CN108180106A - A kind of model wind generating device - Google Patents

Abstract

The invention discloses a kind of model wind generating devices,Its structure includes vertical rotary flabellum,Connecting plate,Pedestal,Power generation main body,Vertical rotary blade surface is mutually welded with connecting plate one end,It is mutually welded with power generation main body outer surface connecting plate one end,Power generation main body is mounted on pedestal by embedded mode and mutually welded,Left wing's turntable is driven to rotate by the gearing of the first belt of left wing,So as to make No. two gear rotations of left wing,No. two gears of left wing are rotated by No. three gears of transmission left wing of the second belt of left wing,Drive left wing's transmission bull gear drive,Right flank is driven bull gear drive and left wing's transmission bull gear drive has been driven tooth plate toward being raised simultaneously,Drive vertical rotary flabellum,Connecting plate rises,Encounter wind scale it is higher when,It is inverted by starting motor,Tooth plate is accepted,So that vertical rotary flabellum and connecting plate are protected,Ensure that wind power generation plant is not destroyed by blast.

Description

A kind of model wind generating device

Technical field

The present invention is a kind of model wind generating device, belongs to model wind generating device field.

Background technology

The kinetic energy that wind-power electricity generation refers to keep watch switchs to electric energy, and wind is a kind of energy without public hazards, non-using wind-power electricity generation Chang Huanbao, and the electric energy that can be generated is very huge, therefore more and more countries more pay attention to wind-power electricity generation, wind energy is as one The clean regenerative resource of kind, is increasingly paid attention to, the amount of accumulateing is huge, and global wind energy is about 2.74 × 10 by countries in the world ^9MW, wherein available wind energy is 2 × 10^7MW, the water energy total amount than that can be developed and used on the earth is also 10 times big.

But the prior art wind power generation plant be typically all in working at height, encounter wind scale it is higher when, Therefore wind power generation plant can be damaged, wind power generation plant can be caused to damage.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of model wind generating device, it is existing to solve Have wind power generation plant be typically all in working at height, encounter wind scale it is higher when, wind power generation plant can therefore and The problem of being damaged, wind power generation plant being caused to damage.

To achieve these goals, the present invention is to realize by the following technical solutions：A kind of wind power generation dress It puts, structure includes vertical rotary flabellum, connecting plate, pedestal, power generation main body, the vertical rotary blade surface and connecting plate one End is mutually welded, and described connecting plate one end is mutually welded with power generation main body outer surface, and the power generation main body is mounted on by embedded mode Weld on pedestal and mutually, the power generation main body include shell, lifting drive mechanism, right flank transmission mechanism, left wing's transmission mechanism, Tooth plate, the first rotary electrification mechanism, power generation main drive gear, the second rotary electrification mechanism, the lifting drive actuator base peace On cased side bottom surface, the lifting drive mechanism is meshed and is mechanically connected with right flank transmission mechanism, described Lifting drive mechanism is meshed and is mechanically connected with left wing transmission mechanism, the tooth plate upper end insertion installation inside the housing, It is meshed with right flank transmission mechanism upper end on the right side of the tooth plate, is meshed on the left of the tooth plate with left wing's transmission mechanism upper end, institute The first rotary electrification mechanism is stated inside housing top end, the first rotary electrification mechanism lower end and power generation main drive gear Upper end is meshed and is mechanically connected, and the power generation main drive gear lower end is mounted on the second rotary generator by embedded mode Inside structure upper end, the second rotary electrification mechanism is mounted on enclosure, and the second rotary electrification mechanism is located on tooth plate Side.

Further, the lifting drive mechanism includes motor, motor shaft, the first pinion gear, the second pinion gear, first Interlocking lever, third pinion, the second interlocking lever, the electronic motor spindle are mounted on shell inside bottom, and the motor shaft passes through Embedded mode is mounted on motor interior and is mechanically connected, and first pinion gear is mounted on motor shaft upper end and mutually nibbles It closes, second pinion gear is meshed with the first pinion gear and clearance fit, and first interlocking lever is mounted on the second small tooth It on wheel and is mechanically connected, the third pinion is meshed with the first pinion gear and clearance fit, second interlocking lever On third pinion and it is mechanically connected.

Further, the right flank transmission mechanism includes the first axis pin, right flank No.1 gear, the first belt of right flank, right flank No. two gears, right flank turntable, the second belt of right flank, right flank drive, No. three gears of right flank, right flank transmission gear wheel, described the One axis pin is mounted on right flank No.1 gear, and the right flank No.1 gear is mechanically connected by the first axis pin and the first interlocking lever, The right flank No.1 gear is mechanically connected by the first interlocking lever and the second pinion gear, right flank the first belt lower end and right flank No.1 gear surface fits, and right flank the first belt upper end fits with right flank disc surfaces, described No. two gears of right flank On right flank turntable, described No. two gears of right flank fit with the second belt of right flank lower end, in second belt of right flank Portion is equipped with right flank drive, and No. three gear surfaces in right flank the second belt upper end and right flank fit, described No. two teeth of right flank Wheel is connect by No. three gear mechanisms of the second belt of right flank and right flank, and described No. three gears of right flank are mutually nibbled with right flank transmission gear wheel It closes, is meshed and is mechanically connected on the right side of the right flank transmission gear wheel and tooth plate.

Further, left wing's transmission mechanism includes the second axis pin, left wing's No.1 gear, the first belt of left wing, left wing No. two gears, left wing's turntable, the second belt of left wing, left wing's drive, No. three gears of left wing, left wing's transmission gear wheel, described the Two axis pins are mounted on left wing's No.1 gear, and left wing's No.1 gear is mechanically connected by the second axis pin and the second interlocking lever, Left wing's No.1 gear is mechanically connected by the second interlocking lever and third pinion, left wing the first belt lower end and left wing No.1 gear surface fits, and left wing the first belt upper end fits with left wing disc surfaces, described No. two gears of left wing On left wing's turntable, described No. two gears of left wing fit with the second belt of left wing lower end, in second belt of left wing Portion is equipped with left wing's drive, and No. three gear surfaces in left wing the second belt upper end and left wing fit, described No. two teeth of left wing Wheel is connect by No. three gear mechanisms of the second belt of left wing and left wing, and described No. three gears of left wing are driven gear wheel with left wing and mutually nibble It closes, is meshed and is mechanically connected on the left of left wing's transmission gear wheel and tooth plate.

Further, the first rotary electrification mechanism is small including rotational shell, fixed block, engagement plate, worm gear pole, rotation Gear, third interlocking lever, rotation gear wheel, rotating disk, idler wheel, the connecting plate are mounted on by embedded mode in rotational shell Portion, the fixed block are mounted on inside rotational shell, are mounted on inside worm gear pole by embedded mode in the middle part of the engagement plate, institute It states engagement plate both ends to be mounted on inside rotational shell both sides by embedded mode, the worm gear pole upper end is installed by embedded mode It is mutually welded inside rotational shell upper end and with fixed block, the worm gear pole lower end is meshed with rotary pinion, and described Three interlocking lever upper ends are mounted on rotary pinion, and the third interlocking lever lower end is mounted on rotation gear wheel, the rotation Pinion gear is mechanically connected by third interlocking lever and rotation gear wheel, and the rotating disk is mounted on outside rotation gear wheel and machine Tool connects, and the rotating disk is located above idler wheel.

Further, the power generation main drive gear includes the first belt of transmission, the first turntable of transmission, fixed pin shaft, biography Dynamic first gear, transmission second gear, the second turntable of transmission, the second belt of transmission, transmission third turntable, passes the 4th interlocking lever Dynamic third belt, transmission third gear, transmission worm gear bar.

Further, the first belt upper end of the transmission fits and is mechanically connected with rotary disk surface, and described first Belt middle fits with roller surface, and the first belt lower end of the transmission fits with being driven the first disc surfaces, and described the One turntable is mechanically connected by the first belt of transmission and rotating disk, and the transmission first gear installation is on the rotating pan and mechanical Connection, the transmission first gear are equipped with fixed pin shaft, and the transmission first gear passes through fixed pin shaft and the 4th interlocking lever Upper end is connected, and the 4th interlocking lever lower end is connected with transmission second gear, and the second turntable of the transmission is mounted on transmission It outside second gear and is mechanically connected, the second turntable of the transmission is connected by being driven the second belt with transmission third turntable machinery Connect, it is described transmission third turntable by be driven third belt with transmission third gear mechanism connect, it is described be driven third gear and Transmission worm gear bar is meshed.

Further, the second rotary electrification mechanism includes rotation housing, connecting plate, reinforces V shaped slab, shaft, limiting Block, generator shaft, generator, power interface, the connecting plate are mounted on rotation enclosure interior by embedded mode and mutually weld It connects, the rotation housing coordinates with housing slot, and the connecting plate both ends are mounted on by embedded mode in rotation housing both sides Portion, in the middle part of the connecting plate inside embedded shaft, reinforcing V shaped slab both ends insertion is mounted on inside connecting plate, the shaft Upper end is connected with transmission worm gear bar, and the shaft lower end is mechanically connected by limited block and generator shaft, the generator shaft It is connect with generator mechanical, the generator is electrically connected with power interface by conducting wire.

Advantageous effect

A kind of model wind generating device of the present invention is opened motor when being used and is rotated forward so that motor shaft rotation production Raw mechanical energy, and the rotation of the first pinion gear is driven, the first pinion gear drives the second pinion gear and third pinion rotation, and second is small Gear acts on right flank No.1 gear by the linkage of the first interlocking lever and rotates, and passes through the transmission agency band of the first belt of right flank The rotation of right flank turntable is moved, so that No. two gear rotations of right flank, pass through the second belt of right flank after No. two gear rotations of right flank Transmission cause the rotation of No. three gears of right flank, right flank has been driven to be driven bull gear drive, third pinion passes through the second interlocking lever Effect cause the rotation of left wing No.1 gear, left wing's turntable has been driven to rotate by the gearing of the first belt of left wing, so as to Make No. two gear rotations of left wing, No. two gears of left wing are rotated by No. three gears of transmission left wing of the second belt of left wing, band Dynamic left wing's transmission bull gear drive, right flank transmission bull gear drive and left wing's transmission bull gear drive have been driven tooth plate up simultaneously It rises, vertical rotary flabellum, connecting plate is driven to rise, vertical rotary flabellum encounters Wind-driven rotating, makes by the linkage of connecting plate It obtains rotational shell and rotation housing rotates left and right, engagement plate has been driven to rotate and has caused worm gear pole rotation, has driven rotary pinion rotation Turn, rotating gear wheel by third interlocking lever rotates, and drives rotating disk rotation, by the transmission for being driven the first belt The first turntable and transmission first gear rotation are driven, transmission second gear and the second turntable of transmission is driven to turn by the 4th interlocking lever It is dynamic, the rotation of third turntable is driven by being driven the second belt, by the transmission for being driven third belt so that transmission third tooth Wheel, drives the rotation of transmission worm gear bar, and rotation housing rotation drives connecting plate rotation, reinforces V shaped slab and play the role of reinforcing, connect Plate rotates and the rotation of transmission worm gear bar, has driven shaft rotation together so that generator shaft starts to rotate, and generator is started to work Power generation, encounter wind scale it is higher when, by start motor invert, tooth plate is accepted so that vertical rotary flabellum and Connecting plate is protected, and has ensured that wind power generation plant is not destroyed by blast.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structure diagram of model wind generating device of the present invention；

Fig. 2 is a kind of sectional view of model wind generating device of the present invention；

Fig. 3 is a kind of working state structure schematic diagram of model wind generating device of the present invention；

Fig. 4 is a kind of lifting drive mechanism working state structure schematic diagram of model wind generating device of the present invention；

Fig. 5 is the partial enlarged view of Fig. 4；

Fig. 6 is the partial enlarged view of Fig. 3.

In figure：Vertical rotary flabellum -1, connecting plate -2, pedestal -3, power generation main body -4, shell -401, lifting drive mechanism - 402nd, right flank transmission mechanism -403, left wing's transmission mechanism -404, tooth plate -405, the first rotary electrification mechanism -406, the main biography of power generation Motivation structure -407, the second rotary electrification mechanism -408, motor -4021, motor shaft -4022, the first pinion gear -4023, second Pinion gear -4024, the first interlocking lever -4025, third pinion -4026, the second interlocking lever -4027, the first axis pin -4031, the right side Wing No.1 gear -4032, the first belt -4033 of right flank, No. two gears -4034 of right flank, right flank turntable -4035, the second skin of right flank Band -4036, right flank drive -4037, No. three gears -4038 of right flank, right flank transmission gear wheel -4039, the second axis pin -4041, Left wing's No.1 gear -4042, the first belt -4043 of left wing, No. two gears -4044 of left wing, left wing's turntable -4045, left wing second Belt -4046, left wing's drive -4047, No. three gears -4048 of left wing, left wing's transmission gear wheel -4049, rotational shell - 4061st, fixed block -4062, engagement plate -4063, worm gear pole -4064, rotary pinion -4065, third interlocking lever -4066, rotation Gear wheel -4067, rotating disk -4068, idler wheel -4069, the first belt -4071 of transmission, the first turntable -4072 of transmission, fixed pin Axis -4073, transmission first gear -4074, the 4th interlocking lever -4075, transmission second gear -4076, the second turntable of transmission - 4077th, be driven the second belt -4078, transmission third turntable -4079, transmission third belt -40710, transmission third gear - 40711st, transmission worm gear bar -40712, rotation housing -4081, connecting plate -4082, reinforcing V shaped slab -4083, shaft -4084, limit Position block -4085, generator shaft -4086, generator -4087, power interface -4088.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, with reference to Specific embodiment, the present invention is further explained.

- Fig. 6 is please referred to Fig.1, the present invention provides a kind of model wind generating device technical solution：Its structure includes vertical rotation Turn flabellum 1, connecting plate 2, pedestal 3, power generation main body 4,1 surface of vertical rotary flabellum is mutually welded with 2 one end of connecting plate, described 2 one end of connecting plate is mutually welded with 4 outer surface of power generation main body, the power generation main body 4 by embedded mode install on the base 3 and It mutually welds, the power generation main body 4 includes shell 401, lifting drive mechanism 402, right flank transmission mechanism 403, left wing's transmission mechanism 404th, tooth plate 405, the first rotary electrification mechanism 406, power generation main drive gear 407, the second rotary electrification mechanism 408, the liter It drops 402 bottom of actuating unit to be mounted on 401 inner bottom surface of shell, the lifting drive mechanism 402 and right flank driver Structure 403 is meshed and is mechanically connected, the lifting drive mechanism 402 be meshed with left wing transmission mechanism 404 and machinery even It connects, 405 upper end of the tooth plate insertion is mounted on inside shell 401,405 right side of tooth plate and 403 upper end of right flank transmission mechanism It is meshed, 405 left side of the tooth plate is meshed with 404 upper end of left wing transmission mechanism, and the first rotary electrification mechanism 406 is installed Inside 401 top of shell, 406 lower end of the first rotary electrification mechanism is meshed simultaneously with 407 upper end of power generation main drive gear And be mechanically connected, power generation 407 lower end of main drive gear is mounted on 408 upper end of the second rotary electrification mechanism by embedded mode Inside, the second rotary electrification mechanism 408 are mounted on inside shell 401, and the second rotary electrification mechanism 408 is located at tooth plate 405 tops.

The lifting drive mechanism 402 includes motor 4021, motor shaft 4022, the first pinion gear 4023, the second small tooth The 4024, first interlocking lever 4025, third pinion 4026, the second interlocking lever 4027 are taken turns, 4021 bottom of motor is mounted on 401 inside bottom of shell, the motor shaft 4022 are mounted on 4021 inside of motor by embedded mode and are mechanically connected, institute The first pinion gear 4023 is stated mounted on 4022 upper end of motor shaft and is meshed, 4024 and first pinion gear of the second pinion gear 4023 are meshed and clearance fit, and first interlocking lever 4025 is mounted in the second pinion gear 4024 and is mechanically connected, The third pinion 4026 is meshed with the first pinion gear 4023 and clearance fit, and second interlocking lever 4027 is mounted on On third pinion 4026 and it is mechanically connected.

The right flank transmission mechanism 403 includes the first axis pin 4031, right flank No.1 gear 4032, the first belt of right flank 4033rd, No. three No. two gears 4034 of right flank, right flank turntable 4035, the second belt of right flank 4036, right flank drive 4037, right flank teeth Wheel 4038, right flank transmission gear wheel 4039, first axis pin 4031 are mounted on right flank No.1 gear 4032, the right flank one Number gear 4032 is mechanically connected by the first axis pin 4031 and the first interlocking lever 4025, and the right flank No.1 gear 4032 passes through One interlocking lever 4025 is mechanically connected with the second pinion gear 4024,4033 lower end of the first belt of right flank and right flank No.1 gear 4032 surfaces fit, and 4033 upper end of the first belt of right flank fits with 4035 surface of right flank turntable, the right flank two Gear 4034 is mounted on right flank turntable 4035, and described No. two gears 4034 of right flank are affixed with 4036 lower end of the second belt of right flank It closes, 4036 middle part of the second belt of right flank is equipped with right flank drive 4037,4036 upper end of the second belt of right flank and right flank No. three 4038 surfaces of gear fit, and described No. two gears 4034 of right flank pass through the second belt of right flank 4036 and No. three gears of right flank 4038 mechanical connections, described No. three gears 4038 of right flank are meshed with right flank transmission gear wheel 4039, and the right flank is driven canine tooth Wheel 4039 is meshed and is mechanically connected with 405 right side of tooth plate.

Left wing's transmission mechanism 404 includes the second axis pin 4041, left wing's No.1 gear 4042, the first belt of left wing 4043rd, No. three No. two gears 4044 of left wing, left wing's turntable 4045, the second belt of left wing 4046, left wing's drive 4047, left wing teeth Wheel 4048, left wing's transmission gear wheel 4049, second axis pin 4041 are mounted on left wing's No.1 gear 4042, the left wing one Number gear 4042 is mechanically connected by the second axis pin 4041 and the second interlocking lever 4027, and left wing's No.1 gear 4042 passes through Two interlocking levers 4027 are mechanically connected with third pinion 4026,4043 lower end of the first belt of left wing and left wing's No.1 gear 4042 surfaces fit, and 4043 upper end of the first belt of left wing fits with 4045 surface of left wing turntable, the left wing two Gear 4044 is mounted on left wing's turntable 4045, and described No. two gears 4044 of left wing are affixed with 4046 lower end of left wing the second belt It closes, 4046 middle part of the second belt of left wing is equipped with left wing's drive 4047,4046 upper end of the second belt of left wing and left wing No. three 4048 surfaces of gear fit, and described No. two gears 4044 of left wing pass through the second belt of left wing 4046 and No. three gears of left wing 4048 mechanical connections, described No. three gears 4048 of left wing are driven gear wheel 4049 with left wing and are meshed, and the left wing is driven canine tooth Wheel 4049 is meshed and is mechanically connected with 405 left side of tooth plate.

The first rotary electrification mechanism 406 includes rotational shell 4061, fixed block 4062, engagement plate 4063, worm gear pole 4064th, rotary pinion 4065, third interlocking lever 4066, rotation gear wheel 4067, rotating disk 4068, idler wheel 4069, the company Fishplate bar 2 is mounted on by embedded mode inside rotational shell 4061, and the fixed block 4062 is mounted on inside rotational shell 4061, 4063 middle part of engagement plate is mounted on by embedded mode inside worm gear pole 4064, and 4063 both ends of engagement plate pass through insertion Mode is mounted on inside 4061 both sides of rotational shell, and 4064 upper end of worm gear pole is mounted on rotational shell by embedded mode It is welded inside 4061 upper ends and with 4062 phase of fixed block, 4064 lower end of worm gear pole is meshed with rotary pinion 4065, 4066 upper end of third interlocking lever is mounted on rotary pinion 4065, and 4066 lower end of third interlocking lever is mounted on rotation On gear wheel 4067, the rotary pinion 4065 is mechanically connected by third interlocking lever 4066 and rotation gear wheel 4067, institute It states rotating disk 4068 to be mounted on 4067 outside of rotation gear wheel and be mechanically connected, the rotating disk 4068 is located on idler wheel 4069 Side.

The power generation main drive gear 407 includes the first belt 4071 of transmission, the first turntable 4072 of transmission, fixed pin shaft 4073rd, first gear 4074, the 4th interlocking lever 4075, transmission second gear 4076, the second turntable 4077 of transmission, transmission the are driven Two belts 4078, transmission third turntable 4079, transmission third belt 40710, transmission third gear 40711, transmission worm gear bar 40712。

Transmission 4071 upper end of the first belt fits and is mechanically connected with 4068 surface of rotating disk, first skin 4071 middle part of band fits with 4069 surface of idler wheel, transmission 4071 lower end of the first belt and 4072 surface of the first turntable of transmission It fits, first turntable 4072 is mechanically connected by being driven the first belt 4071 with rotating disk 4068, the transmission first Gear 4074 is mounted in rotating disk 4068 and is mechanically connected, and the transmission first gear 4074 is equipped with fixed pin shaft 4073, the transmission first gear 4074 is connected by fixed pin shaft 4073 with 4075 upper end of the 4th interlocking lever, and the described 4th 4075 lower end of interlocking lever is connected with transmission second gear 4076, and the second turntable 4077 of the transmission is mounted on transmission second gear It outside 4076 and is mechanically connected, the second turntable 4077 of the transmission passes through the second belt of transmission 4078 and transmission third turntable 4079 mechanical connections, the transmission third turntable 4079 is by being driven third belt 40710 and 40711 machinery of transmission third gear Connection, the transmission third gear 40711 are meshed with transmission worm gear bar 40712.

The second rotary electrification mechanism 408 includes rotation housing 4081, connecting plate 4082, reinforces V shaped slab 4083, shaft 4084th, limited block 4085, generator shaft 4086, generator 4087, power interface 4088, the connecting plate 2 pass through embedded mode It welds mounted on 4081 inside of rotation housing and mutually, the rotation housing 4081 and 401 clearance fit of shell, the connecting plate 4082 both ends are mounted on by embedded mode inside 4081 both sides of rotation housing, the embedded shaft 4084 in 4082 middle part of connecting plate Inside, the insertion of 4083 both ends of the reinforcing V shaped slab are mounted on inside connecting plate 4082,4084 upper end of shaft and transmission worm gear Bar 40712 is connected, and 4084 lower end of shaft is mechanically connected by limited block 4085 and generator shaft 4086, the generator Axis 4086 is mechanically connected with generator 4087, and the generator 4087 is electrically connected with power interface 4088 by conducting wire.

Generator described in this patent refers to the mechanical equipment into electric energy by the energy conversion of other forms, it is by water wheels Machine, steam turbine, diesel engine or the driving of other dynamic power machines, the energy that flow, air-flow, fuel combustion or nuclear fission are generated It is converted into mechanical energy and is transmitted to generator, then electric energy is converted to by generator.

Transmission first gear described in this patent refers to have gear continuously to engage the machinery for transmitting movement and power on wheel rim Element, there have been at the end of the 19th century, transform into the principle of cutting method and utilize this principle cutting very early for application of the gear in transmission Special purpose machine tool and cutter successive appearance, with the development of production, the stationarity of gear operation is taken seriously.

Motor 4021 is opened when being used to rotate forward so that the rotation of motor shaft 4022 generates mechanical energy, and drives first Pinion gear 4023 rotates, and the first pinion gear 4023 drives the second pinion gear 4024 and third pinion 4026 to rotate, the second small tooth Wheel 4024 acts on right flank No.1 gear 4032 by the linkage of the first interlocking lever 4025 and rotates, and passes through the first belt of right flank 4033 transmission agency has driven right flank turntable 4035 to rotate, so that No. two gears 4034 of right flank rotate, No. two teeth of right flank It is rotated after 4034 rotation of wheel by No. three gears 4038 of transmission right flank of the second belt of right flank 4036, has driven right flank transmission Gear wheel 4039 rotates, and third pinion 4026 is revolved by the effect left wing No.1 gear 4042 of the second interlocking lever 4027 Turn, left wing's turntable 4045 has been driven to rotate by the gearing of the first belt of left wing 4043, so as to make No. two gears of left wing 4044 rotations, No. two gears 4044 of left wing are rotated by No. three gears 4048 of transmission left wing of the second belt of left wing 4046, Left wing's transmission gear wheel 4049 is driven to rotate, right flank transmission gear wheel 4039 rotation and left wing's transmission gear wheel 4049 rotate simultaneously Tooth plate 405 has been driven toward being raised, vertical rotary flabellum 1, connecting plate 2 is driven to rise, vertical rotary flabellum 1 encounters wind-force rotation Turn, rotated left and right by the linkage rotational shell 4061 and rotation housing 4081 of connecting plate 2, engagement plate 4063 has been driven to revolve Turn so that worm gear pole 4064 rotates, drive rotary pinion 4065 rotates, and passes through third interlocking lever 4066 and rotates gear wheel 4067 rotations, drive rotating disk 4068 to rotate, and 4072 He of the first turntable is driven by the transmission for being driven the first belt 4071 Transmission first gear 4074 rotates, and the second turntable 4077 of transmission second gear 4076 and transmission is driven by the 4th interlocking lever 4075 Rotation is rotated by being driven the second belt 4078 transmission third turntable 4079, by the biography for being driven third belt 40710 It is dynamic so that transmission third gear 40711 drives transmission worm gear bar 40712 to rotate, and the rotation rotation of housing 4081 drives connecting plate 4082 rotations reinforce V shaped slab 4083 and play the role of reinforcing, and the rotation of connecting plate 4082 and transmission worm gear bar 40712 rotate, together Shaft 4084 is driven to rotate so that generator shaft 4086 starts to rotate, and generator 4087, which is started to work, to generate electricity, and encounters wind-force etc. When grade is higher, is inverted by starting motor 4021, tooth plate 405 is accepted so that vertical rotary flabellum 1 and connecting plate 2 It is protected.

The present invention solve wind power generation plant be typically all in working at height, encounter wind scale it is higher when, wind The problem of therefore power generation device meeting is damaged, wind power generation plant can be caused to damage, the present invention passes through the mutual of above-mentioned component Combination has driven left wing's turntable to rotate by the gearing of the first belt of left wing, so as to make No. two gear rotations of left wing, left wing No. two gears are rotated by No. three gears of transmission left wing of the second belt of left wing, drive left wing's transmission bull gear drive, right The wing is driven bull gear drive and left wing's transmission bull gear drive has been driven tooth plate toward being raised simultaneously, drive vertical rotary flabellum, Connecting plate rise, encounter wind scale it is higher when, by start motor invert, tooth plate is accepted so that vertical rotary Flabellum and connecting plate are protected, and have ensured that wind power generation plant is not destroyed by blast.

The basic principles, main features and the advantages of the invention have been shown and described above, for this field skill For art personnel, it is clear that the present invention is not limited to the details of above-mentioned exemplary embodiment, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes falling within the meaning and scope of the equivalent requirements of the claims in the present invention It is interior.Any reference numeral in claim should not be considered as to the involved claim of limitation.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (8)

1. a kind of model wind generating device, it is characterised in that：Its structure includes vertical rotary flabellum (1), connecting plate (2), bottom Seat (3), power generation main body (4), vertical rotary flabellum (1) surface are mutually welded with connecting plate (2) one end, the connecting plate (2) One end is mutually welded with power generation main body (4) outer surface, the power generation main body (4) by embedded mode be mounted on pedestal (3) on and Mutually weld, it is described it is characterized in that：

The power generation main body (4) includes shell (401), lifting drive mechanism (402), right flank transmission mechanism (403), left wing's transmission Mechanism (404), tooth plate (405), the first rotary electrification mechanism (406), power generation main drive gear (407), the second rotary generator Structure (408), lifting drive mechanism (402) bottom are mounted on shell (401) inner bottom surface, the lifting drive machine Structure (402) is meshed and is mechanically connected with right flank transmission mechanism (403), and the lifting drive mechanism (402) is driven with left wing Mechanism (404) is meshed and is mechanically connected, and tooth plate (405) the upper end insertion is mounted on shell (401) inside, the tooth plate (405) right side is meshed with right flank transmission mechanism (403) upper end, on the left of the tooth plate (405) and on left wing's transmission mechanism (404) End is meshed, and the first rotary electrification mechanism (406) is inside shell (401) top, first rotary generator Structure (406) lower end is meshed and is mechanically connected, the power generation main drive gear with power generation main drive gear (407) upper end (407) lower end is mounted on by embedded mode inside second rotary electrification mechanism (408) upper end, the second rotary electrification mechanism (408) internal mounted on shell (401), the second rotary electrification mechanism (408) is above tooth plate (405).

2. a kind of model wind generating device according to claim 1, it is characterised in that：The lifting drive mechanism (402) it is interlocked including motor (4021), motor shaft (4022), the first pinion gear (4023), the second pinion gear (4024), first Bar (4025), third pinion (4026), the second interlocking lever (4027), motor (4021) bottom are mounted on shell (401) inside bottom, the motor shaft (4022) are mounted on motor (4021) inside by embedded mode and are mechanically connected, First pinion gear (4023) is mounted on motor shaft (4022) upper end and is meshed, second pinion gear (4024) and the One pinion gear (4023) is meshed and clearance fit, and first interlocking lever (4025) is in the second pinion gear (4024) And it being mechanically connected, the third pinion (4026) is meshed with the first pinion gear (4023) and clearance fit, and described Two interlocking levers (4027) are on third pinion (4026) and are mechanically connected.

3. a kind of model wind generating device according to claim 1, it is characterised in that：The right flank transmission mechanism (403) including No. two the first axis pin (4031), right flank No.1 gear (4032), the first belt of right flank (4033), right flank gears (4034), right flank turntable (4035), the second belt of right flank (4036), right flank drive (4037), No. three gears (4038) of right flank, Right flank transmission gear wheel (4039), first axis pin (4031) is on right flank No.1 gear (4032), the right flank one Number gear (4032) passes through the first axis pin (4031) and is mechanically connected with the first interlocking lever (4025), the right flank No.1 gear (4032) it is mechanically connected by the first interlocking lever (4025) and the second pinion gear (4024), under first belt of right flank (4033) End fits with right flank No.1 gear (4032) surface, the first belt of right flank (4033) upper end and right flank turntable (4035) table Face fits, and described No. two gears (4034) of right flank are on right flank turntable (4035), described No. two gears (4034) of right flank It fits with the second belt of right flank (4036) lower end, right flank drive is equipped in the middle part of second belt of right flank (4036) (4037), No. three gear (4038) surfaces in the second belt of right flank (4036) upper end and right flank fit, the right flank two Gear (4034) is mechanically connected by No. three gears (4038) of the second belt of right flank (4036) and right flank, described No. three gears of right flank (4038) it is meshed with right flank transmission gear wheel (4039), the right flank transmission gear wheel (4039) and phase on the right side of tooth plate (405) It engages and is mechanically connected.

4. a kind of model wind generating device according to claim 1, it is characterised in that：Left wing's transmission mechanism (404) including No. two the second axis pin (4041), left wing's No.1 gear (4042), the first belt of left wing (4043), left wing gears (4044), left wing's turntable (4045), the second belt of left wing (4046), left wing's drive (4047), No. three gears (4048) of left wing, Left wing's transmission gear wheel (4049), second axis pin (4041) is on left wing's No.1 gear (4042), the left wing one Number gear (4042) passes through the second axis pin (4041) and is mechanically connected with the second interlocking lever (4027), left wing's No.1 gear (4042) it is mechanically connected by the second interlocking lever (4027) and third pinion (4026), under first belt of left wing (4043) End fits with left wing No.1 gear (4042) surface, the first belt of left wing (4043) upper end and left wing's turntable (4045) table Face fits, and described No. two gears (4044) of left wing are on left wing's turntable (4045), described No. two gears (4044) of left wing It fits with left wing the second belt (4046) lower end, left wing's drive is equipped in the middle part of second belt of left wing (4046) (4047), No. three gear (4048) surfaces in the second belt of left wing (4046) upper end and left wing fit, the left wing two Gear (4044) is mechanically connected by No. three gears (4048) of the second belt of left wing (4046) and left wing, described No. three gears of left wing (4048) it is meshed with left wing's transmission gear wheel (4049), left wing's transmission gear wheel (4049) and phase on the left of tooth plate (405) It engages and is mechanically connected.

5. a kind of model wind generating device according to claim 1, it is characterised in that：The first rotary electrification mechanism (406) including rotational shell (4061), fixed block (4062), engagement plate (4063), worm gear pole (4064), rotary pinion (4065), third interlocking lever (4066), rotation gear wheel (4067), rotating disk (4068), idler wheel (4069), the connecting plate (2) rotational shell (4061) inside is mounted on by embedded mode, the fixed block (4062) is mounted on rotational shell (4061) Inside, engagement plate (4063) middle part are mounted on worm gear pole (4064) inside, the engagement plate (4063) by embedded mode Both ends are mounted on by embedded mode inside rotational shell (4061) both sides, and worm gear pole (4064) upper end passes through embedded mode It is mutually welded inside rotational shell (4061) upper end and with fixed block (4062), worm gear pole (4064) lower end and rotation Turning pinion gear (4065) to be meshed, third interlocking lever (4066) upper end is mounted on rotary pinion (4065), and described the Three interlocking levers (4066) lower end is mounted on rotation gear wheel (4067), and the rotary pinion (4065) passes through third interlocking lever (4066) it is mechanically connected with rotation gear wheel (4067), the rotating disk (4068) is external simultaneously mounted on rotation gear wheel (4067) And be mechanically connected, the rotating disk (4068) is above idler wheel (4069).

6. a kind of model wind generating device according to claim 1, it is characterised in that：The power generation main drive gear (407) including the first belt of transmission (4071), the first turntable of transmission (4072), fixed pin shaft (4073), transmission first gear (4074), the 4th interlocking lever (4075), transmission second gear (4076), the second turntable of transmission (4077), the second belt of transmission (4078), transmission third turntable (4079), transmission third belt (40710), transmission third gear (40711), transmission worm gear bar (40712)。

7. a kind of model wind generating device according to claim 6, it is characterised in that：The first belt of the transmission (4071) upper end fits and is mechanically connected with rotating disk (4068) surface, the first belt (4071) middle part and idler wheel (4069) surface fits, and transmission the first belt (4071) lower end fits with transmission the first turntable (4072) surface, institute It states the first turntable (4072) and is mechanically connected by being driven the first belt (4071) with rotating disk (4068), the transmission first gear (4074) it in rotating disk (4068) and is mechanically connected, the transmission first gear (4074) is equipped with fixed pin shaft (4073), the transmission first gear (4074) is connected by fixed pin shaft (4073) with the 4th interlocking lever (4075) upper end, 4th interlocking lever (4075) lower end is connected with transmission second gear (4076), and the second turntable of the transmission (4077) is installed It in transmission second gear (4076) outside and is mechanically connected, the second turntable of the transmission (4077) is by being driven the second belt (4078) it is mechanically connected with transmission third turntable (4079), the transmission third turntable (4079) is by being driven third belt (40710) it is mechanically connected with transmission third gear (40711), the transmission third gear (40711) and transmission worm gear bar (40712) it is meshed.

8. a kind of model wind generating device according to claim 1, it is characterised in that：The second rotary electrification mechanism (408) including rotation housing (4081), connecting plate (4082), reinforce V shaped slab (4083), shaft (4084), limited block (4085), Generator shaft (4086), generator (4087), power interface (4088), the connecting plate (2) are mounted on rotation by embedded mode Transcapsidation body (4081) is internal and mutually welds, the rotation housing (4081) and shell (401) clearance fit, the connecting plate (4082) both ends are mounted on by embedded mode inside rotation housing (4081) both sides, embedded in the middle part of the connecting plate (4082) to turn Axis (4084) is internal, and the insertion of described reinforcing V shaped slab (4083) both ends is mounted on connecting plate (4082) inside, the shaft (4084) Upper end is connected with transmission worm gear bar (40712), and shaft (4084) lower end passes through limited block (4085) and generator shaft (4086) it is mechanically connected, the generator shaft (4086) is mechanically connected with generator (4087), the generator (4087) and electricity Source interface (4088) is electrically connected by conducting wire.