CN103629052A - Tree-shaped wind power generation assembly - Google Patents

Abstract

The invention discloses a tree-shaped wind power generation assembly, which consists of a Mongolian yurt-style plant, a transmission shaft, a supporting structure, fulcrum shafts, windiness blades, a transmission mechanism, a controller, a clutch and a vertical generator erection bridge plate. The Mongolian yurt-style plant is used for installing and managing the power generation assembly; the windiness blades is used for inducing wind power; the transmission shaft is used for transmitting torque; the controller and the clutch are used for controlling the operation of generators. The tree-shaped wind power generation assembly can be built on wind power-rich lands, such as bare hills and mountains, mountain tops, highways and railways and beside rivers and lakes, also can be built in wind power-rich water sides or shallow water, such as sea islands, coasts, beaches and the like, and also can be built on roofs. A power plant cab be built in a manner that multiple vertical generators are driven by using one tree-shaped wind power generation assembly, and the multiple tree-shaped wind power generation assemblies can form a power generation zone to supply generated energy of night wind power to night electric equipment, or supply the supply generated energy of the night wind power to rectification and energy storage power plants.

Description

Tree-shaped wind generating unit

Technical field

The invention belongs to natural energy and utilize technical field, is to utilize wind-force to carry out the technology of centralized power generation, Here it is tree-shaped wind generating unit.

Background technique

Existing wind-power electricity generation is the pole that uses a Gen Gaogao, and a transverse axis is installed on pole top, and several air blades that are subject to are installed on transverse axis, blowing area of blade is little, the utilization ratio of wind energy is extremely low, in order to increase generated energy, holds up high pole everywhere, one perpendicular be exactly one large time, be on a grand scale, drop into a lot, seem very grand, its generating capacity is but very little, and management is got up very difficult.

In order to change the status of an existing wind power generation apparatus, in order to effectively utilize wind energy, the present invention provides a wind power generation device tree, trying to wind together, like a tree, a tree is a wind power generation device tree power plants, a row of trees is a wind power plant with a generation that China is a country rich in wind energy, high mountains all over the country, criss-crossing rivers and roads, with more than twenty thousand kilometers (including the islands) of coastline, with star Roach cloth islands, which are wind-rich areas, if in these places since the building of the tree wind power installations, not only can significantly reduce energy consumption underground, greatly reducing environmental pollution, greatly reducing dust snowstorm, which is a term benefit of future generations, and new technologies all mankind.

Summary of the invention

A kind of tree-shaped wind power generation plant is by mongolia yurt type factory building, power transmission shaft (defeated torque axis and product torque axis assembly), supporting structure, fulcrum, blade catches the wind, transmission mechanism, controller, clutch and vertical type generator are installed bridge plate and are formed, with mongolia yurt type factory building, carry out setup and manage generating equipment, with supporting structure, carry out supporting shaft, with power transmission shaft, carry out transfer of torque, with fulcrum, bear centrifugal force and output torque, with catching the wind, blade is attracted wind-force, with controller, handle the rotation of power transmission shaft, with the moment of torsion that transmission mechanism obtains power transmission shaft, pass to vertical type generator generating, with clutch, control running or the stall of vertical type generator, tree-shaped wind power generation plant can be built on bare hills and mountains, mountain top, highway, railway, the land that the wind-force such as the side of rivers and lakes are abundant, also can build island in, seashore, in waterside or shallow water that the wind-force such as seabeach are abundant, also can build on roof, if tree-shaped wind force device is installed on sports equipment, only a torsion pass need be set between wind power transmission wind axle and sports equipment power transmission shaft, shaft joint, sports equipment just can obtain wind energy power, with a tree-shaped wind power generation plant, drive many vertical type generators, just can build up a power plant, a plurality of tree-shaped wind power generation plants just will form a generating band, at siting, build a reinforced concrete basis, in the centre on this piece reinforced concrete basis, build the supporting structure of tree-shaped wind power generation plant power transmission shaft lower fulcrum, the supporting structure of power transmission shaft lower fulcrum consists of an important actor dish type pedestal and a supporting disk, fine finishining members both, the important actor centre bore of important actor dish type pedestal is the mount pad of thrust bearing, the center of mount pad basal plane is provided with and the moving centre bore coordinating of defeated torque axis hypomere axle, the installation base surface of thrust bearing exceeds the upper surface of important actor dish type pedestal annular disk body, the aperture surface of mount pad basal plane centre bore and important actor centre bore, important actor external diameter surface has axiality requirement, mount pad basal plane, important actor upper end anchor ring, annular disk body upper surface and aperture surface have perpendicularity requirement, the degree of depth of important actor centre bore is greater than the thickness of thrust bearing and defeated torque axis hypomere disk body, the corresponding important actor external diameter surface set angle of thrust bearing installation base surface position is provided with lubricating oil return hole, the upper surface of annular disk body is provided with the hole of cement injection mortar, at the diameter place of its setting, be provided with equal strap riffled tube of a circle or multi-turn, internal thread pipe welds with the upper and lower port of annular disk body corresponding aperture mouth respectively, the center line of internal thread pipe is vertical with the upper surface of annular disk body, its upper end mouth of pipe and annular disk body upper surface flush, important actor dish type pedestal with internal thread pipe is placed into the place, centre on reinforced concrete basis, with ring surface under annular disk body, disk body cylinder, the bar-mat reinforcement welding at internal thread pipe external diameter face and place, centre, bar-mat reinforcement cement injection mortar by from the hole on annular disk body to centre, keep annular disk body upper ring surface to solidify in level to cement mortar, important actor dish type pedestal and reinforced concrete basis are connected and fixed to be integral, take important actor centre bore as benchmark, the radially position of setting at periphery is by radial distribution, build respectively two reinforced concrete parapets that many vertical type generators are installed, every two reinforced concrete parapets are by setting height classification,This size of setting between the high annular groove with on the transmission rotating cylinder being sleeved on defeated torque axis matches in horizontal plane, at parapet upper surface, place is embedded with steel component, steel component will be connected and fixed with the bridge plate that locating vertical type generator is installed, keeping the upright supporting disk of power transmission shaft is that a band is installed disk body, the member of three sections of cylindrical shells, the inside diameter surface of three sections of cylindrical shells has axiality requirement, and there is perpendicularity requirement with installation disk body annular bottom surface, the hole that card is provided with on important actor dish type pedestal, a circle or multi-turn applicator tube internal thread hole match of disk body is installed, lower surface and the laminating of important actor dish type pedestal upper surface of disk body are installed, the external diameter surface interference fits of the inside diameter surface of the large footpath of supporting disk hypomere cylindrical shell and important actor dish type pedestal important actor, which is provided with the radial hole matching with spill port, its aperture is greater than the spill port aperture on important actor dish type pedestal important actor, the inside diameter surface of supporting disk stage casing central diameter cylindrical shell is Yu Roll pearl bearing outer race interference fit, the aperture Shen Du of central diameter cylindrical shell is Yu the axial dimension of Roll pearl bearing is suitable, the inside diameter surface of supporting disk epimere path cylindrical shell and sleeve bearing external diameter surface interference fit, on the cylinder of nearly upper port, be provided with the radial hole that lubricating oil pipe nipple is installed, at sleeve bearing epimere external diameter, corresponding to radial hole place, be provided with annular groove one, around annular groove, be provided with uniform lubricating oil oil filler point, in sleeve bearing upper surface, be provided with the seal washer that block resistance lubricating oil overflows, seal washer is provided with the hole that the circle screw hole on the upper surface with sleeve bearing matches, the packing ring of pushing down seal washer is also provided with the hole of matching with this circle screw hole, by the supporting structure of lower fulcrum, support and keep the lower end part of the upright defeated torque axis of power transmission shaft, be provided with successively from bottom to top through mount pad basal plane centre bore, the hypomere axle of thrust bearing centre bore, hypomere axle with through aperture surface is moving, coordinate, hypomere is axially provided with the lower disk body of defeated torque axis, the lower anchor ring of lower disk body matches with thrust shaft bearing surface, the cylinder of lower disk body moves and coordinates with the aperture surface of important actor dish type pedestal important actor centre bore, the upper ring surface of lower disk body flushes with important actor upper ring surface, lower disk body top is provided with the Roll pearl inner bearing ring being installed in supporting disk, the moving stepped cylinder coordinating of sleeve bearing inside diameter surface, stepped cylinder top is provided with the outer spline section with transmission rotating cylinder internal spline suit, the upper-end part of driving of defeated torque axis, be provided with successively from the top down and the moving axiality section coordinating of the lower end part sleeve sections inside diameter surface that produces torque axis, be provided with the external splines being slidably matched with transmission torque sleeve internal spline, the upper-end part of driving of transmission torque sleeve is provided with a circle radial teeth, radially teeth groove below is provided with a step disk body, the lower anchor ring of step disk body be set in transmission torque sleeve outer diameter cylinder Shang Roll pearl annular slab and match, on transmission torque sleeve, move, this circle radial teeth and the radially teeth groove interlock of producing torque axis lower sleeve portion section port, transmission torque sleeve moves down this and encloses teeth groove radially and just throw off with the radially teeth groove that produces torque axis lower sleeve portion section port, moving up and down by being located at the centrifugal force controlled device producing on the outer diametric plane of torque axis lower sleeve portion section of transmission torque sleeve carried out, thrust bearing is installed in the bearing block of important actor dish type pedestal, the hypomere cylinder of defeated torque axis is passed to important actor centre bore, thrust bearing centre bore and basal plane centre bore,Allow the function surface of defeated torque axis match with the corresponding surface of important actor dish type pedestal, by the Hao Roll pearl of An Zhuan bearing, the supporting disk of sleeve bearing installs to the upper end surface of important actor dish type pedestal important actor from defeated torque axis upper end cover, radial hole on it is aimed at the spill port on important actor dish type pedestal important actor, make on hole on its supporting disk and important actor dish type pedestal uniform one, or multi-turn gas pipe thread hole is aimed at, supporting disk is installed on important actor dish type pedestal, allow its function surface and important actor dish type pedestal, match in the correspondence surface of defeated torque axis, keeping under defeated torque axis plumbness condition, with screw, be screwed in gas pipe thread pore, the transmission rotating cylinder that cover is had to many steel wire rope posts (pearl) chain band, its internal spline of transmission torque sleeve of Tao Zhuan You Roll pearl annular slab, be set with on the external splines that defeated torque axis is corresponding, important actor dish type pedestal supports the weight of defeated torque axis and member provided thereon with its thrust bearing, supporting disk Yong Roll pearl bearing and sleeve bearing keep the perpendicularity of defeated torque axis, this just builds the lower fulcrum of tree-shaped wind power generation plant power transmission shaft, its defeated torque axis is uprightly run in lower fulcrum structure, the axiality cylinder on defeated torque axis top is connected at the upper fulcrum place of power transmission shaft with product torque axis lower sleeve portion section, the structure of upper fulcrum and the structure of lower fulcrum are same or similar, the important actor dish type pedestal of upper fulcrum is arranged on the top center position of mongolia yurt type power plant building, mongolia yurt type power plant building is the steel construction on a kind of hemisphere face top, with the pillar with Curved beam, make load-carrying member, load-carrying member is pressed radial radiation-type layout, the upright cylinder hypomere of load-carrying member is built on a steel hoop concrete pedestal, the upright height of column body segment and the height of installed vertical generator are suitable, suitable on the diameter on hemisphere face top and steel hoop concrete pedestal, diameter and the steel hoop concrete pedestal on hemisphere face top are suitable, the diameter of steel hoop concrete pedestal and position and the number of units of installed vertical generator that build load-carrying member are suitable, the upper surface of Curved beam and a barrel soldering with doughnut-shaped steel plate, the centre bore of doughnut-shaped steel plate is suitable with product torque axis below sleeve sections external diameter surface, the hole that doughnut-shaped steel plate is provided with on upper fulcrum important actor dish type pedestal disk body, a circle or multi-turn riffled tube match, when Curved beam and its barrel soldering, keep annular upper surface of steel plate in horizontal plane state, with oblique fulcrum bar both ends of the surface and Curved beam, the corresponding surface soldered of cylindrical shell is made stiffener, with doughnut-shaped steel plate, do the installation basis of upper fulcrum important actor dish type pedestal, this pedestal will be at power transmission shaft under erectility condition, by its disc perimeter surface soldered corresponding to doughnut-shaped steel plate, with the both ends of the surface of arc reinforcement respectively with the corresponding surface soldered of Curved beam pillar, make the circumferential stiffener of mongolia yurt type power plant building, at band Curved beam pillar, on the outer surface of arc reinforcement, lay metal skin mongolia yurt type power plant building, the important actor dish type pedestal of upper fulcrum is also a fine finishining member, the important actor centre bore of upper important actor dish type pedestal is the mount pad of thrust bearing, the center of upper mount pad basal plane is provided with and produces the moving basal plane centre bore coordinating of torque axis below sleeve sections external diameter surface, the installation base surface of upper thrust bearing exceeds the upper surface of upper important actor dish type pedestal annular disk body, the aperture surface of upper mount pad basal plane centre bore and upper important actor centre bore,Important actor external diameter surface has axiality requirement, upper mount pad basal plane, important actor upper end anchor ring, annular disk body upper surface and aperture surface have perpendicularity requirement, the height of upper important actor centre bore is greater than thrust bearing and produces the thickness of torque axis hypomere disk body, in upper thrust bearing installation base surface correspondence, important actor external diameter surface set angle position is provided with lubricating oil return hole, the diameter place of the setting on upper important actor dish type pedestal disk body is provided with a circle or equal strap riffled tube of multi-turn, internal thread pipe welds with the upper and lower port of annular disk body corresponding aperture mouth respectively, the center line of internal thread pipe is vertical with the upper surface of annular disk body, its upper end mouth of pipe and annular disk body upper surface flush, the upper point supporting dish of upright power transmission shaft is also that a band is installed disk body, the fine finishining member of three sections of cylindrical shells, the hole that card is provided with on upper fulcrum important actor dish type pedestal, a circle or the uniform tapped pipe of multi-turn match of disk body is installed, annular surface and the laminating of upper important actor dish type pedestal upper surface under its disk body, the inside diameter surface of the large footpath of supporting disk hypomere cylindrical shell and the important actor external diameter surface interference fits of important actor dish type pedestal, the cylinder place of its large footpath cylindrical shell is provided with the radial hole matching with spill port, the inside diameter surface of its stage casing central diameter cylindrical shell and Roll pearl bearing outer race interference fit, the inside diameter surface of its epimere path cylindrical shell and sleeve bearing external diameter surface interference fit, on the cylinder of nearly upper port, be provided with the radial hole that lubricating oil pipe nipple is installed, at sleeve bearing epimere external diameter, corresponding to radial hole place, be provided with annular groove one, around annular groove, be provided with uniform lubricating oil oil filler point, in sleeve bearing upper surface, be provided with the seal washer that block resistance lubricating oil overflows, seal washer is provided with the hole that the circle screw hole on the upper surface with sleeve bearing matches, the packing ring of pushing down seal washer is also provided with the hole of matching with this circle screw hole, producing torque axis is a forging and stamping welding assembly member, hypomere is provided with from bottom to top successively through doughnut-shaped steel plate, thrust bearing, the sleeve sections of upper important actor dish type pedestal basal plane centre bore, the center bore surface of sleeve sections is moved and is coordinated with the axiality section surface on defeated torque axis, its lower end part establish with defeated torque axis on inner spline sleeve the interlock of upper-end part of driving one circle radial teeth phase one enclose radially teeth groove, on the outer diametric plane of its sleeve sections, be set with centrifugal force controlled device, under the disk body that sleeve sections makes progress, anchor ring matches with upper fulcrum thrust shaft bearing surface, the external diameter surface of its disk body moves and coordinates with the aperture surface of upper fulcrum important actor dish type pedestal centre bore, this disk body upper ring surface is upwards provided with and upper Zhi Dian Roll pearl inner bearing ring, the axiality cylinder that sleeve bearing matches, axiality cylinder center is provided with axiality centre bore section from bottom to top, internal spline section, thrust bearing is installed on upper important actor dish type pedestal basal plane, Jiang Roll pearl bearing, sleeve bearing is installed to the corresponding position place of upper support dish, centrifugal force controlled device cover is put into the step disk body upper surface place of defeated torque axis upper end inner spline sleeve, upper fulcrum important actor dish type pedestal is placed on the doughnut-shaped steel plate at factory building top, to produce torque axis below cylinder section cylinder through upper fulcrum thrust bearing, pedestal basal plane, the centre bore of doughnut-shaped steel plate, cylinder section centre bore cover is installed in the axiality section of defeated torque axis, make its cylinder section, the function surface of disk body section and defeated torque axis axiality section, match in the correspondence surface of upper fulcrum important actor dish type pedestal,Centrifugal force controlled device cover is installed to and produced on torque axis hypomere cylinder, and be fixed to default position with screw, by An Zhuan You Roll pearl bearing, the upper point supporting dish of sleeve bearing, with its function surface and product torque axis hypomere, match in the corresponding surface of important actor dish type pedestal, keeping product torque axis hypomere and defeated torque axis epimere axiality under upright condition, with screw, be screwed in IPT hole, upper point supporting dish is installed and is fixed on upper important actor dish type pedestal, along important actor dish type pedestal disc perimeter surface soldered corresponding to doughnut-shaped steel plate, and in the oiling at upper lower fulcrum place, lubricating oil pipe nipple is installed at spill port place, producing torque axis epimere is comprised of more piece forging axle, the first segment that produces torque axis epimere forges the lower end part of axle, be provided with upper point supporting structure in product torque axis hypomere top axiality centre bore section, the cylinder that internal spline section matches, external splines, its upper-end part of driving is provided with uniform radially teeth groove, the centre bore hole depth that first segment forges axle is machined to place, external splines top, corresponding axial plane place at the bottom of centre bore hole, process a normally closed lubricated ointment Change oil drain oil, the height that first segment forges axle is greater than other respectively height of joint, the height that each joint forges axle depends on by equal altitudes equal angles makes one group in a spiral manner through the radial hole that produces torque axis axis within the scope of every 360 degree, hole count depends on the number of axle that one group of leaf that catches the wind is installed, the aperture of radial hole is larger, the aperture that is installed on the sleeve bearing in radial hole is also larger, the shaft diameter matching with sleeve bearing is also larger, be that the catch the wind centrifugal force of leaf of fulcrum carrying is also larger, the area that catches the wind that is to say the leaf that catches the wind can be done greatly, but forging diameter one timing of axle, the aperture of radial hole will be restricted, thereby the hole count of the radial hole of processing on each joint forging axle has restriction, but forging a number of axle of installing on axle, each joint must not be less than 4, other each joint forges axle and is provided with central through hole, its upper and lower side position is respectively equipped with and docks with it the uniform radially teeth groove of interlock, at interlock cylinder, place processes respectively bevel for welding, cylinder and the centre bore axis of lower end part of first segment of take is benchmark, interlock is welded section by section, after each joint forging axle welds in occlusal surface place, on existing large-size numerical control machine, be worked into and set diameter dimension and height (length), the interlock welding processing is produced to torque axis from top to bottom in its setting height, pressing equal altitudes (length) equal angles makes through the one group of radial hole that produces torque axis axis with every 360 degree scopes in a spiral manner, make to produce torque axis epimere the many groups of blades that catch the wind can be installed, in each radial hole, be pressed into a sleeve bearing, the external diameter in sleeve bearing stage casing is less than the aperture of producing torque axis epimere centre bore, sleeve bearing is being processed respectively an annular groove near inner radius corresponding to this center hole wall, on cylinder above annular groove, (duty) processes respectively an aperture that flows into lubricating cream, below sleeve bearing axial symmetry central plane, on cylinder, (duty) processes a fuel-displaced aperture, the both ends of the surface of sleeve bearing axle flush parallel with the external diameter vertical plane that produces torque axis, this external diameter vertical plane is perpendicular to the center line of sleeve bearing axle separately, the catch the wind fulcrum of blade of a connection is installed in each sleeve bearing axis hole,The interlude of the fulcrum that connects the blade that catches the wind between sleeve bearing axle two annular grooves is matched in clearance, two annular grooves coordinate for moving outward, on the inner side shaft part of nearly sleeve bearing outer face, be provided with annular groove and Mi seal ring, the outer section of axial region position of stretching out sleeve bearing outer face is provided with the structure that is connected with the blade that catches the wind, for minor diameter fulcrum, adopt the structure that is threaded, for major diameter fulcrum, adopt tooth is connected to structure, it is to process one section of annular groove on fulcrum stretches out the shaft part of sleeve bearing end face that tooth is connected to structure, the width of annular groove is suitable with the axial dimension of the connecting elements cylinder internal spline of the blade that catches the wind, on shaft part outside annular groove, process one section of external splines, the axial dimension of external splines is suitable with the connecting elements cylinder inner groove width of the blade that catches the wind, interior external splines is slidably matched, when the internal spline of blade of making to catch the wind packs into and passes the key tooth of external splines, when the blade that will catch the wind turns over a key tooth, make the two-phase face-off flank of tooth laminating of interior external splines, and on the cylinder of the connecting elements of the blade that catches the wind corresponding to external splines teeth groove, compress into respectively a limit and ship and resell on another market, limit the inner conical surface of shipping and reselling on another market to match with external spline teeth groove face, the blade that catches the wind consists of blade and connecting elements, connecting elements is constructed the column body segment matching except being provided with to be connected with fulcrum, the column body segment in annular groove outside was provided with the radially notch of its axis within it, radially notch welds a long lath, long lath outside is provided with the radial channels at setting-in sheet blade root position, connect the radial channels on two connecting elements long laths of same fulcrum, when connecting elements installation is positioned same fulcrum two-end part, the symmetrical sagittal plane of two radial channels is mutually 90 degree angles, in order to guarantee that the blade and blade face s ymmetry center plane that is installed on same fulcrum two ends is mutually right angle, along long lath conduit, be provided with a row or multi-row rivet hole, on the inner side end of the corresponding cylinder of long lath, be respectively equipped with a triangle stiffener, the right angle end face surface soldered corresponding to long lath of triangle stiffener, the corresponding surface soldered of another right angle end face and cylinder, the slim blade being made into by high strength light material, blade blade face can be isosceles trapezoid, or isosceles trapezoid not, or square, or fan-shaped, if adopt not isosceles trapezoid, base on it (inner side) is less than bottom (outside), on isosceles trapezoid blade, base is not provided with row or the porous matching with rivet hole on long lath, after riveting or rivet with the conduit setting-in of base on it and long lath, along conduit side weld, connect, when isosceles trapezoid is not caught the wind the blade face s ymmetry center plane of blade while forwarding vertical plane state to, top waist length is than lower top waist length, the blade face s ymmetry center plane of blade of catching the wind is asymmetric about fulcrum axis, area in fulcrum axis below is slightly larger than the area of top, about the weight on blade face, fulcrum axis below, be greater than the weight on blade face, top, the size of bottom (outside) and the height of trapezoid blade are by fulcrum, the resistance to tension of each junction determines it, limit, blade upper end is made into streamlined cambered surface, blade lower surface is made into acute angle cross section, along fulcrum axis direction, two bottom surfaces being set is the axial lath of leg-of-mutton cambered surface, with the triangle bottom surface of the axial lath of cambered surface, clamp blade, and two blocks of axial laths of cambered surface and blade are riveted into one with rivet along axis both sides, or after riveting along the axial lath of cambered surface sideline corresponding surface soldered,Along triangle base and connecting elements cylinder, the corresponding surface soldered of long lath, forward the blade face s ymmetry center plane of the blade that catches the wind to upright position respectively, make the long waist limit of trapezoid blade down, below the cylinder of nearly sleeve bearing axial end, in s ymmetry center plane place, blade face, weld a square brake posts, be arranged on the structure of the blade that catches the wind on same fulcrum two ends, material, geometry, area is identical with weight, but, the blade face s ymmetry center plane that is arranged on the blade that catches the wind on same fulcrum two ends is 90 degree about the angle of fulcrum axis, the blade face area of fulcrum axis below is greater than the blade face area of its top, above these, the blade that catches the wind for various profiles is all the design principle that must observe, when a slice is caught the wind the blade face s ymmetry center plane of blade with it produces torque axis excessively, when the vertical plane of fulcrum axis overlaps, other end a slice is caught the wind the blade face s ymmetry center plane of blade with it produces torque axis excessively, the vertical plane quadrature of fulcrum axis, the blade face s ymmetry center plane that is the blade that catches the wind on same fulcrum two ends is 90 ° of angles, and the blade face of the blade that catches the wind at same fulcrum two ends is that dislocation is symmetrical about the axis of fulcrum, when static (calm), facing to each root fulcrum, look, when the blade face s ymmetry center plane of the blade that catches the wind of myopia end is tilted to the left 45 ° with respect to facing the vertical plane that produces torque axis axis, and the blade face s ymmetry center plane of the blade that catches the wind of far-end is tilted to the right 45 ° with respect to the vertical plane of facing product torque axis axis, under this layout, where manage-style is from not scraping to tree-shaped wind power generation plant, overlook power transmission shaft and be always counter rotation, the blade that claims to catch the wind is counter-clockwise layout law, on the contrary, when the blade face s ymmetry center plane of the blade that catches the wind of myopia end is tilted to the right 45 ° with respect to facing the vertical plane that produces torque axis axis, and the blade face s ymmetry center plane of the blade that catches the wind of long sight end is tilted to the left 45 ° with respect to the vertical plane of facing product torque axis axis, under this layout, where manage-style is from not scraping to tree-shaped wind power generation plant, overlook power transmission shaft and be always rotation clockwise, the blade that claims to catch the wind is clockwise layout law, if adopt counter-clockwise layout law, whenever the blade face of the blade that catches the wind s ymmetry center plane forwards to and crosses its product torque axis, when the vertical plane of fulcrum axis overlaps, near-sighted end face observer, the square brake posts right flank catching the wind on blade connecting elements cylinder is fitted with the left surface that is welded in a brake block on the corresponding axial plane of product torque axis below sleeve bearing end face, if adopt clockwise layout law, whenever the blade face of the blade that catches the wind s ymmetry center plane forwards to and crosses its product torque axis, when the vertical plane of fulcrum axis overlaps, near-sighted end face observer, the square brake posts left surface catching the wind on blade connecting elements cylinder is fitted with the right flank that is welded in a brake block on the corresponding axial plane of product torque axis below sleeve bearing end face, no matter adopt which kind of layout law, two two square brake posts of catching the wind on blade on same fulcrum, as long as when fit with a side of its corresponding brake block in a side of a square brake posts, this fulcrum just stops operating, perspective is welded on two brake block on each the sleeve bearing end face below axial plane producing on torque axis, its inner surface is that dislocation is parallel,When the laminating of the inner surface surface corresponding to square brake posts of a brake block, the inner surface of another brake block becomes upright position with the corresponding surface of another square brake posts of face-off mutually, as described above, to catch the wind blades installation to fulcrum separately one by one, weld one by one good square brake posts, brake block, sealing is produced footpath, torque axis lower end to the Change oil aperture of draining the oil, from producing the center port of torque axis upper end, to producing in the whole central duct of torque axis epimere, fill with and moisten Weihe ointment, and aperture, upper end is sealed, when calm weather, to the product torque axis of the many groups of blades that catch the wind be housed, with helicopter, be lifted into the supporting structure place of the upper fulcrum of power transmission shaft, the cylinder of the lower end part of torque axis first segment forging axle will be produced, the axiality centre bore section of the product torque axis hypomere in external splines and upper point supporting structure, internal spline matches, product torque axis upper-lower section is assembled into one, make to produce in the supporting structure of upper fulcrum that torque axis uprightly runs on power transmission shaft, at this moment, many steel wire rope posts (pearl) the chain band at defeated torque axis transmission rotating cylinder place will be sleeved on, cover installs on steel wire rope post (pearl) the chain band rotating cylinder below installed vertical generator bridge plate one by one, the axis of steel wire rope post (pearl) chain band rotating cylinder is aligned with the vertical type generator rotor axis being arranged on bridge plate, the clutch being arranged on vertical type generator rotor-end axle is connected with steel wire rope post (pearl) chain band rotating cylinder respectively, here, the working surface diameter of transmission rotating cylinder is greater than the working surface diameter of steel wire rope post (pearl) chain band rotating cylinder, by after being sleeved on the centrifugal force controlled device that produces on torque axis hypomere cylindrical shell external diameter surface and being sleeved on defeated torque axis epimere transmission torque sleeve and connecting, with pipeline, connect lubricating oil and note oil return system, a tree-shaped wind power generation plant drives the power plant of many vertical type generators to accuse and build up, when not having wind-force to scrape tree-shaped wind power generation plant, the blade that catches the wind producing on torque axis fulcrum remains static, around helix, facing an axis looks, the blade face s ymmetry center plane of the blade that catches the wind on each fulcrum produces torque axis about crossing it, the vertical plane of fulcrum axis is 45 ° of angles, seeing through product torque axis looks, two blades that catch the wind that are arranged on each root fulcrum by equal altitudes equal angles along helix are all X-shaped state, if catch the wind, blade is installed by counter-clockwise layout law, the blade that catches the wind of myopia end, square brake posts favoured it and produced torque axis, the brake block left side of the vertical plane of fulcrum axis, and the blade that catches the wind of long sight end, square brake posts favoured it and produced torque axis, the brake block right side of the vertical plane of fulcrum axis, when wind-force is scraped towards observer, owing to always there being a slice in one group of blade that catches the wind, catch the wind blade in the maximum face angle position of catching the wind, first this blade that catches the wind starts, the blade that catches the wind on observer right side causes wind blows and upwards rotates 45° angle, it produces torque axis the blade and blade of catching the wind face s ymmetry center plane and mistake separately, the vertical plane quadrature of fulcrum axis, be that all blades that catch the wind on right side are in level, simultaneously, the blade that catches the wind in left side causes Wind power propelling and rotates 45° angle, it produces torque axis the blade face s ymmetry center plane of blade and the mistake separately of catching the wind, the vertical plane of fulcrum axis overlaps, square brake posts is separately stoped and rotates by its corresponding brake block,All blades that catch the wind in left side are in plumbness, thereby cause the promotion of wind-force, drive power transmission shaft inhour (overlooking) rotation, and the blade that catches the wind that is positioned at observer right side is just necessarily in level, and be positioned at the blade that catches the wind on the left of observer just necessarily in plumbness, when wind-force, carrying observer scrapes off, be positioned at all blades that catch the wind on observer right side in plumbness, and be positioned at all blades that catch the wind on the left of observer in level, power transmission shaft is still by inhour (overlooking) direction rotation, in other words, if catch the wind, blade is installed by counter-clockwise layout law, where manage-style is from not scraping to tree-shaped wind power generation plant, power transmission shaft is constant by the direction of inhour (overlooking) rotation, on the contrary, if catch the wind, blade is installed by clockwise layout law, the blade that catches the wind of myopia end, square brake posts favoured it and produced torque axis, the brake block right side of the vertical plane of fulcrum axis, and the blade that catches the wind of long sight end, square brake posts favoured it and produced torque axis, the brake block left side of the vertical plane of fulcrum axis, when wind-force is scraped towards observer, owing to always there being a slice in one group of blade that catches the wind, catch the wind blade in the maximum face angle position of catching the wind, first this blade that catches the wind starts, the blade that catches the wind in observer left side causes wind blows and upwards rotates 45° angle, it produces torque axis the blade and blade of catching the wind face s ymmetry center plane and mistake separately, the vertical plane quadrature of fulcrum axis, all blades that catch the wind in left side are in level, simultaneously, the blade that catches the wind on right side causes Wind power propelling and rotates 45° angle, it produces torque axis the blade face s ymmetry center plane of blade and the mistake separately of catching the wind, the vertical plane of fulcrum axis overlaps, square brake posts is separately stoped and rotates by its corresponding brake block, be that all blades that catch the wind on right side are in plumbness, thereby cause the promotion of wind-force, drive power transmission shaft (overlooking) rotation clockwise, and the blade that catches the wind that is positioned at observer left side is just necessarily in level, and the blade that catches the wind that is positioned at observer right side is just necessarily in plumbness, when wind-force, carrying observer scrapes off, be positioned at all blades that catch the wind in observer left side in plumbness, and all blades that catch the wind that are positioned at observer right side are in level, power transmission shaft is still by clockwise (overlooking) direction rotation, in other words, if catch the wind, blade is installed by clockwise layout law, where manage-style is from not scraping to tree-shaped wind power generation plant, power transmission shaft is constant by the direction of (overlooking) rotation clockwise, in other words, when having selected the direction of rotation of power transmission shaft, also the layout law of blade has just determined to catch the wind, conversely, when having selected the layout law of the blade that catches the wind, also just determined the direction of rotation of power transmission shaft, known from the above mentioned: 1, every a slice is caught the wind blade while transferring plumbness to, at power transmission shaft, turn over half way around, within the scope of 180 °, give the motive force of power transmission shaft extremely zero again to maximum by zero, this motive force is pressed varies with sinusoidal function within the scope of these 180 °, 2, at power transmission shaft, often turning over one turns, every a slice catch the wind blade only in the scope of nearly half way around to power transmission shaft to power, 3, when producing the diameter of torque axis, can do very greatly, the diameter of fulcrum can be done very greatly, the area of blade of catching the wind also can be done very greatly, producing torque axis does very highly, just the many groups of blades that catch the wind can be installed, just can give the larger output torque of power transmission shaft,4, all wind-force that blade causes that catches the wind that transfers plumbness to deducts the poor of the suffered resistance of all blades that catch the wind that transfer level to, be multiplied by the mean radius of motive force, it is exactly the moment of torsion that power transmission shaft can be exported, the wind energy in long-term maximum wind power grade area of take is foundation, build the tree-shaped wind power generation plant of setpoint power output scale, according to the tree-shaped wind power generation plant of setpoint power output scale design, choose generating capacity and the number of units of vertical type generator, its total generating capacity and setpoint power output scale are matched, according to the rotating speed requirement of the best generating operation mode of vertical type generator, the transmission mechanism that She Ji Full foot rotating speed requires, while having wind, centrifugal force controlled device is passed to power transmission shaft by wind energy automatically, when calm, centrifugal force controlled device makes the automatic stall of power transmission shaft, according to the situation of change of wind-force, utilize clutch to adjust the operating number of vertical type generator, by the generated energy Gong Gei of wind-force between Ye ?Ye consumer, or the generated energy of wind-force between Ye is supplied with to rectification accumulation of energy power plant, or by the irrigation network in the generated energy supply drought and water shortage area of wind-force between Ye, or by the water drainage net in generated energy supply many water of flood area of wind-force between Ye, or the generated energy of wind-force between Ye is supplied with to the fire fire extinguishing network of rivers, forest area that takes place frequently.

The output power of transmission shaft is passed to the driving mechanism of vertical type generator by a torque drive rotating cylinder, a plurality of wire rope posts (pearl) chain band rotating cylinder, many wire rope posts (pearl) chain band and erection support form, the torque drive rotating cylinder being arranged on defeated torque axis hypomere is a plate spoke double shell Cast Steel, interior rotating cylinder internal diameter position is processed with the internal spline matching with external splines on defeated torque axis hypomere, with the outer rotaring tube external diameter position that disc connects, be processed with the structure matching with many wire rope posts (pearl) chain band, at each section of external diameter position of torque drive rotating cylinder, be provided with the same configuration matching with wire rope post (pearl) chain band, the structure matching with wire rope post (pearl) chain band is on each section of external diameter cylinder, be processed with uniform axial concave column (the half pearl nest) face matching with half short column (pearl) face, on the external diameter cylinder of the axisymmetric horizontal plane of fitting surface, process an annular groove matching with wire rope radius, cross every two concave columns (half pearl nest) over glaze line and angle arc length on calibration garden of crossing the axial vertical plane of drive shaft axis, match with the pitch of wire rope post (pearl) chain band, the structure of a plurality of wire rope posts (pearl) chain band rotating cylinder is identical, all two sections of tube structure parts, the external diameter of hypomere cylindrical shell is less than the external diameter of epimere cylindrical shell, the external diameter surface of hypomere cylindrical shell moves and coordinates with the surface, the large footpath of annular groove of spill annular groove dish post erection support, its inside diameter surface moves and coordinates with the external diameter surface of the newel of erection support, match with the thrust shaft bearing surface that is installed on the annular groove bottom surface of erection support in its lower end surface, on the external diameter cylinder of epimere cylindrical shell, be processed with axial concave column (the half pearl nest) face matching with wire rope post (pearl) chain band, on the external diameter cylinder of the axisymmetric plane of fitting surface, process an annular groove matching with wire rope radius, cross every two concave columns (half pearl nest) over glaze line, the angle of the axial vertical plane of the axis of erection support newel is arc length on calibration garden, match with the pitch of wire rope post (pearl) chain band, the lower anchor ring of epimere cylindrical shell and erection support upper ring surface Shang Mi seal ring are suitable, its upper ring surface is provided with the radially teeth groove with the clutch phase interlock of vertical type generator rotor-end axle place, the epimere inside diameter surface of epimere cylindrical shell is Yu Roll pearl bearing outer race interference fit, upper end-hole section in footpath is provided with assembly sealing plate within it, erection support is the cast steel member that wire rope post (pearl) chain band rotating cylinder is installed, by disk body, cylindrical shell and newel form, when casting, corresponding to disk body cylinder, to newel center, place a L shaped stainless steel lubricant pipe, between the cylindrical shell of cast steel member erection support and newel, process the spill annular groove of a coaxality, the axis of newel of take is benchmark, machining center post cylinder, surface, the large footpath of spill annular groove, disk body cylinder, Qi Full foot of Shi is set coaxality requirement, the axis of newel of take is benchmark, machining center post upper-end surface, cylindrical shell upper-end surface, disk body bottom surface, spill annular groove base ring face, the setting perpendicularity requirement of Qi Full foot of Shi and newel cylinder, make spill annular groove base ring face exceed disk body upper ring surface, make newel upper-end surface and wire rope post (pearl) chain band rotating cylinder upper end hush panel lower surface Spielpassung, at center, newel upper-end surface, boring an aperture communicates with pre-buried L shaped stainless steel lubricant pipe, make newel cylinder hypomere cylinder and thrust bearing center hole face suitable, moving cooperation of Roll pearl inner bearing ring in making its epimere cylinder and being arranged on wire rope post (pearl) chain band rotating cylinder epimere cylindrical shell, the base ring face of spill annular groove is matched with thrust shaft bearing surface, surface, the large footpath of spill annular groove on cylindrical shell is coordinated with wire rope post (pearl) chain band rotating cylinder hypomere cylindrical shell external diameter surface is moving, on the anchor ring of cylindrical shell upper end, process an annular groove, Yi Mi seal is installed in annular groove, Qi Mi front cover of Shi coordinates with Huan Mian Mi envelope under wire rope post (pearl) chain band rotating cylinder epimere cylindrical shell, on outer diametric plane at erection support cylindrical shell corresponding to thrust bearing bottom surface, process a radially spill port, an oil return pipe nipple is installed in spill port, processing disk body cylinder to L shaped stainless steel lubricant pipe exposes port, and at the pipe nipple of an oiling of port welding, on disk body anchor ring, processing in uniform way corresponding one is enclosed the hole that screw hole matches with on backing plate, thrust bearing is installed to the base ring face place of erection support, Jiang Roll pearl bearing, hush panel is installed to the surface, corresponding aperture of wire rope post (pearl) chain band rotating cylinder, wire rope post (pearl) chain band rotating cylinder cover is installed on the newel of erection support, its function surface is matched with the corresponding surface of erection support, with screw, erection support is fixed on backing plate, to with the erection support of backing plate, move on the reinforced concrete basis of bridge plate below of installed vertical generator respectively, tensioning is placed on torque drive rotating cylinder one by one, wire rope post (pearl) chain band between wire rope post (pearl) chain band rotating cylinder, the running working surface that makes wire rope post (pearl) chain band respectively with two rotating cylinders on the symmetrical radial plane of annular groove in same level, along backing plate periphery be embedded in advance the Plate Welding on reinforced concrete basis, make erection support be positioned at the bridge plate below of installed vertical generator, the bridge plate of mobile installed vertical generator, make the axis and vertical the aligning of erection support centre of location mast axis of vertical type generator rotor, and make bridge plate lower surface to wire rope post (pearl) chain band rotating cylinder upper surface, have the setting space of an installation clutch.

Wire rope post (pearl) the chain band of the vertical type generator that the power of transmission shaft is passed to is made on standardization mould, or make at the scene, many wire rope posts (pearl) the chain band being arranged on same transmission shaft has identical model specification, each wire rope post (pearl) chain band all consists of steel cable and several standardization post (pearl) bodies, first processing and torque drive rotating cylinder, standardization post (pearl) body that the concave column of wire rope post (pearl) chain band rotating cylinder post (pearl) (half pearl nest) face matches, on the axisymmetric median plane of standardization post (pearl) body, process a radial hole matching with wirerope diameter, reprocess a positioning hole with radial hole quadrature, the aperture of positioning hole is greater than the aperture of radial hole, and be a locating stud that the inner is positive wedge shape of each standardization post (pearl) body outfit, each wire rope post (pearl) chain band configuration modular joint post (pearl) body, the difference of connector post (pearl) body and standardization post (pearl) body is that the center line of positioning hole and radial hole is not quadrature, but in the center line horizontal plane of radial hole with its oblique, and place, the aperture of oblique positioning hole is provided with welding horn mouth, the termination of the wire rope of a preseting length is manufactured with perforation syringe needle, leading perforation syringe needle through the radial hole of standardization post (pearl) body, make to have on wire rope standardization post (pearl) the body number of setting, finally lead perforation syringe needle and relatively passing the oblique positioning hole of connector post (pearl) body, allow the horn mouth place that the head of wire rope is exposed at oblique positioning hole clamp it, wire rope with standardization post (pearl) body is placed on standardization mould, the centre distance of standardization mould and structure and torque drive rotating cylinder, wire rope post (pearl) chain band rotating cylinder identical, one by one by standardization post (pearl) body, wire rope embeds the torque drive rotating cylinder of standardization mould, in corresponding matching face on wire rope post (pearl) chain band rotating cylinder cylinder, tense wire rope, positive wedge shaped detents punching press is entered in positioning hole, make the positive wedge shape end face of locating stud laterally squeeze curved wire rope, the rest may be inferred, extremely until the installation of last joint standardization post (pearl) body, when erection joint standardization post (pearl) body, perforation syringe needle is turned respectively to oblique positioning hole from radial hole middle in opposite directions, rotate the torque drive rotating cylinder of standardization mould, check that wire rope post (pearl) chain band is at the torque drive rotating cylinder of standardization mould, adaptive situation on wire rope post (pearl) chain band rotating cylinder, until when qualified, the head of wire rope is welded in oblique positioning hole aperture respectively, and one by one locating stud is welded at place, aperture, manufacture wire rope post (pearl) chain band like this.

A kind of actuator of wind energy being changed into electric energy is mounted in the clutch on vertical type generator rotor-end axle, this clutch is by connecting rotating cylinder body, slip rotating cylinder body, operating stem and electromagnet form, be arranged on the vertical type generator on bridge plate, its rotor-end axially downwardly extending is gone out, a connection rotating cylinder body is installed on rotor-end axle external diameter surface and key tooth with inside diameter surface and keyway, its external diameter cylinder is provided with external splines, the internal spline of a slip rotating cylinder body is slidably matched with the external splines suit that is connected rotating cylinder body, the lower end anchor ring of slip rotating cylinder body is provided with a circle radial teeth and matches with the radially teeth groove on wire rope post (pearl) the chain band rotating cylinder upper end anchor ring standing facing each other mutually, above slip rotating cylinder body radial teeth, on cylinder, be provided with an annular groove, under normal conditions, slip rotating cylinder body is conducted oneself with dignity with it, always glide and make its radial teeth and corresponding teeth groove interlock, an operating stem with lath jack-knife, at its slip rotating cylinder body annular groove internal diameter in the Open end plate section corresponding to operating stem between two anchor rings, relatively be welded with respectively a minor axis, on minor axis, be set with a short rotating cylinder, short rotating cylinder stretches in annular groove relatively, but short drum surface does not contact with the upper and lower anchor ring of annular groove on slip rotating cylinder body, on the suitable location plate face standing facing each other mutually at V shaped slab bar, process respectively an aperture, this two aperture coordinates with surperficial the moving of support short column being welded on bridge plate lower surface respectively, at one section of wire rope of the tip of V shaped slab bar welding, leading wire rope from pulley working surface top in large footpath is wound around a circle, forward this stature of wire rope is connected with the stretched head of a tension type electromagnet, large footpath pulley, tension type electromagnet is all arranged on the suitable location of bridge plate lower surface, when wind-force hour, when the output torque of transmission shaft can not drive whole vertical type generator, need to close certain or some vertical type generator, just open tension type electromagnet, close corresponding vertical type generator, tension type electromagnet pulls wire rope, make large footpath pulley turn over a corresponding angle, pull joystick has been scratched, on operating stem two the short rotating cylinder in annular groove upwards lifts slip rotating cylinder body, the radial teeth of rotating cylinder body and the radially teeth groove of wire rope post (pearl) chain band rotating cylinder disengaging interlock make to slide, make corresponding vertical type generator stall, when blowing, the tension type electromagnet at all vertical type generators place is all in running order, all vertical type generators are in outage state, transmission shaft is in idling conditions, increasing along with wind-force, progressively close tension type electromagnet, make corresponding vertical type generator enter operation generating state, until during maximum wind power, tension type electromagnet Close All, tree-shaped wind generating unit drives whole vertical type generator Jin Ru Full load generating states, when certain vertical type generator breaks down while needing repairing, also can use clutch to keep in repair by the stall of fault vertical type generator.

Be arranged on the centrifugal force controlled device producing on torque axis hypomere sleeve sections external diameter cylinder and be and will produce torque axis and defeated torque axis and connect into the mechanism of the transmission shaft of tree-shaped wind generating unit, when calm, producing torque axis is not connected with defeated torque axis, when having the wind-force of setting, centrifugal force controlled device makes to produce torque axis and defeated torque axis links into an integrated entity, centrifugal force controlled device is by a short cylinder, two pairs of supports with pulley, Yi Kuai Roll pearl ring block and four wire rope with counterweight post form, short cylinder is screwed and is producing on torque axis sleeve sections external diameter cylinder, or surface soldered corresponding to sleeve sections fixed along short cylinder upper and lower end face, two pairs of supports with pulley are welded on the anchor ring of short cylinder upper end with surperficial symmetry in uniform way with its inner, radially stretch to, make the working surface of pulley in same level, Roll pearl annular slab is to be sleeved in advance anchor ring place under the step disk body of inner spline sleeve epimere of defeated torque axis epimere, Roll pearl annular slab is provided with a circle blind hole, being placed on blind hole Nei Roll pearl and inner spline sleeve tops bar moving cooperation of lower Huan Mian Roll of disk body, the moving cooperation of inside diameter surface surface corresponding to inner spline sleeve of Roll pearl annular slab, the wire rope of four equal length same sizes, counterweight post with same geometry identical weight, walk around respectively the working surface of pulley, respectively a Gu of wire rope is Dinged downwards to the axial corresponding position place of Roll pearl ring block, when static state, walk around the inner spline sleeve that weight that pulley lies in the counterweight post on wire rope is drawn motionless defeated torque axis epimere, when wind-force hour, producing torque axis is caught the wind blade by Wind power propelling and rotates, but rotating speed is less, the synchronized centrifugal force controlled device rotating with product torque axis does not still move in the inner spline sleeve of the defeated torque axis epimere of stretchy, centrifugal force controlled device Tuo Roll pearl ring block and on anchor ring, is rotated under the step disk body of inner spline sleeve, when wind-force reaches setting value, the synchronized centrifugal force increase with producing the centrifugal force controlled device counterweight post of torque axis rotation, pull in inner spline sleeve and move, radial teeth on the anchor ring of inner spline sleeve upper end and the radially teeth groove interlock of producing on the anchor ring of torque axis sleeve sections lower end, make to produce the synchronized rotation that links into an integrated entity of torque axis and defeated torque axis, the generating of driving vertical type generator.

Accompanying drawing explanation

Diagrammatic top view when Fig. 1 is the clockwise layout static state of one group of blade that catches the wind of tree-shaped wind generating unit.

Fig. 2 is the diagrammatic cross-sectional view that a product torque axis and defeated torque axis connect into the centrifugal force controlled device of transmission shaft.

Fig. 3 is the diagrammatic cross-sectional view that wire rope post (pearl) chain band connects in modular joint post (pearl) body.

Fig. 4 is that the blade that catches the wind is faced sketch by the tree-shaped wind power plant of clockwise (overlooking) layout law design.

In Fig. 1,1, blade, 2, lath, 3, long lath, 4, connector element, 5, square brake posts, 6, brake slipper, 7, produce torque axis, 8, blade, 9, lath, 10, connector element, 11, square brake posts, 12, long lath, 13, brake slipper, 14, sleeve bearing, 15, sleeve bearing.

In Fig. 2,20, counterweight post, 21, wire rope, 22, support, 23, short cylinder, 24, Roll pearl annular slabs, 25, sleeve sections, 26, defeated torque axis, 27, inner spline sleeve.

In Fig. 3,30, wire rope to the right, 31, positive straight hole, 32, joint, 33, oblique straight hole, 34, post (pearl) body, 35, joint, 36, wire rope left, 27, inner spline sleeve.

In Fig. 4,40, base, 41, factory building, 42, middle bearing, 43, first groups, 44, axle, 45, second groups, 46, axle, 47, No. 1 fulcrums, 48, No. 2 fulcrums, 49, No. 3 fulcrums, 50, No. 4 fulcrums, 51, blade catches the wind.

Embodiment

In Fig. 1, tree-shaped wind generating unit in one section of setting height of producing torque axis (7) within the scope of 360 degree, in equal altitudes equal angles, be provided with in a spiral manner blade face and be trapezoidal two couple blade (1) (8) that catches the wind, the blade (1) that catches the wind is connected with the horizontal fulcrum through producing the sleeve bearing (14) of torque axis (7) center line with connector element (4), the position, cylinder outer end of connector element (4) is respectively equipped with a long lath (3), the outer side surface symmetry center face place of long lath (3) is provided with a conduit that embeds the upper base of the trapezoidal blade that catches the wind (1), by rivet and welding procedure blade (1) and the connector element (4) of catching the wind, fulcrum connects in aggregates, corresponding to connector element (4) cylinder exterior edge face in fulcrum axis position, on blade (1) two blade face of catching the wind, being provided with the end is leg-of-mutton cambered surface lath (2), with cambered surface lath (2) blade (1) that will catch the wind, clamp, with rivet, with welding procedure, the blade (1) that catches the wind is connected in aggregates with cambered surface lath (2), by the interior edge face of cambered surface lath (2) and connector element (4) cylinder, the corresponding surface soldered of long lath (3), to be arranged on the horizontal fulcrum axis of same sleeve bearing (14), be as the criterion, blade (1) the blade face s ymmetry center plane that makes to catch the wind becomes 90 degree angles with respect to fulcrum axis, laterally fulcrum axis is divided into the blade face area of the blade that catches the wind (1) two-part that do not wait, be positioned at the blade that catches the wind (1) area large receding in blade face on horizontal fulcrum axis of producing torque axis (7) left side, and area large the turning forward in blade face on horizontal fulcrum axis of the blade that catches the wind (1) on right side, two blades that catch the wind (1) on horizontal fulcrum are blade face s ymmetry center plane place separately, in the large side of blade face area in the nearly sleeve bearing of connector element (4) cylinder (14) end, a square brake posts (5) is set respectively, whenever the blade face s ymmetry center plane of the blade that catches the wind (1) forwards and cross fulcrum to, while producing the coincidence of torque axis (7) vertical plane, a face of the square brake posts (5) of this blade that catches the wind (1) is braked with being located at the brake slipper (6) producing on torque axis (7) cylinder corresponding surface laminating, and the blade face s ymmetry center plane of the blade that catches the wind (1) of the other end forwards to and cross fulcrum, produce torque axis (7) vertical plane quadrature, and face of its square brake posts (5) be located at the corresponding surface of brake slipper (6) of producing on torque axis (7) the cylinder state that meets at right angles, equally, be located at two blades that catch the wind (8) that produce on the longitudinal fulcrum of torque axis (7), with connector element (10), be connected with the longitudinal fulcrum through producing the sleeve bearing (15) of torque axis (7) center line, the position, cylinder outer end of connector element (10) is respectively equipped with a long lath (12), the outer side surface symmetry center face place of long lath (12) is provided with a conduit that embeds the upper base of the trapezoidal blade that catches the wind (8), by rivet and welding procedure blade (8) and the connector element (10) of catching the wind, fulcrum connects in aggregates, corresponding to connector element (10) cylinder exterior edge face in fulcrum axis position, on blade (8) two blade faces of catching the wind, being provided with the end is leg-of-mutton cambered surface lath (9), with cambered surface lath (9) blade (8) that will catch the wind, clamp, with rivet, with welding procedure, the blade (8) that catches the wind is connected in aggregates with cambered surface lath (9), by the interior edge face of cambered surface lath (9) and connector element (10) cylinder, the corresponding surface soldered of long lath (12), to be arranged on longitudinal fulcrum axis of same sleeve bearing (15), be as the criterion, blade (8) the blade face s ymmetry center plane that makes to catch the wind becomes 90 degree angles with respect to fulcrum, longitudinally fulcrum axis is divided into the blade face area of the blade that catches the wind (8) two-part that do not wait, be positioned at the blade that catches the wind (8) area large being tilted to the left in blade face on longitudinal fulcrum axis of producing torque axis (7) top, and area large being tilted to the right in blade face on longitudinal fulcrum axis of the blade that catches the wind (8) of below, two blades that catch the wind (8) on longitudinal fulcrum are blade face s ymmetry center plane place separately, in the large side of blade face area in the nearly sleeve bearing of connector element (10) cylinder (15) end, a square brake posts (11) is set respectively, whenever the blade face s ymmetry center plane of the blade that catches the wind (8) forwards and cross fulcrum to, while producing the coincidence of torque axis (7) vertical plane, a face of the square brake posts (11) of this blade that catches the wind (8) is braked with being located at the brake slipper (13) producing on torque axis (7) cylinder corresponding surface laminating, and the blade face s ymmetry center plane of the blade that catches the wind (8) of the other end forwards to and cross fulcrum, produce torque axis (7) vertical plane quadrature, and face of its square brake posts (11) be located at the corresponding surface of brake slipper (13) of producing on torque axis (7) the cylinder state that meets at right angles, when static (calm), from horizontal fulcrum left side, or right side, from longitudinal fulcrum top, or below, facing to fulcrum, observe, that near observer, holds catches the wind blade with respect to crossing fulcrum, produce torque axis (7) the vertical plane miter angle that is tilted to the right, and the blade that catches the wind of holding across product torque axis (7) remote viewing person is with respect to mistake fulcrum, produce torque axis (7) the vertical plane miter angle that is tilted to the left, two blades that catch the wind (1) on same fulcrum are X-shaped across producing torque axis (7), in fact, be located at and produce longitudinally two blades that catch the wind (1) on structure and layout and the horizontal fulcrum of two blades that catch the wind (8) on fulcrum identical of torque axis (7), different is that longitudinal fulcrum has a setting height and set angle (being 90 degree) poor here on product torque axis (7) cylinder with horizontal fulcrum, as long as will produce torque axis (7), turn over 90 degree, longitudinally fulcrum has just become horizontal fulcrum, two blades that catch the wind (8) on it have just become the state of two blades that catch the wind (1), when having wind to scrape downwards from drawing top, the blade face that is positioned at the blade that catches the wind (8) on longitudinal fulcrum is parallel with wind direction, the blade (8) that catches the wind can not cause the promotion of wind-force, but, be positioned at the blade that catches the wind (1) on horizontal fulcrum sweeps and upwards scratch by wind-force in the blade that catches the wind (1) that produces torque axis (7) left side, rotate miter angle, its blade face symmetry center is put down and cross fulcrum, produce torque axis (7) axis vertical plane quadrature, in horizontal plane, parallel with wind direction, the blade that catches the wind (1) being positioned on horizontal fulcrum causes the promotion of wind-force in the blade that catches the wind (1) that produces torque axis (7) right side, rotate miter angle, its blade face symmetry center is put down and cross fulcrum, producing torque axis (7) axis vertical plane overlaps, the blade (1) that catches the wind causes Wind power propelling and produces torque axis (7) turn clockwise (facing drawing), when promoting movable property torque axis (7), horizontal fulcrum turns over an angle of 90 degrees, be horizontal fulcrum and longitudinally fulcrum transposition, at the blade that catches the wind (8) that produces right side in torque axis (7) setting height, cause wind-force and continue to promote movable property torque axis (7) turn clockwise (facing drawing), when having wind to scrape upward from drawing below, the blade that catches the wind that produces torque axis (7) left side causes the promotion of wind-force, make to produce torque axis (7) continue to turn clockwise (facing drawing), when having wind to scrape to left from drawing is right-hand, laterally the s ymmetry center plane on the blade that catches the wind (1) blade face on fulcrum is parallel with wind direction, the blade (1) that catches the wind can not cause the promotion of wind-force, and be positioned at the blade that catches the wind (8) that produces torque axis (7) top on longitudinal shaft, by wind-force, swept and upwards scratched, rotate miter angle, its blade face symmetry center is put down and cross fulcrum, produce torque axis (7) axis vertical plane quadrature, in horizontal plane, parallel with wind direction, the blade that catches the wind (8) being positioned on longitudinal fulcrum causes the promotion of wind-force in the blade that catches the wind (8) that produces torque axis (7) below, rotate miter angle, its blade face symmetry center is put down and cross fulcrum, producing torque axis (7) axis vertical plane overlaps, cause the Wind power propelling blade (8) that catches the wind and make to produce torque axis (7) continue to turn clockwise (facing drawing), when there being wind, from drawing left, scrape when right-hand, in like manner, the blade that catches the wind (8) being positioned on longitudinal fulcrum causes the promotion of wind-force in the blade that catches the wind (8) that produces torque axis (7) top, make to produce torque axis (7) and still rotate clockwise (facing drawing), catch the wind blade by setting the design of layout law, where manage-style is from not scraping, the product torque axis (7) of tree-shaped wind generating unit is necessarily pressed direction initialization rotation, in the drawing of Fig. 1, only draw two pairs of blades that catch the wind, only for working order is described, on a product torque axis (7), the many groups of blades that catch the wind are housed, each group blade that catches the wind is equipped with the multipair blade that catches the wind, every a slice is caught the wind blade blade face area when enough large, to make tree-shaped wind generating unit obtain setpoint power output.

In Fig. 2, be arranged on the centrifugal force controlled device producing on torque axis hypomere sleeve sections (25) external diameter cylinder and be and will produce torque axis and defeated torque axis (26) and connect into the mechanism of the transmission shaft of tree-shaped wind generating unit, when calm, producing torque axis is not connected with defeated torque axis (26), when having wind, centrifugal force controlled device makes to produce torque axis and defeated torque axis (26) links into an integrated entity, centrifugal force controlled device is by a short cylinder (23), two pairs of supports with pulley (22), the wire rope (21) of Yi Kuai Roll pearl ring block (24) and four band counterweight posts (20) forms, short cylinder (23) is screwed and is producing on torque axis sleeve sections (25) external diameter cylinder, or fix with the corresponding surface soldered of sleeve sections (25) along short cylinder (23) upper and lower end face, two pairs of supports with pulley (22) are welded on the anchor ring of short cylinder (23) upper end in uniform way by its interior edge face symmetry, radially stretch to, make the working surface of pulley in same level, Roll pearl annular slab (24) is to be sleeved in advance anchor ring place under the step disk body of inner spline sleeve (27) epimere of defeated torque axis (26) epimere, Roll pearl annular slab (24) is provided with a circle blind hole, being placed on blind hole Nei Roll pearl and inner spline sleeve (27) tops bar moving cooperation of lower Huan Mian Roll of disk body, moving cooperation of the inside diameter surface of Roll pearl annular slab (24) surface corresponding to inner spline sleeve (27), the wire rope of four equal length same sizes (21), counterweight post (20) with same geometry identical weight, walk around respectively the working surface of pulley, respectively a Gu of wire rope (21) is Dinged to the axial corresponding position place of Roll pearl ring block (24) downwards, when static state, walk around the inner spline sleeve (27) that weight that pulley lies in the counterweight post (20) on wire rope (21) is drawn motionless defeated torque axis (26) epimere, when wind-force hour, producing torque axis is caught the wind blade by Wind power propelling and rotates, but rotating speed is less, the synchronized centrifugal force controlled device rotating with product torque axis does not still move in the inner spline sleeve (27) of the defeated torque axis of stretchy (26) epimere, centrifugal force controlled device Tuo Roll pearl ring block (24) and on anchor ring, is rotated under the step disk body of inner spline sleeve (27), when wind-force reaches setting value, the synchronized centrifugal force increase with producing the centrifugal force controlled device counterweight post (20) of torque axis rotation, pull in inner spline sleeve (27) and move, radial teeth on the anchor ring of inner spline sleeve (27) upper end and the radially teeth groove interlock of producing on the anchor ring of torque axis sleeve sections (25) lower end, make to produce the synchronized rotation that links into an integrated entity of torque axis and defeated torque axis (26), the generating of driving vertical type generator.

In Fig. 3, position, a horizontal section processing positive straight hole (31) and an oblique straight hole (33) of modular joint post (pearl) body, aperture and the wirerope diameter of positive straight hole (31) are suitable, tiltedly straight hole (33) intersects with positive straight hole (31) at the center of post (pearl) body (34), tiltedly the aperture of straight hole (33) is greater than the aperture of positive straight hole (31), wire rope (30) pierces into after positive straight hole (31) to the right, in central position, turn to oblique straight hole (33) lower right, and will be to the right wire rope (30) joint (35) in its aperture (32), be welded and polish smooth, wire rope (30) pierces into after positive straight hole (31) left, in central position, turn to oblique straight hole (33) upper left side, and wire rope (36) joint (32) is welded and polishes smooth in its aperture (32) left.

In Fig. 4, tree-shaped wind generating unit in the mongolia yurt type factory building (41) of construction on base (40), many vertical type generator generatings by transmission shaft (46) drive installation in mongolia yurt type factory building (41), the epimere of transmission shaft (46) produces torque axis (44) and is connected by centrifugal force controlled device with defeated torque axis in middle bearing (42), first group (43) blade (51) and second group (45) blade (51) that catches the wind that catches the wind is installed on the product torque axis (44) here, here, producing on the setting height of torque axis (44), press helix mode within the scope of 360 degree, with equal altitudes equal angles, four fulcrums are installed, each root fulcrum two ends is separately installed with a slice blade (51) that catches the wind, from bottom to top fulcrum is numbered, No. 1 fulcrum (47) faces drawing, No. 2 fulcrums (48) exceed fulcrum (47) 1/4 setting heights No. 1, the angle of being separated by 45 degree, the rest may be inferred, No. 3 fulcrums (49), No. 4 fulcrums (50) exceed 1/4 setting height each other, the angle of being separated by 45 degree, second group (45) blade (51) that catches the wind is arranged by same way, when without wind-force, no matter observer looks from any fulcrum axis end, near a slice of observer end blade (51) blade face s ymmetry center plane that catches the wind, always favoured corresponding fulcrum, produce torque axis (44) axis vertical plane right side 45 degree, and a slice of remote viewing person end blade (51) blade face s ymmetry center plane that catches the wind, always favoured corresponding fulcrum, produce torque axis (44) axis vertical plane left side 45 degree, because corresponding fulcrum axis is caught the wind, blade (51) blade face s ymmetry center plane is divided into area, weight does not wait two-part, and area, the large part of weight down, therefore when static, across producing the blade face s ymmetry center plane of torque axis (44) on same fulcrum, be two of the 90 degree angles blades (51) that catch the wind, just be through corresponding fulcrum, producing torque axis (44) axis vertical plane divides equally, across producing torque axis (44), be X-shaped state, when having wind-force to carry observer to scrape to tree-shaped wind generating unit, be positioned at the sheet producing on each fulcrum of torque axis (44) the right side blade (51) that catches the wind, by wind-force, swept and make sheet catch the wind the blade face s ymmetry center plane of blade (51) with to produce torque axis (44) axis vertical, be positioned at the sheet producing on each fulcrum of torque axis (44) the left side blade (51) that catches the wind, by Wind power propelling make sheet catch the wind blade (51) blade face s ymmetry center plane with produce torque axis (44) dead in line, be positioned at the sheet producing on each fulcrum of torque axis (44) the left side blade (51) that catches the wind and cause the promotion of wind-force, cause and produce torque axis (44) by (overlooking) rotation clockwise, when in a flash, No. 1 fulcrum (47) faces drawing, near a slice of observer end, catch the wind the blade face s ymmetry center plane of blade (51) in level, away from a slice of observer end, catch the wind the blade face s ymmetry center plane of blade (51) in plumbness, wind-force blocks and does not produce thrust because producing the cylinder of torque axis (44), near a slice of observer end blade (51) that catches the wind, there is frontal resistance, observer observes with the rotation of No. 1 fulcrum (47), when No. 1 fulcrum (47) clockwise (overlooking) turns over keeping out the wind after cylinder of product torque axis (44), the sheet of No. 1 fulcrum (47) the long sight end blade (51) that catches the wind is swept by wind-force at once, its s ymmetry center plane place, blade face level, the sheet of No. 1 fulcrum (47) myopia end catches the wind blade (51) at once by Wind power propelling, its s ymmetry center plane place, blade face plumbness, when the sheet of No. 1 fulcrum (47) myopia end catch the wind blade (51) clockwise (overlooking) around producing torque axis (44), forward 90 to while spending, the maximum thrust of wind-force will be caused, when the sheet of No. 1 fulcrum (47) myopia end catch the wind blade (51) clockwise (overlooking) around producing torque axis (44), forward 180 to while spending, (the 51) Change positions of two blades that catch the wind on No. 1 fulcrum (47), hence one can see that, the sheet at each the root fulcrum two ends blade (51) that catches the wind, at promotion transmission shaft (46), revolve in the process of going around, the Driving force that wind-force is caused on blade face changes, and be to turn round by sine function rule, in like manner, No. 2 fulcrums (48) that catch the wind in blade (51) first group (43), sheet on No. 3 fulcrums (49) and No. 4 fulcrums (50) blade (51) that catches the wind all causes wind-force to producing torque axis (44) with pushing torque by the identical rule of the blade that catches the wind (51) on No. 1 fulcrum (47) one by one, the rest may be inferred, second group (45) blade (51) catches the wind, or the many groups of blades that catch the wind are equally to producing torque axis (44) with pushing torque, this just explanation, when one group of blade that catches the wind (51) more, just more stable more greatly with pushing torque to producing torque axis (44), the group number that the blade (51) that catches the wind is above installed when product torque axis (44) is more, all blades that catch the wind (51) are just larger with pushing torque to producing torque axis (44), when wind-force is scraped facing to observation, the blade that catches the wind (51) that is positioned at product torque axis (44) left side is swept by wind-force, make its blade face s ymmetry center plane perpendicular to the axis that produces torque axis (44), and the blade that catches the wind (51) that is positioned at product torque axis (44) right side is by Wind power propelling, make its blade face s ymmetry center plane coincide with the axis that produces torque axis (44), make all blade faces, its right side cause the promotion of wind-force, make transmission shaft (46) still by clockwise (overlooking) direction rotation, catch the wind blade by the tree-shaped wind generating unit of clockwise (overlooking) layout law design, where manage-style is from not scraping to tree-shaped wind generating unit, its transmission shaft (46) is necessarily by clockwise (overlooking) direction rotation, on the contrary, when the blade that catches the wind is during by the tree-shaped wind generating unit of inhour (overlooking) layout law design, where manage-style is from not scraping to tree-shaped wind generating unit, its transmission shaft (46) is necessarily by inhour (overlooking) direction rotation.

Claims (5)

1. a tree-shaped wind power generation plant is by mongolia yurt type factory building, power transmission shaft (defeated torque axis and product torque axis assembly), supporting structure, fulcrum, blade catches the wind, transmission mechanism, controller, clutch and vertical type generator are installed bridge plate and are formed, it is characterized in that: with mongolia yurt type factory building, carry out setup and manage generating equipment, with supporting structure, carry out supporting shaft, with power transmission shaft, carry out transfer of torque, with fulcrum, bear centrifugal force and output torque, with catching the wind, blade is attracted wind-force, with controller, handle the rotation of power transmission shaft, with the moment of torsion that transmission mechanism obtains power transmission shaft, pass to vertical type generator generating, with clutch, control running or the stall of vertical type generator, tree-shaped wind power generation plant can be built on bare hills and mountains, mountain top, highway, railway, the land that the wind-force such as the side of rivers and lakes are abundant, also can build island in, seashore, in waterside or shallow water that the wind-force such as seabeach are abundant, also can build on roof, if tree-shaped wind force device is installed on sports equipment, only a torsion pass need be set between wind power transmission wind axle and sports equipment power transmission shaft, shaft joint, sports equipment just can obtain wind energy power, with a tree-shaped wind power generation plant, drive many vertical type generators, just can build up a power plant, a plurality of tree-shaped wind power generation plants just will form a generating band, at siting, build a reinforced concrete basis, in the centre on this piece reinforced concrete basis, build the supporting structure of tree-shaped wind power generation plant power transmission shaft lower fulcrum, the supporting structure of power transmission shaft lower fulcrum consists of an important actor dish type pedestal and a supporting disk, fine finishining members both, the important actor centre bore of important actor dish type pedestal is the mount pad of thrust bearing, the center of mount pad basal plane is provided with and the moving centre bore coordinating of defeated torque axis hypomere axle, the installation base surface of thrust bearing exceeds the upper surface of important actor dish type pedestal annular disk body, the aperture surface of mount pad basal plane centre bore and important actor centre bore, important actor external diameter surface has axiality requirement, mount pad basal plane, important actor upper end anchor ring, annular disk body upper surface and aperture surface have perpendicularity requirement, the degree of depth of important actor centre bore is greater than the thickness of thrust bearing and defeated torque axis hypomere disk body, the corresponding important actor external diameter surface set angle of thrust bearing installation base surface position is provided with lubricating oil return hole, the upper surface of annular disk body is provided with the hole of cement injection mortar, at the diameter place of its setting, be provided with equal strap riffled tube of a circle or multi-turn, internal thread pipe welds with the upper and lower port of annular disk body corresponding aperture mouth respectively, the center line of internal thread pipe is vertical with the upper surface of annular disk body, its upper end mouth of pipe and annular disk body upper surface flush, important actor dish type pedestal with internal thread pipe is placed into the place, centre on reinforced concrete basis, with ring surface under annular disk body, disk body cylinder, the bar-mat reinforcement welding at internal thread pipe external diameter face and place, centre, bar-mat reinforcement cement injection mortar by from the hole on annular disk body to centre, keep annular disk body upper ring surface to solidify in level to cement mortar, important actor dish type pedestal and reinforced concrete basis are connected and fixed to be integral, take important actor centre bore as benchmark, the radially position of setting at periphery is by radial distribution, build respectively two reinforced concrete parapets that many vertical type generators are installed, every two reinforced concrete parapets are by setting height classification,This size of setting between the high annular groove with on the transmission rotating cylinder being sleeved on defeated torque axis matches in horizontal plane, at parapet upper surface, place is embedded with steel component, steel component will be connected and fixed with the bridge plate that locating vertical type generator is installed, keeping the upright supporting disk of power transmission shaft is that a band is installed disk body, the member of three sections of cylindrical shells, the inside diameter surface of three sections of cylindrical shells has axiality requirement, and there is perpendicularity requirement with installation disk body annular bottom surface, the hole that card is provided with on important actor dish type pedestal, a circle or multi-turn applicator tube internal thread hole match of disk body is installed, lower surface and the laminating of important actor dish type pedestal upper surface of disk body are installed, the external diameter surface interference fits of the inside diameter surface of the large footpath of supporting disk hypomere cylindrical shell and important actor dish type pedestal important actor, which is provided with the radial hole matching with spill port, its aperture is greater than the spill port aperture on important actor dish type pedestal important actor, the inside diameter surface of supporting disk stage casing central diameter cylindrical shell is Yu Roll pearl bearing outer race interference fit, the aperture Shen Du of central diameter cylindrical shell is Yu the axial dimension of Roll pearl bearing is suitable, the inside diameter surface of supporting disk epimere path cylindrical shell and sleeve bearing external diameter surface interference fit, on the cylinder of nearly upper port, be provided with the radial hole that lubricating oil pipe nipple is installed, at sleeve bearing epimere external diameter, corresponding to radial hole place, be provided with annular groove one, around annular groove, be provided with uniform lubricating oil oil filler point, in sleeve bearing upper surface, be provided with the seal washer that block resistance lubricating oil overflows, seal washer is provided with the hole that the circle screw hole on the upper surface with sleeve bearing matches, the packing ring of pushing down seal washer is also provided with the hole of matching with this circle screw hole, by the supporting structure of lower fulcrum, support and keep the lower end part of the upright defeated torque axis of power transmission shaft, be provided with successively from bottom to top through mount pad basal plane centre bore, the hypomere axle of thrust bearing centre bore, hypomere axle with through aperture surface is moving, coordinate, hypomere is axially provided with the lower disk body of defeated torque axis, the lower anchor ring of lower disk body matches with thrust shaft bearing surface, the cylinder of lower disk body moves and coordinates with the aperture surface of important actor dish type pedestal important actor centre bore, the upper ring surface of lower disk body flushes with important actor upper ring surface, lower disk body top is provided with the Roll pearl inner bearing ring being installed in supporting disk, the moving stepped cylinder coordinating of sleeve bearing inside diameter surface, stepped cylinder top is provided with the outer spline section with transmission rotating cylinder internal spline suit, the upper-end part of driving of defeated torque axis, be provided with successively from the top down and the moving axiality section coordinating of the lower end part sleeve sections inside diameter surface that produces torque axis, be provided with the external splines being slidably matched with transmission torque sleeve internal spline, the upper-end part of driving of transmission torque sleeve is provided with a circle radial teeth, radially teeth groove below is provided with a step disk body, the lower anchor ring of step disk body be set in transmission torque sleeve outer diameter cylinder Shang Roll pearl annular slab and match, on transmission torque sleeve, move, this circle radial teeth and the radially teeth groove interlock of producing torque axis lower sleeve portion section port, transmission torque sleeve moves down this and encloses teeth groove radially and just throw off with the radially teeth groove that produces torque axis lower sleeve portion section port, moving up and down by being located at the centrifugal force controlled device producing on the outer diametric plane of torque axis lower sleeve portion section of transmission torque sleeve carried out, thrust bearing is installed in the bearing block of important actor dish type pedestal, the hypomere cylinder of defeated torque axis is passed to important actor centre bore, thrust bearing centre bore and basal plane centre bore,Allow the function surface of defeated torque axis match with the corresponding surface of important actor dish type pedestal, by the Hao Roll pearl of An Zhuan bearing, the supporting disk of sleeve bearing installs to the upper end surface of important actor dish type pedestal important actor from defeated torque axis upper end cover, radial hole on it is aimed at the spill port on important actor dish type pedestal important actor, make on hole on its supporting disk and important actor dish type pedestal uniform one, or multi-turn gas pipe thread hole is aimed at, supporting disk is installed on important actor dish type pedestal, allow its function surface and important actor dish type pedestal, match in the correspondence surface of defeated torque axis, keeping under defeated torque axis plumbness condition, with screw, be screwed in gas pipe thread pore, the transmission rotating cylinder that cover is had to many steel wire rope posts (pearl) chain band, its internal spline of transmission torque sleeve of Tao Zhuan You Roll pearl annular slab, be set with on the external splines that defeated torque axis is corresponding, important actor dish type pedestal supports the weight of defeated torque axis and member provided thereon with its thrust bearing, supporting disk Yong Roll pearl bearing and sleeve bearing keep the perpendicularity of defeated torque axis, this just builds the lower fulcrum of tree-shaped wind power generation plant power transmission shaft, its defeated torque axis is uprightly run in lower fulcrum structure, the axiality cylinder on defeated torque axis top is connected at the upper fulcrum place of power transmission shaft with product torque axis lower sleeve portion section, the structure of upper fulcrum and the structure of lower fulcrum are same or similar, the important actor dish type pedestal of upper fulcrum is arranged on the top center position of mongolia yurt type power plant building, mongolia yurt type power plant building is the steel construction on a kind of hemisphere face top, with the pillar with Curved beam, make load-carrying member, load-carrying member is pressed radial radiation-type layout, the upright cylinder hypomere of load-carrying member is built on a steel hoop concrete pedestal, the upright height of column body segment and the height of installed vertical generator are suitable, diameter and the steel hoop concrete pedestal on hemisphere face top are suitable, the diameter of steel hoop concrete pedestal and position and the number of units of installed vertical generator that build load-carrying member are suitable, the upper surface of Curved beam and a barrel soldering with doughnut-shaped steel plate, the centre bore of doughnut-shaped steel plate is suitable with product torque axis below sleeve sections external diameter surface, the hole that doughnut-shaped steel plate is provided with on upper fulcrum important actor dish type pedestal disk body, a circle or multi-turn riffled tube match, when Curved beam and its barrel soldering, keep annular upper surface of steel plate in horizontal plane state, with oblique fulcrum bar both ends of the surface and Curved beam, the corresponding surface soldered of cylindrical shell is made stiffener, with doughnut-shaped steel plate, do the installation basis of upper fulcrum important actor dish type pedestal, this pedestal will be at power transmission shaft under erectility condition, by its disc perimeter surface soldered corresponding to doughnut-shaped steel plate, with the both ends of the surface of arc reinforcement respectively with the corresponding surface soldered of Curved beam pillar, make the circumferential stiffener of mongolia yurt type power plant building, at band Curved beam pillar, on the outer surface of arc reinforcement, lay metal skin mongolia yurt type power plant building, the important actor dish type pedestal of upper fulcrum is also a fine finishining member, the important actor centre bore of upper important actor dish type pedestal is the mount pad of thrust bearing, the center of upper mount pad basal plane is provided with and produces the moving basal plane centre bore coordinating of torque axis below sleeve sections external diameter surface, the installation base surface of upper thrust bearing exceeds the upper surface of upper important actor dish type pedestal annular disk body, the aperture surface of upper mount pad basal plane centre bore and upper important actor centre bore, important actor external diameter surface has axiality requirement, upper mount pad basal plane,Important actor upper end anchor ring, annular disk body upper surface and aperture surface have perpendicularity requirement, the height of upper important actor centre bore is greater than thrust bearing and produces the thickness of torque axis hypomere disk body, in upper thrust bearing installation base surface correspondence, important actor external diameter surface set angle position is provided with lubricating oil return hole, the diameter place of the setting on upper important actor dish type pedestal disk body is provided with a circle or equal strap riffled tube of multi-turn, internal thread pipe welds with the upper and lower port of annular disk body corresponding aperture mouth respectively, the center line of internal thread pipe is vertical with the upper surface of annular disk body, its upper end mouth of pipe and annular disk body upper surface flush, the upper point supporting dish of upright power transmission shaft is also that a band is installed disk body, the fine finishining member of three sections of cylindrical shells, the hole that card is provided with on upper fulcrum important actor dish type pedestal, a circle or the uniform tapped pipe of multi-turn match of disk body is installed, annular surface and the laminating of upper important actor dish type pedestal upper surface under its disk body, the inside diameter surface of the large footpath of supporting disk hypomere cylindrical shell and the important actor external diameter surface interference fits of important actor dish type pedestal, the cylinder place of its large footpath cylindrical shell is provided with the radial hole matching with spill port, the inside diameter surface of its stage casing central diameter cylindrical shell and Roll pearl bearing outer race interference fit, the inside diameter surface of its epimere path cylindrical shell and sleeve bearing external diameter surface interference fit, on the cylinder of nearly upper port, be provided with the radial hole that lubricating oil pipe nipple is installed, at sleeve bearing epimere external diameter, corresponding to radial hole place, be provided with annular groove one, around annular groove, be provided with uniform lubricating oil oil filler point, in sleeve bearing upper surface, be provided with the seal washer that block resistance lubricating oil overflows, seal washer is provided with the hole that the circle screw hole on the upper surface with sleeve bearing matches, the packing ring of pushing down seal washer is also provided with the hole of matching with this circle screw hole, producing torque axis is a forging and stamping welding assembly member, hypomere is provided with from bottom to top successively through doughnut-shaped steel plate, thrust bearing, the sleeve sections of upper important actor dish type pedestal basal plane centre bore, the center bore surface of sleeve sections is moved and is coordinated with the axiality section surface on defeated torque axis, its lower end part establish with defeated torque axis on inner spline sleeve the interlock of upper-end part of driving one circle radial teeth phase one enclose radially teeth groove, on the outer diametric plane of its sleeve sections, be set with centrifugal force controlled device, under the disk body that sleeve sections makes progress, anchor ring matches with upper fulcrum thrust shaft bearing surface, the external diameter surface of its disk body moves and coordinates with the aperture surface of upper fulcrum important actor dish type pedestal centre bore, this disk body upper ring surface is upwards provided with and upper Zhi Dian Roll pearl inner bearing ring, the axiality cylinder that sleeve bearing matches, axiality cylinder center is provided with axiality centre bore section from bottom to top, internal spline section, thrust bearing is installed on upper important actor dish type pedestal basal plane, Jiang Roll pearl bearing, sleeve bearing is installed to the corresponding position place of upper support dish, centrifugal force controlled device cover is put into the step disk body upper surface place of defeated torque axis upper end inner spline sleeve, upper fulcrum important actor dish type pedestal is placed on the doughnut-shaped steel plate at factory building top, to produce torque axis below cylinder section cylinder through upper fulcrum thrust bearing, pedestal basal plane, the centre bore of doughnut-shaped steel plate, cylinder section centre bore cover is installed in the axiality section of defeated torque axis, make its cylinder section, the function surface of disk body section and defeated torque axis axiality section, match in the correspondence surface of upper fulcrum important actor dish type pedestal, centrifugal force controlled device cover is installed to and produced on torque axis hypomere cylinder,And be fixed to default position with screw, by An Zhuan You Roll pearl bearing, the upper point supporting dish of sleeve bearing, with its function surface and product torque axis hypomere, match in the corresponding surface of important actor dish type pedestal, keeping product torque axis hypomere and defeated torque axis epimere axiality under upright condition, with screw, be screwed in IPT hole, upper point supporting dish is installed and is fixed on upper important actor dish type pedestal, along important actor dish type pedestal disc perimeter surface soldered corresponding to doughnut-shaped steel plate, and in the oiling at upper lower fulcrum place, lubricating oil pipe nipple is installed at spill port place, producing torque axis epimere is comprised of more piece forging axle, the first segment that produces torque axis epimere forges the lower end part of axle, be provided with upper point supporting structure in product torque axis hypomere top axiality centre bore section, the cylinder that internal spline section matches, external splines, its upper-end part of driving is provided with uniform radially teeth groove, the centre bore hole depth that first segment forges axle is machined to place, external splines top, corresponding axial plane place at the bottom of centre bore hole, process a normally closed lubricated ointment Change oil drain oil, the height that first segment forges axle is greater than other respectively height of joint, the height that each joint forges axle depends on by equal altitudes equal angles makes one group in a spiral manner through the radial hole that produces torque axis axis within the scope of every 360 degree, hole count depends on the number of axle that one group of leaf that catches the wind is installed, the aperture of radial hole is larger, the aperture that is installed on the sleeve bearing in radial hole is also larger, the shaft diameter matching with sleeve bearing is also larger, be that the catch the wind centrifugal force of leaf of fulcrum carrying is also larger, the area that catches the wind that is to say the leaf that catches the wind can be done greatly, but forging diameter one timing of axle, the aperture of radial hole will be restricted, thereby the hole count of the radial hole of processing on each joint forging axle has restriction, but forging a number of axle of installing on axle, each joint must not be less than 4, other each joint forges axle and is provided with central through hole, its upper and lower side position is respectively equipped with and docks with it the uniform radially teeth groove of interlock, at interlock cylinder, place processes respectively bevel for welding, cylinder and the centre bore axis of lower end part of first segment of take is benchmark, interlock is welded section by section, after each joint forging axle welds in occlusal surface place, on existing large-size numerical control machine, be worked into and set diameter dimension and height (length), the interlock welding processing is produced to torque axis from top to bottom in its setting height, pressing equal altitudes (length) equal angles makes through the one group of radial hole that produces torque axis axis with every 360 degree scopes in a spiral manner, make to produce torque axis epimere the many groups of blades that catch the wind can be installed, in each radial hole, be pressed into a sleeve bearing, the external diameter in sleeve bearing stage casing is less than the aperture of producing torque axis epimere centre bore, sleeve bearing is being processed respectively an annular groove near inner radius corresponding to this center hole wall, on cylinder above annular groove, (duty) processes respectively an aperture that flows into lubricating cream, below sleeve bearing axial symmetry central plane, on cylinder, (duty) processes a fuel-displaced aperture, the both ends of the surface of sleeve bearing axle flush parallel with the external diameter vertical plane that produces torque axis, this external diameter vertical plane is perpendicular to the center line of sleeve bearing axle separately, the catch the wind fulcrum of blade of a connection is installed in each sleeve bearing axis hole, the interlude of the fulcrum that connects the blade that catches the wind between sleeve bearing axle two annular grooves is matched in clearance, two annular grooves coordinate for moving outward,On the inner side shaft part of nearly sleeve bearing outer face, be provided with annular groove and Mi seal ring, the outer section of axial region position of stretching out sleeve bearing outer face is provided with the structure that is connected with the blade that catches the wind, for minor diameter fulcrum, adopt the structure that is threaded, for major diameter fulcrum, adopt tooth is connected to structure, it is to process one section of annular groove on fulcrum stretches out the shaft part of sleeve bearing end face that tooth is connected to structure, the width of annular groove is suitable with the axial dimension of the connecting elements cylinder internal spline of the blade that catches the wind, on shaft part outside annular groove, process one section of external splines, the axial dimension of external splines is suitable with the connecting elements cylinder inner groove width of the blade that catches the wind, interior external splines is slidably matched, when the internal spline of blade of making to catch the wind packs into and passes the key tooth of external splines, when the blade that will catch the wind turns over a key tooth, make the two-phase face-off flank of tooth laminating of interior external splines, and on the cylinder of the connecting elements of the blade that catches the wind corresponding to external splines teeth groove, compress into respectively a limit and ship and resell on another market, limit the inner conical surface of shipping and reselling on another market to match with external spline teeth groove face, the blade that catches the wind consists of blade and connecting elements, connecting elements is constructed the column body segment matching except being provided with to be connected with fulcrum, the column body segment in annular groove outside was provided with the radially notch of its axis within it, radially notch welds a long lath, long lath outside is provided with the radial channels at setting-in sheet blade root position, connect the radial channels on two connecting elements long laths of same fulcrum, when connecting elements installation is positioned same fulcrum two-end part, the symmetrical sagittal plane of two radial channels is mutually 90 degree angles, in order to guarantee that the blade and blade face s ymmetry center plane that is installed on same fulcrum two ends is mutually right angle, along long lath conduit, be provided with a row or multi-row rivet hole, on the inner side end of the corresponding cylinder of long lath, be respectively equipped with a triangle stiffener, the right angle end face surface soldered corresponding to long lath of triangle stiffener, the corresponding surface soldered of another right angle end face and cylinder, the slim blade being made into by high strength light material, blade blade face can be isosceles trapezoid, or isosceles trapezoid not, or square, or fan-shaped, if adopt not isosceles trapezoid, base on it (inner side) is less than bottom (outside), on isosceles trapezoid blade, base is not provided with row or the porous matching with rivet hole on long lath, after riveting or rivet with the conduit setting-in of base on it and long lath, along conduit side weld, connect, when isosceles trapezoid is not caught the wind the blade face s ymmetry center plane of blade while forwarding vertical plane state to, top waist length is than lower top waist length, the blade face s ymmetry center plane of blade of catching the wind is asymmetric about fulcrum axis, area in fulcrum axis below is slightly larger than the area of top, about the weight on blade face, fulcrum axis below, be greater than the weight on blade face, top, the size of bottom (outside) and the height of trapezoid blade are by fulcrum, the resistance to tension of each junction determines it, limit, blade upper end is made into streamlined cambered surface, blade lower surface is made into acute angle cross section, along fulcrum axis direction, two bottom surfaces being set is the axial lath of leg-of-mutton cambered surface, with the triangle bottom surface of the axial lath of cambered surface, clamp blade, and two blocks of axial laths of cambered surface and blade are riveted into one with rivet along axis both sides, or after riveting along the axial lath of cambered surface sideline corresponding surface soldered, along triangle base and connecting elements cylinder, the corresponding surface soldered of long lath,Forward the blade face s ymmetry center plane of the blade that catches the wind to upright position respectively, make the long waist limit of trapezoid blade down, below the cylinder of nearly sleeve bearing axial end, in s ymmetry center plane place, blade face, weld a square brake posts, be arranged on the structure of the blade that catches the wind on same fulcrum two ends, material, geometry, area is identical with weight, but, be arranged on the blade face s ymmetry center plane of the blade that catches the wind on same fulcrum two ends about angle 90 degree of fulcrum axis, the blade face area of fulcrum axis below is greater than the blade face area of its top, above these, the blade that catches the wind for various profiles is all the design principle that must observe, when a slice is caught the wind the blade face s ymmetry center plane of blade with it produces torque axis excessively, when the vertical plane of fulcrum axis overlaps, other end a slice is caught the wind the blade face s ymmetry center plane of blade with it produces torque axis excessively, the vertical plane quadrature of fulcrum axis, the blade face s ymmetry center plane that is the blade that catches the wind on same fulcrum two ends is 90 ° of angles, and the blade face of the blade that catches the wind at same fulcrum two ends is that dislocation is symmetrical about the axis of fulcrum, when static (calm), facing to each root fulcrum, look, when the blade face s ymmetry center plane of the blade that catches the wind of myopia end is tilted to the left 45 ° with respect to facing the vertical plane that produces torque axis axis, and the blade face s ymmetry center plane of the blade that catches the wind of long sight end is tilted to the right 45 ° with respect to the vertical plane of facing product torque axis axis, under this layout, where manage-style is from not scraping to tree-shaped wind power generation plant, overlook power transmission shaft and be always counter rotation, the blade that claims to catch the wind is counter-clockwise layout law, on the contrary, when the blade face s ymmetry center plane of the blade that catches the wind of myopia end is tilted to the right 45 ° with respect to facing the vertical plane that produces torque axis axis, and the blade face s ymmetry center plane of the blade that catches the wind of long sight end is tilted to the left 45 ° with respect to the vertical plane of facing product torque axis axis, under this layout, where manage-style is from not scraping to tree-shaped wind power generation plant, overlook power transmission shaft and be always rotation clockwise, the blade that claims to catch the wind is clockwise layout law, if adopt counter-clockwise layout law, whenever the blade face of the blade that catches the wind s ymmetry center plane forwards to and crosses its product torque axis, when the vertical plane of fulcrum axis overlaps, near-sighted end face observer, the square brake posts right flank catching the wind on blade connecting elements cylinder is fitted with the left surface that is welded in a brake block on the corresponding axial plane of product torque axis below sleeve bearing end face, if adopt clockwise layout law, whenever the blade face of the blade that catches the wind s ymmetry center plane forwards to and crosses its product torque axis, when the vertical plane of fulcrum axis overlaps, near-sighted end face observer, the square brake posts left surface catching the wind on blade connecting elements cylinder is fitted with the right flank that is welded in a brake block on the corresponding axial plane of product torque axis below sleeve bearing end face, no matter adopt which kind of layout law, two two square brake posts of catching the wind on blade on same fulcrum, as long as when fit with a side of its corresponding brake block in a side of a square brake posts, this fulcrum just stops operating, perspective is welded on two brake block on each the sleeve bearing end face below axial plane producing on torque axis, its inner surface is that dislocation is parallel, when the laminating of the inner surface surface corresponding to square brake posts of a brake block,The inner surface of another brake block becomes upright position with the corresponding surface of another square brake posts of face-off mutually, as described above, to catch the wind blades installation to fulcrum separately one by one, weld one by one good square brake posts, brake block, sealing is produced footpath, torque axis lower end to the Change oil aperture of draining the oil, from producing the center port of torque axis upper end, to producing in the whole central duct of torque axis epimere, fill with and moisten Weihe ointment, and aperture, upper end is sealed, when calm weather, to the product torque axis of the many groups of blades that catch the wind be housed, with helicopter, be lifted into the supporting structure place of the upper fulcrum of power transmission shaft, the cylinder of the lower end part of torque axis first segment forging axle will be produced, the axiality centre bore section of the product torque axis hypomere in external splines and upper point supporting structure, internal spline matches, product torque axis upper-lower section is assembled into one, make to produce in the supporting structure of upper fulcrum that torque axis uprightly runs on power transmission shaft, at this moment, many steel wire rope posts (pearl) the chain band at defeated torque axis transmission rotating cylinder place will be sleeved on, cover installs on steel wire rope post (pearl) the chain band rotating cylinder below installed vertical generator bridge plate one by one, the axis of steel wire rope post (pearl) chain band rotating cylinder is aligned with the vertical type generator rotor axis being arranged on bridge plate, the clutch being arranged on vertical type generator rotor-end axle is connected with steel wire rope post (pearl) chain band rotating cylinder respectively, here, the working surface diameter of transmission rotating cylinder is greater than the working surface diameter of steel wire rope post (pearl) chain band rotating cylinder, by after being sleeved on the centrifugal force controlled device that produces on torque axis hypomere cylindrical shell external diameter surface and being sleeved on defeated torque axis epimere transmission torque sleeve and connecting, with pipeline, connect lubricating oil and note oil return system, a tree-shaped wind power generation plant drives the power plant of many vertical type generators to accuse and build up, when not having wind-force to scrape tree-shaped wind power generation plant, the blade that catches the wind producing on torque axis fulcrum remains static, around helix, facing an axis looks, the blade face s ymmetry center plane of the blade that catches the wind on each fulcrum produces torque axis about crossing it, the vertical plane of fulcrum axis is 45 ° of angles, seeing through product torque axis looks, two blades that catch the wind that are arranged on each root fulcrum by equal altitudes equal angles along helix are all X-shaped state, if catch the wind, blade is installed by counter-clockwise layout law, the blade that catches the wind of myopia end, square brake posts favoured it and produced torque axis, the brake block left side of the vertical plane of fulcrum axis, and the blade that catches the wind of long sight end, square brake posts favoured it and produced torque axis, the brake block right side of the vertical plane of fulcrum axis, when wind-force is scraped towards observer, owing to always there being a slice in one group of blade that catches the wind, catch the wind blade in the maximum face angle position of catching the wind, first this blade that catches the wind starts, the blade that catches the wind on observer right side causes wind blows and upwards rotates 45° angle, it produces torque axis the blade and blade of catching the wind face s ymmetry center plane and mistake separately, the vertical plane quadrature of fulcrum axis, be that all blades that catch the wind on right side are in level, simultaneously, the blade that catches the wind in left side causes Wind power propelling and rotates 45° angle, it produces torque axis the blade face s ymmetry center plane of blade and the mistake separately of catching the wind, the vertical plane of fulcrum axis overlaps, square brake posts is separately stoped and rotates by its corresponding brake block, all blades that catch the wind in left side are in plumbness, thereby cause the promotion of wind-force,Drive power transmission shaft inhour (overlooking) rotation, and the blade that catches the wind that is positioned at observer right side is just necessarily in level, and be positioned at the blade that catches the wind on the left of observer just necessarily in plumbness, when wind-force, carrying observer scrapes off, be positioned at all blades that catch the wind on observer right side in plumbness, and be positioned at all blades that catch the wind on the left of observer in level, power transmission shaft is still by inhour (overlooking) direction rotation, in other words, if catch the wind, blade is installed by counter-clockwise layout law, where manage-style is from not scraping to tree-shaped wind power generation plant, power transmission shaft is constant by the direction of inhour (overlooking) rotation, on the contrary, if catch the wind, blade is installed by clockwise layout law, the blade that catches the wind of myopia end, square brake posts favoured it and produced torque axis, the brake block right side of the vertical plane of fulcrum axis, and the blade that catches the wind of long sight end, square brake posts favoured it and produced torque axis, the brake block left side of the vertical plane of fulcrum axis, when wind-force is scraped towards observer, owing to always there being a slice in one group of blade that catches the wind, catch the wind blade in the maximum face angle position of catching the wind, first this blade that catches the wind starts, the blade that catches the wind in observer left side causes wind blows and upwards rotates 45° angle, it produces torque axis the blade and blade of catching the wind face s ymmetry center plane and mistake separately, the vertical plane quadrature of fulcrum axis, all blades that catch the wind in left side are in level, simultaneously, the blade that catches the wind on right side causes Wind power propelling and rotates 45° angle, it produces torque axis the blade face s ymmetry center plane of blade and the mistake separately of catching the wind, the vertical plane of fulcrum axis overlaps, square brake posts is separately stoped and rotates by its corresponding brake block, be that all blades that catch the wind on right side are in plumbness, thereby cause the promotion of wind-force, drive power transmission shaft (overlooking) rotation clockwise, and the blade that catches the wind that is positioned at observer left side is just necessarily in level, and the blade that catches the wind that is positioned at observer right side is just necessarily in plumbness, when wind-force, carrying observer scrapes off, be positioned at all blades that catch the wind in observer left side in plumbness, and all blades that catch the wind that are positioned at observer right side are in level, power transmission shaft is still by clockwise (overlooking) direction rotation, in other words, if catch the wind, blade is installed by clockwise layout law, where manage-style is from not scraping to tree-shaped wind power generation plant, power transmission shaft is constant by the direction of (overlooking) rotation clockwise, in other words, when having selected the direction of rotation of power transmission shaft, also the layout law of blade has just determined to catch the wind, conversely, when having selected the layout law of the blade that catches the wind, also just determined the direction of rotation of power transmission shaft, known from the above mentioned: 1, every a slice is caught the wind blade while transferring plumbness to, at power transmission shaft, turn over half way around, within the scope of 180 °, give the motive force of power transmission shaft extremely zero again to maximum by zero, this motive force is pressed varies with sinusoidal function within the scope of these 180 °, 2, at power transmission shaft, often turning over one turns, every a slice catch the wind blade only in the scope of nearly half way around to power transmission shaft to power, 3, when producing the diameter of torque axis, can do very greatly, the diameter of fulcrum can be done very greatly, the area of blade of catching the wind also can be done very greatly, producing torque axis does very highly, just the many groups of blades that catch the wind can be installed, just can give the larger output torque of power transmission shaft, 4,All wind-force that blade causes that catches the wind that transfers plumbness to deducts the poor of the suffered resistance of all blades that catch the wind that transfer level to, be multiplied by the mean radius of motive force, it is exactly the moment of torsion that power transmission shaft can be exported, the wind energy in long-term maximum wind power grade area of take is foundation, build the tree-shaped wind power generation plant of setpoint power output scale, according to the tree-shaped wind power generation plant of setpoint power output scale design, choose generating capacity and the number of units of vertical type generator, its total generating capacity and setpoint power output scale are matched, according to the rotating speed requirement of the best generating operation mode of vertical type generator, the transmission mechanism that She Ji Full foot rotating speed requires, while having wind, centrifugal force controlled device is passed to power transmission shaft by wind energy automatically, when calm, centrifugal force controlled device makes the automatic stall of power transmission shaft, according to the situation of change of wind-force, utilize clutch to adjust the operating number of vertical type generator, by the generated energy Gong Gei of wind-force between Ye ?Ye consumer, or the generated energy of wind-force between Ye is supplied with to rectification accumulation of energy power plant, or by the irrigation network in the generated energy supply drought and water shortage area of wind-force between Ye, or by the water drainage net in generated energy supply many water of flood area of wind-force between Ye, or the generated energy of wind-force between Ye is supplied with to the fire fire extinguishing network of rivers, forest area that takes place frequently.

2. according to a kind of tree-shaped wind generating unit described in right 1, it is characterized in that: the output power of transmission shaft is passed to the driving mechanism of vertical type generator by a torque drive rotating cylinder, a plurality of wire rope posts (pearl) chain band rotating cylinder, many wire rope posts (pearl) chain band and erection support form, the torque drive rotating cylinder being arranged on defeated torque axis hypomere is a plate spoke double shell Cast Steel, interior rotating cylinder internal diameter position is processed with the internal spline matching with external splines on defeated torque axis hypomere, with the outer rotaring tube external diameter position that disc connects, be processed with the structure matching with many wire rope posts (pearl) chain band, at each section of external diameter position of torque drive rotating cylinder, be provided with the same configuration matching with wire rope post (pearl) chain band, the structure matching with wire rope post (pearl) chain band is on each section of external diameter cylinder, be processed with uniform axial concave column (the half pearl nest) face matching with half short column (pearl) face, on the external diameter cylinder of the axisymmetric horizontal plane of fitting surface, process an annular groove matching with wire rope radius, cross every two concave columns (half pearl nest) over glaze line and angle arc length on calibration garden of crossing the axial vertical plane of drive shaft axis, match with the pitch of wire rope post (pearl) chain band, the structure of a plurality of wire rope posts (pearl) chain band rotating cylinder is identical, all two sections of tube structure parts, the external diameter of hypomere cylindrical shell is less than the external diameter of epimere cylindrical shell, the external diameter surface of hypomere cylindrical shell moves and coordinates with the surface, the large footpath of annular groove of spill annular groove dish post erection support, its inside diameter surface moves and coordinates with the external diameter surface of the newel of erection support, match with the thrust shaft bearing surface that is installed on the annular groove bottom surface of erection support in its lower end surface, on the external diameter cylinder of epimere cylindrical shell, be processed with axial concave column (the half pearl nest) face matching with wire rope post (pearl) chain band, on the external diameter cylinder of the axisymmetric plane of fitting surface, process an annular groove matching with wire rope radius, cross every two concave columns (half pearl nest) over glaze line, the angle of the axial vertical plane of the axis of erection support newel is arc length on calibration garden, match with the pitch of wire rope post (pearl) chain band, the lower anchor ring of epimere cylindrical shell and erection support upper ring surface Shang Mi seal ring are suitable, its upper ring surface is provided with the radially teeth groove with the clutch phase interlock of vertical type generator rotor-end axle place, the epimere inside diameter surface of epimere cylindrical shell is Yu Roll pearl bearing outer race interference fit, upper end-hole section in footpath is provided with assembly sealing plate within it, erection support is the cast steel member that wire rope post (pearl) chain band rotating cylinder is installed, by disk body, cylindrical shell and newel form, when casting, corresponding to disk body cylinder, to newel center, place a L shaped stainless steel lubricant pipe, between the cylindrical shell of cast steel member erection support and newel, process the spill annular groove of a coaxality, the axis of newel of take is benchmark, machining center post cylinder, surface, the large footpath of spill annular groove, annular groove bottom surface, disk body cylinder, Qi Full foot of Shi is set coaxality requirement, the axis of newel of take is benchmark, machining center post upper-end surface, cylindrical shell upper-end surface, disk body bottom surface, spill annular groove base ring face, the setting perpendicularity requirement of Qi Full foot of Shi and newel cylinder, make spill annular groove base ring face exceed disk body upper ring surface, make newel upper-end surface and wire rope post (pearl) chain band rotating cylinder upper end hush panel lower surface Spielpassung, at center, newel upper-end surface, boring an aperture communicates with pre-buried L shaped stainless steel lubricant pipe, make newel cylinder hypomere cylinder and thrust bearing center hole face suitable, moving cooperation of Roll pearl inner bearing ring in making its epimere cylinder and being arranged on wire rope post (pearl) chain band rotating cylinder epimere cylindrical shell, the base ring face of spill annular groove is matched with thrust shaft bearing surface, surface, the large footpath of spill annular groove on cylindrical shell is coordinated with wire rope post (pearl) chain band rotating cylinder hypomere cylindrical shell external diameter surface is moving, on the anchor ring of cylindrical shell upper end, process an annular groove, Yi Mi seal is installed in annular groove, Qi Mi front cover of Shi coordinates with Huan Mian Mi envelope under wire rope post (pearl) chain band rotating cylinder epimere cylindrical shell, on outer diametric plane at erection support cylindrical shell corresponding to thrust bearing bottom surface, process a radially spill port, an oil return pipe nipple is installed in spill port, processing disk body cylinder to L shaped stainless steel lubricant pipe exposes port, and at the pipe nipple of an oiling of port welding, on disk body anchor ring, processing in uniform way corresponding one is enclosed the hole that screw hole matches with on backing plate, thrust bearing is installed to the base ring face place of erection support, Jiang Roll pearl bearing, hush panel is installed to the surface, corresponding aperture of wire rope post (pearl) chain band rotating cylinder, wire rope post (pearl) chain band rotating cylinder cover is installed on the newel of erection support, its function surface is matched with the corresponding surface of erection support, with screw, erection support is fixed on backing plate, to with the erection support of backing plate, move on the reinforced concrete basis of bridge plate below of installed vertical generator respectively, tensioning is placed on torque drive rotating cylinder one by one, wire rope post (pearl) chain band between wire rope post (pearl) chain band rotating cylinder, the running working surface that makes wire rope post (pearl) chain band respectively with two rotating cylinders on the symmetrical radial plane of annular groove in same level, along backing plate periphery be embedded in advance the Plate Welding on reinforced concrete basis, make erection support be positioned at the bridge plate below of installed vertical generator, the bridge plate of mobile installed vertical generator, make the axis and vertical the aligning of erection support centre of location mast axis of vertical type generator rotor, and make bridge plate lower surface to wire rope post (pearl) chain band rotating cylinder upper surface, have the setting space of an installation clutch.

3. according to a kind of tree-shaped wind generating unit described in right 1, it is characterized in that: wire rope post (pearl) the chain band of the vertical type generator that the power of transmission shaft is passed to is made on standardization mould, or make at the scene, many wire rope posts (pearl) the chain band being arranged on same transmission shaft has identical model specification, each wire rope post (pearl) chain band all consists of steel cable and several standardization post (pearl) bodies, first processing and torque drive rotating cylinder, standardization post (pearl) body that the concave column of wire rope post (pearl) chain band rotating cylinder post (pearl) (half pearl nest) face matches, on the axisymmetric median plane of standardization post (pearl) body, process a radial hole matching with wirerope diameter, reprocess a positioning hole with radial hole quadrature, the aperture of positioning hole is greater than the aperture of radial hole, and be a locating stud that the inner is positive wedge shape of each standardization post (pearl) body outfit, each wire rope post (pearl) chain band configuration modular joint post (pearl) body, the difference of connector post (pearl) body and standardization post (pearl) body is that the center line of positioning hole and radial hole is not quadrature, but in the center line horizontal plane of radial hole with its oblique, and place, the aperture of oblique positioning hole is provided with welding horn mouth, the termination of the wire rope of a preseting length is manufactured with perforation syringe needle, leading perforation syringe needle through the radial hole of standardization post (pearl) body, make to have on wire rope standardization post (pearl) the body number of setting, finally lead perforation syringe needle and relatively passing the oblique positioning hole of connector post (pearl) body, allow the horn mouth place that the head of wire rope is exposed at oblique positioning hole clamp it, wire rope with standardization post (pearl) body is placed on standardization mould, the centre distance of standardization mould and structure and torque drive rotating cylinder, wire rope post (pearl) chain band rotating cylinder identical, one by one by standardization post (pearl) body, wire rope embeds the torque drive rotating cylinder of standardization mould, in corresponding matching face on wire rope post (pearl) chain band rotating cylinder cylinder, tense wire rope, positive wedge shaped detents punching press is entered in positioning hole, make the positive wedge shape end face of locating stud laterally squeeze curved wire rope, the rest may be inferred, extremely until the installation of last joint standardization post (pearl) body, when erection joint standardization post (pearl) body, perforation syringe needle is turned respectively to oblique positioning hole from radial hole middle in opposite directions, rotate the torque drive rotating cylinder of standardization mould, check that wire rope post (pearl) chain band is at the torque drive rotating cylinder of standardization mould, adaptive situation on wire rope post (pearl) chain band rotating cylinder, until when qualified, the head of wire rope is welded in oblique positioning hole aperture respectively, and one by one locating stud is welded at place, aperture, manufacture wire rope post (pearl) chain band like this.

4. according to a kind of tree-shaped wind generating unit described in right 1, it is characterized in that: a kind of actuator of wind energy being changed into electric energy is mounted in the clutch on vertical type generator rotor-end axle, this clutch is by connecting rotating cylinder body, slip rotating cylinder body, operating stem and electromagnet form, be arranged on the vertical type generator on bridge plate, its rotor-end axially downwardly extending is gone out, a connection rotating cylinder body is installed on rotor-end axle external diameter surface and key tooth with inside diameter surface and keyway, its external diameter cylinder is provided with external splines, the internal spline of a slip rotating cylinder body is slidably matched with the external splines suit that is connected rotating cylinder body, the lower end anchor ring of slip rotating cylinder body is provided with a circle radial teeth and matches with the radially teeth groove on wire rope post (pearl) the chain band rotating cylinder upper end anchor ring standing facing each other mutually, above slip rotating cylinder body radial teeth, on cylinder, be provided with an annular groove, under normal conditions, slip rotating cylinder body is conducted oneself with dignity with it, always glide and make its radial teeth and corresponding teeth groove interlock, an operating stem with lath jack-knife, at slip rotating cylinder body annular groove internal diameter between two anchor rings, in the Open end plate section corresponding to operating stem, relatively be welded with respectively a minor axis, on minor axis, be set with a short rotating cylinder, short rotating cylinder stretches in annular groove relatively, but short drum surface does not contact with the upper and lower anchor ring of annular groove on slip rotating cylinder body, on the suitable location plate face standing facing each other mutually at V shaped slab bar, process respectively an aperture, this two aperture coordinates with surperficial the moving of support short column being welded on bridge plate lower surface respectively, at one section of wire rope of the tip of V shaped slab bar welding, leading wire rope from pulley working surface top in large footpath is wound around a circle, forward this stature of wire rope is connected with the stretched head of a tension type electromagnet, large footpath pulley, tension type electromagnet is all arranged on the suitable location of bridge plate lower surface, when wind-force hour, when the output torque of transmission shaft can not drive whole vertical type generator, need to close certain or some vertical type generator, just open tension type electromagnet, close corresponding vertical type generator, tension type electromagnet pulls wire rope, make large footpath pulley turn over a corresponding angle, pull joystick has been scratched, on operating stem two the short rotating cylinder in annular groove upwards lifts slip rotating cylinder body, the radial teeth of rotating cylinder body and the radially teeth groove of wire rope post (pearl) chain band rotating cylinder disengaging interlock make to slide, make corresponding vertical type generator stall, when blowing, the tension type electromagnet at all vertical type generators place is all in running order, all vertical type generators are in outage state, transmission shaft is in idling conditions, increasing along with wind-force, progressively close tension type electromagnet, make corresponding vertical type generator enter operation generating state, until during maximum wind power, tension type electromagnet Close All, tree-shaped wind generating unit drives whole vertical type generator Jin Ru Full load generating states, when certain vertical type generator breaks down while needing repairing, also can use clutch to keep in repair by the stall of fault vertical type generator.

5. according to a kind of tree-shaped wind generating unit described in right 1, it is characterized in that: be arranged on the centrifugal force controlled device producing on torque axis hypomere sleeve sections external diameter cylinder and be and will produce torque axis and defeated torque axis and connect into the mechanism of the transmission shaft of tree-shaped wind generating unit, when calm, producing torque axis is not connected with defeated torque axis, when having the wind-force of setting, centrifugal force controlled device makes to produce torque axis and defeated torque axis links into an integrated entity, centrifugal force controlled device is by a short cylinder, two pairs of supports with pulley, Yi Kuai Roll pearl ring block and four wire rope with counterweight post form, short cylinder is screwed and is producing on torque axis sleeve sections external diameter cylinder, or surface soldered corresponding to sleeve sections fixed along short cylinder upper and lower end face, two pairs of supports with pulley are welded on the anchor ring of short cylinder upper end in uniform way by its internal end surface symmetry, radially stretch to, make the working surface of pulley in same level, Roll pearl annular slab is to be sleeved in advance anchor ring place under the step disk body of inner spline sleeve epimere of defeated torque axis epimere, Roll pearl annular slab is provided with a circle blind hole, being placed on blind hole Nei Roll pearl and inner spline sleeve tops bar moving cooperation of lower Huan Mian Roll of disk body, the moving cooperation of inside diameter surface surface corresponding to inner spline sleeve of Roll pearl annular slab, the wire rope of four equal length same sizes, counterweight post with same geometry identical weight, walk around respectively the working surface of pulley, respectively a Gu of wire rope is Dinged downwards to the axial corresponding position place of Roll pearl ring block, when static state, walk around the inner spline sleeve that weight that pulley lies in the counterweight post on wire rope is drawn motionless defeated torque axis epimere, when wind-force hour, producing torque axis is caught the wind blade by Wind power propelling and rotates, but rotating speed is less, the synchronized centrifugal force controlled device rotating with product torque axis does not still move in the inner spline sleeve of the defeated torque axis epimere of stretchy, centrifugal force controlled device Tuo Roll pearl ring block and on anchor ring, is rotated under the step disk body of inner spline sleeve, when wind-force reaches setting value, the synchronized centrifugal force increase with producing the centrifugal force controlled device counterweight post of torque axis rotation, pull in inner spline sleeve and move, radial teeth on the anchor ring of inner spline sleeve upper end and the radially teeth groove interlock of producing on the anchor ring of torque axis sleeve sections lower end, make to produce the synchronized rotation that links into an integrated entity of torque axis and defeated torque axis, the generating of driving vertical type generator.

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