CN111561422A - Wind energy equipment capable of protecting fan blades and continuously supplying water - Google Patents

Abstract

The invention discloses a wind energy device capable of protecting fan blades and continuously supplying water, which comprises a wind motor, wherein a main bevel gear cavity is arranged in the wind motor, a lower transmission device is arranged below the main bevel gear cavity, a protection device is arranged below the lower transmission device, the right side of the main bevel gear cavity is provided with a linkage device, the upper side of the main bevel gear cavity is provided with an upper transmission device, the right side of the linkage device is provided with a water taking device, the invention adopts a telescopic structure, the protective fan blade device is firstly unfolded to protect the fan blade by the principle that wind energy is converted into mechanical energy so as to prevent the fan blade from stopping rotating caused by the fact that flying birds are involved in the fan blade, when the fan blades stop generating electricity, the stored electric energy is used for shrinking the protection device, and meanwhile, continuous water supply is achieved through the cooperation of wind power transmission and motor functions, so that convenience is brought to grazing of herdsmen, animal migration and life of wind motor maintainers.

Description

Wind energy equipment capable of protecting fan blades and continuously supplying water

Technical Field

The invention relates to the technical field related to wind energy, in particular to wind energy equipment capable of protecting fan blades and continuously supplying water.

Background

In the development process of modern new energy, the development and utilization of wind energy are very potential, but in the development process of wind power, the contradiction problem of environmental protection occurs, the high-speed operating fan blades can roll migrating bird groups into the fan blades to influence the operation of the fan blades, so that the efficiency of a wind driven generator is reduced, meanwhile, large-area wind power generation areas mainly appear in coastal islands, grassland pastoral areas, mountain areas and plateau areas which are lack of water, lack of fuel and inconvenient in traffic, the water consumption problem of maintenance and monitoring personnel for long-term residence is easy to occur, and meanwhile, in certain areas where animals migrate greatly, the animals die greatly due to lack of water, and the environmental protection is not facilitated. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows: the wind blade operating at high speed can roll migrated birds into the wind blade, so that birds die greatly, and meanwhile, the rolling of the birds can influence the operation of the wind blade, so that the efficiency of the wind driven generator is reduced, the wind driven generator is not beneficial to environmental protection, and surface water resources near the wind driven generator are lack.

In order to solve the problems, the wind energy equipment capable of protecting the fan blades and continuously supplying water is designed in the embodiment, and the wind energy equipment capable of protecting the fan blades and continuously supplying water comprises a wind motor, a main bevel gear cavity is arranged in the wind motor, a fan blade shaft is arranged on the left wall in the main bevel gear cavity in a rotating mode, the fan blade shaft is fixedly arranged on the inner circumference and the outer circumference of the main bevel gear cavity, a fan blade bevel gear is fixedly arranged on the inner circumference and the outer circumference of the fan blade shaft, a lower transmission device is arranged below the main bevel gear cavity, the lower transmission device comprises a lower bevel gear cavity arranged below the main bevel gear cavity, the fan blade bevel gear is in power connection with the lower transmission device, a protection device is arranged below the lower transmission device, the protection device comprises a telescopic bevel gear cavity arranged below the lower bevel gear cavity, a transmission shaft is arranged on the upper wall in the telescopic bevel gear cavity, a belt wheel shaft cavity is arranged on the left side of the telescopic bevel gear cavity, a belt wheel shaft is rotatably arranged between the front wall and the rear wall in the belt wheel shaft cavity, a sliding plate bevel gear cavity is arranged below the telescopic bevel gear cavity, the lower end of the transmission shaft extends into the sliding plate bevel gear cavity, a lower driven bevel gear is fixedly arranged at the lower end of the transmission shaft, a threaded rod is rotatably arranged on the left wall in the sliding plate bevel gear cavity, a sliding plate bevel gear meshed with the lower driven bevel gear is fixedly arranged on the outer circumference of the threaded rod positioned in the sliding plate bevel gear cavity, a sliding plate cavity is arranged at the left end of the sliding plate bevel gear cavity, a sliding plate which can slide left and right is connected with the threaded rod is arranged in the sliding plate cavity, lower belt wheel shafts are symmetrically arranged on the front and back of the upper side of the sliding plate, a side belt wheel cavity is arranged in the side sliding block, the front end and the rear end of a belt wheel shaft respectively penetrate through the front side and the rear side of the side sliding block which are symmetrical, the side sliding block is close to one side of the belt wheel shaft cavity and extends into the front side and the rear side of the belt wheel cavity, the front end and the rear end of the belt wheel shaft are respectively connected with the front side and the rear side of the side belt wheel cavity in a rotating manner, the inner wall of the side belt wheel cavity, which is far away from the belt wheel shaft cavity, of the side belt wheel cavity is respectively connected with the front side and the rear side in a rotating manner, a left lower belt wheel is fixedly arranged on the outer circumference of the side belt wheel cavity, a left upper belt wheel shaft is fixedly arranged on the outer circumference of the side belt wheel cavity, a left power belt is wound between the left upper belt wheels, the front side and the rear side of the left power, the wind turbine generator system is characterized in that a water taking device is arranged on the inner right side of the wind turbine generator, a linkage device is arranged on the right side of a main bevel gear cavity, an upper transmission device is arranged on the upper side of the main bevel gear cavity, a fan blade bevel gear is in power connection with the upper transmission device, the water taking device is in power connection with the upper transmission device, and the water taking device is in power connection with the linkage device.

Preferably, the left end of the fan blade shaft extends leftwards to extend through the outer wall of the wind motor to be fixedly connected with a fan blade, the upper end of the transmission shaft in the lower bevel gear cavity extends through the inner wall of the wind motor and the lower bevel gear cavity to extend into the main bevel gear cavity, a lower transmission bevel gear meshed with the fan blade bevel gear is fixedly arranged at the upper end of the transmission shaft and positioned in the axis of the main bevel gear cavity, the transmission shaft is fixedly provided with driving bevel gears at the inner and outer circumferences of the lower bevel gear cavity, the right side in the lower bevel gear cavity is rotatably connected with a lower generating bevel gear meshed with the driving bevel gears, the upper sides of the lower pulley shafts are symmetrical in the front and back direction, and an upper sliding plate cavity is communicated between the lower pulley shafts which are symmetrical in the front and back direction, the upper sliding plate is arranged in the upper sliding plate cavity and can slide left and right, the front end face and the rear end face of the upper sliding plate are fixedly connected with the front and rear symmetry of the upper sliding plate, and the upper side of the side sliding block is close to the front and rear symmetry end faces of the belt wheel shaft cavity.

Preferably, the flexible bevel gear intracavity is close to pulley shaft chamber one side is rotated and is connected with the driven bevel gear who engages in transmission bevel gear, driven bevel gear axle center fixed connection is equipped with flexible threaded rod, flexible bevel gear intracavity left wall intercommunication is equipped with the slide bar chamber, the slide bar intracavity be equipped with flexible threaded rod threaded connection and the slide bar that can the horizontal slip, the outer circumference of pulley axle is fixed and is equipped with pulley bevel gear, the pulley shaft intracavity is close to flexible bevel gear chamber one side is rotated and is connected with the flexible bevel gear who engages in pulley bevel gear, the fixed integral key shaft that is equipped with in flexible bevel gear axle center, the integral key shaft can the horizontal slip and splined connection locate in the flexible threaded rod, the integral key shaft can extend left.

Preferably, the water taking device comprises a water taking cavity arranged on the left side of the connecting cavity, the right end of the power shaft extends to the internally tangent fixed driving gear of the water taking cavity, a fixed block is fixedly arranged on the rear side of the driving gear and between the front wall and the rear wall of the water taking cavity, driven gears are symmetrically arranged on the left side and the right side of the fixed block, a fixed shaft is fixedly arranged between the center of the left side of the driven gear and the left wall of the water taking cavity, a motor rotating shaft is fixedly arranged on the right side of the driven gear center, the right end of the motor rotating shaft is rotatably connected with the right wall of the water taking cavity, hinge shafts are fixedly arranged on the left side and the right side of the driven gear near one side end surface of the fixed block and far away from the center of the driven gear center, a connecting rod is, the pulley is provided with positioning plates on the left and right sides, and linkage rods are rotatably arranged between the upper ends of the connecting rods and penetrate through the circle center of the pulley and the circle center of the upper end of the positioning plate and are positioned in the left and right symmetry.

But preferably, bilateral symmetry two jointly the fixed drive plate that is equipped with between the terminal surface under the locating plate, the fixed terminal surface that is equipped with of terminal surface passes under the fixed block the drinking-water pipe of terminal surface under the wind-powered electricity generation machine, be equipped with the decurrent water passageway of opening in the drinking-water pipe, the gliding water pumping rod that is equipped with from top to bottom in the water passageway, the water pumping rod upper end is passed the fixed block upwards extends and fixes and locates terminal surface under the drive plate, the fixed pump that is equipped with of water pumping rod lower extreme, the pump can slide from top to bottom in water passageway inner wall downside is located the pump lower side is equipped with the check valve, the check valve is fixed to.

Preferably, the fixed generator that is equipped with in lower bevel gear chamber right side wall, generate electricity bevel gear power connect in generator, the fixed energy supply motor that is equipped with in generator right side, generator with energy supply motor electric connection, energy supply motor right side is equipped with down the pulley chamber, the side left wall rotation is equipped with power connect in down the lower drive shaft of energy supply motor on the pulley intracavity, the outer circumference of lower drive shaft is fixed and is equipped with the shrink band pulley, the threaded rod right-hand member passes the wind motor inner wall and passes slide bevel gear chamber extends to in the lower pulley intracavity, the threaded rod right-hand member is located the fixed pulley chamber that is equipped with down of the outer circumference of lower pulley intracavity, down the pulley chamber with go up between the shrink band pulley around being equipped with down the power band.

Preferably, the linkage is including locating the connection chamber on main bevel gear chamber right side, it is equipped with the driven shaft to connect intracavity left wall rotation, the driven shaft left end extends to left main bevel gear intracavity and with fan blade bevel gear right-hand member face fixed connection it is equipped with the power shaft to connect intracavity right wall rotation, be equipped with opening upper slide bar chamber left in the power shaft, the upper slide bar intracavity horizontal slip be equipped with the upper slide bar of cuboid shape, the fixed power piece that is equipped with in upper slide bar left end, power piece right-hand member face can with the laminating of power shaft left end face the power piece, the driven shaft right-hand member can with the cooperation of power piece left end joggle.

Preferably, rocking bars are symmetrically arranged on the upper side and the lower side of the power block, the upper rocking bar and the lower rocking bar are hinged to the outer circular surface of the power block, a positioning shaft is arranged between the vertically symmetrical centers of the rocking bars in a vertically symmetrical mode, the lower end of the positioning shaft is fixedly arranged on the lower wall in the connecting cavity, a push rod is arranged between the upper ends of the vertically symmetrical rocking bars in a hinged connection mode, a slider cavity is arranged in the wind turbine on the left side of the push rod, the left end of the push rod extends into the slider cavity leftwards, a slider capable of sliding leftwards and rightwards and the slider cavity is arranged at the left end of the push rod, and a reset spring.

Preferably, the left side of the slide block cavity is fixedly provided with fixing plates which are symmetrical up and down, the centers of the fixing plates which are symmetrical up and down are communicated and rotated together to form a rotating shaft, a cylindrical centrifugal barrel is arranged between the fixing plates which are symmetrical up and down, the circumferences of the centrifugal barrels are uniformly distributed and are internally and externally communicated with each other to form through holes, centrifugal blocks are uniformly distributed in the through holes, a centrifugal spring is fixedly arranged between the outer circumference of the rotating shaft and each centrifugal block, the upper side of the fixing plate is provided with a fan blade bevel gear cavity, the upper end of the rotating shaft extends into the fan blade bevel gear cavity and is fixedly provided with a rear driven bevel gear, the left wall in the fan blade bevel gear cavity is rotatably provided with a small fan blade shaft, the right end of the small fan blade shaft is fixedly provided with a rear driving bevel gear which is meshed with a left lower belt wheel of the rear driven bevel gear, the left side of the fan, the upper wall in the fan blade cavity is communicated with an air outlet with an upward opening.

Preferably, the upper transmission device comprises an upper transmission bevel gear which is rotatably connected to the upper wall of the main bevel gear cavity and meshed with the fan blade bevel gear, the upper wall of the main bevel gear cavity is fixedly provided with an upper generator, the upper transmission bevel gear is in power connection with the lower end of the upper generator, the right side of the upper transmission bevel gear is provided with a transmission motor, the upper generator is electrically connected with the transmission motor, and the right end of the upper transmission bevel gear penetrates through the right wall to be rotatably connected to the left end face.

The invention has the beneficial effects that: according to the invention, the telescopic structure is used for protecting the power generation fan blade during working, the fan blade protection device is firstly unfolded by the principle that wind energy is converted into mechanical energy to protect the fan blade, so that the fan blade is prevented from stalling when flying birds are involved in the fan blade, when the fan blade stops generating power, the protection device is contracted by using stored electric energy, and meanwhile, continuous water supply is realized by matching of wind power transmission and motor functions, so that convenience is brought to grazing of herdsmen, animal migration and life of maintainers of a wind motor.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a wind power plant of the present invention capable of protecting blades and supplying water continuously;

FIG. 2 is an enlarged schematic view of "A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is an enlarged view of the structure of "C" of FIG. 1;

FIG. 5 is an enlarged view of the structure of "D" of FIG. 1;

FIG. 6 is a schematic view of the structure in the direction "F-F" of FIG. 1;

FIG. 7 is a schematic view of the structure in the direction "G-G" of FIG. 1;

FIG. 8 is a schematic view of the structure in the direction "I-I" of FIG. 1;

FIG. 9 is a schematic view of the structure in the direction "J-J" of FIG. 3;

FIG. 10 is a schematic view of the structure in the direction "K-K" of FIG. 3;

fig. 11 is a schematic view of the structure in the direction "L-L" of fig. 6.

Detailed Description

The invention will now be described in detail with reference to fig. 1-11, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to wind energy equipment capable of protecting fan blades and continuously supplying water, which comprises a wind motor 11, wherein a main bevel gear cavity 12 is arranged in the wind motor 11, a fan blade shaft 13 is rotatably arranged on the left wall in the main bevel gear cavity 12, fan blade bevel gears 15 are fixedly arranged on the inner circumferences and the outer circumferences of the fan blade shaft 13 in the main bevel gear cavity 12, a lower transmission device 103 is arranged below the main bevel gear cavity 12, the lower transmission device 103 comprises a lower bevel gear cavity 17 arranged below the main bevel gear cavity 12, the fan blade bevel gears 15 are in power connection with the lower transmission device 103, a protection device 101 is arranged below the lower transmission device 103, the protection device 101 comprises a telescopic bevel gear cavity 21 arranged below the lower bevel gear cavity 17, a transmission shaft 18 is rotatably arranged on the inner upper wall in the telescopic bevel gear cavity 21, and transmission bevel gears 22 are fixedly arranged on the inner circumferences and the outer circumferences of the transmission shaft 18 in the telescopic bevel gear cavity 21, the flexible bevel gear chamber 21 left side is equipped with band pulley axle chamber 24, it is equipped with band pulley axle 30 to rotate between the wall around in the band pulley axle chamber 24, flexible bevel gear chamber 21 below is equipped with slide bevel gear chamber 31, 18 lower extremes of transmission shaft extend to in the slide bevel gear chamber 31 and the fixed driven bevel gear 32 that is equipped with down of lower extreme, the rotation of the interior left wall of slide bevel gear chamber 31 is equipped with threaded rod 36, threaded rod 36 is located the fixed slide bevel gear 33 that is equipped with of the meshing of driven bevel gear 32 down of slide bevel gear chamber 31 inside and outside circumference, slide bevel gear chamber 31 left end is equipped with slide chamber 34, the slidable about being equipped with threaded connection in slide chamber 34 is in the slide 35 of threaded rod 36, the symmetry is equipped with down band pulley axle 37 around the upside in slide chamber 34, slide chamber 34 respectively with the front and back band pulley axle 37 intercommunication down, slide 35 up end is fixed to be equipped with be located the symmetry around the side slider 38 in the band pulley axle 37 down, a side pulley cavity 39 is arranged in the side slider 38, the front end and the back end of the pulley shaft 30 respectively penetrate through the front and back symmetrical side slider 38, are close to one side of the pulley shaft cavity 24, and extend into the front and back symmetrical side pulley cavity 39, the front end and the back end of the pulley shaft 30 are respectively and rotationally connected with the inner wall of one side of the front and back symmetrical side pulley cavity 39, which is far away from the pulley shaft cavity 24, the pulley shaft 30 is positioned at the inner and outer circumference of the side pulley cavity 39 and is fixedly provided with a left lower pulley 40, the inner wall of one side of the upper side of the side pulley cavity 39, which is far away from the pulley shaft cavity 24, is rotationally provided with a left upper pulley shaft 41, the left upper pulley shaft 41 is positioned at the inner and outer circumference of the side pulley cavity 39 and is fixedly provided with a left upper pulley shaft 42, a left power belt 43 is wound between the left upper pulley shaft 42 by the left lower pulley 40, and the front and back, the lower end face of the telescopic plate 44 is fixedly connected with and provided with a telescopic net 45 between the upper end faces of the sliding plates 35, the right side in the wind motor 11 is provided with a water taking device 102, the right side of the main bevel gear cavity 12 is provided with a linkage device 104, the upper side of the main bevel gear cavity 12 is provided with an upper transmission device 105, the fan blade bevel gear 15 is in power connection with the upper transmission device 105, the water taking device 102 is in power connection with the upper transmission device 105, and the water taking device 102 is in power connection with the linkage device 104.

Beneficially, the left end of the fan blade shaft 13 extends leftwards, through the outer wall of the wind motor 11, and is fixedly connected with a fan blade 14, the upper end of the transmission shaft 18 in the lower bevel gear cavity 17 passes through the inner wall of the wind motor 11 and passes through the lower bevel gear cavity 17 to extend into the main bevel gear cavity 12, the upper end of the transmission shaft 18 in the main bevel gear cavity 12 is axially and fixedly provided with a lower transmission bevel gear 16 engaged with the fan blade bevel gear 15, the transmission shaft 18 in the lower bevel gear cavity 17 is internally and externally circumferentially and fixedly provided with a driving bevel gear 19, the right side in the lower bevel gear cavity 17 is rotatably connected with a lower power transmission bevel gear 20 engaged with the driving bevel gear 19, an upper sliding plate cavity 98 is arranged on the upper side of the lower pulley shaft 37 in front-back symmetry and between the lower pulley shaft 37 in front-back symmetry, and an upper sliding plate 99 is arranged in, the front end face and the rear end face of the upper sliding plate 99 are fixedly connected to the front end face and the rear end face of the upper side of the side surface sliding block 38 which is symmetrical in the front-rear direction and close to the front-rear symmetrical side end face of the belt wheel shaft cavity 24.

Beneficially, the driven bevel gear 23 meshed with the transmission bevel gear 22 is rotatably connected to one side, close to the belt wheel shaft cavity 24, of the telescopic bevel gear cavity 21, a telescopic threaded rod 97 is fixedly connected to the axis of the driven bevel gear 23, a sliding rod cavity 25 is communicated with the left wall of the telescopic bevel gear cavity 21, a sliding rod 26 in threaded connection with the telescopic threaded rod 97 and capable of sliding left and right is arranged in the sliding rod cavity 25, a belt wheel bevel gear 29 is fixedly arranged on the outer circumference of the belt wheel shaft 30, a telescopic bevel gear 28 meshed with the belt wheel bevel gear 29 is rotatably connected to one side, close to the telescopic bevel gear cavity 21, of the belt wheel shaft cavity 24, a spline shaft 27 is fixedly arranged on the axis of the telescopic bevel gear 28, the spline shaft 27 is capable of sliding left and right and is in splined connection with the telescopic threaded rod 97.

Beneficially, the water intake device 102 includes a water intake cavity 78 arranged at the left side of the connection cavity 53, the right end of the power shaft 55 extends to the water intake cavity 78 internally tangent and is fixedly provided with a driving gear 79, a fixed block 80 is fixedly arranged at the rear side of the driving gear 79 and between the front wall and the rear wall in the water intake cavity 78, driven gears 82 are symmetrically arranged at the left side and the right side of the fixed block 80, a fixed shaft 81 is fixedly arranged between the center of circle of the driven gear 82 at the left side and the left wall in the water intake cavity 78, a motor rotating shaft 75 is fixedly arranged at the center of circle of the driven gear 82 at the right side, the right end of the motor rotating shaft 75 is rotatably connected with the right wall in the water intake cavity 78, a hinge shaft 83 is fixedly arranged at one end surface of the driven gear 82 close to the fixed block 80 and far away from the, the fixed block 80 up end is fixed and is equipped with slide rail 85, the gliding pulley 86 that is equipped with from top to bottom in slide rail 85, the locating plate 88 that is equipped with of pulley 86 bilateral symmetry both sides passes the pulley 86 centre of a circle with locating plate 88 upper end centre of a circle just is located bilateral symmetry rotate between the connecting rod 84 upper end and be equipped with trace 87.

Beneficially, bilateral symmetry is two common fixed driving plate 89 that is equipped with between the terminal surface under locating plate 88, the terminal surface is fixed to be equipped with under fixed block 80 and passes the drinking-water pipe 91 of terminal surface under the fan motor 11, be equipped with opening decurrent water channel 92 in the drinking-water pipe 91, gliding water pumping rod 90 that is equipped with about in the water channel 92, water pumping rod 90 upper end is passed fixed block 80 upwards extends and fixes and locates terminal surface under the driving plate 89, the fixed pump 94 that is equipped with of water pumping rod 90 lower extreme, pump 94 can slide from top to bottom in water channel 92 inner wall downside is located the pump 94 downside is equipped with check valve 93, check valve 93 is fixed to be located drinking-water pipe 91 downside inner wall.

Advantageously, the right side wall of the lower bevel gear cavity 17 is fixedly provided with a generator 51, the lower generating bevel gear 20 is in power connection with the generator 51, an energy supply motor 52 is fixedly arranged on the right side of the lower generator 51, the lower generator 51 is electrically connected with the energy supply motor 52, the right side of the energy supply motor 52 is provided with a lower belt wheel cavity 46, the upper left wall in the lower belt wheel cavity 46 is rotationally provided with a lower driving shaft 48 which is connected with the energy supply motor 52, an upper contraction belt wheel 49 is fixedly arranged on the outer circumference of the lower driving shaft 48, the right end of the threaded rod 36 penetrates through the inner wall of the wind motor 11 and penetrates through the sliding plate bevel gear cavity 31 to extend into the lower belt wheel cavity 46, the right end of the threaded rod 36 is positioned in the inner and outer circumferences of the lower belt wheel cavity 46 and is fixedly provided with a lower belt wheel cavity 46, a lower power belt 50 is wound between the lower pulley cavity 46 and the upper retracting pulley 49.

Beneficially, linkage 104 is including locating the connection chamber 53 on main bevel gear chamber 12 right side, it is equipped with driven shaft 54 to connect the interior left wall rotation of chamber 53, the left end of driven shaft 54 extends to left in the main bevel gear chamber 12 and with fan blade bevel gear 15 right-hand member face fixed connection it is equipped with power shaft 55 to connect the interior right wall rotation of chamber 53, be equipped with opening upper slide bar chamber 56 to the left in the power shaft 55, the upper slide bar 57 that is equipped with the cuboid shape that can the horizontal slip in upper slide bar chamber 56, the fixed power block 58 that is equipped with in upper slide bar 57 left end, power block 58 right-hand member face can with the laminating of power shaft 55 left end face power block 58, driven shaft 54 right-hand member can with the cooperation of tenon is connected to the power block 58 left end.

Beneficially, rocking bars 59 are symmetrically arranged on the upper side and the lower side of the power block 58, the upper rocking bar 59 and the lower rocking bar 59 are hinged with the outer circular surface of the power block 58, a positioning shaft 60 is rotatably arranged between the vertically symmetrical centers of the vertically symmetrical rocking bars 59, the lower end of the positioning shaft 60 is fixedly arranged on the inner lower wall of the connecting cavity 53, push rods 62 are hinged between the upper ends of the vertically symmetrical rocking bars 59, a slider cavity 61 is arranged in the wind motor 11 on the left side of the push rods 62, the left end of the push rods 62 extends leftwards into the slider cavity 61, a slider 63 capable of sliding leftwards and rightwards and the slider cavity 61 is arranged at the left end of the push rods 62, and a return spring 64 is fixedly arranged between the slider 63 and the inner.

Beneficially, the left side of the slider cavity 61 is fixedly provided with vertically symmetrical fixing plates 410, the centers of the vertically symmetrical fixing plates 410 are communicated and rotated together with each other to be provided with a rotating shaft 409, cylindrical centrifugal barrels 408 are arranged between the vertically symmetrical fixing plates 410, the circumferences of the centrifugal barrels 408 are uniformly distributed and are provided with through holes 411 which are communicated inwards and outwards, the through holes 411 are uniformly distributed and provided with centrifugal blocks 412, a centrifugal spring 413 is fixedly arranged between the outer circumference of the rotating shaft 409 and each centrifugal block 412, the upper side of the fixing plate 410 is provided with a fan blade bevel gear cavity 405, the upper end of the rotating shaft 409 extends into the fan blade bevel gear cavity 405 and is fixedly provided with a rear driven bevel gear 407, the inner left wall of the fan blade bevel gear cavity 405 is rotatably provided with a fan blade shaft 403, the right end of the fan blade shaft 403 is fixedly provided with a rear driving bevel gear 403 engaged with a left lower pulley of the rear driven bevel gear 407, and the left, the left end of the small fan blade shaft 403 extends into the fan blade cavity 401 and is fixedly provided with a left lower belt wheel small fan blade 404, and the inner upper wall of the fan blade cavity 401 is communicated with an air outlet 402 with an upward opening.

Advantageously, the upper transmission device 105 includes an upper transmission bevel gear 501 rotatably connected to the upper wall of the main bevel gear cavity 12 and engaged with the fan blade bevel gear 15, the upper wall of the main bevel gear cavity 12 is fixedly provided with an upper generator 502, the upper transmission bevel gear 501 is dynamically connected to the lower end of the upper generator 502, the right side of the fan blade bevel gear 78 is provided with a transmission motor 503, the upper generator 502 is electrically connected to the transmission motor 503, and the right end 75 passes through the right wall of the fan blade bevel gear 78 and is rotatably connected to the left end surface of the transmission motor 503.

The following detailed description of the steps of the wind power plant with blade protection and continuous water supply will be made with reference to fig. 1 to 11: when wind power is general, the fan blade 14 rotates and drives the fan blade bevel gear 15 to rotate through the fan blade shaft 13, the fan blade bevel gear 15 drives the lower transmission bevel gear 16 to rotate through gear engagement and drives the lower bevel gear cavity 17 to rotate through the transmission shaft 18, the lower bevel gear cavity 17 drives the driving bevel gear 19 to rotate through gear engagement, the lower generator 51 generates and stores electric energy and can provide electric energy for the energy supply motor 52, meanwhile, the transmission shaft 18 drives the transmission bevel gear 22 and the lower driven bevel gear 32 to rotate, the transmission bevel gear 22 drives the driven bevel gear 23 to rotate through gear engagement, the driven bevel gear 23 drives the telescopic threaded rod 97 to rotate, the telescopic threaded rod 97 drives the sliding rod 26 to slide leftwards through threaded connection, the sliding rod 26 pushes the telescopic bevel gear 28 to extend leftwards, the telescopic threaded rod 97 drives the movable spline shaft 27 to rotate through spline connection and drives the telescopic, the telescopic bevel gear 28 drives the belt wheel shaft 30 to move leftwards by pushing the belt wheel bevel gear 29, the belt wheel shaft 30 drives the side slide block 38 and the telescopic plate 44 to slide leftwards, the side slide block 38 drives the sliding plate 35 and the upper sliding plate 99 to slide leftwards, the telescopic bevel gear 28 drives the belt wheel bevel gear 29 to rotate by gear meshing, the belt wheel bevel gear 29 drives the belt wheel shaft 30 to rotate, the belt wheel shaft 30 drives the left lower belt wheel 40 to rotate, the left lower belt wheel 40 drives the left upper belt wheel shaft 42 to rotate by the left power belt 43, the left power belt 43 drives the telescopic plate 44 to move upwards, the telescopic plate 44 and the sliding plate 35 slide leftwards, the telescopic net 45 is unfolded until the upper end surface of the telescopic plate 44 is flush with the lower end surface of the upper sliding plate 99, the fan blades 14 are sealed and protected by the unfolded telescopic net 45 and the side slide blocks 38 on the front side and the rear side near the sliding plate 35 and the, the fan blade bevel gear 15 drives the upper transmission bevel gear 501 to rotate through gear meshing, and the upper generator 502 generates and stores electric energy and can provide electric energy for the transmission motor 503.

In general wind power, the left lower belt wheel small fan blade 404 rotates and drives the left lower belt wheel rear driving bevel gear 406 to rotate through the small fan blade shaft 403, the left lower belt wheel rear driving bevel gear 406 drives the rear driven bevel gear 407 to rotate through gear engagement and drives the rotating shaft 409 to rotate through the rear driven bevel gear 407, the rotating shaft 409 drives the centrifugal barrel 408 to rotate, the centrifugal block 412 is thrown out through the centrifugal spring 413, at this time, the rotating speed of the left lower belt wheel small fan blade 404 is not fast enough due to insufficient wind power, and the centrifugal block 412 does not push the sliding block 63 to the right.

When the wind power is larger, the rotating speed of the left lower belt wheel small fan blade 404 is increased, at the same time, the centrifugal block 412 pushes the slide block 63 to extrude the return spring 64 to slide rightwards, the slide block 63 pushes the push rod 62 rightwards, the push rod 62 drives the rear end of the rocker 59 to move rightwards, the front end of the rocker 59 drives the power block 58 to move leftwards, simultaneously, the power block 58 drives the upper slide rod 57 to slide leftwards, at the same time, the power block 58 is joggled with the driven shaft 54, the driven shaft 54 drives the upper slide rod 57 to rotate through the power block 58, the upper slide rod 57 drives the power shaft 55 to rotate, the power shaft 55 drives the driving gear 79 to rotate, the driving gear 79 drives the driven gear 82 to rotate through gear meshing, the driven gear 82 drives the lower end of the connecting rod 84 to do circular motion through the hinge shaft 83, the upper end of the connecting rod 84 drives the pulley 86 to do reciprocating motion in the slide rail 85, the pumping rod 90 drives the water channel 92 to reciprocate, and the water channel 92 cooperates with the check valve 93 to pump water into the water channel 92 and flow into the reservoir 95 for storage through the trajectory of the pumping pipe 91.

When no wind exists, the energy supply motor 52 drives the upper contraction belt wheel 49 to rotate through the lower driving shaft 48, the upper contraction belt wheel 49 drives the lower contraction belt wheel 47 to rotate through the lower power belt 50, the lower contraction belt wheel 47 drives the slide plate bevel gear 33 to rotate through the lower belt wheel shaft 37, the slide plate bevel gear 33 drives the threaded rod 36 to rotate, the threaded rod 36 drives the slide plate 35 to slide rightwards through threaded connection, the slide plate 35 drives the side sliding block 38 and the upper slide plate 99 to slide rightwards, meanwhile, the slide plate bevel gear 33 drives the lower driven bevel gear 32 to rotate through gear engagement, the lower driven bevel gear 32 drives the transmission bevel gear 22 to rotate through the transmission shaft 18, the transmission bevel gear 22 drives the driven bevel gear 23 to rotate through gear engagement, the driven bevel gear 23 drives the telescopic threaded rod 97 to rotate, the telescopic threaded rod 97 drives the sliding rod 26 to slide, the spline shaft 27 drives the telescopic bevel gear 28 to rotate, the telescopic bevel gear 28 drives the belt wheel bevel gear 29 to rotate through gear meshing, the belt wheel bevel gear 29 drives the belt wheel shaft 30 to rotate the belt wheel shaft 30, the belt wheel shaft 30 drives the left upper belt wheel shaft 41 to rotate through the left power belt 43, the left power belt 43 drives the telescopic plate 44 to move downwards, and the telescopic plate 44 and the sliding plate 35 slide rightwards and the telescopic net 45 contracts downwards to return to the initial state.

When no wind exists but water needs to be stored, the transmission motor 503 drives the motor rotating shaft 75 to rotate, the motor rotating shaft 75 drives the driven gear 82 to rotate, the driven gear 82 drives the lower end of the connecting rod 84 to do circular motion through the hinge shaft 83, the upper end of the connecting rod 84 drives the pulley 86 to do reciprocating motion in the sliding rail 85 through the linkage rod 87, the pulley 86 drives the driving plate 89 to do vertical motion through the positioning plate 88, the driving plate 89 drives the water pumping rod 90 to do reciprocating motion in the water channel 92, the pump 94 is matched with the check valve 93 to pump water into the water channel 92, and the water flows into the water storage tank 95 through the track of the water pumping pipe 91 to.

The invention has the beneficial effects that: according to the invention, the telescopic structure is used for protecting the power generation fan blade during working, the fan blade protection device is firstly unfolded by the principle that wind energy is converted into mechanical energy to protect the fan blade, so that the fan blade is prevented from stalling when flying birds are involved in the fan blade, when the fan blade stops generating power, the protection device is contracted by using stored electric energy, and meanwhile, continuous water supply is realized by matching of wind power transmission and motor functions, so that convenience is brought to grazing of herdsmen, animal migration and life of maintainers of a wind motor.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (10)

1. The utility model provides a can protect fan blade and last wind energy equipment who supplies water, includes the wind-driven generator, its characterized in that: a main bevel gear cavity is arranged in the wind turbine, a fan blade shaft is arranged on the left wall in the main bevel gear cavity in a rotating manner, the fan blade shaft is positioned in the main bevel gear cavity, a fan blade bevel gear is fixedly arranged on the inner circumference and the outer circumference of the main bevel gear cavity, a lower transmission device is arranged below the main bevel gear cavity, the lower transmission device comprises a lower bevel gear cavity arranged below the main bevel gear cavity, the fan blade bevel gear is in power connection with the lower transmission device, a protection device is arranged below the lower transmission device, the protection device comprises a telescopic bevel gear cavity arranged below the lower bevel gear cavity, a transmission shaft is arranged on the upper wall in the telescopic bevel gear cavity in a rotating manner, a transmission bevel gear is fixedly arranged on the outer circumference of the transmission shaft positioned in the telescopic bevel gear cavity, a belt wheel shaft cavity is arranged on the left side of the telescopic bevel gear cavity, a belt wheel shaft, the lower end of the transmission shaft extends into the sliding plate bevel gear cavity, the lower end of the transmission shaft is fixedly provided with a lower driven bevel gear, the left wall in the sliding plate bevel gear cavity is rotatably provided with a threaded rod, the outer circumference of the threaded rod in the sliding plate bevel gear cavity is fixedly provided with a sliding plate bevel gear meshed with the lower driven bevel gear, the left end of the sliding plate bevel gear cavity is provided with a sliding plate cavity, the sliding plate cavity is internally provided with sliding plates which are in threaded connection with the threaded rod and can slide left and right, the upper side of the sliding plate cavity is symmetrically provided with lower pulley shafts in the front and back direction, the sliding plate cavity is respectively communicated with the front and back lower pulley shafts, the upper end surface of the sliding plate is fixedly provided with side sliding blocks which are symmetrically arranged in the front and back lower pulley shafts in the front and back direction, the front and back ends of the, the front end and the rear end of the belt wheel shaft are respectively rotationally connected with the inner wall of one side of the side belt wheel cavity which is symmetrical in the front and the rear direction, the side belt wheel cavity is far away from the inner wall of one side of the belt wheel shaft cavity, the belt wheel shaft is positioned in the inner circumference of the side belt wheel cavity, a left lower belt wheel is fixedly arranged on the outer circumference of the side belt wheel cavity, a left power belt is wound between the left upper belt wheel shaft and the left lower belt wheel, the left power belt is symmetrical in the front and the rear direction, the left end surfaces of the left power belts are jointly and fixedly provided with a telescopic plate, the lower end surface of the telescopic plate is fixedly connected with a telescopic net between the upper end surfaces of the sliding plates, the right side in the wind turbine is provided with a water taking device, the right side of the main bevel gear cavity is provided with a linkage device, the upper side of the main bevel gear cavity, the water taking device is in power connection with the upper transmission device, and the water taking device is in power connection with the linkage device.

2. A wind power plant as claimed in claim 1, wherein the wind power plant is adapted to provide a continuous supply of water with the blades protected by the wind power plant, and wherein: the left end of the fan blade shaft extends leftwards to penetrate through the outer wall of the wind motor and is fixedly connected with fan blades, the upper end of the transmission shaft in the lower bevel gear cavity penetrates through the inner wall of the wind motor and penetrates through the lower bevel gear cavity to extend into the main bevel gear cavity, a lower transmission bevel gear meshed with the fan blade bevel gear is fixedly arranged at the upper end of the transmission shaft and positioned in the axis of the main bevel gear cavity, the transmission shaft is fixedly provided with driving bevel gears at the inner and outer circumferences of the lower bevel gear cavity, the right side in the lower bevel gear cavity is rotatably connected with a lower generating bevel gear meshed with the driving bevel gears, the upper sides of the lower pulley shafts are symmetrical in the front and back direction, and an upper sliding plate cavity is communicated between the lower pulley shafts which are symmetrical in the front and back direction, the upper sliding plate is arranged in the upper sliding plate cavity and can slide left and right, the front end face and the rear end face of the upper sliding plate are fixedly connected with the front and rear symmetry of the upper sliding plate, and the upper side of the side sliding block is close to the front and rear symmetry end faces of the belt wheel shaft cavity.

3. A wind power plant as claimed in claim 2, wherein the wind power plant is adapted to provide a continuous supply of water with the blades protected by the wind power plant, and wherein: the telescopic bevel gear intracavity is close to pulley shaft chamber one side is rotated and is connected with the meshing in transmission bevel gear's driven bevel gear, driven bevel gear axle center fixed connection is equipped with flexible threaded rod, telescopic bevel gear intracavity left side wall intercommunication is equipped with the slide bar chamber, the slide bar intracavity be equipped with flexible threaded rod threaded connection and the slide bar that can the horizontal slip, the outer circumference of pulley axle is fixed and is equipped with pulley bevel gear, the pulley shaft intracavity is close to flexible bevel gear chamber one side is rotated and is connected with the meshing in pulley bevel gear's telescopic bevel gear, the fixed integral key shaft that is equipped with in telescopic bevel gear axle center, integral key shaft ability horizontal slip and splined connection locate in the flexible threaded rod, the integral key shaft can extend left.

4. A wind power plant as claimed in claim 1, wherein the wind power plant is adapted to provide a continuous supply of water with the blades protected by the wind power plant, and wherein: the water taking device comprises a water taking cavity arranged on the left side of the connecting cavity, the right end of the power shaft extends to the internally tangent fixed driving gear in the water taking cavity, a fixed block is fixedly arranged at the rear side of the driving gear and between the front wall and the rear wall in the water taking cavity, driven gears are symmetrically arranged on the left side and the right side of the fixed block, a fixed shaft is fixedly arranged between the center of the driven gear and the left wall in the water taking cavity, a motor rotating shaft is fixedly arranged on the right side of the driven gear center, the right end of the motor rotating shaft is rotatably connected with the right wall in the water taking cavity, a hinge shaft is fixedly arranged on the left side and the right side of the driven gear near one side end surface of the fixed block and far away from the center of the driven gear center, a connecting rod is rotatably, the pulley is provided with positioning plates on the left and right sides, and linkage rods are rotatably arranged between the upper ends of the connecting rods and penetrate through the circle center of the pulley and the circle center of the upper end of the positioning plate and are positioned in the left and right symmetry.

5. The wind power plant as claimed in claim 4, wherein the wind power plant is capable of protecting the blades and supplying water continuously, and further comprising: bilateral symmetry two under the locating plate jointly fixed being equipped with the driving plate between the terminal surface, the fixed terminal surface is equipped with fixedly under the fixed block and passes the drinking-water pipe of terminal surface under the wind-powered motor, be equipped with the decurrent water channel of opening in the drinking-water pipe, gliding water pumping rod that is equipped with from top to bottom in the water channel, water pumping rod passes the upper end the fixed block upwards extends and fixes locating terminal surface under the driving plate, the fixed pump that is equipped with in water pumping rod lower end, the pump can slide from top to bottom in water channel inner wall downside is located the pump below is equipped with the check valve, the check valve is fixed to be located drinking-water pipe downside inner.

6. A wind power plant as claimed in claim 2, wherein the wind power plant is adapted to provide a continuous supply of water with the blades protected by the wind power plant, and wherein: lower bevel gear chamber right side wall is fixed and is equipped with down generator, generate electricity bevel gear power connect in down generator, the fixed energy supply motor that is equipped with in generator right side, generator with energy supply motor electric connection, energy supply motor right side is equipped with down the band pulley chamber, down the band pulley intracavity upside left side wall rotate be equipped with power connect in energy supply motor's lower drive shaft, the outer fixed shrink band pulley that is equipped with of drive shaft outer circumference down, the threaded rod right-hand member passes the wind-powered electricity generation machine inner wall and passes slide bevel gear chamber extends to down the band pulley intracavity, the threaded rod right-hand member is located the fixed band pulley chamber that is equipped with down of band pulley intracavity outer circumference down, down the band pulley chamber with go up between the shrink band pulley around being equipped with down the power band.

7. The wind power plant as claimed in claim 4, wherein the wind power plant is capable of protecting the blades and supplying water continuously, and further comprising: linkage is including locating the connection chamber on main bevel gear chamber right side, it rotates to be equipped with the driven shaft to connect intracavity left wall, the driven shaft left end extends to left main bevel gear intracavity and with fan blade bevel gear right-hand member face fixed connection it rotates to be equipped with the power shaft to connect intracavity right wall, be equipped with opening upper slide bar chamber left in the power shaft, the upper slide bar that is equipped with the cuboid shape of upper slide bar intracavity internal energy horizontal slip, the fixed power piece that is equipped with of upper slide bar left end, power piece right-hand member face can with the laminating of power shaft left end face the power piece, the driven shaft right-hand member can with the cooperation of power piece left end joggle.

8. The wind power plant as claimed in claim 7, wherein the wind power plant is capable of protecting the blades and supplying water continuously, and further comprising: rocking bars are symmetrically arranged on the upper side and the lower side of the power block, the upper rocking bar and the lower rocking bar are hinged with the outer circular surface of the power block, the upper rocking bar and the lower rocking bar are symmetrically arranged, a positioning shaft is rotatably arranged between the vertical symmetric centers of the rocking bars, the lower end of the positioning shaft is fixedly arranged on the lower wall in the connecting cavity, a push rod is hinged between the upper ends of the rocking bars in an up-down symmetry mode, the left side of the push rod is located in the wind turbine and is provided with a slider cavity, the left end of the push rod extends to the inside of the slider cavity leftwards, the left end of the push rod is provided with a slider.

9. The wind power plant as claimed in claim 8, wherein the wind power plant is capable of protecting the blades and supplying water continuously, and further comprising: the left side of the sliding block cavity is fixedly provided with fixed plates which are symmetrical up and down, the centers of the fixed plates which are symmetrical up and down are communicated together and are provided with a rotating shaft, a cylindrical centrifugal barrel is arranged between the fixed plates which are symmetrical up and down, the circumferences of the centrifugal barrels are uniformly distributed and are provided with through holes which are communicated inwards and outwards, centrifugal blocks are uniformly distributed in the through holes, a centrifugal spring is fixedly arranged between the outer circumference of the rotating shaft and each centrifugal block, the upper side of the fixed plate is provided with a fan blade bevel gear cavity, the upper end of the rotating shaft extends into the fan blade bevel gear cavity and is fixedly provided with a rear driven bevel gear, the left wall in the fan blade bevel gear cavity is rotatably provided with a small fan blade shaft, the right end of the small fan blade shaft is fixedly provided with a rear driving bevel gear which is meshed with a left lower belt wheel of the rear driven bevel gear, the left side of the, the upper wall in the fan blade cavity is communicated with an air outlet with an upward opening.

10. A garbage incinerator with cleaning function as claimed in claim 4, wherein the wind power plant for protecting the blades and supplying water continuously, characterized in that: the upper transmission device comprises an upper transmission bevel gear which is rotatably connected to the upper wall of the main bevel gear cavity and meshed with the fan blade bevel gear, an upper generator is fixedly arranged on the upper wall of the main bevel gear cavity, the upper transmission bevel gear is in power connection with the lower end of the upper generator, a transmission motor is arranged on the right side, the upper generator is electrically connected with the transmission motor, and the right end penetrates through the right wall to be rotatably connected to the left end face.

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