspondingly arranged a blade opening device assembly, described
Blade opening device assembly includes driving mechanism and rope body mechanism, and the branch in each third framework bottom is arranged in the driving mechanism
It supports on tablet, the rope body mechanism includes dividing tightrope and total tightrope, and all retractable blades correspondences one of each column are total soft
Rope, each retractable blade correspond to a point of tightrope, first pulley are equipped on the third framework of each retractable vane tip
And cable hole, the trimming bolt is equipped with second pulley and wheel cover far from rubber ball one end, described to divide tightrope far from total tightrope one
End passed around gap between first pulley, cable hole, second pulley and wheel cover and was connect with retractable blade bottom end successively, it is described always
Tightrope bottom end is connect with driving mechanism, and driving mechanism can control moving down and moving up for total tightrope.
The driving mechanism includes motor, shaft coupling, Worm Wheel System case, drive shaft and reel, described electronic
Machine output end passes through the input axis connection of shaft coupling and Worm Wheel System case, the output end of the Worm Wheel System case and drive
Turn axis is sequentially connected, and the reel is arranged in drive shaft, and rolling bearing units are additionally provided in the drive shaft;It is described total soft
Rope bottom end is connect with reel, and the rotation of reel can drive moving down and moving up for total tightrope.
The first steel ball runway includes top surface runway and first side runway, and the top surface runway setting is in support high building
Top, the top surface runway are equipped with two layers, and the top surface runway includes being run outside the first track groove, the first spin and the first track
Road, first track groove setting is in support tower roof of storied building, and the first track outer track setting is in lapping plate bottom surface, and described the
The limit of one spin is arranged in the first track groove, and the first track outer track is overlapped at the top of the first spin;The support
Top flange is equipped at the top of high building, the first side runway includes the second track groove, the second spin and the second track outer track,
Second track groove is arranged in top flange side, and the medial surface in the first framework, institute is arranged in the second track outer track
It states the limit of the second spin to be arranged in the second track groove, and the second track outer track and the second spin position are adapted.
Support tower bottom of the building portion is equipped with base flange, and the second steel ball runway includes third track groove, third spin
With third track outer track, third track groove setting is in base flange side, and the third track outer track setting is the
The medial surface of one framework, the third spin limit is arranged in third track groove, and the third track outer track and third
Spin position is adapted.
Support tower bottom of the building portion annular array is equipped with several reinforced columns, between the adjacent reinforced column
Equipped with device chamber, one generator is set every a device chamber.
Further include chain tightening mechanism, the chain tightening mechanism is equipped with multiple, multiple chain tightening mechanism annulars
A chain tightening mechanism, the chain tightening mechanism and power generation is arranged in device intracavitary, every a device chamber in array setting
Machine interval is arranged.
The chain tightening mechanism includes first mounting base, two the second mounting bases, swingle, adjusting rod and supports
Sprocket wheel, on the ground, described swingle one end is cut with scissors with the first mounting base for first mounting base, the fixed setting of the second mounting base
Connect, swingle other end setting support sprocket wheel is supported and is rotatablely connected between sprocket wheel and swingle, the support sprocket wheel with it is non-
Standard chain is sequentially connected, and the adjusting rod both ends are equipped with stud, and the swingle is fixedly connected with adjusting rod center,
Second mounting base is equipped with the perforation being adapted with stud, and the stud at the adjusting rod both ends is connected with across perforated thread
Adjusting nut.
First mounting base is equipped with top round seat and bottom round seat, the setting of described swingle one end in top round seat and
Between the round seat of bottom, the top round seat circle centre position, swingle, bottom round seat circle centre position are by inserting axis connection, the swingle
It is dynamic around slotting shaft rotation.
First framework top is protruded, and is set between the top and third framework top end of the first framework protrusion
There is steel pull rod.
The support walking mechanism includes wheel carrier, traveling wheel and fastening bolt, and the wheel carrier top is fixed on non-standard chain
The waist both sides of the outer chain sheet of lower end, are arranged traveling wheel between wheel carrier described in both sides, pass through fastening between wheel carrier described in both sides
Screw bolt and nut is fastened and fixed, and levelling steel plate is equipped at the top of the base flange, and the traveling wheel is run on levelling steel plate.
First framework is the cylindric overall structure being interconnected together by framework montant and connecting rod, one
Framework montant side is divided to be fixedly connected with hack lever, a part of framework montant other side is fixedly connected with third framework.
Second framework is the tubular structure sealed up and down, and the second framework peripheral annular array is equipped with fixed seat
Frame, the fixed mounting are fixedly connected with hack lever.
The prior art is compared, the beneficial effects of the present invention are:
1, the rotating frame of present apparatus rectangular array on support high building rotary motion, third framework is distributed with multiple logical
Air port and retractable blade are each equipped with amplitude limiting device, by using this on the third framework of retractable vane tip
Device when a wind direction carrys out wind (assuming that being south wind), is located on the third framework in east side as shown in Figure of description Fig. 1
Retractable blade is acted on by south wind wind-force, and retractable blade will be opened freely, be in " unlatching " state, after unlatching can
Folding blade makes ventilation opening form vent passages, and south wind is allowed to pass through.When framework goes to west side (having rotated 180 degree), structure
Frame is similarly subjected to southern wind action, and retractable blade is made to be in "Off" state, and retractable blade is formed with third framework and closed
Wind surface, can be rotated clockwise by the effect of wind-force.This it is ensured that the present apparatus west side framework wind-engaging, east side framework is not
By the wind, rotating frame is enable to gyrate down.By above-mentioned principle, no matter any wind direction can make the rotation structure of the present apparatus
Frame gyrates down, to drive the input shaft of generator to rotate by chain and sprocket driving device, generator is made to complete power generation work
Make.The present apparatus is super-huge wind electricity generating system, and support high building diameter is big, therefore chain drive makes to do the suitable kind of drive, no
Suitable for modes such as gear drives.
In conclusion the present apparatus is applied to not influenced by wind direction when power generation, no matter any wind direction can carry out wind energy
Make full use of power generation;And present apparatus wind energy utilization is high, simple in structure, not no complicated workpiece;Using when can basis
Application environment makes the models such as large-scale, super-huge, gradually replaces " thermoelectricity ", " nuclear power ", to national economy transition, low-carbon, environmental protection,
Green, sustainable development, energy-saving and emission-reduction, improvement energy resource structure, raising air quality etc. have very great meaning.
2, the present apparatus is equipped with amplitude limiting device, and amplitude limiting device can control when retractable blade is affected by the wind
Opening degree can thus adjust rotating speed, generator is made to operate steadily.Also retractable blade can be avoided by when high wind
Turn down the bad retractable blade of damage.
3, the first steel ball runway, the second steel ball runway can function similarly to the effect of bearing, the first steel ball runway, second
The setting of steel ball runway can make rotating frame more steady when around support high building rotation, stablize.
4, the present apparatus is additionally provided with blade opening device assembly, and blade opening device assembly is a kind of protective measure, is to meet
It is mandatory that all retractable blades or a part of retractable blade are opened by force when to diastrous weather, make high wind suitable
Profit passes through, protection staff and installation security.In repair, it is all turned on retractable blade.At this moment, suffered by the rotating frame of both sides
The wind-force arrived is identical, and rotating frame can shut down.
5, the present apparatus further includes chain tightening mechanism, and chain tightening mechanism can make Non-standard chain stretching entire non-
Standard chain forms an approximate circle, keeps its running orbit substantially stationary.
Description of the drawings
Attached drawing 1 is concrete structure schematic diagram of the present invention.
Attached drawing 2 is the portions I enlarged drawing in attached drawing 1 of the present invention.
Attached drawing 3 is the portions II enlarged drawing in attached drawing 1 of the present invention.
Attached drawing 4 is the portions III enlarged drawing in attached drawing 1 of the present invention.
Attached drawing 5 is the portions IV enlarged drawing in attached drawing 1 of the present invention.
Attached drawing 6 is chain tightening mechanism in the present invention, generator, traction chain and Non-standard chain kind of drive principle knot
Structure schematic diagram.
Attached drawing 7 is the first frame construction schematic diagram in the present invention.
Attached drawing 8 is blade opening device assembly structure schematic diagram in the present invention.
Attached drawing 9 is rope body mechanism action principle structural schematic diagram in the present invention.
Attached drawing 10 is the second framework in the present invention, hack lever, the first framework, third framework connection type structural schematic diagram.
Attached drawing 11 is chain tightening mechanism structural schematic diagram in the present invention.
Attached drawing 12 is the first mounting base structural schematic diagram in the present invention.
Attached drawing 13 is support chain sprocket structure schematic diagram in the present invention.
Attached drawing 14 is electric generator structure schematic diagram in the present invention.
Label shown in attached drawing:
1, high building is supported;2, generator;3, the first framework;4, the second framework;5, third framework;6, lapping plate;7, first
Steel ball runway;8, hack lever;9, ventilation opening;10, retractable blade;11, amplitude limiting device;12, traction chain;13, non-standard
Chain;14, the second steel ball runway;15, walking mechanism is supported;16, traveling wheel;17, generator sprocket wheel;18, rectangular aperture;19、
High strength light weight waterproof cloth;20, cushion pad;21, cross-bar;22, cylindricality seat;23, internal thread hole;24, trimming bolt;25、
Rubber ball;26, locking nut;27, tablet is supported;28, divide tightrope;29, total tightrope;30, first pulley;31, cable hole;32、
Second pulley;33, wheel cover;34, motor;35, shaft coupling;36, Worm Wheel System case;37, drive shaft;38, reel;
39, rolling bearing units;40, the first track groove;41, the first spin;42, the first track outer track;43, top flange;44, the second rail
Road slot;45, the second spin;46, the second track outer track;47, base flange;48, third track groove;49, third spin;50、
Third track outer track;51, reinforced column;52, device chamber;53, chain tightening mechanism;54, the first mounting base;55,
Two mounting bases;56, swingle;57, adjusting rod;58, sprocket wheel is supported;59, stud;60, adjusting nut;61, top round seat;62、
Bottom round seat;63, steel pull rod;64, wheel carrier;65, fastening bolt;66, outer chain sheet;67, levelling steel plate;68, framework montant;
69, connecting rod;70, fixed mounting.
Specific implementation mode
Present invention will be further explained below with reference to specific examples.It should be understood that these embodiments are merely to illustrate the present invention
Rather than it limits the scope of the invention.In addition, it should also be understood that, after reading the content taught by the present invention, people in the art
Member can make various changes or modifications the present invention, and such equivalent forms equally fall within range defined herein.
Of the present invention is super-huge high-efficiency wind energy generating set, and agent structure includes support high building 1, rotating frame, biography
Dynamic assembly of devices and generator 2, the rotating frame are supported by support high building 1, and the rotating frame is around 1 turn of high building of support
Dynamic, super-huge wind power generation plant must there are one tens meters of diameter, high hundred meters or more of extra-large-size vertical-shaft, this vertical axises
Manufacture, processing, transport it is all very difficult, with support high building 1 replace vertical axis, solve the above problem, inside can integrate
Utilize, inside can be arranged various markets, sightseeing platform tourism.Its addressing should be selected in far from the place other than 350 meters of village, choosing
Location is preferably selected in the place that seabeach, prairie, plateau, estuary etc. are meagrely-populated, wind energy is abundant.The rotation of the rotating frame
The rotation that 2 input shaft of generator can be driven by transmission device assembly, to make generator 2 generate electricity, the support high building 1 is
Round reinforced concrete structure, the rotating frame include the first framework 3, the second framework 4 and third framework 5, first structure
3 inside of frame is equipped with lapping plate 6, and the lapping plate 6 and support high building are equipped with the first steel ball runway 7 between 1 top surface, and the first steel ball is run
Road 7 can function similarly to the effect of bearing, rotating frame can be made more steady when being rotated around support high building 1, surely
It is fixed.The setting of second framework 4 is located at 6 top position of lapping plate, second framework 4 and first in 3 inside of the first framework
It is connected by hack lever 8 between framework 3,5 annular array of the third framework setting is in 3 periphery of the first framework;The third framework 5
Upper rectangular array is equipped with ventilation opening 9 and retractable blade 10, the weight of third framework 5 and retractable blade 10, suffered wind-force and
Torque is all undertaken by the second framework 4.It is equipped with amplitude limiting device on the third framework 5 at 10 top of each retractable blade
11, as shown in Figure of description Fig. 1, assume to be south wind when a wind direction carrys out wind, opening on the third framework 5 in east side
Hing straps 10 are acted on by south wind wind-force, and retractable blade 10 will be opened freely, be in " unlatching " state, after unlatching can
Folding blade 10 makes ventilation opening 9 form vent passages, and south wind is allowed to pass through.When framework, which goes to west side, has rotated 180 degree, structure
Frame is similarly subjected to southern wind action, and retractable blade 10 is made to be in "Off" state, retractable blade 10 and the formation of third framework 5
Closed wind surface can be rotated clockwise by the effect of wind-force.This it is ensured that the present apparatus west side framework wind-engaging, east side structure
Frame by the wind, does not enable rotating frame to gyrate down.By above-mentioned principle, no matter any wind direction can make the rotation of the present apparatus
Turn framework to gyrate down, to drive the input shaft of generator 2 to rotate by chain and sprocket driving device, generator 2 is made to complete
Power generation operation.The transmission device assembly is chain and sprocket driving device comprising traction chain 12 and Non-standard chain 13, the traction
12 one end of chain is connect with 3 inside of the first framework, and 12 other end of the traction chain is connect with Non-standard chain 13, and described first
It is equipped with the second steel ball runway 14 between support high building 1 on the inside of 3 bottom end of framework, the second steel ball runway 14 can function similarly to axis
The effect held can make rotating frame more steady when being rotated around support high building 1, stablize.The Non-standard chain 13
Bottom end is equipped with support walking mechanism 15, and support walking mechanism 15 can be supported Non-standard chain 13.The support walking
The traveling wheel 16 of mechanism 15 circular motion on the second steel ball runway 14 is walked, and the Non-standard chain 13 is outside support high building 1
Surround one it is approximate circle, 2 annular array of the generator be arranged support high building 1 bottom periphery, the generator 2
Input shaft is equipped with and 13 matched generator sprocket wheel 17 of Non-standard chain.When rotating frame rotates, haulage chain can be passed through
Item 12 drives Non-standard chain 13 to move, and the movement of Non-standard chain 13 can drive the rotation of generator sprocket wheel 17, to band
The rotation of 2 input shaft of dynamic generator, makes generator 2 generate electricity.The present apparatus is super-huge wind electricity generating system, supports 1 diameter of high building
Greatly, therefore chain drive makes to do the suitable kind of drive, is unsuitable for modes such as gear drives, solving the base of outsize workpiece
Difficulty, difficult processing transport difficult problem, thus considerably reduce cost, improve economic benefit to greatest extent.The knot of the present apparatus
Structure breaks the whole up into parts, being simple to manufacture, and wind energy utilization is high, can realize that extensive wind power generation, economic benefit are apparent.
The retractable blade 10 is adapted with 9 size of ventilation opening, and the retractable blade 10 is cut with scissors with 9 top of ventilation opening
It connects, retractable blade 10 can only be opened and closed to a direction, and four rectangles that the retractable blade 10 is equipped with sphere of movements for the elephants shape are opened
Mouthfuls 18, high strength light weight waterproof cloth 19 is equipped at the rectangular aperture 18, and 19 light weight of high strength light weight waterproof cloth can
The weight of alleviator significantly, and it is avoided that wind passes through from four rectangular apertures 18, and such retractable blade 10
Simple in structure, cheap, less investment, output are high, can efficiently use wind energy.10 center of retractable blade is equipped with
Cushion pad 20, rubber ball 25 and cushion pad 20 beat when contacting, can reducing collisions when noise, and can protect can
Blade 10 is opened and closed, service life is improved.
The amplitude limiting device 11 includes cross-bar 21, and the cross-bar 21 is cut tiltedly setting with 30~45 degree of angles and can opened
On the third framework 5 at 10 top of hing straps, 21 other end of the cross-bar is equipped with cylindricality seat 22, is equipped in the cylindricality seat 22 interior
Threaded hole 23,23 internal thread of the internal thread hole are connected with trimming bolt 24, and 24 one end of the trimming bolt is equipped with rubber ball 25,
The trimming bolt 24 is equipped with locking nut 26.Screwing trimming bolt 24 by forward direction can make trimming bolt 24 be equipped with rubber
One end of ball 25 is moved to the side of retractable blade 10, can be made on trimming bolt 24 by reversely screwing trimming bolt 24
One end equipped with rubber ball 25 is moved to the side far from retractable blade 10, and being moved to suitable position makes to pass through locking nut again
26 locking positionings.The present apparatus is equipped with amplitude limiting device 11, and amplitude limiting device 11 can control retractable blade 10 by wind-force
Opening degree when influence can thus adjust rotating speed, and generator 2 is made to operate steadily.Also retractable blade 10 can be avoided
Damage badly retractable blade 10 is turned down by when high wind.
Further include blade opening device assembly, each third framework 5 is correspondingly arranged a blade opening device assembly, described
Blade opening device assembly includes driving mechanism and rope body mechanism, and the driving mechanism is arranged in each 5 bottom of third framework
It supports on tablet 27, the rope body mechanism includes dividing tightrope 28 and total tightrope 29, all retractable blades 10 of each column right
The total tightropes 29 of Ying Yigen, each retractable blade 10 correspond to a point of tightrope 28, the third structure at 10 top of each retractable blade
First pulley 30 and cable hole 31 are equipped on frame 5, the trimming bolt 24 is equipped with second pulley 32 far from 25 one end of rubber ball
Setting with wheel cover 33, wheel cover 33 can make 28 fiber of point tightrope between the wheel face and wheel cover 33 of second pulley 32, avoid point
Tightrope 28 falls off from second pulley 32, described that tightrope 28 is divided to pass around first pulley 30 successively far from 29 one end of total tightrope, walk
Gap is connect with 10 bottom end of retractable blade between string holes 31, second pulley 32 and wheel cover 33,29 bottom end of total tightrope and drive
Motivation structure connects, and driving mechanism can control moving down and moving up for total tightrope 29.Driving mechanism pulls total tightrope 29, total tightrope 29
And then each point of tightrope 28 is pulled, retractable blade 10 can be opened.
The driving mechanism includes motor 34, shaft coupling 35, Worm Wheel System case 36, drive shaft 37 and reel
38,34 output end of the motor passes through the input axis connection of shaft coupling 35 and Worm Wheel System case 36, the worm and gear
The output end of transmission case 36 is sequentially connected with drive shaft 37, and the reel 38 is arranged in drive shaft 37, and the driving turns
Rolling bearing units 39 are additionally provided on axis 37;29 bottom end of total tightrope is connect with reel 38, and the rotation of reel 38 can drive total soft
Rope 29 moving down and moving up.The rotation of drive shaft 37 can make total tightrope 29 on reel 38, or total tightrope 29 is from volume
It unclamps, retractable blade 10 can be opened when total tightrope 29 is on reel 38, total tightrope 29 is from reel 38 on cylinder 38
When release, under 10 gravity of retractable blade, point tightrope 28 can be pulled, tightrope 28 is divided to pull total tightrope 29, it is retractable
When 9 EDGE CONTACT of ventilation opening of blade 10 and third framework 5, tightrope 28 is divided just no longer to pull total tightrope 29.The present apparatus is additionally provided with
Blade opening device assembly, blade opening device assembly is a kind of protective measure, is mandatory when encountering diastrous weather
All retractable blades 10 or a part of retractable blade 10 are opened by force, and high wind is allowed to pass through, and protection staff and are set
Apply safety.In repair, it is all turned on retractable blade 10.At this moment, the wind-force suffered by the rotating frame of both sides is identical, rotation
Framework can shut down.
The first steel ball runway 7 includes top surface runway and first side runway, and the top surface runway is arranged in support tower
1 top of building, the top surface runway are equipped with two layers, and top surface runway is used for bearing the weight of entire rotating frame, so being arranged
It it is two layers, the top surface runway includes the first track groove 40, the first spin 41 and the first track outer track 42, first track
The setting of slot 40 is arranged in 1 top surface of support high building, the first track outer track 42 in 6 bottom surface of lapping plate, first spin 41
Limit is arranged in the first track groove 40, and the first track outer track 42 is overlapped on 41 top of the first spin;The support
1 top of high building is equipped with top flange 43, and the first side runway includes the second track groove 44, the second spin 45 and the second track
Outer track 46, in 43 side of top flange, the second track outer track 46 is arranged first for the setting of the second track groove 44
The medial surface of framework 3, second spin 45 limit are arranged in the second track groove 44, and the second track outer track 46 with
Second spin, 45 position is adapted.The top surface runway of first steel ball runway 7 assumes responsibility for the first framework 3, the second framework 4, third structure
The total weight of frame 5, setting make the rotating frame of rotation be carried out in the case of rolling friction, be conducive to improve efficiency.
1 bottom of support high building is equipped with base flange 47, and the second steel ball runway 14 includes third track groove 48, the
Three spin 49 and third track outer track 50, the third track groove 48 are arranged in 47 side of base flange, the third track
The medial surface in the first framework 3 is arranged in outer track 50, and the limit of third spin 49 is arranged in third track groove 48, and described
Third track outer track 50 is adapted with 49 position of third spin.First steel ball runway 7, the second steel ball runway 14 can play class
It is similar to the effect of bearing, the setting of the first steel ball runway 7, the second steel ball runway 14 can make rotating frame around support high building
It is more steady when 1 rotation, stablize.
The 1 base circle array of support high building is equipped with several reinforced columns 51, the adjacent reinforced column
It is equipped with device chamber 52 between 51, a generator 2 is set every a device chamber 52.Further include chain tightening mechanism 53, it is described
Chain tightening mechanism 53 is equipped with multiple, and multiple 53 annular arrays of chain tightening mechanism are arranged in device chamber 52, Mei Geyi
A chain tightening mechanism 53 is arranged in a device chamber 52, and the chain tightening mechanism 53 is arranged with the interval of generator 2.Chain stretching
13 stretching of Non-standard chain can be made entire Non-standard chain 13 form an approximate circle, its made to run rail by mechanism 53
Mark is substantially stationary.
The chain tightening mechanism 53 includes 54, two the second mounting bases 55 of first mounting base, swingle 56, adjusts
Bar 57 and support sprocket wheel 58, first mounting base 54, the second mounting base 55 are fixedly installed on the ground, the swingle 56 1
End is hinged with the first mounting base 54,56 other end of the swingle and setting support sprocket wheel 58, support sprocket wheel 58 and swingle 56
Between be rotatablely connected, the support sprocket wheel 58 and Non-standard chain 13 are sequentially connected, and 57 both ends of the adjusting rod are equipped with stud
59, the swingle 56 is fixedly connected with 57 center of adjusting rod, and second mounting base 55 is equipped with suitable with 59 phase of stud
The stud 59 of the perforation answered, 57 both ends of the adjusting rod is connected with adjusting nut 60 across perforated thread.Chain tightening mechanism 53
13 stretching of Non-standard chain can be become to an approximate circle, this approximate circle chain is arranged in 1 bottom of support high building
Around portion.By adjusting the relative position between adjusting rod 57 and two the second mounting bases 55, can drive swingle 56 around
The rotation of the first mounting base 54, to make the 58 stretching Non-standard chain 13 of support sprocket wheel of 56 other end of swingle, is then twisted again
Adjusting nut 60 in tight two the second mounting bases 55 to fix 57 position of adjusting rod, and then makes entire chain stretching machine
The position of structure 53 is fixed.
First mounting base 54 is equipped with top round seat 61 and bottom round seat 62, and the setting of 56 one end of the swingle is being pushed up
Between portion's round seat 61 and bottom round seat 62,61 circle centre position of top round seat, swingle 56,62 circle centre position of bottom round seat are by inserting
Axis connection, the swingle 56 are dynamic around slotting shaft rotation.
First framework, 3 top protrusion, the top that first framework 3 protrudes and 5 top end of third framework it
Between be equipped with steel pull rod 63.Steel pull rod 63 can give 5 top end of third framework to provide a pulling force, improve the strong of device
Degree.
The support walking mechanism 15 includes wheel carrier 64, traveling wheel 16 and fastening bolt 65, and 64 top of the wheel carrier is fixed
In the waist both sides of the outer chain sheet 66 of 13 lower end of Non-standard chain, traveling wheel 16, both sides institute are set between wheel carrier 64 described in both sides
It states and is fastened and fixed by fastening bolt 65 and nut between wheel carrier 64,47 top of the base flange is equipped with levelling steel plate 67, institute
Traveling wheel 16 is stated to run on levelling steel plate 67.The weight of Non-standard chain 13 is born by support walking mechanism 15, rotating frame
Rotation drives Non-standard chain 13 to be rotated around support high building 1 by traction chain 12, and traveling wheel 16 also can be in the process
It is moved on levelling steel plate 67, traveling wheel 16 is hard rubber wheel.
First framework 3 is the whole knot of cylindrical shape being interconnected together by framework montant 68 and connecting rod 69
Structure can mitigate the weight of the first framework 3 significantly in this way, to the dead weight of alleviator.A part of framework montant 68 1
Side is fixedly connected with hack lever 8, and a part of 68 other side of framework montant is fixedly connected with third framework 5.
Second framework 4 is the tubular structure sealed up and down, and second framework, 4 peripheral annular array, which is equipped with, to be fixed
Mounting 70, the fixed mounting 70 are fixedly connected with hack lever 8.Second framework 4, which is the tubular structure sealed up and down, to be increased
The intensity of second framework 4, to the safer weight for bearing third framework 5.
Embodiment:
Of the present invention is super-huge high-efficiency wind energy generating set, and agent structure includes support high building 1, rotating frame, biography
Dynamic assembly of devices and generator 2, the rotating frame are supported by support high building 1, and the rotating frame is around 1 turn of high building of support
It is dynamic, the addressing of the present apparatus is selected in wind energy resources are sufficient, the signs of human habitation are less, communications and transportation is easily local, repaiies 2 kilometers or so of public affairs
Road can reach, if regional by the sea, 1 inside of support high building can develop marine product market, tourist market, simple aquarium etc.,
Top layer is sightseeing platform for tourist's sightseeing, 30 meters of 1 diameter of support high building, 100 meters high.The rotation of the rotating frame is logical
It is round reinforced concrete structure to cross transmission device assembly and can drive the rotation of 2 input shaft of generator, the support high building 1,
The rotating frame include the first framework 3, the second framework 4 and third framework 5, the first framework 3 be arranged 18, high 160 meters or so,
First framework, 3 inside is equipped with lapping plate 6, and the lapping plate 6 and support high building are equipped with the first steel ball runway 7 between 1 top surface,
The setting of second framework 4 is located at 6 top position of lapping plate, second framework, 4 and first structure in 3 inside of the first framework
It is connected by hack lever 8 between frame 3,5 annular array of the third framework setting is pushed up in 3 periphery of the first framework, first framework 3
End is protruded, and steel pull rod 63 is equipped between 5 top end of top and third framework that first framework 3 protrudes, to prevent
5 outer edge of third framework is sagging.Four rows, ten row rectangular array is equipped with ventilation opening 9 and retractable blade 10 on the third framework 5,
It is equipped with amplitude limiting device 11 on the third framework 5 at 10 top of each retractable blade;The transmission device assembly passes for chain
Dynamic device comprising traction chain 12 and Non-standard chain 13,12 one end of the traction chain are connect with 3 inside of the first framework,
12 other end of the traction chain is connect with Non-standard chain 13, is set between support high building 1 on the inside of 3 bottom end of the first framework
There are the second steel ball runway 14,13 bottom end of the Non-standard chain to be equipped with support walking mechanism 15, the support walking mechanism 15
The circular motion on the second steel ball runway 14 of traveling wheel 16 is walked, and the Non-standard chain 13 surrounds one in 1 periphery of support high building
A approximate circle, 2 annular array of the generator is arranged in the bottom periphery for supporting high building 1, the input shaft of the generator 2
Equipped with 13 matched generator sprocket wheel 17 of Non-standard chain.The retractable blade 10 is adapted with 9 size of ventilation opening, institute
It states retractable blade 10 and 9 top of ventilation opening is hinged, the retractable blade 10 is equipped with four rectangular apertures of sphere of movements for the elephants shape
18, high strength light weight waterproof cloth 19 is equipped at the rectangular aperture 18,10 center of retractable blade is equipped with buffering
Pad 20.The amplitude limiting device 11 includes cross-bar 21, and 21 one end of the cross-bar is arranged at 10 top of retractable blade
On third framework 5,21 other end of the cross-bar is equipped with cylindricality seat 22, and internal thread hole 23 is equipped in the cylindricality seat 22, described
23 internal thread of internal thread hole is connected with trimming bolt 24, and 24 one end of the trimming bolt is equipped with rubber ball 25, the trimming bolt
24 are equipped with locking nut 26.Further include blade opening device assembly, each third framework 5 is correspondingly arranged a blade and opens dress
Assembly is set, the blade opening device assembly includes driving mechanism and rope body mechanism, and the driving mechanism is arranged in each third
On the support tablet 27 of 5 bottom of framework, the rope body mechanism includes that tightrope 28 and total tightrope 29, all of each column is divided to open
Hing straps 10 correspond to a total tightrope 29, and each retractable blade 10 corresponds to a point of tightrope 28, and each retractable blade 10 pushes up
First pulley 30 and cable hole 31 are equipped on the third framework 5 in portion, the trimming bolt 24 is equipped with far from 25 one end of rubber ball
Second pulley 32 and wheel cover 33, it is described divide tightrope 28 far from 29 one end of total tightrope passed around successively first pulley 30, cable hole 31,
Gap is connect with 10 bottom end of retractable blade between second pulley 32 and wheel cover 33, and 29 bottom end of total tightrope connects with driving mechanism
It connects, driving mechanism can control moving down and moving up for total tightrope 29.The driving mechanism includes motor 34, shaft coupling 35, snail
Worm and gear transmission case 36, drive shaft 37 and reel 38,34 output end of the motor are passed by shaft coupling 35 and worm and gear
The input axis connection of dynamic case 36, output end and the drive shaft 37 of the Worm Wheel System case 36 are sequentially connected, the reel
38 are arranged in drive shaft 37, and rolling bearing units 39 are additionally provided in the drive shaft 37;29 bottom end of total tightrope and reel
38 connections, the rotation of reel 38 can drive moving down and moving up for total tightrope 29.The first steel ball runway 7 includes top surface runway
With first side runway, the top surface runway setting is equipped with two layers in 1 top of support high building, the top surface runway, the top surface
Runway includes the first track groove 40, the first spin 41 and the first track outer track 42, and the setting of the first track groove 40 is supporting
1 top surface of high building, the setting of the first track outer track 42 are arranged in 6 bottom surface of lapping plate, the limit of the first spin 41 first
In track groove 40, and the first track outer track 42 is overlapped on 41 top of the first spin;1 top of the support high building is equipped with top
Portion's flange 43, the first side runway include the second track groove 44, the second spin 45 and the second track outer track 46, and described the
Two track grooves 44 are arranged in 43 side of top flange, and the medial surface in the first framework 3, institute is arranged in the second track outer track 46
It states the limit of the second spin 45 to be arranged in the second track groove 44, and the second track outer track 46 and 45 position phase of the second spin
It adapts to.1 bottom of support high building is equipped with base flange 47, and the second steel ball runway 14 includes third track groove 48, third
Spin 49 and third track outer track 50, the third track groove 48 are arranged outside 47 side of base flange, the third track
Runway 50 is arranged the medial surface in the first framework 3, and the limit of third spin 49 is arranged in third track groove 48, and described the
Three track outer tracks 50 are adapted with 49 position of third spin.The 1 base circle array of support high building is mixed equipped with several reinforcing bars
Earth pillar 51 is coagulated, device chamber 52 is equipped between the adjacent reinforced column 51, a power generation is set every a device chamber 52
Machine 2.Further include chain tightening mechanism 53, the chain tightening mechanism 53 is equipped with multiple, multiple 53 rings of chain tightening mechanism
Shape array is arranged in device chamber 52, and a chain tightening mechanism 53, the chain stretching machine is arranged every a device chamber 52
Structure 53 is arranged with the interval of generator 2.The chain tightening mechanism 53 includes 54, two the second mounting bases of first mounting base
55, swingle 56, adjusting rod 57 and support sprocket wheel 58, first mounting base 54, the second mounting base 55 are fixed at ground
On, 56 one end of the swingle is hinged with the first mounting base 54,56 other end of the swingle and setting support sprocket wheel 58, support
It is rotatablely connected between sprocket wheel 58 and swingle 56, the support sprocket wheel 58 is sequentially connected with Non-standard chain 13, the adjusting rod
57 both ends are equipped with stud 59, and the swingle 56 is fixedly connected with 57 center of adjusting rod, in second mounting base 55
Equipped with the perforation being adapted with stud 59, the stud 59 at 57 both ends of the adjusting rod is connected with adjusting nut across perforated thread
60.First mounting base 54 is equipped with top round seat 61 and bottom round seat 62, and the setting of 56 one end of the swingle is justified at top
Between seat 61 and bottom round seat 62,61 circle centre position of top round seat, swingle 56,62 circle centre position of bottom round seat are connected by inserting axis
It connects, the swingle 56 is dynamic around slotting shaft rotation.First framework, 3 top protrusion, the top that first framework 3 protrudes with
Steel pull rod 63 is equipped between 5 top end of third framework.The support walking mechanism 15 includes wheel carrier 64, traveling wheel 16 and tight
Fixing bolt 65,64 top of the wheel carrier are fixed on the waist both sides of the outer chain sheet 66 of 13 lower end of Non-standard chain, are taken turns described in both sides
Traveling wheel 16 is set between frame 64, is fastened and fixed by fastening bolt 65 and nut between wheel carrier 64 described in both sides, the bottom
47 top of flange is equipped with levelling steel plate 67, and the traveling wheel 16 is run on levelling steel plate 67.First framework 3 is to pass through structure
The cylindric overall structure that frame montant 68 and connecting rod 69 are interconnected together, a part of 68 side of framework montant and frame
Bar 8 is fixedly connected, and a part of 68 other side of framework montant is fixedly connected with third framework 5.Second framework 4 is upper and lower
The tubular structure sealed, second framework, 4 peripheral annular array are equipped with fixed mounting 70, the fixed mounting 70 and hack lever
8 are fixedly connected.
Claims (15)
1. super-huge high-efficiency wind energy generating set, including support high building (1), rotating frame, transmission device assembly and generator
(2), the rotating frame is supported by support high building (1), and the rotating frame is rotated around support high building (1), the rotation
The rotation of framework can drive the rotation of generator (2) input shaft by transmission device assembly, it is characterised in that:The support tower
Building (1) is round reinforced concrete structure, and the rotating frame includes the first framework (3), the second framework (4) and third framework
(5), lapping plate (6) is equipped on the inside of first framework (3), equipped with the between the lapping plate (6) and support high building (1) top surface
One steel ball runway (7), the second framework (4) setting are located at lapping plate (6) top position, institute on the inside of the first framework (3)
It states and is connect by hack lever (8) between the second framework (4) and the first framework (3), third framework (5) annular array setting is the
One framework (3) periphery;Rectangular array is equipped with ventilation opening (9) and retractable blade (10) on the third framework (5), can each open
It is equipped with amplitude limiting device (11) on third framework (5) at the top of hing straps (10);The transmission device assembly is chain drive
Device comprising traction chain (12) and Non-standard chain (13), described traction chain (12) one end and the first framework (3) inside
Connection, traction chain (12) other end are connect with Non-standard chain (13), on the inside of the first framework (3) bottom end and are supported
The second steel ball runway (14) is equipped between high building (1), Non-standard chain (13) bottom end is equipped with support walking mechanism (15), institute
State support walking mechanism (15) traveling wheel (16) on the second steel ball runway (14) circular motion walk, the Non-standard chain
(13) support high building (1) periphery surround one it is approximate circle, generator (2) annular array setting is in support high building (1)
Bottom periphery, the input shaft of the generator (2) is equipped with and the matched generator sprocket wheel (17) of Non-standard chain (13).
2. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:The retractable blade (10) with
Ventilation opening (9) size is adapted, the retractable blade (10) and hinged at the top of ventilation opening (9), the retractable blade (10)
Four rectangular apertures (18) of sphere of movements for the elephants shape are equipped with, high strength light weight waterproof cloth is equipped at the rectangular aperture (18)
(19), retractable blade (10) center is equipped with cushion pad (20).
3. super-huge high-efficiency wind energy generating set according to claim 2, it is characterised in that:The amplitude limiting device (11)
It is described on the third framework (5) that described cross-bar (21) one end is arranged at the top of retractable blade (10) including cross-bar (21)
Cross-bar (21) other end is equipped with cylindricality seat (22), and internal thread hole (23), the internal thread hole are equipped in the cylindricality seat (22)
(23) internal thread is connected with trimming bolt (24), and described trimming bolt (24) one end is equipped with rubber ball (25), the trimming bolt
(24) it is equipped with locking nut (26).
4. super-huge high-efficiency wind energy generating set according to claim 3, it is characterised in that:Further include that blade opening device is total
At each third framework (5) is correspondingly arranged a blade opening device assembly, and the blade opening device assembly includes driving machine
Structure and rope body mechanism, the driving mechanism are arranged on the support tablet (27) of each third framework (5) bottom, the rope body machine
Structure includes dividing tightrope (28) and total tightrope (29), and all retractable blades (10) of each column correspond to a total tightrope (29), each
Retractable blade (10) corresponds to a point of tightrope (28), is equipped on the third framework (5) at the top of each retractable blade (10)
First pulley (30) and cable hole (31), the trimming bolt (24) far from rubber ball (25) one end be equipped with second pulley (32) and
Wheel cover (33), it is described that tightrope (28) is divided to pass around first pulley (30), cable hole (31), the successively far from total tightrope (29) one end
Gap is connect with retractable blade (10) bottom end between two pulleys (32) and wheel cover (33), total tightrope (29) bottom end and driving
Mechanism connects, and driving mechanism can control moving down and moving up for total tightrope (29).
5. super-huge high-efficiency wind energy generating set according to claim 4, it is characterised in that:The driving mechanism includes electronic
Machine (34), shaft coupling (35), Worm Wheel System case (36), drive shaft (37) and reel (38), the motor (34) are defeated
Outlet by the input axis connection of shaft coupling (35) and Worm Wheel System case (36), the Worm Wheel System case (36) it is defeated
Outlet is sequentially connected with drive shaft (37), and the reel (38) is arranged in drive shaft (37), the drive shaft (37)
On be additionally provided with rolling bearing units (39);Total tightrope (29) bottom end is connect with reel (38), and the rotation of reel (38) can drive
Total tightrope (29) moving down and moving up.
6. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:The first steel ball runway (7)
Including top surface runway and first side runway, at the top of support high building (1), the top surface runway is equipped with for the top surface runway setting
Two layers, the top surface runway include the first track groove (40), the first spin (41) and the first track outer track (42), described first
Track groove (40) setting is arranged in support high building (1) top surface, the first track outer track (42) in lapping plate (6) bottom surface, institute
The first spin (41) limit setting is stated in the first track groove (40), and the first track outer track (42) is overlapped on the first rolling
At the top of ball (41);Top flange (43) is equipped at the top of the support high building (1), the first side runway includes the second track groove
(44), the second spin (45) and the second track outer track (46), second track groove (44) are arranged in top flange (43) side
Face, in the medial surface of the first framework (3), the second spin (45) limit, which is arranged, to exist for the second track outer track (46) setting
In second track groove (44), and the second track outer track (46) is adapted with the second spin (45) position.
7. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:Support high building (1) bottom
Equipped with base flange (47), the second steel ball runway (14) includes third track groove (48), third spin (49) and third rail
Road outer track (50), the third track groove (48) are arranged in base flange (47) side, the third track outer track (50)
Medial surface in the first framework (3) is set, third spin (49) the limit setting is in third track groove (48), and described the
Three track outer tracks (50) are adapted with third spin (49) position.
8. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:Support high building (1) bottom
Annular array is equipped with several reinforced columns (51), and device chamber (52) is equipped between the adjacent reinforced column (51),
Every a device chamber (52), a generator (2) is set.
9. super-huge high-efficiency wind energy generating set according to claim 8, it is characterised in that:It further include chain tightening mechanism
(53), the chain tightening mechanism (53) is equipped with multiple, and multiple chain tightening mechanism (53) annular arrays are arranged in device
In chamber (52), a chain tightening mechanism (53), the chain tightening mechanism (53) and hair are set every a device chamber (52)
The setting of motor (2) interval.
10. super-huge high-efficiency wind energy generating set according to claim 9, it is characterised in that:The chain tightening mechanism
(53) include first mounting base (54), two the second mounting bases (55), swingle (56), adjusting rod (57) and support sprocket wheel
(58), first mounting base (54), the second mounting base (55) fixed setting on the ground, described swingle (56) one end and the
One mounting base (54) is hinged, swingle (56) other end setting support sprocket wheel (58), support sprocket wheel (58) and swingle
(56) it is rotatablely connected between, the support sprocket wheel (58) is sequentially connected with Non-standard chain (13), adjusting rod (57) both ends
It is equipped with stud (59), the swingle (56) is fixedly connected with adjusting rod (57) center, second mounting base (55)
It is equipped with the perforation being adapted with stud (59), the stud (59) at adjusting rod (57) both ends is connected with tune across perforated thread
Save nut (60).
11. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:First mounting base (54)
It is equipped with top round seat (61) and bottom round seat (62), swingle (56) one end setting is justified in top round seat (61) and bottom
Seat (62) between, top round seat (61) circle centre position, swingle (56), bottom round seat (62) circle centre position by insert axis connection,
The swingle (56) is dynamic around slotting shaft rotation.
12. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:First framework (3) top
Protrusion is equipped with steel pull rod (63) between the top and third framework (5) top end of the first framework (3) protrusion.
13. super-huge high-efficiency wind energy generating set according to claim 7, it is characterised in that:The support walking mechanism
(15) include wheel carrier (64), traveling wheel (16) and fastening bolt (65), wheel carrier (64) top is fixed on Non-standard chain
(13) the waist both sides of the outer chain sheet (66) of lower end, setting traveling wheel (16) between wheel carrier (64) described in both sides are taken turns described in both sides
It is fastened and fixed by fastening bolt (65) and nut between frame (64), levelling steel plate is equipped at the top of the base flange (47)
(67), the traveling wheel (16) is run on levelling steel plate (67).
14. super-huge high-efficiency wind energy generating set according to claim 1, it is characterised in that:First framework (3) is logical
Cross the cylindric overall structure that framework montant (68) and connecting rod (69) are interconnected together, a part of framework montant
(68) side is fixedly connected with hack lever (8), and a part of framework montant (68) other side is fixedly connected with third framework (5).
15. according to super-huge high-efficiency wind energy generating set described in claim 14, it is characterised in that:Second framework (4) is
The tubular structure sealed up and down, the second framework (4) peripheral annular array are equipped with fixed mounting (70), the fixed mounting
(70) it is fixedly connected with hack lever (8).
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CN110763584A (en) * | 2019-11-17 | 2020-02-07 | 汪亚平 | Road and bridge concrete structure real-time detection device |
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CN1851259A (en) * | 2005-06-02 | 2006-10-25 | 王伟 | Ultra-large integrated horizontal shaft magnetic suspension high-altitude wind turbine |
CN1851258A (en) * | 2006-05-25 | 2006-10-25 | 刘运超 | Oblique axis type windpower generating unit |
CN101270722A (en) * | 2007-06-06 | 2008-09-24 | 李世展 | Chain sail wind motor and method for outputting power by wind power |
CN101566138A (en) * | 2009-05-15 | 2009-10-28 | 宜昌神风科技有限公司 | Supporting mechanism of vertical shaft type wind power generator |
US20120126542A1 (en) * | 2009-07-16 | 2012-05-24 | Yunhe Deng | Vertical Wind Power Generator |
CN106438210A (en) * | 2015-08-10 | 2017-02-22 | 方祖彭 | Wind collecting type wind power hub electricity generation station power station |
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CN110763584A (en) * | 2019-11-17 | 2020-02-07 | 汪亚平 | Road and bridge concrete structure real-time detection device |
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