CN109944745A - A kind of rotor machine under pneumatic actuation - Google Patents

Abstract

The invention discloses the rotor machines under a kind of pneumatic actuation, including apparatus main body, the atrium of opening to the right is provided in described device main body, power generator is provided in the atrium, wind-force flabellum is provided in the power generator, the wind-force flabellum can be pushed out outside the right-end openings of the atrium and the wind-force flabellum is driven to invert by the power generator, and power generation is realized in the rotation of wind-force flabellum, wherein, the power generator includes electrification component and turnover device, wherein, the electrification component can realize power generation when wind-force flabellum rotates, the turnover device can overturn the wind-force flabellum, what is be connected in the upper and lower sides inner wall of the atrium is provided with push slot；The present invention is directed to design it is a kind of do not needing to generate electricity, or weather condition is severe be unsuitable for power generation in the case where wind-force flabellum can take in protection is intracavitary to be protected, with so seek to extend the device of the service life of wind power plant.

Description

A kind of rotor machine under pneumatic actuation

Technical field

Rotor machine the present invention relates to technical field of wind power generation, under specially a kind of pneumatic actuation.

Background technique

With the use of fossil fuel, the fossil fuel of existing deposit is constantly consumed, at the same fossil fuel when in use A large amount of pernicious gas can be released, therefore, clean energy resource is also actively being sought to replace fossil fuel, wind energy in countries in the world As renewable energy carry out using when will not generate pollutant, but take wind energy and need by means of wind electricity generating system, Existing wind electricity generating system is generally mounted to the wind energy resources such as coastal and plateau place abundant, but likewise, on these ground Although side's wind energy resources are abundant, weather conditions are complicated, and wind power generation plant is exposed to severe when not in use Under the conditions of, it is be easy to cause the aging of wind power generation plant, greatly shortens service life, therefore, the present invention is directed to design one kind to exist Do not need to generate electricity, or weather condition it is severe be unsuitable for power generation in the case where can by wind-force flabellum take in protection it is intracavitary into Row protection, to seek to extend the device of the service life of wind power plant in turn.

Summary of the invention

It is in the prior art for overcoming the purpose of the present invention is to provide the rotor machine under a kind of pneumatic actuation State defect.

Rotor machine under a kind of pneumatic actuation according to the present invention, including apparatus main body are set in described device main body It is equipped with the atrium of opening to the right, power generator is provided in the atrium, wind-force flabellum is provided in the power generator, The power generator wind-force flabellum can be pushed out outside the right-end openings of the atrium and drive the wind-force flabellum into Row reversion, and power generation is realized in the rotation of wind-force flabellum, wherein the power generator includes electrification component and turnover device, In, the electrification component can realize power generation when wind-force flabellum rotates, and the turnover device can turn over the wind-force flabellum Turn, what is be connected in the upper and lower sides inner wall of the atrium is provided with push slot, is provided with driving means in the push slot, institute Stating driving means can drive the power generator to stretch out outside the right-end openings of the atrium, and the push slot is far from the opening Being provided in the inner wall of chamber side can be to the driving means into line-locked locking device, wherein when the driving means band When moving the power generator and moving to the right and remove the right-end openings of the atrium, the locking device can be to the push Device is locked, also, during the power generator moves to right, the turnover device can drive the wind-force flabellum to turn over Turn, and can be generated electricity by the electrification component when the wind-force flabellum rotates under the drive of wind, and the present apparatus can be Wind-force is larger or weather condition is poor stores the wind-force flabellum when being not suitable for being generated electricity, and then to the wind fan Leaf is protected.

Further technical solution, the electrification component include that the power generation being slidably arranged in the atrium is slided Block is provided with opening open slot to the right in the power generation sliding block, is fixedly installed power generation in the inner left wall of the open slot Machine, the right end of the generator are rotatably connected with power generation shaft, are arranged with overturning drive block in the power generation shaft, In, the wind-force flabellum is accommodated in the open slot and the left end of the wind-force flabellum is connected on the overturning drive block, It is provided with the rotation slot of opening to the left in the overturning drive block, is rotatably provided in the rotation slot and is sheathed on the hair Spill spin block in electric shaft, setting slipping block symmetrical above and below in the left end face of the spill spin block and fixed, the slipping block Left end extend outside the left end face of described device main body, wherein be fixedly connected with the right side in the inner left wall of the atrium End, which extends to the right and extends, to be passed through in the open slot and is located at pusher rod of the slipping block far from the generator side, institute It states between pusher rod and the slipping block and is located in the power generation sliding block and be provided with rotation chamber, the rotation is intracavitary rotatable It is provided with the passage sliding block close to the end face of the generator side and the slipping block far from one side of generator The transmission gear that face is meshed, when the power generation sliding block moves right in the atrium, the pusher rod can pass through institute Stating transmission gear drives the slipping block to move right, and then the overturning drive block is driven to move right in the open slot It is dynamic.

Further technical solution, the turnover device include about the power generation shaft it is symmetrical above and below be set to it is described The gear grooved in drive block is overturn, is rotatably provided with rotate gear in the gear grooved, wherein the power generation shaft is close The rack structure that can be meshed with the rotate gear is fixedly installed on the side end face up and down of right end, in the right side of the gear grooved What is be connected in wall is provided with the turning groove of opening to the right, is fixedly connected with support in the right end face of the overturning drive block Block, the supporting block are rotatably provided with left end extension on the end face far from the power generation shaft side and are passed through the turning groove Overturning drive block that is interior and being meshed with the rotate gear, wherein the left end of the wind-force flabellum is fixedly connected on described turn over Turn the right end of drive block, is rotatably provided at the open slot right-end openings and is rotatably assorted company with the inner wall of the open slot The change connect, the right end of the change it is symmetrical above and below be provided with the swivelling chute that is provided with that runs through and be open to the right up and down, it is described Set block is rotatably provided in the inner left wall of swivelling chute, left and right is perforative in the set block is provided with through slide opening, wherein The right end of the wind-force flabellum, which extends through, described through slide opening and interacts mating connection with the inner wall through slide opening.

Further technical solution, the driving means include that the push being slidably arranged in the push slot is slided Block, wherein be fixedly connected with goring push spring between the left end face of the push sliding block and the inner left wall of the push slot, institute The sliding chamber of the push for being provided with opening towards the atrium side in push sliding block is stated, the push is slided solid in the inner left wall of chamber Surely it is provided with pushing motor, the right end power of the pushing motor is connected with push lead screw, and intracavitary slide is slided in the push Dynamic is provided with the push slipping block being cooperatively connected with the push threads of lead screw, wherein the push slipping block is close to described End face secure fit of the end face of atrium side with the power generation sliding block close to the push slot side is connect, when the push When motor rotates, the push slipping block can be driven in the sliding intracavitary movement of the push by the push lead screw, and then drive The power generation sliding block moves in the atrium, and then drives the overturning to drive by the pusher rod and the slipping block Block slides in the open slot, and then pushes the wind-force flabellum and slide in the open slot.

Further technical solution, the locking device include that the sliding chamber of the push that is set to being connected is opened far from described Perforative push sliding slot in the inner wall of oral cavity side and up and down, it is connected in the push inner wall of the slot far from the atrium side Logical is provided with locking sliding slot, and the push sliding block is fixedly connected with far from the left end of one side end face of atrium can be described First to horizontally slip in locking sliding slot climbs sliding block, fixation on the push end face of the slipping block far from the atrium side It is connected with and extends through the push sliding slot and what is extended into the locking sliding slot second climbs sliding block, the locking sliding slot is remote What is be connected in inner wall from the atrium side is provided with locking slippage slot, is slidably arranged in the locking slippage slot There is locking slipping block, connects and set between the locking slipping block and the locking inner wall of the slippage slot far from the atrium side It is equipped with return spring, it is symmetrical in the locking slipping block to be provided with the component that climbs, wherein the component that climbs includes being set to In the locking slipping block and opening is climbed sliding slot towards the first of the atrium side, and described first, which climbs, can slide in sliding slot It is dynamic to be provided with first and climb pushing block, described first climb pushing block and described first climb sliding slot inner wall between be connected with First climbs goring push spring, described first climb sliding slot right side inner wall in be provided with opening the towards the atrium side Two climb sliding slot, and described second, which climbs, is slidably provided with second in sliding slot and climbs sliding block, and described second climbs sliding block and institute State second climb sliding slot inner wall between be connected with second and climb goring push spring.

Further technical solution, the left and right ends of the locking slippage slot far from atrium side inner wall are fixed to be connected It is connected to the first electromagnet fixed block, the first electromagnet fixed block is fixedly installed in the inner wall of the atrium side First electromagnet, the left and right ends of the locking slipping block and the side of the close atrium are fixedly connected with the second electromagnet Fixed block, the second electromagnet fixed block are fixedly installed the second electromagnet in the inner wall far from the atrium side, when First electromagnet and second electromagnet attract each other when obtaining electric, and then the locking slipping block can be driven in the lock Determine to be directed away from the atrium side movement in slippage slot.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when using the present apparatus, in weather condition When being unsuitable for power generation, the present apparatus can store wind-force flabellum, and then can avoid wind-force flabellum and be exposed to mal-condition for a long time It is lower and there is a phenomenon where wind fan Leaf lifespan shortens, while present apparatus structure is simple, easy to use, is worth being recommended to use.

Detailed description of the invention

Fig. 1 is the inside overall structure diagram of the rotor machine under a kind of pneumatic actuation of the invention；

Fig. 2 is the enlarged diagram of " A " in Fig. 1；

Fig. 3 is the enlarged diagram of " B " in Fig. 1；

Fig. 4 is the enlarged diagram of " C " in Fig. 1.

Specific embodiment

Below with reference to Fig. 1-4, the present invention is described in detail, wherein for sake of convenience, now to hereafter described orientation Provide as follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Referring to Fig.1-4, the rotor machine under a kind of pneumatic actuation of embodiment according to the present invention, including apparatus main body 11, it is provided with the atrium 21 of opening to the right in described device main body 11, is provided with power generator in the atrium 21, it is described Wind-force flabellum 28 is provided in power generator, the wind-force flabellum 28 can be pushed out the atrium 21 by the power generator Right-end openings are outer and the wind-force flabellum 28 is driven to be inverted, and power generation is realized when wind-force flabellum 28 rotates, wherein described Power generator includes electrification component and turnover device, wherein and the electrification component can realize power generation when wind-force flabellum 28 rotates, The turnover device can overturn the wind-force flabellum 28, the setting being connected in the upper and lower sides inner wall of the atrium 21 There is push slot 32, driving means is provided in the push slot 32, the driving means can drive the power generator to stretch out institute Outside the right-end openings for stating atrium 21, being provided in the push inner wall of the slot 32 far from 21 side of atrium can be to described Driving means is into line-locked locking device, wherein when the driving means drives the power generator to move and move to the right Out when the right-end openings of the atrium 21, the locking device can lock the driving means, also, in the hair During electric installation moves to right, the turnover device can drive the wind-force flabellum 28 to overturn, and exist in the wind-force flabellum 28 Under the drive of wind rotate when can be generated electricity by the electrification component, and the present apparatus can or weather condition larger in wind-force it is poor The wind-force flabellum 28 is stored when being not suitable for being generated electricity, and then the wind-force flabellum 28 is protected.

Valuably, the electrification component includes the power generation sliding block 22 being slidably arranged in the atrium 21, described It is provided with the open slot 99 of opening to the right in power generation sliding block 22, is fixedly installed generator in the inner left wall of the open slot 99 24, the right end of the generator 24 is rotatably connected with power generation shaft 29, and overturning driving is arranged in the power generation shaft 29 Block 59, wherein the left end that the wind-force flabellum 28 is accommodated in the interior and described wind-force flabellum 28 of the open slot 99 is connected to described It overturns on drive block 59, the rotation slot 67 of opening to the left is provided in the overturning drive block 59, can be turned in the rotation slot 67 It is dynamic to be provided with the spill spin block 66 being sheathed in the power generation shaft 29, it is symmetrical above and below in the left end face of the spill spin block 66 and Extend outside the left end face of described device main body 11 left end of fixed setting slipping block 23, the slipping block 23, wherein institute It states to be fixedly connected with right end in the inner left wall of atrium 21 and extend to the right and extend and is passed through in the open slot 99 and is located at institute Pusher rod 27 of the slipping block 23 far from 24 side of generator is stated, between the pusher rod 27 and the slipping block 23 and is located at It is provided with rotation chamber 25 in the power generation sliding block 22, is rotatably provided in the rotation chamber 25 and is leaned on the passage sliding block 27 The driving cog that the end face of nearly 24 side of generator and the slipping block 23 are meshed far from 24 1 side end face of generator Wheel 26, when the power generation sliding block 22 moves right in the atrium 21, the pusher rod 27 can pass through the driving cog Wheel 26 drives the slipping block 23 to move right, and then the overturning drive block 59 is driven to move right in the open slot 99 It is dynamic.

Valuably, the turnover device includes that the be set to overturning symmetrical above and below about the power generation shaft 29 drives Gear grooved 61 in block 59 is rotatably provided with rotate gear 62 in the gear grooved 61, wherein the power generation shaft 29 is leaned on The rack structure 31 that can be meshed with the rotate gear 62, the gear grooved 61 are fixedly installed on the side end face up and down of nearly right end Right side inner wall in be connected be provided with opening turning groove 63 to the right, it is fixed in the right end face of the overturning drive block 59 It is connected with supporting block 65, the supporting block 65 is rotatably provided with left end on the end face far from power generation 29 side of shaft and prolongs Stretch the overturning drive block 64 for being passed through and being meshed in the turning groove 63 and with the rotate gear 62, wherein the wind-force flabellum 28 left end is fixedly connected on the right end of the overturning drive block 64, is rotatably provided at 99 right-end openings of open slot Be rotatably assorted the change 48 of connection with the inner wall of the open slot 99, and the right end of the change 48 is symmetrical above and below to be provided with up and down Run through and be open to the right be provided with swivelling chute 68, be rotatably provided in the inner left wall of the swivelling chute 68 set block 97, Left and right is perforative in the set block 97 is provided with through slide opening 98, wherein the right end of the wind-force flabellum 28 extends through described Mating connection is interacted through slide opening 98 and with the inner wall through slide opening 98.

Valuably, the driving means includes the push sliding block 53 being slidably arranged in the push slot 32, wherein It is fixedly connected with goring push spring 56 between the left end face of the push sliding block 53 and the inner left wall of the push slot 32, it is described The sliding chamber 51 of the push for being provided with opening towards 21 side of atrium in push sliding block 53, it is described to push in the left side for sliding chamber 51 Pushing motor 54 is fixedly installed in wall, the right end power of the pushing motor 54 is connected with push lead screw 57, described to push away Send the push slipping block 58 for being slidably provided in sliding chamber 51 and being threadedly engaged connection with the push lead screw 57, wherein described Slipping block 58 is pushed close to the end face of 21 side of atrium and the power generation sliding block 22 close to push 32 side of slot Secure fit connection in end face can drive the push to slide when the pushing motor 54 rotation by the push lead screw 57 Block 58 moves in the sliding chamber 51 of the push, and then the power generation sliding block 22 is driven to move in the atrium 21, Jin Ertong It crosses the pusher rod 27 and the slipping block 23 drives the overturning drive block 59 to slide in the open slot 99, and then push The wind-force flabellum 28 slides in the open slot 99.

Valuably, the locking device includes that the push that is set to being connected slides chamber 51 far from the atrium 21 1 Perforative push sliding slot 49 in the inner wall of side and up and down, it is connected in the push inner wall of the slot 32 far from 21 side of atrium Logical is provided with locking sliding slot 33, and the push sliding block 53 is fixedly connected with far from the left end of 21 1 side end face of atrium can First to horizontally slip in the locking sliding slot 33 climbs sliding block 55, and the push slipping block 58 is far from the atrium 21 1 It is fixedly connected with to extend through the push sliding slot 49 and extend into second locked in sliding slot 33 on the end face of side and climb Sliding block 52, it is described locking inner wall of the sliding slot 33 far from 21 side of atrium in be connected be provided with locking slippage slot 36, Locking slipping block 35, the locking slipping block 35 and the locking slippage slot are slidably provided in the locking slippage slot 36 Return spring 34, left and right pair in the locking slipping block 35 are connected between 36 inner walls far from 21 side of atrium What is claimed is provided with the component that climbs, wherein the component that climbs includes being set in the locking slipping block 35 and opening described in opening direction The first of 21 side of oral cavity climbs sliding slot 37, and described first, which climbs, is slidably provided with first in sliding slot 37 and climbs pushing block 42, Described first climb pushing block 42 and described first climb sliding slot 37 inner wall between be connected with first and climb goring push spring 38, Described first climb sliding slot 37 right side inner wall in be provided with opening and climb sliding slot 39 towards the second of 21 side of atrium, Described second, which climbs, is slidably provided with second in sliding slot 39 and climbs sliding block 43, and described second climbs sliding block 43 and described second Climb sliding slot 39 inner wall between be connected with second and climb goring push spring 41.

Valuably, the locking slippage slot 36 is fixedly connected with far from the left and right ends of the 21 side inner wall of atrium One electromagnet fixed block 44, the first electromagnet fixed block 44 are fixedly installed in the inner wall of 21 side of atrium First electromagnet 45, the left and right ends of the locking slipping block 35 and the side of the close atrium 21 are fixedly connected with second Electromagnet fixed block 46, the second electromagnet fixed block 46 are fixedly installed in the inner wall far from 21 side of atrium Two electromagnet 47, when first electromagnet 45 and second electromagnet 47 it is electric when attract each other, and then can drive described It is mobile that locking slipping block 35 is directed away from 21 side of atrium in the locking slippage slot 36.

When original state, the left end face of sliding block 22 that generates electricity and the inner left wall of atrium 21 are abutted against, and push is slided at this time Block 53 moves to left to greatest extent in push slot 32, and the left end face for pushing slipping block 58 offsets with the inner left wall for pushing sliding chamber 51 It connects, the left end of slipping block 23 is stretched out to greatest extent outside the left end face of atrium 21 at this time, is overturn drive block 59 at this time and is being open It is moved to left to greatest extent in slot 99, wind-force flabellum 28 is in horizontality, covers 97 rotation of block at this time and enters in open slot 99.

When carrying out the storage of wind-power electricity generation and wind-force flabellum by the present apparatus, when being generated electricity, pushing motor 54 Start, and then drives push slipping block 58 to move to the right in the sliding chamber 51 of push by push lead screw 57, and then drive power generation Sliding block 22 moves to the right in atrium 21, in the process, power generation sliding block 22 relative to the Slideslip to the right of pusher rod 27, this When pusher rod 27 by transmission gear 26 drive slipping block 23 move to the right, and then by spill spin block 66 drive overturning drive block 59 move to the right in open slot 99, and then wind-force flabellum 28 is driven to stretch out outside the right-end openings of open slot 99, when push is slided Move block 58 drive second climb sliding block 52 be moved to left side second climb sliding block 43 right side when push slipping block 58 stop slide Dynamic simultaneously pushing motor 54 rotates backward simultaneously, and then push lead screw 57 is driven to invert, and pushes under the action of reaction force at this time Sliding block 53 slides to the right in push slot 32, when first sliding block 55 that climbs is moved to the first of the left side right side for climbing pushing block 42 When, pushing motor 54 continues to rotate forward, and then can continue that power generation sliding block 22 is driven to move to the right in atrium 21, when pushing away Send slipping block 58 push sliding block 53 can be driven right again by same way when pushing and moving to right to greatest extent again in sliding chamber 51 It moves, and during the sliding block 22 that generates electricity moves to right, overturning drive block 59 gradually moves to the right in open slot 99, when overturning is driven When motion block 59 is moved to 31 position of rack structure, rotate gear 62 is engaged in rack structure 31 and in the movement of overturning drive block 59 Rotate gear 62 rotates in the process, and then drives wind-force flabellum 28 to overturn by overturning drive block 64, covers block 97 at this time in wind-force It is rotated in swivelling chute 68 under the drive of flabellum 28, and wind-force flabellum 28 is in vertical when wind-force flabellum 28 is overturn to greatest extent State and set block 97 be transferred in swivelling chute 68, if blow air at this time can drive wind-force flabellum 28 rotate, and then by set block 97 It drives change 48 to rotate, by driving power generation shaft 29 to rotate by overturning drive block 59, and then is sent out by generator 24 Electricity, when wind-force is excessive or weather condition is unsuitable for wind-power electricity generation, pushing motor 54 is inverted, and then passes through push 57 band of lead screw Dynamic push slipping block 58 moves to the left in the sliding chamber 51 of push, and in the process, pusher rod 27 is driven by transmission gear 26 Slipping block 23 moves to the left, and then overturning drive block 59 is driven to move to the left, is engaged on rack structure 31 and turns at this time Moving gear 62 inverts, and then drives overturning drive block 64 to rotate, and then wind-force flabellum 28 is driven gradually to be inverted to horizontality, when When the overturning of wind-force flabellum 28 to original state, the first electromagnet 45 and the second electromagnet 47 must be electric, and then drive locking slipping block 35 that 21 side of atrium is directed away from locking slippage slot 36 is mobile, and drives first to climb and pushing block 42 and second climb sliding block 43 are directed away from that 21 side of atrium is mobile, and first climb sliding block 55 and second climb sliding block 52 left end face lose to The elastic force effect of goring push spring 56 drives push sliding block 53 mobile to the left in push slot 32 and then drives power generation sliding block when connecing 22 slide into atrium 21, while overturning drive block 59 being driven to slide in open slot 99.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when using the present apparatus, in weather condition When being unsuitable for power generation, the present apparatus can store wind-force flabellum, and then can avoid wind-force flabellum and be exposed to mal-condition for a long time It is lower and there is a phenomenon where wind fan Leaf lifespan shortens, while present apparatus structure is simple, easy to use, is worth being recommended to use.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (6)

1. the rotor machine under a kind of pneumatic actuation, including apparatus main body, opening is provided in described device main body to the right Atrium is provided with power generator in the atrium, wind-force flabellum is provided in the power generator, the power generator can The wind-force flabellum is pushed out outside the right-end openings of the atrium and the wind-force flabellum is driven to invert, and in wind-force Power generation is realized when flabellum rotates, wherein the power generator includes electrification component and turnover device, wherein the electrification component Power generation can be realized when wind-force flabellum rotates, the turnover device can overturn the wind-force flabellum, the atrium What is be connected in upper and lower sides inner wall is provided with push slot, is provided with driving means in the push slot, the driving means can band It moves the power generator to stretch out outside the right-end openings of the atrium, in the push inner wall of the slot far from the atrium side Being provided with can be to the driving means into line-locked locking device, wherein when the driving means drives the power generator When moving to the right and removing the right-end openings of the atrium, the locking device can lock the driving means, Also, during the power generator moves to right, the turnover device can drive the wind-force flabellum to overturn, and in the wind Power flabellum can be generated electricity when rotating under the drive of wind by the electrification component, and the present apparatus can or weather larger in wind-force Condition is poor to store the wind-force flabellum when being not suitable for being generated electricity, and then protects to the wind-force flabellum.

2. the rotor machine under a kind of pneumatic actuation according to claim 1, it is characterised in that: the electrification component packet The power generation sliding block being slidably arranged in the atrium is included, is provided with the open slot of opening to the right in the power generation sliding block, Generator is fixedly installed in the inner left wall of the open slot, the right end of the generator is rotatably connected with power generation and turns Axis is arranged with overturning drive block in the power generation shaft, wherein the wind-force flabellum is accommodated in the open slot and the wind The left end of power flabellum is connected on the overturning drive block, is provided with the rotation slot of opening to the left, institute in the overturning drive block State the spill spin block for being rotatably provided with and being sheathed in the power generation shaft in rotation slot, in the left end face of the spill spin block on Symmetrical down and fixed setting slipping block, the left end of the slipping block are extended outside the left end face of described device main body, wherein Be fixedly connected in the inner left wall of the atrium right end extend to the right and extend be passed through in the open slot and be located at it is described Pusher rod of the slipping block far from the generator side between the pusher rod and the slipping block and is located at the power generation sliding block Inside it is provided with rotation chamber, the intracavitary end being rotatably provided with the passage sliding block close to the generator side of the rotation The transmission gear that face and the slipping block are meshed far from one side end face of generator, when the power generation sliding block is in the opening Intracavitary when moving right, the pusher rod can drive the slipping block move right by the transmission gear, and then drive institute Overturning drive block is stated to move right in the open slot.

3. the rotor machine under a kind of pneumatic actuation according to claim 1, it is characterised in that: the turnover device packet The gear grooved that is set to the overturning drive block in symmetrical above and below about the power generation shaft is included, can be rotated in the gear grooved Be provided with rotate gear, wherein the power generation shaft is fixedly installed on the side end face up and down of right end can be with described turn Moving gear is meshed rack structure, and what is be connected in the right side inner wall of the gear grooved is provided with the turning groove of opening to the right, institute It states and is fixedly connected with supporting block in the right end face of overturning drive block, end face of the supporting block far from the power generation shaft side On be rotatably provided with left end and extend the overturning drive block for being passed through in the turning groove and being meshed with the rotate gear, In, the left end of the wind-force flabellum is fixedly connected on the right end of the overturning drive block, can turn at the open slot right-end openings The dynamic change for being provided with the connection that is rotatably assorted with the inner wall of the open slot, the right end of the change is symmetrical above and below to be provided with The swivelling chute that is provided with that runs through and be open to the right up and down is rotatably provided with set block, institute in the inner left wall of the swivelling chute State in set block that left and right is perforative is provided with through slide opening, wherein the right end of the wind-force flabellum extends through described through slide opening And mating connection is interacted with the inner wall through slide opening.

4. the rotor machine under a kind of pneumatic actuation according to claim 1, it is characterised in that: the driving means packet Include the push sliding block being slidably arranged in the push slot, wherein the left end face and the push of the push sliding block It is fixedly connected with goring push spring between the inner left wall of slot, opening is provided in the push sliding block towards the atrium side The sliding chamber of push, be fixedly installed pushing motor, the right end power of the pushing motor in the inner left wall for pushing sliding chamber It is connected with push lead screw, sliding intracavitary be slidably provided with of push pushes away with what the push threads of lead screw was cooperatively connected Send slipping block, wherein the push slipping block is pushed away with the power generation sliding block close to described close to the end face of the atrium side The end face secure fit of slot side is sent to connect, it, can be by being pushed away described in push lead screw drive when pushing motor rotation It send slipping block in the sliding intracavitary movement of the push, and then drives the power generation sliding block to move in the atrium, and then pass through The pusher rod and the slipping block drive the overturning drive block to slide in the open slot, and then push the wind fan Leaf slides in the open slot.

5. the rotor machine under a kind of pneumatic actuation according to claim 1, it is characterised in that: the locking device packet It includes described push that be set to being connected and slides chamber far from push sliding slot perforative in the inner wall of the atrium side and up and down, institute State be connected in push inner wall of the slot far from the atrium side be provided with locking sliding slot, the push sliding block is far from described in The left end of one side end face of atrium is fixedly connected with can horizontally slip in the locking sliding slot first and climbs sliding block, described to push away It send to be fixedly connected on end face of the slipping block far from the atrium side and extends through the push sliding slot and extend into described Second in locking sliding slot climbs sliding block, and what is be connected in the locking inner wall of the sliding slot far from the atrium side is provided with Slippage slot is locked, locking slipping block, the locking slipping block and the locking are slidably provided in the locking slippage slot Slippage slot is connected with return spring, bilateral symmetry in the locking slipping block between the inner wall far from the atrium side Be provided with the component that climbs, wherein the component that climbs includes being set in the locking slipping block and being open towards the atrium The first of side climbs sliding slot, and described first, which climbs, is slidably provided with first in sliding slot and climbs pushing block, and described first climbs Pushing block and described first climb sliding slot inner wall between be connected with first and climb goring push spring, described first climbs sliding slot It is provided with opening in the inner wall of right side to climb sliding slot towards the second of the atrium side, described second climbs in sliding slot slidably Be provided with and second climb sliding block, described second climb sliding block and described second climb sliding slot inner wall between be connected with Two climb goring push spring.

6. the rotor machine under a kind of pneumatic actuation described according to claim 1 or 2 or 5, it is characterised in that: the locking Slippage slot is fixedly connected with the first electromagnet fixed block, first electromagnetism far from the left and right ends of atrium side inner wall Ferropexy block is fixedly installed the first electromagnet, the left and right two of the locking slipping block in the inner wall of the atrium side It holds and is fixedly connected with the second electromagnet fixed block close to the side of the atrium, the second electromagnet fixed block is far from institute State and be fixedly installed the second electromagnet in the inner wall of atrium side, when first electromagnet and second electromagnet obtain it is electric When attract each other, and then the locking slipping block can be driven to be directed away from one sidesway of atrium in the locking slippage slot It is dynamic.