CN201100215Y - Flexible oar-varying machine for wind power generator - Google Patents

Abstract

The utility model relates to a regulating mechanism of a wind power generator, in particular to a flexible varying oar mechanism of the wind power generator, which comprises a wind-wheel which is installed on the front end of a main shaft and blades which are arranged on the wind-wheel. Blade shafts which are fixed on the lower end of the blades are inserted on the wind-wheel through bearings, a spiral spring is sleeved on the blade shaft, a synchronizer is fixed on the center of the wind-wheel, wherein the synchronizer comprises a casing and a synchronic shaft which is installed in the casing through a bearing, the synchronic shaft and the main shaft are coaxial, a synchronic bevel gear is arranged on the synchronic shaft, the tail end of the blade shaft is passed through the casing of the synchronizer and is fixedly provided with a blade shaft bevel gear which is contacted with the synchronic bevel gear. The regulating mechanism does not need extra energy and manual control, and has simple and reliable structure. A plurality of blades are synchronically regulated, which has excellent consistency. A worm gear and a worm are arranged, which makes the regulation and maintenance more convenient, and a stepper is arranged to avoid the false motion affect which is caused by instant gale.

Description

Flexible variable propeller mechanism of aerogenerator

Technical field

The utility model relates to a kind of controlling mechanism of wind-driven generator, especially flexible variable propeller mechanism of aerogenerator.

Background technique

Wind energy more and more is subjected to the attention of countries in the world as a kind of renewable energy sources of cleaning.Its amount of accumulateing is huge, and the wind energy in the whole world is about 2.74 * 10 ₉MW, wherein available wind energy is 2 * 10 ₇MW is also bigger 10 times than the water energy total amount that can develop on the earth.The Chinese feature energy storage capacity is very big, distribution is wide, and only the wind energy content of land is about 2.53 hundred million kilowatts.Along with development of global economy, wind energy market also develops rapidly.Wind-driven generator is to utilize wind energy to drive blade to drive main shaft, and cutting magnetic line in stator and rotor generation relative displacement produces electric current in coil.The baptism that wind-driven generator faces is exactly to face unsettled wind speed, and natural wind is fast changing, and the wind speed span is very big, also is still can normal power generation in big as far as possible wind speed range to the requirement of wind-driven generator.In order to tackle the influence of strong wind, existing wind-driven generator adopts following three kinds of methods usually: 1, braking; In the wind speed superelevation, adopt the mode of braking motor main shaft to reduce rotating speed.Though this mode simple possible is bigger to the infringement of blower fan, blower fan will bear very big blast, the blade that fractures easily, and serious also can blow down blower fan.2, lateral deviation; In the wind speed superelevation, make the windward side of blower fan amesiality, reduce the positive blast that bears.This mode is generally used for small-sized wind power generator, and large-scale wind driven generator is because bulky, and inertia is big, can't adapt to frequent wind direction and change.3, become oar; In the wind speed superelevation, the angle that facings the wind of blade is changed, thereby change the blast that every blade bears by blade pitch device.This mode is suitable for large-scale wind driven generator most.Existing wind-driven generator pitching mechanism ubiquity complex structure, rate of fault height, adjust the defective of maintenance difficult.

Summary of the invention

The purpose of this utility model provide a kind of simple in structure, rate of fault is low, adjust flexible variable propeller mechanism of aerogenerator easy to maintenance.

For achieving the above object, the utility model adopts following technological scheme:

Flexible variable propeller mechanism of aerogenerator described in the utility model comprises the wind wheel that is installed in front-end of spindle, is installed in the blade on the wind wheel, and it is characterized in that: the rachis that is fixedly connected on the blade lower end is inserted on the wind wheel by bearing, is set with wind spring on the rachis; The center fixation of wind wheel is equipped with synchronizer, this synchronizer comprises shell and by the synchronizing shaft of Bearing Installation in shell, the dead in line of synchronizing shaft and main shaft, have synchronous umbrella gear on the synchronizing shaft, the end of rachis passes the shell of synchronizer and is installed with the rachis umbrella gear, umbrella gear and rachis umbrella gear engagement synchronously.

Also worm gear is arranged on the rachis by Bearing Installation, the worm screw that cooperates with worm drive by Bearing Installation on wind wheel; In the spring seat that wind spring is installed in worm gear is fixedlyed connected, the inner of wind spring is connected on the rachis, and the outer end is connected on the spring seat.

Be installed with stepper on the synchronizing shaft.

Described stepper comprises stepping wheel that is installed on the synchronizing shaft and the place kick that cooperates in the stepping wheel, has the recess that holds place kick on the stepping wheel, and place kick is installed on the shell of synchronizer by spring.

Dydraulic shock absorber also is installed on rachis, and an end of dydraulic shock absorber is connected on the connecting lever that is fixed in rachis, and the other end is connected on the housing of wind wheel.Adopt after the technique scheme, the utlity model has following advantage:

Need not the control of additional energy source and manpower when 1, moving, simple and reliable for structure;

2, a plurality of blades are adjusted synchronously, high conformity;

3, it is convenient that the setting of worm and gear makes the adjustment of power out-put characteristic curve;

4, being provided with of stepper can be got rid of the of short duration influence that simoon causes.

5, blade keeps certain angle that facings the wind by the flexible fastening force of wind spring, realizes that the flexible variable propeller translation-angle is more smooth and easy, soft, and keeps best power output.The fan efficiency height.

Description of drawings

Fig. 1 is an an embodiment's of the present utility model structural representation;

Fig. 2 is the local structure for amplifying schematic representation of synchronizer part;

Fig. 3 is blower fan output power and wind speed change curve.

Embodiment

As Fig. 1, Fig. 2 is an embodiment's of the present utility model structure sectional view, for clarity, has omitted hatching wherein.Flexible variable propeller mechanism of aerogenerator described in the utility model, comprise main shaft 1 front end that is installed in wind-driven generator wind wheel 2, be installed in the blade 3 on the wind wheel 2.The lower end of blade 3 has columned rachis 4.The rachis 4 that is fixedly connected on blade 3 lower ends is inserted on the wind wheel 2 by bearing.Be set with wind spring 5 on the rachis 4, the inner of wind spring 5 is fixedly connected on the rachis 4, and install on the spring seat 9A of wind spring 5 outer end.Also worm gear 9 is arranged on the rachis 4 by Bearing Installation, on wind wheel 2, fixedly connected with 9A on the spring seat by worm gear 9 by Bearing Installation for the worm screw 10 that cooperates with worm gear 9 transmissions, like this can be by adjusting worm screw 10, make worm gear 9 drive spring seat 9A rotation, adjust the tension force that gives of wind spring 5.Certainly, the blade 3 of blower fan should be limited in rotation in the several angle, in order to limit the angle of swing of blade, the positioning block that protrudes can be installed on rachis 4, also can install on wind wheel 2 in the axis hole of rachis 4 spacing draw-in groove is set, with the angle limits of rachis 4 rotations within the specific limits, the specific implementation means can have multiple, this is the known technology in present technique field, and this no longer describes in detail again.

Also be connected with dydraulic shock absorber 19 by connecting lever on rachis 4, the structure of this dydraulic shock absorber 19 is identical with vehicle shock absorber.The one end connects connecting lever, and the other end is connected on the housing of wind wheel 2.Can slow down the rotational speed of rachis 4 like this, avoid vibrating back and forth fast, increase the service life, particularly effectively avoid resonance to take place.

Be installed with synchronizer 51 in the center portion of wind wheel 2, this synchronizer 51 comprises shell and by the synchronizing shaft 6 of Bearing Installation in shell, the dead in line of synchronizing shaft 6 and main shaft 1, have synchronous umbrella gear 7 on the synchronizing shaft 6, the end of rachis 4 passes the shell of synchronizer 51 and is installed with rachis umbrella gear 8, synchronously umbrella gear 7 and 8 engagements of rachis umbrella gear.

On synchronizing shaft 6, be installed with stepper.Described stepper comprises stepping wheel 11 that is installed on the synchronizing shaft 6 and the place kick 12 that cooperates in stepping wheel 11, have the recess that holds place kick 12 on the stepping wheel 11, this recess can be the edge that is positioned at stepping wheel 11 as shown in Figure 2, also can be arranged on the card of stepping wheel 11.Place kick 12 is installed on the shell of synchronizer 51 by spring, the front end of place kick 12 is subjected to the pressure of spring to be inserted in the recess of stepping wheel 11, the pressure that must overcome spring in the time of 11 rotations of stepping wheel is just rotatable with place kick 12 jack-up, so promptly can play the effect of location, stressed the reaching of rachis 4 just can be rotated after certain differential, prevent that synchronizing shaft 6 from frequently rotating.

Certainly, the form of stepper can have multiple, and its effect is to make the rotation of synchronizing shaft 6 be limited to some gears.Avoid very little wind speed to change causing the frequent action of synchronizing shaft 6.

During use, adjust the tension force that gives of wind spring 5, just adjusted the initial wind speed that becomes the oar action by worm screw 10.When wind was to blade 3, the blade 3 that the side facings the wind was divided into the component of both direction with wind-force, and one of them component promotes wind wheel 2 and rotates, and the effect of another component is to promote the axis rotation of blade 3 around rachis 4.When wind-force less than setting value the time, the effect of component is not enough to overcome the tensioning of giving of wind spring 5, and the angle that facings the wind of blade 3 is changeless.When wind-force greater than setting value the time, the tension force that gives that wind blows blade 3 overcomes wind spring 5 deflects, and wind-force large deflection angle degree more is big more, and the windward side of blade 3 is more little.Can play well and reduce blast, the effect of control output power.Fig. 3 is blower fan output power and wind speed change curve, and the longitudinal axis P of this plotted curve represents the output power of blower fan, and transverse axis S represents the wind speed degree.Blower fan begins that output power is arranged when wind speed is S1, the output power of blower fan reached rated power P1 when wind speed was S2, the operate power curve of output of the no blade pitch device blower fan of T1 representative, when wind speed needs above rated power output, the output power of blower fan continues to increase, surpass rated power, as not in addition control can cause device damage and accident.On behalf of embodiment of the present utility model, P2, P3, P4, P5 give change oar under the rate of tension situation performance number when beginning in the difference of setting wind spring 5 respectively, and T2, T3, T4, T5 represent the output power curve under the corresponding situation respectively.When reaching the change oar wind speed of setting, the angle that facings the wind of blade 3 changes, and the output power curve of blower fan flattens slow, in bigger wind speed excursion, the output power of blower fan is controlled near the rated power P1.Under different working condition requirements, can give rate of tension by the difference of setting wind spring 5 and set the different maximum output of blower fan, satisfy multiple requirement.

Claims (5)

1, flexible variable propeller mechanism of aerogenerator, comprise the wind wheel (2) that is installed in main shaft (1) front end, be installed in the blade (3) on the wind wheel (2), it is characterized in that: the rachis (4) that is fixedly connected on blade (3) lower end is inserted on the wind wheel (2) by bearing, is set with wind spring (5) on the rachis (4); The center fixation of wind wheel (2) is equipped with synchronizer (51), this synchronizer (51) comprises shell and by the synchronizing shaft (6) of Bearing Installation in shell, the dead in line of synchronizing shaft (6) and main shaft (1), have synchronous umbrella gear (7) on the synchronizing shaft (6), the end of rachis (4) passes the shell of synchronizer (51) and is installed with rachis umbrella gear (8), synchronously umbrella gear (7) and rachis umbrella gear (8) engagement.

2, flexible variable propeller mechanism of aerogenerator according to claim 1 is characterized in that: also worm gear (9) is arranged on the rachis (4) by Bearing Installation, the worm screw (10) that cooperates with worm gear (9) transmission by Bearing Installation on wind wheel (2); Wind spring (5) is installed in the spring seat (9A) of fixedlying connected with worm gear (9), and the inner of wind spring (5) is connected on the rachis (4), and the outer end is connected on the spring seat (9A).

3, flexible variable propeller mechanism of aerogenerator according to claim 1 and 2 is characterized in that: synchronizing shaft is installed with stepper on (6).

4, flexible variable propeller mechanism of aerogenerator according to claim 3, it is characterized in that: described stepper comprises stepping wheel (11) that is installed on the synchronizing shaft (6) and the place kick (12) that cooperates in stepping wheel (11), have the recess that holds place kick (12) on the stepping wheel (11), place kick (12) is installed on the shell of synchronizer (5) by spring.

5, flexible variable propeller mechanism of aerogenerator according to claim 1 and 2, it is characterized in that: dydraulic shock absorber (19) also is installed on rachis (4), one end of dydraulic shock absorber (19) is connected on the connecting lever that is fixed in rachis (4), and the other end is connected on the housing of wind wheel (2).

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