CN101886609A

CN101886609A - High-efficiency wind driven generator

Info

Publication number: CN101886609A
Application number: CN 201010154692
Authority: CN
Inventors: 余德清
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-04-23
Filing date: 2010-04-23
Publication date: 2010-11-17
Anticipated expiration: 2030-04-23
Also published as: CN101886609B

Abstract

The invention provides a high-efficiency wind driven generator, belongs to the technical field of wind power generation devices and solves the problem of low wind energy utilization ratio of a conventional wind driven generator. The high-efficiency wind driven generator comprises an upright post, wind wheels, a rotor and a stator, wherein the lower end of the stator is connected with the upright post; the stator is sleeved on the lower part of the rotor; both the stator and the rotor are fixedly connected with the wind wheels; each wind wheel comprises a connecting shaft and a fan blade; both the peripheries of the wind wheel on the stator and the wind wheel on the rotor are provided with air guide mechanisms; the air guide mechanism comprises a plurality of air guide plates which are fixedly arranged and integrally connected or separated; an air guide gap allowing air to pass through is reserved between every two air guide plates; and the stator and the rotor are driven by the wind to rotate along a reverse direction through the guidance of the air guide plate. The high-efficiency wind driven generator has the advantages of long service life, high power generation speed and high wind energy utilization ratio.

Description

A kind of high-efficiency wind driven generator

Technical field

The invention belongs to the wind generating unit technical field, relate to a kind of wind-driven generator, relate in particular to a kind of high-efficiency wind driven generator.

Background technique

At present,, cause energy shortage, make renewable energy sources such as wind energy cause people's attention day by day because the various energy sharply consume.Wind-driven generator is exactly a kind of device that wind energy is utilized, and wind-power electricity generation mainly drives fan blade by wind-force and rotates, and impels the magnetic field of the inductor coil cutting magnet that is connected with fan blade, utilizes the principle of electromagnetic induction that wind energy transformation is electric energy.But this rotation that only relies on inductor coil or magnet and then to produce the method for electric current too simple, lower to utilization ratio of wind energy, the generating effect is not as other energy.

For this reason, people design the vertical axis aerogenerator of a kind of double-deck wind wheel counter-rotating each other, [its publication number is CN201284723Y], stator outer surface and stator outer sleeve internal surface fit tightly, the built-in rotor in stator center hole, rotor joins by rotor bearing and stator at two ends up and down, the bottom of stator outer sleeve, be equipped with two column bearings up and down, column brearing bore and column intimate are fitted, and the internal surface of outer surface and stator outer sleeve fits tightly, and the upper strata wind wheel is fixedlyed connected with the outer side surface of rotor, lower floor's wind wheel is fixedlyed connected with the outer side surface of stator outer sleeve, and upper strata wind wheel fan blade installation direction is opposite with lower floor wind wheel fan blade installation direction.

This vertical axis aerogenerator is oppositely installed by the fan blade of two-layer wind wheel up and down and is made it be subjected to wind-force to do the time spent, and stator (inductor coil) with rotor (magnet) backward rotation takes place, and has accelerated the speed of coil cutting magnetic field, has utilized wind energy better.Though this wind-driven generator increases to the utilization ratio of wind energy, but the whole generating machine all is subjected to the effect of wind-force when generating, and the wind energy that can use only has the sub-fraction that acts on the fan blade, even act on wind energy on another fan blade and also can play and hinder the effect that fan blade rotates, so also there are some defectives in this wind-driven generator.

Summary of the invention

The objective of the invention is to have the problems referred to above, proposed a kind of high-efficiency wind driven generator that can improve the outer shroud wind guiding mechanism of wind energy utilization at existing technology.

Purpose of the present invention can realize by following technical proposal: a kind of high-efficiency wind driven generator, comprise column, wind wheel, the stator that rotor and lower end are connected with column, described stator is socketed in the rotor bottom, all be fixed with wind wheel on stator and the rotor, described wind wheel comprises coupling shaft and fan blade, it is characterized in that, the wind wheel of described stator and epitrochanterian wind wheel periphery are equipped with wind guiding mechanism, described wind guiding mechanism comprises the some wind deflectors that fuse or separate that fixedly install, have the wind-guiding gap that air feed passes through between each piece wind deflector, and wind drive stator and rotor are rotated along opposite direction by the guiding of wind deflector.

During the work of this wind-driven generator, lead to acting on its surperficial wind by wind deflector, rotate along opposite direction by drive stator of the wind-force effect after leading and rotor, utilize the magnetic field of former reason stator (inductor coil) cutting rotor (magnet) of electromagnetic induction, make to produce electric current in the inductor coil, finish the conversion of wind energy to electric energy.

In above-mentioned high-efficiency wind driven generator, described wind wheel is provided with the vertical rod around its distribution outward, and described wind deflector divides two-layer being fixed between the vertical rod up and down, and is upper and lower layers along the adjacent wind deflector of vertical rod distribution arrangement and is alternately distributed.The upper and lower layers of wind deflector is alternately distributed the gap that wind-force is passed through between wind deflector and moves to the fan blade and the epitrochanterian fan blade of stator respectively, and then drives the reversing motion of stator and rotor.

In above-mentioned high-efficiency wind driven generator, described vertical rod divides the inside and outside two-layer wind wheel periphery that is distributed in, and described wind deflector is fixed between outer vertical rod and the adjacent two internal layer vertical rods.

In above-mentioned high-efficiency wind driven generator, described wind deflector and angle radially are the 30-60 degree.The wind that the inclination of wind deflector can will move to the wind deflector surface fan blade on rotor and the stator that also leads improves utilization ratio of wind energy.

In above-mentioned high-efficiency wind driven generator, described vertical rod has 6 at least.

In above-mentioned high-efficiency wind driven generator, be fixed with at least two coupling shafts of radially outwards dispersing on the described wind wheel.

In above-mentioned high-efficiency wind driven generator, all be fixed with at least one wind wheel on described stator and the rotor.

In above-mentioned high-efficiency wind driven generator, described fan blade in the form of sheets, and this fan blade surface is outwards protruded curved.The sheet structure of arc makes fan blade can better accept the effect of wind-force, improves wind energy utilization.

In above-mentioned high-efficiency wind driven generator, described fan blade is installed on the coupling shaft with radially becoming the 30-45 degree along the wind-guiding direction of its outside wind deflector.

In above-mentioned high-efficiency wind driven generator, the outer end of described coupling shaft is divided into two fulcrums, and described two fulcrums and same fan blade are connected.Two fulcrums fan blade that is being connected makes it more firm.

Compared with prior art, this high-efficiency wind driven generator has the following advantages:

1, the outside of this high-efficiency wind driven generator is provided with wind guiding mechanism, solve wind-force and may hinder the problem that fan blade rotates, the wind-force that can will affact on the generator fully is applied to make stator and rotor that counter-rotational aspect takes place, and has improved the utilization ratio to wind energy.

2, wind guiding mechanism makes the body of generator need not bear the effect of wind-force all the lead direction of fan blade of the wind-force that is born on the whole generating machine always, has reduced the probability that the generator body damages, and has prolonged the working life of generator.

3, the arcuate structure of fan blade and make fan blade can better accept the wind-force effect with the 30-45 degree angle that is radially become when installing and rev up the generating speed of raising generator.

Description of drawings

Fig. 1 is the perspective view of this high-efficiency wind driven generator.

Fig. 2 is the plan structure schematic representation of this high-efficiency wind driven generator.

Among the figure, 1, column; 2, stator; 3, rotor; 4, wind wheel; 41, coupling shaft; 41a, fulcrum; 42, fan blade; 5, wind deflector; 6, vertical rod.

Embodiment

Below be specific embodiments of the invention and in conjunction with the accompanying drawings, technological scheme of the present invention is further described, but the present invention be not limited to these embodiments.

As shown in Figure 1, a kind of high-efficiency wind driven generator, comprise the stator 2 that column 1, wind wheel 4, rotor 3 and lower end are connected with column 1, stator 2 is socketed in rotor 3 bottoms, all be fixed with a wind wheel 4 on stator 2 and the rotor 3, wind wheel 4 comprises coupling shaft 41 and the fan blade of radially outwards dispersing in the form of sheets 42, and the outer end of coupling shaft 41 is divided into two fulcrum 41a, and two fulcrum 41a all are connected with same fan blade 42.The wind wheel 4 of stator 2 and wind wheel 4 peripheries on the rotor 3 are equipped with wind guiding mechanism.

In the present embodiment, wind guiding mechanism comprises wind deflector 5 and fixedly ten vertical rods 6 of wind deflector 5, and vertical rod 6 is equally divided into two-part and is evenly distributed on inside and outside two circles, and ground is stood in the lower end of vertical rod 6, and the upper end is sheathed on rotor 3 upper ends by connecting rod.Be fixed on wind deflector 5 between outer vertical rod 6 and the adjacent two internal layer vertical rods 6 all with radially in angle of 45 degrees.Wind deflector 5 is divided into up and down two-layer distribution, and all is upper and lower layers along the adjacent wind deflector 5 of vertical rod 6 distribution arrangements and is alternately distributed.The wind-guiding direction difference of upper and lower layers wind deflector 5 can make wind drive stator 2 and rotor 3 rotates in opposite direction.

As shown in Figure 2, all be fixed with six roots of sensation coupling shaft 41 on each wind wheel 4, the fan blade of coupling shaft 41 outer ends 42 surfaces are outwards protruded curved, and this fan blade 42 is installed on the coupling shaft 41 with radially becoming the 30-45 degree along the wind-guiding direction of its outside wind deflector 5.

What wind-power electricity generation was mainly used is electromagnetic induction principle, is made by the magnetic field of stator 2 (inductor coil) cutting rotor 3 (magnets) to produce electric current in the stator 2 (inductor coil).The wind-force channeling conduct that this high-efficiency wind driven generator was subjected on whole wind guiding mechanism in when work, the fan blade 42 that the guiding of the wind deflector 5 on upper strata drives on the rotor 3 wind rotates, and the rotor 3 that is connected with wind wheel 4 also rotates with fan blade 42; Since wind deflector 5 and fan blade 42 that direction is set is different, the fan blade 42 that the guiding of the wind deflector 5 of lower floor drives on stator 2 and the stator 2 wind rotates along opposite direction.This makes the wind-force that acts on the whole generating machine all be used to drive stator 2 and rotor 3 backward rotation, has improved the efficient of wind-power electricity generation greatly.

Specific embodiment described herein only is that the present invention's spirit is illustrated.The technician of the technical field of the invention can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Claims

1. high-efficiency wind driven generator, comprise column (1), wind wheel (4), the stator (2) that rotor (3) and lower end are connected with column (1), described stator (2) is socketed in rotor (3) bottom, all be fixed with wind wheel (4) on stator (2) and the rotor (3), described wind wheel (4) comprises coupling shaft (41) and fan blade (42), it is characterized in that, the wind wheel (4) of described stator (2) and wind wheel (4) periphery on the rotor (3) are equipped with wind guiding mechanism, described wind guiding mechanism comprises the some wind deflectors that fuse or separate (5) that fixedly install, have the wind-guiding gap that air feed passes through between each piece wind deflector (5), and wind drive stator (2) and rotor (3) are rotated along opposite direction by the guiding of wind deflector (5).

2. high-efficiency wind driven generator according to claim 1, it is characterized in that, the outer vertical rod (6) that is provided with around its distribution of described wind wheel (4), described wind deflector (5) divides two-layer being fixed between the vertical rod (6) up and down, and is upper and lower layers along the adjacent wind deflector (5) of vertical rod (6) distribution arrangement and is alternately distributed.

3. high-efficiency wind driven generator according to claim 2 is characterized in that, described vertical rod (6) divides inside and outside two-layer wind wheel (4) periphery that is distributed in, and described wind deflector (5) is fixed between outer vertical rod (6) and the adjacent two internal layer vertical rods (6).

4. high-efficiency wind driven generator according to claim 3 is characterized in that, described wind deflector (5) and angle radially are the 30-60 degree.

5. according to claim 2 or 3 or 4 described high-efficiency wind driven generators, it is characterized in that described vertical rod (6) has 6 at least.

6. according to claim 1 or 2 or 3 or 4 described high-efficiency wind driven generators, it is characterized in that, be fixed with at least two coupling shafts of radially outwards dispersing (41) on the described wind wheel (4).

7. high-efficiency wind driven generator according to claim 6 is characterized in that, all is fixed with at least one wind wheel (4) on described stator (2) and the rotor (3).

8. high-efficiency wind driven generator according to claim 7 is characterized in that, described fan blade (42) in the form of sheets, and this fan blade (42) surface is outwards protruded curved.

9. high-efficiency wind driven generator according to claim 8 is characterized in that, described fan blade (42) is installed on the coupling shaft (41) with radially becoming the 30-45 degree along the wind-guiding direction of its outside wind deflector (5).

10. high-efficiency wind driven generator according to claim 9 is characterized in that, the outer end of described coupling shaft (41) is divided into two fulcrums (41a), and described two fulcrums (41a) are connected with same fan blade (42).