CN104454366B - Movable wind power generation device - Google Patents

Abstract

The invention discloses a movable wind power generation device. The movable wind power generation device comprises a wind inlet device, a wind energy conversion device and an electric energy conversion device. The wind inlet device is connected with one end of the wind energy conversion device. The electric energy conversion device is connected with the other end of the wind energy conversion device. The movable wind power generation device is characterized in that the wind energy conversion device comprises a rotor (1) and a stator (2), the rotor (1) comprises a center shaft (3), hollow cylinders and a screw rotor set fixed on the center shaft (3), the screw rotor set comprises at least two hollow screw rotors (4), and every two adjacent screw rotors (4) are connected with each other through the corresponding hollow cylinder, and the screw rotor set fit in the stator (2) rotationally. The movable wind power generation device is high in wind power utilization rate.

Description

Mobile wind power generation plant

Technical field

The present invention relates to a kind of wind power generation plant, more particularly, to a kind of mobile wind power generation plant.

Background technology

Wind energy is the important component part of the renewable sources of energy, energetically develop wind energy for improve energy resource system mechanism, alleviate Energy crisis and preserve the ecological environment with far reaching significance, the generator of traditional wind-power electricity generation is installed in fixed-site, rotation Blade and fixed mount have the installation procedure of complexity, according to prior art, a kind of movement are disclosed on State Intellectual Property Office website Carrier wind power generating set, exactly arranges air intake passage on the front end windward side of delivery vehicle traveling, sets by air intake passage Put gearbox, the output shaft of gearbox is connected generator, the rotating shaft transmission connection gearbox of rotating blading, front is windward Fan blade is located in vent passages, and the wind power utilization rate of this TRT is low, while the electric energy for producing can only reduce mobile vehicle Consumption and can not replacing gasoline or other energy completely.

The content of the invention

The technical problem to be solved is：Overcome the defect of above prior art, there is provided a kind of wind power utilization rate High mobile wind power generation plant.

The technical solution used in the present invention is：A kind of mobile wind power generation plant, including air-intake device, wind energy converting means Put and device for converting electric energy, described wind energy converter one end is connected with air-intake device, and described wind energy converter is another End be connected with device for converting electric energy, and described wind energy converter includes stator and rotor, described rotor including central shaft with Fixed screw rotor group on center shaft, described screw rotor group includes the screw rotor of at least two hollow structures, phase Connected by hollow cylinder between adjacent screw rotor, screw rotor group is rotatably assorted in stator.

After above structure, the present invention has compared with prior art advantages below：The wind power generation of prior art is Generated electricity using the rotary motion of fan blade, be so accomplished by the fan blade grown very much just can, this is just inadvisable on the mobile apparatus.Wind energy Utilization rate is extremely low, and the present invention is changed using rotor and stator to wind energy, and stator is hollow cylindrical, and rotor is outer surface The screw rotor of helical duct is provided with, wind is passed through from helical duct, due to being helical duct, the route that wind is walked is spirality, Distance that so wind is walked is elongated and wind-force has stably downward thrust to rotor, so a small amount of wind just can rotor driven rotate, Wind power utilization rate is high.

Preferably, the quantity of described screw rotor is four, the lead of helix on each described screw rotor Identical and hand of helix is also identical, and described screw rotor group includes the first screw rotor, the second screw rotor, the 3rd screw rod Rotor and the 4th screw rotor, the first described screw rotor is located in stator, and the inwall of the first described screw rotor is fixed In the first hollow cylinder, the second described screw rotor is fixed on the inwall of the first hollow cylinder, the second described screw rotor Inwall be fixed on the second hollow cylinder, the 3rd described screw rotor is fixed in the second hollow cylinder, the 3rd described spiral shell The inwall of bar rotor is fixed on the 3rd hollow cylinder, and the outer wall of the 4th described screw rotor is fixed on the interior of the 3rd hollow cylinder On wall, the inwall of the 4th described screw rotor is fixed on the 4th hollow cylinder, and the 4th described hollow cylinder inwall is fixed on On central shaft, the stator (inside setting rubber layer) of described fixation, the first screw rotor, the second screw rotor, the 3rd screw rotor, 4th screw rotor, the first hollow cylinder, the second hollow cylinder, the 3rd hollow cylinder, the 4th hollow cylinder and central axis Line, four screw rotors are superimposed, and each screw rotor are coupled together by hollow cylinder while separate, wind from Import is entered, and wind all enters helical duct, and wind is bigger to the thrust of rotor, and wind power utilization rate is higher, takes up room little, whole dress Put the resistance being subject to also little.

Preferably, the first described hollow cylinder, the second hollow cylinder, the 3rd hollow cylinder and the 4th hollow cylinder Wall thickness is less than or equal to 8 millimeters more than or equal to 2 millimeters, it is ensured that cylinder is not only less thin but also less thick.

Preferably, the first described hollow cylinder, the second hollow cylinder, the 3rd hollow cylinder and the 4th hollow cylinder Wall thickness is 5 millimeters, it is ensured that cylinder will not deform, produce abnormal sound because of too thin, again will not be because of too thick increase rotor weight shadow Ring its rotational efficienty.

Preferably, the quantity of described screw rotor group is two groups, as needed can appropriate increase group number, generation The amount that mechanical energy is converted into electric energy is more sufficient.

Preferably, described air-intake device includes air inlet and air outlet, described air outlet and wind energy converter Screen pack is provided between connection, described air inlet and air outlet, dust granule and debris in air is filtered out, in case blocking The helical duct of screw rotor.

Preferably, described central shaft is provided with wind larynx seat, described wind larynx seat is located at air outlet and screw rotor group Between, described wind larynx seat is rounding mesa-shaped, and described wind larynx seat outside is provided with hand of spiral and screw rotor group hand of spiral Contrary helical duct, the upper end of described wind larynx seat is provided with the first air channel of two rounding mesa-shaped, under described wind larynx seat End is provided with the second round table-like air channel, and two described the first air channel upper ends connect and are connected with inlet and outlet, described two First air channel connects with the second air channel, and the lower end in the second described air channel is connected with screw rotor group, described two first Bearing is provided between the gap of air channel lower end, described central shaft is fixed on the inwall in two the first air channels by bearing, if wind Larynx seat and wind larynx, wind larynx can guarantee that wind is entered and be not easy backflow, and wind larynx seat is reversely rotated with screw rotor, and interior wind larynx is the inside Blast is on spiral wall, and the rotation of further lead-screw rotor, wind energy utilization is high, and wind will not produce backflow.

Preferably, described air inlet is provided with air door, with horizontal line into obtuse angle, air door can be in electric power storage for described air door Open mode is in when amount is not enough, is closed when electricity is enough, air door with horizontal line into obtuse angle, greatly reduce automobile or The resistance that train is subject in the process of moving.

Preferably, described device for converting electric energy includes generator, described generator is connected with power supply storehouse, described Generator is connected with power supply storehouse, and producing electric energy can store, convenient use.

Preferably, described device for converting electric energy is also connected the other end and generator with wind energy converter including one end The decelerators of 16 connections or one end are connected the decelerator that the other end is connected with generator with wind energy converter and add speed increaser, deceleration Device is used for increasing moment of torsion, if the rotating speed after decelerator slows down is too little, it is possible to use speed increaser improves rotating speed, can adjust to meet The requirement of generator.

Description of the drawings

Fig. 1 is the schematic perspective view of Mobile wind power launch device of the present invention.

Fig. 2 is the top view of Mobile wind power launch device screw rotor group of the present invention.

Wherein, 1, rotor, 2, stator, 3, central shaft, 4, screw rotor, the 5, first screw rotor, the 6, second screw rotor, 7th, the 3rd screw rotor, the 8, the 4th screw rotor, the 9, first hollow cylinder, the 10, second hollow cylinder, the 11, the 3rd hollow cylinder, 12nd, air inlet, 13, air outlet, 14, wind larynx seat, 15, reductor, 16, generator, 17, power supply storehouse, 18, speed increaser, 19, wind Door, the 20, first air channel, 21, bearing, 22, screen pack, the 23, second air channel, the 24, the 4th hollow cylinder.

Specific embodiment

With reference to the accompanying drawings and detailed description the invention will be further described.

As illustrated, the present invention provides a kind of mobile wind power generation plant, including air-intake device, wind energy converter and electricity Can conversion equipment, described wind energy converter one end be connected with air-intake device, the described wind energy converter other end and electric Can conversion equipment connection, described wind energy converter includes rotor 1 and stator 2, and described rotor 1 includes central shaft 3 and solid The screw rotor group being scheduled on central shaft 3, described screw rotor group includes the screw rotor 4 of at least two hollow structures, phase Connected by hollow cylinder between adjacent screw rotor 4, described screw rotor group is rotatably assorted in stator 2, the present invention's is excellent Point is the wind power generation of prior art to be generated electricity using the rotary motion of fan blade, is so accomplished by the fan blade ability of very long length Generate electricity, wind energy utilization is extremely low, be above infeasible in automobile, train etc., the present invention is using rotor 1 and stator 2 come to wind Can be changed, stator 2 is hollow cylindrical, rotor 1 is screw rotor 4, and screw rotor 4 is exactly that outer surface is provided with helical duct Rotor, wind passes through from helical duct, and due to being helical duct, the route that wind is walked is spirality, and the distance that such wind is walked becomes Long and wind-force has downward thrust to rotor 1, and just energy rotor driven 1 is rotated so a small amount of wind, and wind power utilization rate is high, in automobile Or demand of the electric energy that wind-force is produced in train vibration influence motion process when supporting automobile or train running enough, vapour is replaced completely Oil or other energy.Central shaft adopts hollow shaft, and wall thickness 10mm can be greatly reduced the own wt of rotor, and then improve The utilization rate of energy.The two ends of axle using high-speed bearing so as to the long-term high speed rotating band in the two ends for reducing axle come abrasion, it is described Stator be outermost hollow cylinder, wall thickness is 10mm, and as needed it can be replaced using nonmetallic or aluminium alloy, circle Rubber layer is set in cylinder.

The quantity of described screw rotor 4 is four, and the lead of helix on each screw rotor 4 is identical and helix side Include the first screw rotor 5, the second screw rotor 6, the 3rd screw rotor 7 and the 4th to also identical, described screw rotor group Screw rotor 8, the first described screw rotor 5 is located in stator 2, and the inwall of the first described screw rotor 5 is fixed with first Hollow cylinder 9, the second described screw rotor 6 is fixed on the inwall of the first hollow cylinder 9, described the second screw rotor 6 Inwall is fixed with the second hollow cylinder 10, and the 3rd described screw rotor 7 is fixed in the second hollow cylinder 10, and the described the 3rd The inwall of screw rotor 7 is fixed with the 3rd hollow cylinder 11, and the outer wall of the 4th described screw rotor 8 is fixed on the 3rd open circles On the inwall of cylinder 11, the inwall of the 4th described screw rotor 8 is fixed with the 4th hollow cylinder 24, the 4th described hollow cylinder 24 inwalls are fixed on central shaft 3, described stator 2, the first screw rotor 5, the second screw rotor 6, the 3rd screw rotor 7, 4th screw rotor 8, the first hollow cylinder 9, the second hollow cylinder 10, the 3rd open circles 11, the 4th hollow cylinder 24 and center The coaxial line of axle 3, four screw rotors 4 are superimposed, and each screw rotor 4 is coupled together simultaneously by hollow cylinder Separate, wind is entered from import, wind all enters helical duct, wind is bigger to the thrust of rotor, further lead-screw rotor 4 Rotation, wind power utilization rate is higher, takes up room little, and the resistance that whole device is subject to is also little.

The wall of described the first hollow cylinder 9, the second hollow cylinder 10, the 3rd hollow cylinder 11 and the 4th hollow cylinder 24 Thickness is less than or equal to 8 millimeters more than or equal to 2 millimeters, it is ensured that cylinder is not only less thin but also less thick.

The wall of described the first hollow cylinder 9, the second hollow cylinder 10, the 3rd hollow cylinder 11 and the 4th hollow cylinder 24 Thickness is 5 millimeters, it is ensured that cylinder will not deform, produce abnormal sound because of too thin, again will not be because of the too thick increase weight of rotor 1 Its rotational efficienty.

The quantity of described screw rotor group is two groups, as needed can appropriate increase group number, the mechanical energy of generation turns The amount for changing electric energy into is more sufficient.

Described air-intake device includes air inlet 12 and air outlet 13, and described air outlet 13 connects with wind energy converter Connect, between described air inlet 12 and air outlet 13 screen pack 22 is provided with, dust and debris in air are filtered out, in case blocking The helical duct of screw rotor 4.

Described central shaft 3 is provided with wind larynx seat 14, described wind larynx seat 14 be located at air outlet 13 and screw rotor group it Between, described wind larynx seat 14 is rounding mesa-shaped, and the described outside of wind larynx seat 14 is provided with hand of spiral and screw rotor group screw thread side To contrary helical duct, the upper end of described wind larynx seat 14 is provided with the first air channel 20 of two rounding mesa-shaped, described wind larynx The lower end of seat 14 is provided with the second round table-like air channel 23, and the upper end of the first air channel 20 described in two connects and connects with air outlet 13 Connect, the first air channel 20 described in two connects with the second air channel 23, lower end and the screw rotor group in described the second air channel 23 Connection, is provided with bearing 21 between the lower end gap of the first air channel 20 described in two, described central shaft 3 is fixed on by bearing 21 On the outer wall in two the first air channels 20, if wind larynx seat 14, the first air channel 20 and the second air channel 23, the first air channel 20 and the second air channel 23 can guarantee that wind is entered is not easy backflow, and wind larynx seat 14 reversely rotates with screw rotor 4, and wind larynx seat 14 is the wind of the inside toward screw rod The direction pressure of rotor 4, screw rotor 4 is then kept watch carrying-off, and wind energy utilization is high, and wind will not produce backflow.

Described air inlet 12 is provided with air door 19, and, with horizontal line into obtuse angle, air door 19 can be in electric power storage for described air door 19 Open mode is in when amount is not enough, is closed when electricity is enough, air door 19, into obtuse angle, greatly reduces automobile with horizontal line Or the resistance that train is subject in the process of moving.

Described device for converting electric energy includes generator 16, and described generator 16 is connected with power supply storehouse 17, and described sends out Motor 16 is connected with power supply storehouse 17, and producing electric energy can store, convenient use.

Described device for converting electric energy is also connected what the other end was connected with generator 16 with wind energy converter including one end Decelerator 15 or one end are connected decelerator 15 plus the speed increaser 18 that the other end is connected with generator, decelerator with wind energy converter For increasing moment of torsion, if the rotating speed after decelerator slows down is too little, it is possible to use speed increaser improves rotating speed, can adjust and sent out with meeting The requirement of motor.

Because this class larger vehicles space of train is big, in order to improve the utilization rate of wind energy, we can specially match somebody with somebody The wind power equipment of a rice diameter is put, 8 screw rotors are configured.16 layers of helical duct, length is 3 meters.Spiral shell is greatly improved Turn-knob power, and then improve generated energy.We can also do 2 sections 3 sections or 2 groups 3 groups and have standby group of product.

The wind power technology for adopting at present is generated electricity using the rotary motion of fan blade, is so accomplished by very big wind ability Generate electricity, wind energy utilization is extremely low, the present invention is changed using rotor 1 and stator 2 to wind energy, and stator 2 is hollow cylindrical (inside setting rubber layer), if rubber layer, to sealing between rotor 1 and stator 2, rotor 1 is screw rotor 4, screw rotor 4 It is exactly rotor that outer surface is provided with helical duct, wind is passed through from helical duct, and due to being helical duct, the route that wind is walked is spiral shell Rotation shape, the distance that such wind is walked is elongated and wind-force has downward thrust to rotor 1, and so a small amount of wind just can 1 turn of rotor driven Dynamic, wind power utilization rate is high, and the electric energy that wind-force is produced during automobile or train movement supports enough automobile or train running, work When making, in automobile or train moving process, air inlet 12 is exactly a passage, and wind is introduced from passage, and wind passes through the mistake of screen pack 14 Dust granule and impurity are filtered, subsequently into the first air channel 20, wind enters the second air channel 23 from the upper end of the first air channel 20, and wind can band Dynamic wind larynx seat 14 is rotated, wind larynx seat 14 and the counter motion of screw rotor 4, and wind larynx seat 14 is kept watch toward the inside of screw rotor 4 pressure, and wind leads to The helical duct of screw rotor 4 is crossed, wind drives screw rotor 4 to rotate, mechanical energy produced, while wind is from the lower end of screw rotor 4 Go out, the mechanical energy of generation is connected through shaft coupling and bearing with reductor, and general reductor selects cycloidal planetary gear speed reducer, has Two input shafts a, output shaft, the output shaft of reductor is connected with the output shaft of generator, thus mechanical energy can be changed Into electric energy, finally electrical power storage is got up, can be used when needing, electricity has waited the electric deficiency just can be with full of can turn off air door 19 Open air door 19 to be charged, the screw rotor 4 described in the present invention, be exactly that State Intellectual Property Office is disclosed for producing screw rod What the equipment of rotor was produced, hollow cylinder is fixed with screw rotor and can fixed with screw, changes convenient, and power supply storehouse is exactly one The device of individual storage electric energy, can be battery.

The helical pitch of general screw rotor 4 selects 650 millimeters, and length is 1 meter, and central shaft 3 is 10 millimeters, the wall thickness of stator 2 For 10 millimeters, the cross section longest distance of the first screw rotor 5 is 460 millimeters, the cross section longest distance of the second screw rotor 6 For 350 millimeters, the cross section longest distance of the 3rd screw rotor 7 is 260 millimeters, the cross section of the 4th screw rotor 8 it is most long away from From for 180 millimeters, wind energy utilization is higher than existing wind energy utilization 10 times, while the present invention can be used in various occasions, such as On railway, highway, water route and flying object,

Preferred embodiments of the present invention are described above, but are not to be construed as limiting the scope of the invention.This Bright to be not only limited to above example, its concrete structure allows to change, and the quantity of such as screw rotor group can be one or three More than individual, the quantity that multiple screw rotor groups then need decelerator and have many input shafts, screw rotor can also change, and screw rod turns Son can also spaced apart, all various changes made in the protection domain of demand for independence of the present invention the present invention protection In the range of.

Claims (9)

1. a kind of mobile wind power generation plant, including air-intake device, wind energy converter and device for converting electric energy, described wind energy Conversion equipment one end is connected with air-intake device, and the described wind energy converter other end is connected with device for converting electric energy, its feature It is：Described wind energy converter includes rotor (1) and stator (2), and described rotor (1) is including central shaft (3), open circles Cylinder and the screw rotor group being fixed on central shaft (3), described screw rotor group includes the screw rod of at least two hollow structures Rotor (4), is connected between adjacent screws rotor (4) by hollow cylinder, and described screw rotor group is rotatably assorted in stator (2) It is interior；

The quantity of described screw rotor (4) is four, and the lead of helix, hand of helix on each screw rotor (4) is equal Identical, described screw rotor group includes the first screw rotor (5), the second screw rotor (6), the 3rd screw rotor (7) and the Four screw rotors (8), described the first screw rotor (5) in stator (2), the inwall of described the first screw rotor (5) The first hollow cylinder (9) is fixed with, described the second screw rotor (6) is fixed on the inwall of the first hollow cylinder (9), described The inwall of the second screw rotor (6) is fixed with the second hollow cylinder (10), and it is empty that the 3rd described screw rotor (7) is fixed on second In heart cylinder (10), the inwall of the 3rd described screw rotor (7) is fixed with the 3rd hollow cylinder (11), the 4th described screw rod The outer wall of rotor (8) is fixed on the inwall of the 3rd hollow cylinder (11), and the inwall of the 4th described screw rotor (8) is fixed with 4th hollow cylinder (24), the 4th described hollow cylinder (24) inwall is fixed on central shaft (3), described stator (2), One screw rotor (5), the second screw rotor (6), the 3rd screw rotor (7), the 4th screw rotor (8), the first hollow cylinder (9), the second hollow cylinder (10), the 3rd hollow cylinder (11), the 4th hollow cylinder (24) and central shaft (3) coaxial line.

2. mobile wind power generation plant according to claim 1, it is characterised in that：Described the first hollow cylinder (9), The wall thickness of two hollow cylinders (10), the 3rd hollow cylinder (11) and the 4th hollow cylinder (24) is less than or equal to 8 more than or equal to 2 millimeters Millimeter.

3. mobile wind power generation plant according to claim 2, it is characterised in that：Described the first hollow cylinder (9), The wall thickness of two hollow cylinders (10), the 3rd hollow cylinder (11) and the 4th hollow cylinder (24) is 5 millimeters.

4. mobile wind power generation plant according to claim 1, it is characterised in that：The quantity of described screw rotor group is Two groups.

5. mobile wind power generation plant according to claim 1, it is characterised in that：Described air-intake device includes air inlet (12) and air outlet (13), described air outlet (13) is connected with wind energy converter, described air inlet (12) and air outlet (13) screen pack (22) is provided between.

6. mobile wind power generation plant according to claim 5, it is characterised in that：Described central shaft (3) is provided with wind Larynx seat (14), between air outlet (13) and screw rotor group, described wind larynx seat (14) is for for described wind larynx seat (14) Round table-like, described wind larynx seat (14) outside is provided with the hand of spiral helical duct contrary with screw rotor group hand of spiral, institute The upper end of wind larynx seat (14) stated is provided with first air channel (20) of two rounding mesa-shaped, and the lower end of described wind larynx seat (14) is provided with Round table-like the second air channel (23), the first air channel (20) upper end described in two connects and is connected with air outlet (13), two institutes The first air channel (20) stated connects with the second air channel (23), and the lower end in described the second air channel (23) connects with screw rotor group Connect, bearing (21) is provided between the first air channel (20) the lower end gap described in two, described central shaft (3) is by bearing (21) It is fixed on the outer wall of two the first air channels (20).

7. mobile wind power generation plant according to claim 5, it is characterised in that：Described air inlet (12) is provided with air door (19)。

8. mobile wind power generation plant according to claim 1, it is characterised in that：Described device for converting electric energy includes sending out Motor (16), described generator (16) is connected with power supply storehouse (17).

9. mobile wind power generation plant according to claim 8, it is characterised in that：Described device for converting electric energy also includes One end is connected decelerator (15) or one end and the wind energy converter that the other end is connected with generator (16) with wind energy converter Decelerator (15) plus speed increaser (18) that the connection other end is connected with generator.