CN107084093A - A kind of wind power plant for improving generating efficiency - Google Patents

Abstract

The present invention relates to a kind of wind power plant for improving generating efficiency, including pedestal, one-level tower, two grades of towers, axle bed, wheel hub, blade and empennage, two grades of towers also include telescoping mechanism and firm organization, telescoping mechanism includes the first motor, worm screw, worm gear, screw mandrel, sleeve and fixation kit, fixation kit includes fixed block and fix bar, firm organization includes two firm components, firm component includes drive chamber and the second motor in drive chamber, driving wheel, drive rod, drive block, firm bar and pilot unit, the wind power plant of the raising generating efficiency, the regulation of upper-lower height is carried out to the blade on wind power plant by telescoping mechanism, contribute to the optimum height according to wind distribution regulation blade, the maximization utilized to wind resource can be realized, improve generating efficiency, simultaneously, after the completion of height is adjusted, worked by firm organization, improve the steadiness of blade, blade is avoided to be shaken when wind-force is larger.

Description

A kind of wind power plant for improving generating efficiency

Technical field

The present invention relates to field of wind power equipment, more particularly to a kind of wind power plant for improving generating efficiency.

Background technology

Wind power plant is that wind energy is converted into mechanical energy, and mechanical energy rotor driven rotates, final output alternating current Power equipment, in recent years, wind power plant substitute manpower, animal power as power source, and the development to productivity plays important Effect.

Wind resource is widely distributed and abundant, because Various Seasonal wind-force is larger in different height its wind resource difference, But the blade height of current wind power plant is fixed unadjustable formula, it is impossible at any time in the maximum position of wind resource Put, realize maximum resource utilization, therefore cause the waste of the energy, generating efficiency is relatively low.

The content of the invention

The technical problem to be solved in the present invention is：In order to overcome the deficiencies in the prior art to improve generating efficiency there is provided one kind Wind power plant.

The technical solution adopted for the present invention to solve the technical problems is：A kind of wind-power electricity generation for improving generating efficiency is set Standby, including pedestal, one-level tower, two grades of towers, axle bed, wheel hub, blade and empennage, the one-level tower is vertically provided at pedestal Top, the top surface of the one-level tower is provided with opening, and two grades of towers are vertically arranged, and the bottom of two grades of towers is located at In one-level tower, the top of two grades of towers is located at outside one-level tower, and two grades of towers are matched with opening, and the axle bed is set Put in the top of two grades of towers, two grades of towers also include telescoping mechanism and firm organization, the telescoping mechanism is arranged on one In level tower, the telescoping mechanism is arranged on the lower section of two grades of towers, and the telescoping mechanism and two grades of towers are connected, described Firm organization is arranged on the top of one-level tower；

The telescoping mechanism include the first motor, worm screw, worm gear, screw mandrel, sleeve and fixation kit, first motor with Worm-drive is connected, and the screw mandrel is vertically arranged, and the bottom of the screw mandrel is connected by bearing with one-level tower, the screw mandrel Top is located in sleeve, and the inwall of the sleeve is provided with screw thread, and the screw mandrel is connected with bush whorl, and the worm gear is set in silk On bar, the worm gear and worm engaging, the fixation kit and sleeve connection, two grades of towers are arranged on the top of sleeve；

The fixation kit includes fixed block and fix bar, and the fixed block is arranged on the side of sleeve, the fix bar Vertically arranged, the fix bar passes through fixed block and fix bar is slidably connected with fixed block；

The firm organization includes two firm components, and two firm components are symmetrical arranged on two grades of towers, and described two Level tower is located between two firm components, and the firm component includes drive chamber and the second motor in drive chamber, driven Driving wheel, drive rod, drive block, firm bar and pilot unit, the drive chamber are arranged on the top of one-level tower, second electricity Machine is connected with driving wheel, and the drive block is located in pilot unit, and the drive block is slidably connected with pilot unit, described One end of drive rod is hinged with driving wheel, and the other end and the drive block of the drive rod are hinged, the drive rod and driving wheel Hinged place is located at the side in the center of circle of driving wheel, and the driving wheel drives drive block to move horizontally by drive rod, described firm Bar is horizontally set on the side of drive block, and the firm bar is located between drive block and two grades of towers, and the two of two grades of towers Side is equipped with firm groove, and the firm groove has several, and side of each firm groove along two grades of towers is uniformly axially arranged, described Firm bar is matched with firm groove, and the firm bar is located in one of in firm groove.

Preferably, in order to improve stability during two grades of tower liftings, two grades of towers are provided with position-limit mechanism, institute Stating position-limit mechanism includes gag lever post and limited block, and the gag lever post is horizontally set on two grades between tower and limited block, and described one The inwall of level tower is provided with stopper slot, and inwall of the stopper slot along one-level tower is axially extending, and the limited block is located at In stopper slot, the limited block is matched and is slidably connected with stopper slot.

Preferably, in order to further improve stability during two grades of tower liftings, the position-limit mechanism has several, respectively Side wall of the position-limit mechanism along two grades of towers is circumferentially uniformly arranged, and the stopper slot has several, each position-limit mechanism with it is each spacing Groove is corresponded.

Preferably, in order to improve the fastness that the accuracy and limited block of guiding are connected with one-level tower, it is described spacing Groove is dovetail groove.

Preferably, for anti-corrosion, so that blade fast lifting, the surface of the screw mandrel is provided with anticorrosion galvanizing layer.

Preferably, in order to reduce the frictional force between fixed block and fix bar, the surface of the fixed block and fix bar is set There is teflon coating.

Preferably, in order to improve the slip precision of drive block and the stability of sliding process, the pilot unit includes Two guide rods for being parallel to each other, the drive block is located between two guide rods, the drive block respectively with two guide rods It is slidably connected.

Preferably, in order to improve generating efficiency, the top of two grades of towers is provided with photovoltaic panel.

Preferably, in order to avoid being intake in one-level tower, the junction of the one-level tower and two grades of towers is provided with close Seal.

Preferably, in order that the working condition of equipment is intelligent, first motor and the second motor are servo electricity Machine.

The beneficial effects of the invention are as follows the wind power plant of the raising generating efficiency is sent out wind-force by telescoping mechanism Blade in electric equipment carries out the regulation of upper-lower height, helps to adjust the optimum height of blade, Neng Goushi according to wind distribution The maximization now utilized to wind resource, improves generating efficiency, meanwhile, after the completion of height is adjusted, worked by firm organization, Improve the steadiness of blade, it is to avoid blade shakes when wind-force is larger.

Brief description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is a kind of structural representation of the wind power plant of raising generating efficiency of the present invention.

Fig. 2 is a kind of structural representation of the telescoping mechanism of the wind power plant of raising generating efficiency of the present invention.

Fig. 3 is two grades of towers and the connection of firm organization of a kind of wind power plant of raising generating efficiency of the present invention Structural representation.

Fig. 4 be a kind of one-level tower of wind power plant of raising generating efficiency of the present invention, two grades of towers with it is spacing The attachment structure schematic diagram of mechanism.

In figure：1. pedestal, 2. one-level towers, 3. 2 grades of towers, 4. axle beds, 5. wheel hubs, 6. blades, 7. empennages, 8. stretch Mechanism, 9. firm organizations, 10. first motors, 11. worm screws, 12. worm gears, 13. screw mandrels, 14. sleeves, 15. fixed blocks, 16. fix Bar, 17. drive chamber, 18. second motors, 19. driving wheels, 20. drive rods, 21. drive blocks, 22. firm bars, 23. gag lever posts, 24. limited block, 25. guide rods, 26. position-limit mechanisms.

Embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These accompanying drawings are simplified schematic diagram, only with Illustration illustrates the basic structure of the present invention, therefore it only shows the composition relevant with the present invention.

As Figure 1-4, a kind of wind power plant for improving generating efficiency, including pedestal 1, one-level tower 2, two grades of towers Cylinder 3, axle bed 4, wheel hub 5, blade 6 and empennage 7, the one-level tower 2 are vertically provided at the top of pedestal 1, the one-level tower 2 Top surface be provided with opening, two grades of towers 3 are vertically arranged, and the bottom of two grades of towers 3 is located in one-level tower 2, described The top of two grades of towers 3 is located at outside one-level tower 2, and two grades of towers 3 are matched with opening, and the axle bed 4 is arranged on two grades of towers The top of cylinder 3, two grades of towers 3 also include telescoping mechanism 8 and firm organization 9, and the telescoping mechanism 8 is arranged on one-level tower In 2, the telescoping mechanism 8 is arranged on the lower section of two grades of towers 3, and the telescoping mechanism 8 is connected with two grades of towers 3, described Firm organization 9 is arranged on the top of one-level tower 2；

The regulation of upper-lower height is carried out to the blade 6 on wind power plant by telescoping mechanism 8, is contributed to according to wind-force The optimum height of profile adjustment blade 6, can realize the maximization utilized to wind resource, improve generating efficiency, meanwhile, in height After the completion of degree regulation, worked by firm organization 9, improve the steadiness of blade 6, it is to avoid blade 6 shakes when wind-force is larger It is dynamic.

The telescoping mechanism 8 includes the first motor 10, worm screw 11, worm gear 12, screw mandrel 13, sleeve 14 and fixation kit, institute State the first motor 10 to be connected with worm screw 11, the screw mandrel 13 is vertically arranged, the bottom of the screw mandrel 13 passes through bearing and one Level tower 2 is connected, and the top of the screw mandrel 13 is located in sleeve 14, and the inwall of the sleeve 14 is provided with screw thread, the screw mandrel 13 It is threadedly coupled with sleeve 14, the worm gear 12 is set on screw mandrel 13, the worm gear 12 is engaged with worm screw 11, the fixation kit It is connected with sleeve 14, two grades of towers 3 are arranged on the top of sleeve 14；

The fixation kit includes fixed block 15 and fix bar 16, and the fixed block 15 is arranged on the side of sleeve 14, institute State fix bar 16 vertically arranged, the fix bar 16 passes through fixed block 15 and fix bar 16 is slidably connected with fixed block 15；

The firm organization 9 includes two firm components, and two firm components are symmetrical arranged on two grades of towers 3, described Two grades of towers 3 are located between two firm components, the firm component include drive chamber 17 and in drive chamber 17 second Motor 18, driving wheel 19, drive rod 20, drive block 21, firm bar 22 and pilot unit, the drive chamber 17 are arranged on first stage tower The top of cylinder 2, second motor 18 is connected with driving wheel 19, and the drive block 21 is located in pilot unit, described to drive Motion block 21 is slidably connected with pilot unit, and one end and the driving wheel 19 of the drive rod 20 are hinged, the drive rod 20 it is another End is hinged with drive block 21, and the hinged place of the drive rod 20 and driving wheel 19 is located at the side in the center of circle of driving wheel 19, described Driving wheel 19 drives drive block 21 to move horizontally by drive rod 20, and the firm bar 22 is horizontally set on the one of drive block 21 Side, the firm bar 22 is located between drive block 21 and two grades of towers 3, and the both sides of two grades of towers 3 are equipped with firm groove, institute Stating firm groove has several, and side of each firm groove along two grades of towers 3 is uniformly axially arranged, the firm bar 22 and firm groove Matching, the firm bar 22 is located in one of in firm groove.

Start the second motor 18, the second motor 18 driving driving wheel 19 is rotated, and driving wheel 19 is driven by drive rod 20 and driven Motion block 21 is moved horizontally so that firm bar 22 is moved horizontally, so that firm bar 22 is skidded off out of firm groove, now, starts the One motor 10, the first motor 10 driving worm screw 11 is rotated, and worm screw 11 is rotated by the drive screw 13 of worm gear 12 so that on sleeve 14 Lower movement, drives two grades of towers 3 to lift, so as to carry out blade 6 regulation of upper-lower height, helps to be adjusted according to wind distribution The optimum height of blade 6, can realize the maximization utilized to wind resource, improve generating efficiency, meanwhile, adjusted in height Cheng Hou, is again started up the second motor 18, firm bar 22 is slipped into firm groove, and two grades of towers 3 are carried out with spacing, two grades of towers of raising The steadiness of cylinder 3, so as to improve the steadiness of blade 6, it is to avoid blade 6 shakes when wind-force is larger.

Preferably, in order to improve stability during two grades of liftings of tower 3, two grades of towers 3 are provided with position-limit mechanism 26, the position-limit mechanism 26 includes gag lever post 23 and limited block 24, and the gag lever post 23 is horizontally set on two grades of towers 3 and spacing Between block 24, the inwall of the one-level tower 2 is provided with stopper slot, and inwall of the stopper slot along one-level tower 2 axially prolongs Stretch, the limited block 24 is located in stopper slot, and the limited block 24 is matched and is slidably connected with stopper slot, stopper slot can will be spacing The movement locus of block 24 is limited within the specific limits, the stability of the slip of limited block 24 is improved, so as to improve two grades of 3 liters of towers Stability during drop.

Preferably, in order to further improve stability during two grades of liftings of tower 3, the position-limit mechanism 26 has some Individual, side wall of each position-limit mechanism 26 along two grades of towers 3 is circumferentially uniformly arranged, and the stopper slot has several, each position-limit mechanism 26 correspond with each stopper slot.

Preferably, in order to improve the fastness that the accuracy and limited block 24 of guiding are connected with one-level tower 2, the limit Position groove is dovetail groove.

Preferably, for anti-corrosion, so that the fast lifting of blade 6, the surface of the screw mandrel 13 is provided with anticorrosion galvanizing layer, Because the product of zine corrosion has preferable protective effect to zinc, so corrosion rate is very slow, the life-span is ungalvanized l5~30 Times, therefore the surface oxidisation of screw mandrel 13 can be prevented, it is to avoid and the translational speed of influence sleeve 14, so that the fast lifting of blade 6.

Preferably, in order to reduce the frictional force between fixed block 15 and fix bar 16, the fixed block 15 and fix bar 16 Surface be provided with teflon coating, because teflon coating has relatively low coefficient of friction, its lubricity, particularly self lubricity It is very good, other materials are hardly adhered to, therefore the frictional force between fixed block 15 and fix bar 16 can be reduced.

Preferably, in order to improve the slip precision of drive block 21 and the stability of sliding process, the pilot unit bag Include two guide rods being parallel to each other 25, the drive block 21 is located between two guide rods 25, the drive block 21 respectively with Two guide rods 25 are slidably connected, because the sliding trace of drive block 21 is limited to certain limit by the guide rod 25 that is parallel to each other It is interior, therefore realize the accuracy and stability of its sliding process.

Preferably, in order to improve generating efficiency, the top of two grades of towers 3 is provided with photovoltaic panel, when wind-force is smaller, leaf When piece 6 can not quickly rotate and generate electricity, it can be generated electricity by photovoltaic panel, so as to improve generating efficiency.

Preferably, in order to avoid being intake in one-level tower 2, the junction of the one-level tower 2 and two grades of towers 3 is provided with Sealing ring, when raining, sealing ring can stop rainwater, it is to avoid be intake in one-level tower 2.

Preferably, in order that the working condition of equipment is intelligent, the motor 18 of the first motor 10 and second is to watch Motor is taken, because servomotor can make control speed, positional precision very accurate, voltage signal can be converted into torque and turned Speed can form Intelligent control system with drive control object, make telescoping mechanism 8 and the preferably cooperating of firm organization 9.

Compared with prior art, the wind power plant of the raising generating efficiency, is set by telescoping mechanism 8 to wind-power electricity generation Standby upper blade 6 carries out the regulation of upper-lower height, helps to adjust the optimum height of blade 6 according to wind distribution, can realize The maximization utilized to wind resource, improves generating efficiency, meanwhile, after the completion of height is adjusted, worked by firm organization 9, Improve the steadiness of blade 6, it is to avoid blade 6 shakes when wind-force is larger.

Using the above-mentioned desirable embodiment according to the present invention as enlightenment, by above-mentioned description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property scope is not limited to the content on specification, it is necessary to its technical scope is determined according to right.

Claims (10)

1. it is a kind of improve generating efficiency wind power plant, it is characterised in that including pedestal (1), one-level tower (2), two grades Tower (3), axle bed (4), wheel hub (5), blade (6) and empennage (7), the one-level tower (2) are vertically provided at the upper of pedestal (1) Side, the top surface of the one-level tower (2) is provided with opening, and two grades of towers (3) are vertically arranged, the bottom of two grades of towers (3) End is located in one-level tower (2), and the tops of two grades of towers (3) is located at one-level tower (2) outside, two grades of towers (3) with Opening matching, the axle bed (4) is arranged on the top of two grades of towers (3), and two grades of towers (3) also include telescoping mechanism (8) With firm organization (9), the telescoping mechanism (8) is arranged in one-level tower (2), and the telescoping mechanism (8) is arranged on two grades of towers The lower section of cylinder (3), the telescoping mechanism (8) is connected with two grades of towers (3), and the firm organization (9) is arranged on first stage tower The top of cylinder (2)；

The telescoping mechanism (8) includes the first motor (10), worm screw (11), worm gear (12), screw mandrel (13), sleeve (14) and fixed Component, first motor (10) is connected with worm screw (11), and the screw mandrel (13) is vertically arranged, the bottom of the screw mandrel (13) End is connected by bearing with one-level tower (2), and the top of the screw mandrel (13) is interior positioned at sleeve (14), the sleeve (14) it is interior Wall is provided with screw thread, and the screw mandrel (13) is threadedly coupled with sleeve (14), and the worm gear (12) is set on screw mandrel (13), the snail Wheel (12) is engaged with worm screw (11), and the fixation kit is connected with sleeve (14), and two grades of towers (3) are arranged on sleeve (14) Top；

The fixation kit includes fixed block (15) and fix bar (16), and the fixed block (15) is arranged on the one of sleeve (14) Side, the fix bar (16) is vertically arranged, and the fix bar (16) passes through fixed block (15) and fix bar (16) and fixed block (15) it is slidably connected；

The firm organization (9) includes two firm components, and two firm components are symmetrical arranged on two grades of towers (3), described Two grades of towers (3) are located between two firm components, and the firm component includes drive chamber (17) and in drive chamber (17) The second motor (18), driving wheel (19), drive rod (20), drive block (21), firm bar (22) and pilot unit, the driving Room (17) is arranged on the top of one-level tower (2), and second motor (18) is connected with driving wheel (19), the drive block (21) it is located in pilot unit, the drive block (21) is slidably connected with pilot unit, one end of the drive rod (20) and drive Driving wheel (19) is hinged, and the other end and the drive block (21) of the drive rod (20) are hinged, the drive rod (20) and driving wheel (19) hinged place is located at the side in the center of circle of driving wheel (19), and the driving wheel (19) drives drive block by drive rod (20) (21) move horizontally, the firm bar (22) is horizontally set on the side of drive block (21), the firm bar (22) is located at driving Between block (21) and two grades of towers (3), the both sides of two grades of towers (3) are equipped with firm groove, and the firm groove has several, Side of each firm groove along two grades of towers (3) is uniformly axially arranged, and the firm bar (22) matches with firm groove, described firm Bar (22) is located in one of in firm groove.

2. the wind power plant of generating efficiency is improved as claimed in claim 1, it is characterised in that two grades of towers (3) Position-limit mechanism (26) is provided with, the position-limit mechanism (26) includes gag lever post (23) and limited block (24), the gag lever post (23) It is horizontally set between two grades of towers (3) and limited block (24), the inwall of the one-level tower (2) is provided with stopper slot, described Inwall of the stopper slot along one-level tower (2) is axially extending, and the limited block (24) is located in stopper slot, the limited block (24) Match and be slidably connected with stopper slot.

3. the wind power plant of generating efficiency is improved as claimed in claim 2, it is characterised in that the position-limit mechanism (26) There are several, side wall of each position-limit mechanism (26) along two grades of towers (3) is circumferentially uniformly arranged, and the stopper slot there are several, Each position-limit mechanism (26) corresponds with each stopper slot.

4. the wind power plant of generating efficiency is improved as claimed in claim 3, it is characterised in that the stopper slot is dovetail Groove.

5. the wind power plant of generating efficiency is improved as claimed in claim 1, it is characterised in that the table of the screw mandrel (13) Face is provided with anticorrosion galvanizing layer.

6. as claimed in claim 1 improve generating efficiency wind power plant, it is characterised in that the fixed block (15) and The surface of fix bar (16) is provided with teflon coating.

7. the wind power plant of generating efficiency is improved as claimed in claim 1, it is characterised in that the pilot unit includes Two guide rods (25) for being parallel to each other, the drive block (21) is located between two guide rods (25), the drive block (21) It is slidably connected respectively with two guide rods (25).

8. the wind power plant of generating efficiency is improved as claimed in claim 1, it is characterised in that two grades of towers (3) Top be provided with photovoltaic panel.

9. the wind power plant of generating efficiency is improved as claimed in claim 1, it is characterised in that the one-level tower (2) Sealing ring is provided with the junction of two grades of towers (3).

10. the wind power plant of generating efficiency is improved as claimed in claim 1, it is characterised in that first motor And the second motor (18) is servomotor (10).