CN110792556A

CN110792556A - Wind power generation device

Info

Publication number: CN110792556A
Application number: CN201911116827.8A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-01-16
Filing date: 2018-01-16
Publication date: 2020-02-14
Also published as: CN110836167A; CN108180106A; CN108180106B; CN110748457A; CN110725777A; CN110700992A; CN110836166A

Abstract

The invention discloses a wind power generation device, which structurally comprises vertical rotating fan blades, a connecting plate, a base and a power generation main body, wherein the surface of the vertical rotating fan blades is welded with one end of the connecting plate, one end of the connecting plate is welded with the outer surface of the power generation main body, the power generation main body is installed on the base in an embedding mode and is welded with the base, a left wing turntable is driven to rotate through the transmission action of a left wing first belt, so that a left wing second gear rotates, the left wing third gear rotates through the transmission action of a left wing second belt, a left wing transmission gear wheel rotates, a right wing transmission gear wheel rotates and a left wing transmission gear wheel rotates, a toothed plate is simultaneously driven to lift upwards, the vertical rotating fan blades and the connecting plate are driven to lift, when the wind power level is higher, the toothed plate is retracted through the reverse rotation of a starting motor, so that the vertical rotating fan blades and the connecting, the wind power generation device is protected from being damaged by high wind.

Description

Wind power generation device

Technical Field

The invention relates to a novel wind power generation device, belonging to the field of novel wind power generation devices.

Background

Wind power generation means that kinetic energy of wind is converted into electric energy, the wind is pollution-free energy, the wind power generation is environment-friendly, and the generated electric energy is huge, so that more and more countries attach more importance to the wind power generation, the wind power is taken as clean renewable energy, the wind power is attached more and more to all countries in the world, the intrinsic quantity of the wind power is huge, the global wind power is about 2.74 multiplied by 10^9MW, and the available wind power is 2 multiplied by 10^7MW which is 10 times larger than the total water energy which can be developed and utilized on the earth.

However, the wind power generation device in the prior art generally works at high altitude, and when the wind power level is high, the wind power generation device is damaged, so that the wind power generation device is damaged.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a wind power generation device to solve the problem that the conventional wind power generation device is generally operated at high altitude, and is damaged when the wind power level is higher.

In order to achieve the purpose, the invention is realized by the following technical scheme: a novel wind power generation device structurally comprises vertical rotating fan blades, a connecting plate, a base and a power generation main body, wherein the surface of each vertical rotating fan blade is welded with one end of the connecting plate, one end of the connecting plate is welded with the outer surface of the power generation main body, the power generation main body is installed on the base in an embedding mode and is welded with the base, the power generation main body comprises a shell, a lifting power mechanism, a right wing transmission mechanism, a left wing transmission mechanism, a toothed plate, a first rotating power generation mechanism, a power generation main transmission mechanism and a second rotating power generation mechanism, the bottom of the lifting power mechanism is installed on the surface of the bottom of the inner side of the shell, the lifting power mechanism is meshed with and mechanically connected with the right wing transmission mechanism, the lifting power mechanism is meshed with and mechanically connected with the left wing transmission mechanism, the upper end of the toothed plate is embedded and installed inside the shell, the utility model discloses a solar photovoltaic power generation device, including shell, pinion rack, first rotatory power generation mechanism lower extreme and the main drive mechanism upper end of electricity generation mesh and mechanical connection, the main drive mechanism lower extreme of electricity generation installs inside the rotatory power generation mechanism upper end of second through the embedding mode, the rotatory power generation mechanism of second is installed inside the shell, the rotatory power generation mechanism of second is located the pinion rack top.

Further, the lifting power mechanism comprises a motor, a motor shaft, a first pinion, a second pinion, a first linkage rod, a third pinion and a second linkage rod, wherein the bottom of the motor is mounted at the bottom of the inner side of the shell, the motor shaft is mounted inside the motor in an embedding mode and is mechanically connected, the first pinion is mounted at the upper end of the motor shaft and is meshed with the first pinion, the second pinion is meshed with the first pinion in a clearance fit mode, the first linkage rod is mounted on the second pinion in a mechanical connection mode, the third pinion is meshed with the first pinion in a clearance fit mode, and the second linkage rod is mounted on the third pinion in a mechanical connection mode.

Further, the right wing transmission mechanism comprises a first pin shaft, a first right wing gear, a first right wing belt, a second right wing gear, a right wing turntable, a second right wing belt, a right wing transmission wheel, a third right wing gear and a right wing transmission big gear, wherein the first pin shaft is arranged on the first right wing gear, the first right wing gear is mechanically connected with a first linkage rod through the first pin shaft, the first right wing gear is mechanically connected with a second pinion through the first linkage rod, the lower end of the first right wing belt is attached to the surface of the first right wing gear, the upper end of the first right wing belt is attached to the surface of the right wing turntable, the second right wing gear is arranged on the right wing turntable, the second right wing gear is attached to the lower end of the second right wing belt, the middle part of the second right wing belt is provided with the right wing transmission wheel, the upper end of the second right wing belt is attached to the surface of the third right wing gear, no. two gears of right wing pass through right wing second belt and No. three gear mechanical connection of right wing, No. three gears of right wing mesh with right wing transmission gear wheel, right wing transmission gear wheel meshes and mechanical connection with the pinion rack right side mutually.

Further, the left wing transmission mechanism comprises a second pin shaft, a first left wing gear, a first left wing belt, a second left wing gear, a rotary left wing disc, a second left wing belt, a left wing transmission wheel, a third left wing gear and a large left wing transmission gear, the second pin shaft is arranged on the first left wing gear, the first left wing gear is mechanically connected with a second linkage rod through the second pin shaft, the first left wing gear is mechanically connected with a third pinion through the second linkage rod, the lower end of the first left wing belt is attached to the surface of the first left wing gear, the upper end of the first left wing belt is attached to the surface of the rotary left wing disc, the second left wing gear is arranged on the rotary left wing disc, the second left wing gear is attached to the lower end of the second left wing belt, the middle part of the second left wing belt is provided with the transmission wheel, the upper end of the second left wing belt is attached to the surface of the third left wing gear, no. two gears of left wing pass through the second belt of left wing and are connected with No. three gears of left wing machinery, No. three gears of left wing mesh with the left wing transmission gear wheel, the left wing transmission gear wheel meshes and mechanical connection with the pinion rack left side mutually.

Further, the first rotary power generation mechanism comprises a rotary shell, a fixed block, a connecting block, a worm rod, a rotary pinion, a third linkage rod, a rotary gearwheel, a rotary disk and a roller, wherein the connecting plate is installed inside the rotary shell in an embedding manner, the fixed block is installed inside the rotary shell, the middle part of the connecting plate is installed inside the worm rod in an embedding manner, two ends of the connecting plate are installed inside two sides of the rotary shell in an embedding manner, the upper end of the worm rod is installed inside the upper end of the rotary shell in an embedding manner and is welded with the fixed block, the lower end of the worm rod is meshed with the rotary pinion, the upper end of the third linkage rod is installed on the rotary pinion, the lower end of the third linkage rod is installed on the rotary gearwheel, the rotary pinion is mechanically connected with the rotary gearwheel through the third linkage rod, and the rotary disk is installed outside the rotary gearwheel and, the rotating disc is positioned above the roller.

Furthermore, the power generation main transmission mechanism comprises a first transmission belt, a first transmission turntable, a fixed pin shaft, a first transmission gear, a fourth linkage rod, a second transmission gear, a second transmission turntable, a second transmission belt, a third transmission turntable, a third transmission belt, a third transmission gear and a transmission worm gear.

Furthermore, the upper end of the transmission first belt is jointed and mechanically connected with the surface of the rotating disc, the middle part of the first belt is jointed with the surface of the roller, the lower end of the transmission first belt is jointed with the surface of the transmission first rotating disc, the first rotating disc is mechanically connected with the rotating disc through the transmission first belt, the transmission first gear is arranged on the rotating disc and is mechanically connected with the rotating disc, the transmission first gear is provided with a fixed pin shaft, the transmission first gear is connected with the upper end of a fourth linkage rod through the fixed pin shaft, the lower end of the fourth linkage rod is connected with a transmission second gear, the transmission second rotating disc is arranged outside the transmission second gear and is mechanically connected with the transmission third rotating disc through the transmission second belt, and the transmission third rotating disc is mechanically connected with the transmission third gear through the transmission third belt, the third transmission gear is meshed with the transmission worm gear rod.

Further, the second rotary power generation mechanism comprises a rotary shell, a connecting plate, a reinforced V-shaped plate, a rotary shaft, a limiting block, a generator shaft, a generator and a power supply interface, wherein the connecting plate is installed inside the rotary shell in an embedding mode and welded with the rotary shell, the rotary shell is in clearance fit with the shell, two ends of the connecting plate are installed inside two sides of the rotary shell in an embedding mode, the middle of the connecting plate is embedded inside the rotary shaft, two ends of the reinforced V-shaped plate are installed inside the connecting plate in an embedding mode, the upper end of the rotary shaft is connected with the transmission worm wheel rod, the lower end of the rotary shaft is mechanically connected with the generator shaft through the limiting block, the generator shaft is mechanically connected with.

The invention relates to a novel wind power generation device, when in use, an electric motor is started to rotate in a positive direction to enable a motor shaft to rotate to generate mechanical energy and drive a first pinion to rotate, the first pinion drives a second pinion and a third pinion to rotate, the second pinion enables a first right wing gear to rotate through the linkage action of a first linkage rod, a right wing turntable is driven to rotate through the transmission function of a first right wing belt, so that a second right wing gear rotates, the third right wing gear rotates through the transmission action of a second right wing belt after the second right wing gear rotates, so that a transmission gear wheel of the right wing rotates, the third pinion enables the first left wing gear to rotate through the action of a second linkage rod, the transmission action of the first left wing belt drives the rotation disc of the left wing, so that the second left wing gear rotates, the second left wing gear enables the third left wing gear to rotate through the transmission action of the second left wing belt, the left wing transmission gear wheel is driven to rotate, the right wing transmission gear wheel and the left wing transmission gear wheel simultaneously drive the toothed plate to lift upwards, the vertical rotating fan blade is driven, the connecting plate lifts, the vertical rotating fan blade rotates under the action of wind power, the rotating shell and the rotating shell rotate left and right through the linkage of the connecting plate, the connecting plate is driven to rotate so that the worm wheel rod rotates, the rotating pinion is driven to rotate, the rotating gear wheel rotates through the third linkage rod, the rotating disk rotates, the first transmission turntable and the first transmission gear rotate through the transmission of the first transmission belt, the second transmission gear and the second transmission turntable rotate through the fourth linkage rod, the third transmission turntable rotates through the second transmission belt, the third transmission gear drives the transmission worm wheel rod to rotate through the transmission of the third transmission belt, and the connecting plate is driven to rotate through the rotation of the rotating shell, the reinforced V-shaped plate plays a reinforcing role, the connecting plate rotates and the transmission worm gear rod rotates to drive the rotating shaft to rotate together, so that the generator shaft starts to rotate, the generator starts to work for power generation, when the wind power level is higher, the toothed plate is retracted through the reversal of the starting motor, the vertical rotating fan blades and the connecting plate are protected, and the damage to the wind power generation device caused by wild wind is guaranteed.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a novel wind power generation apparatus according to the present invention;

FIG. 2 is a cross-sectional view of a novel wind power plant of the present invention;

FIG. 3 is a schematic structural view of a novel wind power generation apparatus according to the present invention;

FIG. 4 is a structural diagram of the working state of the lifting power mechanism of the novel wind power generation device according to the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4;

fig. 6 is a partially enlarged view of fig. 3.

In the figure: the device comprises a vertical rotating fan blade-1, a connecting plate-2, a base-3, a power generation main body-4, a shell-401, a lifting power mechanism-402, a right wing transmission mechanism-403, a left wing transmission mechanism-404, a toothed plate-405, a first rotating power generation mechanism-406, a power generation main transmission mechanism-407, a second rotating power generation mechanism-408, a motor-4021, a motor shaft-4022, a first pinion-4023, a second pinion-4024, a first linkage rod-4025, a third pinion-4026, a second linkage rod-4027, a first pin shaft-4031, a first right wing gear-2, a first right wing belt-4033, a second right wing gear-4034, a right wing turntable-4035, a second right wing belt-4036, a right wing transmission wheel-4037, a right wing 4037, A right wing third gear 4038, a right wing transmission large gear 4039, a second pin shaft 4041, a left wing first gear 4042, a left wing first belt 4043, a left wing second gear 4044, a left wing turntable 4045, a left wing second belt 4046, a left wing transmission gear 4047, a left wing third gear 4048, a left wing transmission large gear 4049, a rotary shell 4061, a fixed block 4062, a connecting piece 4063, a worm wheel rod 4064, a rotary pinion 4065, a third linkage 4066, a rotary large gear 4067, a rotary disk 4068, a roller 4069, a transmission first belt 4071, a transmission first turntable 4072, a fixed pin shaft 4073, a transmission first gear 4074, a fourth linkage 4075, a transmission second gear 4076, a transmission first belt 4071, a transmission first turntable 4072, a transmission first turntable 4073, a transmission first gear 4074, a fourth linkage 4075, a transmission second gear 4076, a transmission first gear 4076, a transmission second gear, The power generator comprises a transmission second rotating disk-4077, a transmission second belt-4078, a transmission third rotating disk-4079, a transmission third belt-40710, a transmission third gear-40711, a transmission worm-gear-40712, a rotating shell-4081, a connecting plate-4082, a reinforced V-shaped plate-4083, a rotating shaft-4084, a limiting block-4085, a generator shaft-4086, a generator-4087 and a power supply interface-4088.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 6, the present invention provides a technical solution of a novel wind power generation apparatus: the structure of the power generation device comprises a vertical rotating fan blade 1, a connecting plate 2, a base 3 and a power generation main body 4, wherein the surface of the vertical rotating fan blade 1 is welded with one end of the connecting plate 2, one end of the connecting plate 2 is welded with the outer surface of the power generation main body 4, the power generation main body 4 is installed on the base 3 in an embedded mode and is welded with the outer surface of the power generation main body 4, the power generation main body 4 comprises a shell 401, a lifting power mechanism 402, a right wing transmission mechanism 403, a left wing transmission mechanism 404, a toothed plate 405, a first rotating power mechanism 406, a power generation main transmission mechanism 407 and a second rotating power mechanism 408, the bottom of the lifting power mechanism 402 is installed on the surface of the inner side of the shell 401, the lifting power mechanism 402 is meshed with the right wing transmission mechanism 403 and is mechanically connected, the lifting power mechanism 402 is meshed with the left wing, the right side of the toothed plate 405 is meshed with the upper end of the right wing transmission mechanism 403, the left side of the toothed plate 405 is meshed with the upper end of the left wing transmission mechanism 404, the first rotary power generation mechanism 406 is mounted inside the top end of the shell 401, the lower end of the first rotary power generation mechanism 406 is meshed with and mechanically connected with the upper end of the power generation main transmission mechanism 407, the lower end of the power generation main transmission mechanism 407 is mounted inside the upper end of the second rotary power generation mechanism 408 in an embedding mode, the second rotary power generation mechanism 408 is mounted inside the shell 401, and the second rotary power generation mechanism 408 is located above the toothed plate 405.

The lifting power mechanism 402 includes a motor 4021, a motor shaft 4022, a first pinion 4023, a second pinion 4024, a first linkage rod 4025, a third pinion 4026 and a second linkage rod 4027, the bottom of the motor 4021 is mounted at the bottom of the inner side of the housing 401, the motor shaft 4022 is mounted inside the motor 4021 by an embedded manner and mechanically connected, the first pinion 4023 is mounted at the upper end of the motor shaft 4022 and is engaged with the first pinion 4023, the second pinion 4024 is engaged with and is in a clearance fit with the first pinion 4023, the first linkage rod 4025 is mounted on and is mechanically connected to the second pinion 4024, the third pinion 4026 is engaged with and is in a clearance fit with the first pinion 4023, and the second linkage rod 4027 is mounted on and is mechanically connected to the third pinion 4026.

The right wing transmission mechanism 403 comprises a first pin 4031, a first right wing belt 4032, a first right wing belt 4033, a second right wing belt 4034, a first right wing turntable 4035, a second right wing belt 4036, a right wing transmission wheel 4037, a third right wing wheel 4038 and a large right wing transmission gear 4039, wherein the first pin 4031 is mounted on the first right wing belt 4032, the first right wing wheel 4032 is mechanically connected with a first linkage rod 4025 through the first pin 4031, the first right wing wheel 4032 is mechanically connected with a second pinion 4024 through the first linkage rod 4025, the lower end of the first right wing belt 4033 is attached to the surface of the first right wing gear 4032, the upper end of the first right wing belt 4033 is attached to the surface of the right wing turntable 4035, the second right wing gear 4034 is mounted on the right wing turntable 4035, the second right wing wheel 4034 is attached to the lower end of the second right wing belt 4036, the middle part of the second right wing belt 4036 is provided with the right wing transmission wheel 4037, the laminating of right wing second belt 4036 upper end and No. three gear 4038 surfaces of right wing mutually, No. two gear 4034 of right wing is through second belt 4036 of right wing and No. three gear 4038 mechanical connection of right wing, No. three gear 4038 of right wing meshes with right wing transmission gear wheel 4039 mutually, right wing transmission gear wheel 4039 meshes and mechanical connection with pinion rack 405 right side mutually.

The left wing transmission mechanism 404 includes a second pin shaft 4041, a first left wing gear 4042, a first left wing belt 4043, a second left wing gear 4044, a first left wing turntable 4045, a second left wing belt 4046, a first left wing transmission wheel 4047, a third left wing gear 4048, and a large left wing transmission gear 4049, the second pin shaft 4041 is mounted on the first left wing gear 4042, the first left wing gear 4042 is mechanically connected to a second linkage 4027 via a second pin shaft 4041, the first left wing gear 4042 is mechanically connected to a third pinion 4026 via a second linkage 4027, the lower end of the first left wing belt 4043 is attached to the surface of the first left wing gear 4042, the upper end of the first left wing belt 4043 is attached to the surface of the left wing turntable 4045, the second left wing gear 4044 is mounted on the left wing turntable 4045, the second left wing gear 4044 is attached to the lower end of the second left wing belt 4046, the middle portion of the second left wing transmission wheel 4046 is provided with the second left wing transmission wheel 4047, the surface of left wing second belt 4046 upper end and No. three gears 4048 of left wing is laminated mutually, No. two gears 4044 of left wing pass through left wing second belt 4046 and No. three gears 4048 mechanical connection of left wing, No. three gears 4048 of left wing mesh with left wing transmission gear wheel 4049 mutually, left wing transmission gear wheel 4049 meshes and mechanical connection with pinion rack 405 left side mutually.

The first rotary power generating mechanism 406 includes a rotary housing 4061, a fixed block 4062, a connecting plate 4063, a worm gear 4064, a rotary pinion 4065, a third linkage 4066, a rotary bull gear 4067, a rotary disk 4068, and a roller 4069, the connecting plate 2 is mounted inside the rotary housing 4061 by an embedding manner, the fixed block 4062 is mounted inside the rotary housing 4061, the middle portion of the connecting plate 4063 is mounted inside the worm gear 4064 by an embedding manner, both ends of the connecting plate 4063 are mounted inside both sides of the rotary housing 4061 by an embedding manner, the upper end of the worm gear 4064 is mounted inside the upper end of the rotary housing 4061 by an embedding manner and is welded to the fixed block 4062, the lower end of the worm gear 4064 is engaged with the rotary pinion 4065, the upper end of the third linkage 4066 is mounted on the rotary pinion 4065, the lower end of the third linkage 4066 is mounted on the rotary bull gear 4067, and the rotary pinion 4065 is mechanically connected to the rotary bull gear 4067 by a third linkage 4066, the rotating disk 4068 is mounted outside of and mechanically connected to the rotating bull gear 4067, and the rotating disk 4068 is positioned above the rollers 4069.

The power generation main transmission mechanism 407 comprises a first transmission belt 4071, a first transmission rotary table 4072, a fixed pin 4073, a first transmission gear 4074, a fourth linkage 4075, a second transmission gear 4076, a second transmission rotary table 4077, a second transmission belt 4078, a third transmission rotary table 4079, a third transmission belt 40710, a third transmission gear 40711 and a transmission worm gear 40712.

The upper end of the first transmission belt 4071 is attached to and mechanically connected with the surface of the rotating disk 4068, the middle of the first belt 4071 is attached to the surface of the roller 4069, the lower end of the first transmission belt 4071 is attached to the surface of the first transmission turntable 4072, the first transmission turntable 4072 is mechanically connected with the rotating disk 4068 through the first transmission belt 4071, the first transmission gear 4074 is mounted on and mechanically connected with the rotating disk 4068, the first transmission gear 4074 is provided with a fixed pin 4073, the first transmission gear 4074 is connected with the upper end of the fourth linkage 4075 through the fixed pin 4073, the lower end of the fourth linkage 4075 is connected with the second transmission gear 4076, the second transmission turntable 4077 is mounted outside the second transmission gear 4076 and mechanically connected, the second transmission turntable 4077 is mechanically connected with the third transmission turntable 4079 through the second transmission belt 4078, and the third transmission turntable 4079 is mechanically connected with the third transmission gear 40711 through the third transmission belt 40710, the third drive gear 40711 is engaged with the worm drive 40712.

The second rotary power generation mechanism 408 comprises a rotary housing 4081, a connecting plate 4082, a reinforced V-shaped plate 4083, a rotating shaft 4084, a limiting block 4085, a generator shaft 4086, a generator 4087 and a power interface 4088, wherein the connecting plate 2 is installed inside the rotary housing 4081 in an embedded manner and welded together, the rotary housing 4081 is in clearance fit with the housing 401, two ends of the connecting plate 4082 are installed inside two sides of the rotary housing 4081 in an embedded manner, the middle of the connecting plate 4082 is embedded inside the rotating shaft 4084, two ends of the reinforced V-shaped plate 4083 are embedded inside the connecting plate 4082, the upper end of the rotating shaft 4084 is connected with the worm gear lever 40712, the lower end of the rotating shaft 4084 is mechanically connected with the generator shaft 4086 through the limiting block 4085, the generator shaft 4086 is mechanically connected with the generator 4087, and the generator 4087 is electrically connected.

The generator is a mechanical device which converts other forms of energy into electric energy, is driven by a water turbine, a steam turbine, a diesel engine or other power machines, converts energy generated by water flow, air flow, fuel combustion or nuclear fission into mechanical energy and transmits the mechanical energy to the generator, and then the generator converts the mechanical energy into electric energy.

The first transmission gear mentioned in this patent refers to a mechanical element with a gear on the rim which is continuously engaged to transmit motion and power, the gear has been used in transmission since a long time, at the end of the 19 th century, the principle of generating cutting teeth method and the successive appearance of special machine tool and cutter using the principle to cut teeth, with the development of production, the stability of gear operation is emphasized.

When the electric motor 4021 is started to rotate positively to enable the motor shaft 4022 to generate mechanical energy and drive the first pinion 4023 to rotate, the first pinion 4023 drives the second pinion 4024 and the third pinion 4026 to rotate, the second pinion 4024 drives the first right wing gear 4032 to rotate through the linkage action of the first linkage 4025, the right wing turntable 4035 is driven to rotate through the transmission function of the first right wing belt 4033 to enable the second right wing gear 4034 to rotate, the second right wing gear 4034 rotates and then enables the third right wing gear 4038 to rotate through the transmission of the second right wing belt 4036 to enable the second right wing gear 4039 to rotate, the third pinion 4026 enables the first left wing gear 4042 to rotate through the action of the second linkage 4027, the left wing turntable 4045 rotates through the transmission action of the first left wing belt 4043 to enable the second left wing gear 4044 to rotate, and the second left wing gear 4044 enables the third left wing gear 4048 to rotate through the transmission of the second wing 4046, the left wing driving gearwheel 4049 is driven to rotate, the right wing driving gearwheel 4039 rotates and the left wing driving gearwheel 4049 rotates to simultaneously drive the toothed plate 405 to lift upwards, the vertical rotating fan blade 1 and the connecting plate 2 are driven to lift, the vertical rotating fan blade 1 rotates when encountering wind power, the rotating shell 4061 and the rotating shell 4081 rotate left and right through linkage of the connecting plate 2, the connecting plate 4063 is driven to rotate so that the worm wheel bar 4064 rotates, the rotating pinion 4065 rotates, the rotating gearwheel 4067 rotates through the third linkage 4066, the rotating disc 4068 rotates, the first transmission turntable 4072 and the first transmission gear 4074 rotate through transmission of the first transmission belt 4071, the second transmission gear 4076 and the second transmission turntable 4077 rotate through the fourth linkage 4075, the third transmission turntable 4079 rotates through transmission of the second transmission belt 4078, and the third transmission gear 40711 is driven through transmission of the third transmission belt 40710, drive transmission worm gear 40712 and rotate, rotatory casing 4081 is rotatory to drive connecting plate 4082 and is rotated, it plays reinforced effect to consolidate V-arrangement board 4083, connecting plate 4082 rotates and transmission worm gear 40712 rotates, it is rotatory to have driven pivot 4084 together, make generator shaft 4086 begin to rotate, generator 4087 begins the work electricity generation, when meetting the wind-force grade higher, through the reversal of starter motor 4021, receive pinion rack 405 down, make vertical rotating fan leaf 1 and connecting plate 2 obtain the protection.

The invention solves the problem that the wind power generation device is damaged when the wind power generation device generally works at high altitude and the wind power generation device is damaged when the wind power level is higher, and the invention drives the left wing turntable to rotate through the transmission action of the left wing first belt through the mutual combination of the components, thereby rotating the second gear of the left wing, the second gear of the left wing rotates the third gear of the left wing through the transmission of the second belt of the left wing, drives the transmission gear wheel of the left wing to rotate, the transmission gear wheel of the right wing rotates and the transmission gear wheel of the left wing rotates to simultaneously drive the toothed plate to lift upwards, drives the vertical rotating fan blade and the connecting plate to lift, when the wind power level is higher, the toothed plate is retracted through the reverse rotation of the starting motor, so that the vertical rotating fan blades and the connecting plate are protected, and the wind power generation device is protected from being damaged by gusty wind.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A wind power generation device characterized in that: the structure of the fan comprises a vertical rotating fan blade (1), a first connecting plate (2), a base (3) and a power generation main body (4), wherein the surface of the vertical rotating fan blade (1) is welded with one end of the first connecting plate (2), one end of the first connecting plate (2) is welded with the outer surface of the power generation main body (4), and the power generation main body (4) is installed on the base (3) in an embedding mode and is welded with the base;

the power generation main body (4) comprises a shell (401), a lifting power mechanism (402), a right wing transmission mechanism (403), a left wing transmission mechanism (404), a toothed plate (405), a first rotary power generation mechanism (406), a power generation main transmission mechanism (407) and a second rotary power generation mechanism (408), wherein the bottom of the lifting power mechanism (402) is installed on the surface of the bottom of the inner side of the shell (401), the lifting power mechanism (402) is meshed with the right wing transmission mechanism (403) and is mechanically connected with the right wing transmission mechanism, the lifting power mechanism (402) is meshed with the left wing transmission mechanism (404) and is mechanically connected with the left wing transmission mechanism, the upper end of the toothed plate (405) is embedded and installed inside the shell (401), the right side of the toothed plate (405) is meshed with the upper end of the right wing transmission mechanism (403), the left side of the toothed plate (405) is meshed with the upper end of the left wing transmission mechanism (404), and the first rotary power generation mechanism (406, the lower end of the first rotary power generation mechanism (406) is meshed with and mechanically connected with the upper end of a power generation main transmission mechanism (407), the lower end of the power generation main transmission mechanism (407) is installed inside the upper end of a second rotary power generation mechanism (408) in an embedded mode, the second rotary power generation mechanism (408) is installed inside the shell (401), and the second rotary power generation mechanism (408) is located above the toothed plate (405);

the right wing transmission mechanism (403) comprises a first pin shaft (4031), a first right wing gear (4032), a first right wing belt (4033), a second right wing gear (4034), a right wing turntable (4035), a second right wing belt (4036), a right wing transmission wheel (4037), a third right wing gear (4038) and a right wing transmission gear wheel (4039), wherein the first pin shaft (4031) is mounted on the first right wing gear (4032), the first right wing gear (4032) is mechanically connected with a first linkage rod (4025) through a first linkage rod (4025), the lower end of the first right wing belt (4033) is attached to the surface of the first right wing gear (4032), the upper end of the first right wing belt (4033) is attached to the surface of the right wing turntable (4035), the second right wing gear (4034) is mounted on the right wing turntable (4035), no. two gear on right wing (4034) and the laminating of right wing second belt (4036) lower extreme mutually, right wing second belt (4036) middle part is equipped with right wing drive wheel (4037), laminating mutually with No. three gear on right wing (4038) surface on right wing second belt (4036), No. two gear on right wing (4034) are through No. three gear on right wing (4036) and No. three gear on right wing (4038) mechanical connection, No. three gear on right wing (4038) mesh with right wing transmission gear wheel (4039), right wing transmission gear wheel (4039) mesh and mechanical connection with pinion rack (405) right side mutually.

2. A wind power plant according to claim 1, characterized in that: the lifting power mechanism (402) comprises a motor (4021), a motor shaft (4022), a first pinion (4023), a second pinion (4024), a first linkage rod (4025), a third pinion (4026) and a second linkage rod (4027), the bottom of the electric motor (4021) is arranged at the bottom of the inner side of the shell (401), the motor shaft (4022) is arranged in the electric motor (4021) in an embedded mode and is mechanically connected, the first pinion (4023) is arranged at the upper end of the motor shaft (4022) and is meshed with the first pinion, the second pinion (4024) is meshed with the first pinion (4023) and is in clearance fit, said first linkage rod (4025) is mounted on the second pinion (4024) and is mechanically connected, the third pinion (4026) is meshed with and clearance-fitted to the first pinion (4023), the second linkage (4027) is mounted on the third pinion (4026) and mechanically connected.