CN109404220A - A kind of vertical axis aerogenerator of horizontal blade variable-angle - Google Patents

Abstract

A kind of vertical axis aerogenerator of horizontal blade variable-angle, using the horizontal blade driven generator shell magnets of stator of vertical axis, blade is fixed on above blade fixing seat by paddle shaft, blade control rocker arm is installed in paddle shaft inner end, rocker-arm roller is installed in blade control rocker arm end; rocker-arm roller is placed in the control panel groove of blade angle control panel, and blade angle passes through control motor, blade angle controller；Control the rotation of blade angle control panel, reach control blade in windward side expansion, the smooth unresisted purpose of gyratory directions, four groups of horizontal blades of correspondence are when driving generator rotation, adjacent spaces blade has blade that is horizontal, upward, being deflected downwardly angle in windward side always, increase effectively blade wind area, due also to revolution contrary wind blade control is horizontality, windage is minimum, the efficiency of wind-driven generator is substantially increased in this way.

Description

A kind of vertical axis aerogenerator of horizontal blade variable-angle

Technical field

This patent is related to technical field of wind power generation, more particularly, to a kind of vertical-shaft wind of horizontal blade variable-angle Generator.

Background technique

At present；Wind-driven generator mostly uses greatly high tower, large-scale blade, pushes away by wind-force and the generation of blade windward side gradient Power drives the form of generator rotation, and the wind-driven generator structure of this kind of form is complicated, wind energy utilization is very low, some are vertical Axis wind power generator；The different wind face of rotating vane and blade rotation generates certain resistance, wind energy utilization is caused to decline, efficiency The deficiencies of not high.

Summary of the invention

The purpose of this patent is；For the deficiencies of current wind-driven generator wind energy utilization is low, structure is complicated, and provide A kind of vertical axis aerogenerator of horizontal blade variable-angle.

This patent solves technical solution used by its technical problem；The firm banking made by large diameter steel pipe, Gu Determine pedestal top production firm banking flange, lower part to be installed together with prefabricated ground, firm banking is according to the maximum of locality Wind-force layer, setting height, firm banking flange are closely connect with vertical shaft mounting flange by vertical shaft fixing bolt, and this patent is using hair Motor housing and blade fixing seat are linked together, generator casing embeds magnets of stator, drive rotation, the magnetic field of rotation by blade The winding above rotor is set to generate induced current, generator lead is drawn downwards by vertical shaft centre bore.

This patent by above firm banking flange, with vertical shaft below vertical shaft mounting flange, pass through vertical shaft fixing bolt Be fastenedly connected, above vertical shaft successively mounting plane bearing, generator bearing, generator's cover, be installed winding rotor it is tight Close fit is mounted on above vertical shaft, and the lead of winding is drawn downwards by vertical shaft centre bore, the insertion of generator casing inner wall circumference Magnets of stator is fixedly mounted, generator casing is fixed with generator's cover, by generator's cover fixing bolt, installs later Upper end cover bearing, blade fixing seat, then passes through upper end cover fixing bolt, blade fixing seat, generator at generator upper end cover Upper end cover is fixed together with generator casing；The stator rotated by blade driven generator shell is formed, blade fixing seat is solid Fixed 4 pairs of blades, 4 pairs of blades have respectively；A is axial, B axle to, C axial, D axial direction blade pair, wherein A is axial, B axle to blade be water Square to, 10 degree of downward bias of C axial direction blade both ends horizontal, inclined 10 degree upwards of D axial direction blade both ends horizontal, to increase blade windward The wind area in face, blade are fixed on above blade fixing seat by paddle shaft, and paddle shaft inner end installs blade and controls rocker arm, blade It controls rocker arm end and rocker-arm roller is installed, rocker-arm roller is placed in the control panel groove of blade angle control panel, blade angle control Disk processed passes through control panel bearing, is mounted on vertical shaft upper end, and vertical shaft upper end is by bolt of fixing plate, fixed installation control motor fixing plate With control motor, blade angle controller is installed in vertical shaft upper end, and the production of blade angle control panel outer circle has control panel groove, blade Angle control panel, upper end internal production have the fluted disc with gear cooperation, and blade angle control panel is by blade angle controller, control Motor rotation, gear band active toothed disk rotate blade angle control panel, and it is flat in windward side expansion, gyratory directions to reach control blade Along unresisted purpose, blade is manufactured using light-weight, high-intensitive carbon fiber, the installation of blade angle control panel windward side front end High-end limit sensors install low side limit sensors in 90 degree of side of revolution position, and control motor is to stop brake locking motor, Pass through follower disk bearing, installation wind direction follower disk above vertical shaft, passes through guider fixing bolt, fixed wind above wind direction follower disk Power guider, guider front end are arrow shaped, the guider empennage that wind-force guider rear end is plate, wind direction follower disk windward side There are two phase magnets, corresponding with the high-end limit sensors of blade angle control panel windward side for bottom, on vertical shaft top Portion is equipped with anemometry instrument.

This patent uses horizontal blade, by wind-force guider, the signal of anemometry instrument；By blade angle controller, Blade is unfolded in maximum wind surface in control blade angle control panel, when wind speed increases to, and generator is made to exceed the speed limit, blade angle Controller；Control motor rotation makes blade angle control panel rotate to the left an angle, is wind surface blade lag, generator turn Speed decline, when wind speed, which is increased to, influences generator operational safety；Blade angle controller；Control motor rotation makes blade angle The low side limit sensors of control panel are answered with guider positioning pole pair, and the blade of expansion is being in surface rear end windward, generator It stops operating, when wind speed decreased；Blade angle controller；Control motor rotation keeps blade angle control panel back to normal, wind When speed is low；Control motor rotation makes the high-end limit sensors of blade angle control panel, answers with guider positioning pole pair, blade Wind surface is maximum, wind-driven generator also reaches maximum power, blade angle controller, motor, anemometry instrument power circuit, Spare control power supply is connected to by vertical shaft centre bore.

The beneficial effect of this patent is, using the horizontal blade driven generator shell magnets of stator of vertical axis, four groups pairs Answer horizontal blade when driving generator rotation, adjacent spaces blade windward side have always it is horizontal, upwards, be deflected downwardly angle Blade, blade wind area is increased effectively, due also to revolution contrary wind blade control is that horizontality, windage are minimum, in this way Substantially increase the efficiency of wind-driven generator.

Detailed description of the invention

This patent is described further with reference to the accompanying drawing.

Attached drawing 1 is the appearance assumption diagram of this patent.

Attached drawing 2 is the top plan of this patent.

Attached drawing 3 is the blade control section top plan of this patent.

Attached drawing 4 is the blade control panel side view of this patent.

Attached drawing 5 is the wind-force guider bottom view of this patent.

Attached drawing 6 is the cross section view of this patent.

In figure: 1, generator casing, 2, firm banking, 3, blade fixing seat, 4, blade, 5, paddle shaft, 6, wind direction it is servo-actuated Disk, 7, wind-force guider, 8, anemometry instrument, 9, guider fixing bolt, 10, blade angle control panel, 11, control panel it is recessed Slot, 12, control panel bearing, 13, generator upper end cover, 14, upper end cover fixing bolt, 15, motor fixing plate, 16, fixed plate spiral shell Bolt, 17, control motor, 18, gear, 19, fluted disc, 20, blade control rocker arm, 21, rocker-arm roller, 22, high limit sensors, 23, low side limit sensors, 24, top line outlet, 25, guider front end, 26, guider empennage, 27, guider positioning magnetic Pole, 28, follower disk bearing, 29, upper end cover bearing, 30, blade angle controller, 31, vertical shaft mounting flange, 32, vertical shaft fixes Bolt, 33, plane bearing, 34, generator bearing, 35, vertical shaft, 36, firm banking flange, 37, generator's cover, 38, power generation Generator terminal lid fixing bolt, 39, magnets of stator, 40, rotor, 41, winding, 42, direction of rotation, 43, wind direction, 44, vertical shaft centre bore.

Specific embodiment

This patent includes in attached drawing, by above firm banking 2 firm banking flange 36, consolidate with the vertical shaft below vertical shaft 35 Determine flange 31, be fastenedly connected by vertical shaft fixing bolt 32, vertical shaft 35 successively mounting plane bearing 33, generator bearing above 34, generator's cover 37, the tight fit of rotor 40 for being installed winding 41 are mounted on above vertical shaft 35, and the lead of winding 41 is logical It crosses vertical shaft centre bore 44 to draw downwards, magnets of stator 39, generator casing 1 is fixedly mounted in the insertion of 1 inner wall circumference of generator casing It is fixed with generator's cover 37, by generator's cover fixing bolt 38, installs bearing with end cover 29, generator upper end later Then lid 13, blade fixing seat 3 pass through upper end cover fixing bolt 14, blade fixing seat 3, generator upper end cover 13 and power generation Machine shell 1 is fixed together；The stator rotated by 4 driven generator shell 1 of blade is formed, blade fixing seat 3 fixes 4 pairs of blades 4,4 pairs of blades 4 have respectively；A is axial, B axle to, C axial, D axial direction blade pair, wherein A is axial, B axle to blade be horizontal direction, 10 degree of downward bias of C axial direction blade both ends horizontal, D axial direction blade both ends horizontal upwards inclined 10 degree, with increase 4 windward side of blade by Wind area, blade 4 are fixed on above blade fixing seat 3 by paddle shaft 5, and 5 inner end of paddle shaft installs blade and controls rocker arm 20, blade It controlling 20 end of rocker arm and rocker-arm roller 21 is installed, rocker-arm roller 21 is placed in the control panel groove 11 of blade angle control panel 10, Blade angle control panel 10 by control panel bearing 12, be mounted on 35 upper end of vertical shaft, 35 upper end of vertical shaft is by bolt of fixing plate 16, solid Dingan County fills motor fixing plate 15 and motor 17, and blade angle controller 30 is installed in 35 upper end of vertical shaft, outside blade angle control panel 10 Circle production has control panel groove 11, and blade angle control panel 10, upper end internal production have the fluted disc 19 cooperated with gear 18, blade Angle control panel 10 controls blade angle with active toothed disk 19 by blade angle controller 30, the rotation of control motor 17, gear 18 Disk 10 rotates, and reaching control blade 4, smoothly unresisted purpose, control motor 17 are to stop in windward side expansion, gyratory directions Brake locking motor, and vertical shaft 35 is above by follower disk bearing 28, installation wind direction follower disk 6, and wind direction follower disk 6 is above by leading To device fixing bolt 9, fixed wind-force guider 7, guider front end 25 is arrow shaped, 7 rear end of wind-force guider is leading for plate To device empennage 26, there are two phase magnets, high-end with 10 windward side of blade angle control panel for side bottom windward for wind direction follower disk 6 Limit sensors 22 are corresponding, and anemometry instrument 8 is housed on 35 top top of vertical shaft.

The structure and the course of work of this patent be；The firm banking 2 made by large diameter steel pipe, 2 top system of firm banking Make firm banking flange 36, lower part and prefabricated ground to be installed together, firm banking 2 according to local maximum wind power layer, set Height is set, firm banking flange 36 is closely connect with vertical shaft mounting flange 31 by vertical shaft fixing bolt 32, and this patent is using power generation Machine shell 1 with blade fixing seat 3 is linked together, generator casing 1 embeds magnets of stator 39, by blade 4 drive rotate, rotation Magnetic field makes the winding 41 above rotor 40 generate induced current, and generator lead is drawn downwards by vertical shaft centre bore 44, this is specially Benefit uses horizontal blade 4, by wind-force guider 7, the signal of anemometry instrument 8；Pass through blade angle controller 30, control blade Blade is unfolded in maximum wind surface in angle control panel 10, when wind speed increases to, and generator is made to exceed the speed limit, blade angle controller 30；The control rotation of motor 17 makes blade angle control panel 10 rotate to the left an angle, is wind surface blade lag, generator turn Speed decline, when wind speed, which is increased to, influences generator operational safety；Blade angle controller 30；The control rotation of motor 17 makes blade The low side limit sensors 23 of angle control panel 10, with guider positioning magnetic pole 27 it is corresponding, the blade of expansion is being in windward side Rear end, generator stop operating, when wind speed decreased；Blade angle controller 30；The control rotation of motor 17 makes blade angle control Disk 10 processed is back to normal, when wind speed is low；Control motor 17 rotate make blade angle control panel 10 high-end limit sensors 22, with Guider positions magnetic pole 27 and corresponds to, and 4 wind surface of blade is maximum, wind-driven generator also reaches maximum power, blade angle controller 30, motor 17, the power circuit of anemometry instrument 8 are controlled, spare control power supply is connected to by vertical shaft centre bore 44.

The effect of this patent is；Using the horizontal blade driven generator shell magnets of stator of vertical axis, four groups of corresponding water For flat paddle leaf when driving generator rotation, adjacent spaces blade has paddle that is horizontal, upward, being deflected downwardly angle in windward side always Leaf increases effectively blade wind area, due also to revolution blade control is horizontality, windage is minimum, greatly improves in this way The efficiency of wind-driven generator.

Above-described is only the basic optimal enforcement mode of this patent, it is noted that for the common of the art For technical staff, under the premise of not departing from the art of this patent principle, several improvement and replacement and technology can also be made Extend, these improve and replace and technology extends the technology scope that also should be regarded as this patent, also belong to the protection model of this patent It encloses.

Claims (7)

1. a kind of vertical axis aerogenerator of horizontal blade variable-angle, it is characterised in that: by above firm banking flange, With below vertical shaft vertical shaft mounting flange, be fastenedly connected by vertical shaft fixing bolt, successively mounting plane bearing, hair above vertical shaft Motor bearings, generator's cover, the rotor tight fit for being installed winding are mounted on above vertical shaft, and the lead of winding passes through vertical Axis center hole is drawn downwards, and magnets of stator, generator casing and generator end is fixedly mounted in the insertion of generator casing inner wall circumference Lid is fixed by generator's cover fixing bolt, installs bearing with end cover, generator upper end cover, blade fixing seat, so later It is fixed together afterwards by upper end cover fixing bolt, blade fixing seat, generator upper end cover and generator casing, wherein blade Axis is fixed on above blade fixing seat, and blade control rocker arm, blade control rocker arm end installation rocker arm rolling are installed in paddle shaft inner end Wheel, rocker-arm roller are placed in the control panel groove of blade angle control panel, and blade angle control panel passes through control panel bearing, installation In vertical shaft upper end, vertical shaft upper end is by bolt of fixing plate, fixed installation control motor fixing plate and control motor, the installation of vertical shaft upper end Blade angle controller, the production of blade angle control panel outer circle have control panel groove, blade angle control panel, upper end internal production There is the fluted disc with gear cooperation, due also to passing through follower disk bearing, installation wind direction follower disk above vertical shaft, above wind direction follower disk By guider fixing bolt, fixed wind-force guider, anemometry instrument is installed on vertical shaft top and is formed.

2. a kind of vertical axis aerogenerator of horizontal blade variable-angle according to claim 1, it is further characterized in that: Fixing seat fixes 4 pairs of blades, and 4 pairs of blades have respectively；A is axial, B axle to, C axial, D axial direction blade pair, wherein A is axial, B axle to Blade is horizontal direction, 10 degree of downward bias of C axial direction blade both ends horizontal, inclined 10 degree upwards of D axial direction blade both ends horizontal.

3. a kind of vertical axis aerogenerator of horizontal blade variable-angle according to claim 1, it is further characterized in that: Guider front end is arrow shaped, the guider empennage that wind-force guider rear end is plate.

4. a kind of vertical axis aerogenerator of horizontal blade variable-angle according to claim 1, it is further characterized in that: Blade is manufactured using light-weight, high-intensitive carbon fiber.

5. a kind of vertical axis aerogenerator of horizontal blade variable-angle according to claim 1, it is further characterized in that: Controlling motor is to stop brake locking motor.

6. a kind of vertical axis aerogenerator of horizontal blade variable-angle according to claim 1, it is further characterized in that: High-end limit sensors are installed, in 90 degree of revolution side position installation low side limit sensing in blade angle control panel windward side front end Device.

7. a kind of vertical axis aerogenerator of horizontal blade variable-angle according to claim 1, it is further characterized in that: Side bottom installs two phase magnets to wind direction follower disk windward.