KR20140086198A - Hub extender mount of wind power generator - Google Patents

Abstract

The present invention relates to a hub extender mount of a wind power generator capable of reducing the total weight of a rotor of a wind power generator and avoiding mutual interference between a hub and a pitch drive, wherein the hub extender mount of a wind power generator includes a drive mount fixing the pitch drive, so the motor part of the pitch drive protruding from the outside of the hub extender included in a hub of a rotor for a wind power generator and rotating a blade mounted on the hub extender is arranged in parallel to a direction of mounting the blade away from the hub extender.

Description

HUB EXTENDER MOUNT OF WIND POWER GENERATOR FOR WIND POWER GENERATOR

The present invention relates to a hub extender mount of a wind power generator, and more particularly, to a hub extender mount of a wind power generator that can reduce the weight of the entire wind power generator rotor while avoiding interference between the hub and the pitch drive.

Recently, as the technology related to wind power generation has been actively researched and developed as a part of energy development to replace fossil fuels, the size of wind power generators is also becoming larger.

In this trend, the hub of the rotor is also required to be large due to an increase in load due to the enlargement of the blades of the wind turbine.

Therefore, additional structures such as a hub extender should be formed between the hub and the blade.

Here, the blade has to be mounted rotatably with respect to the hub extender, and this rotation is made by the pitch drive.

In this case, in order to simplify the coupling structure with the hub extender, the pitch drive is fixedly arranged so that the motor unit faces the hub side. In order to prevent the pitch drive from interfering with the hub, a length of the hub extender protruding from the hub may be long There is a problem that the weight of the hub extender itself increases.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hub extender mount of a wind turbine generator that can reduce the weight of the entire wind turbine rotor while avoiding interference between the hub and the pitch drive.

According to an aspect of the present invention, there is provided a wireless communication system including: a hub extender provided on a hub, the hub extender having a blade connected to one side thereof; And a drive mount mounted on an outer circumferential surface of the plurality of hub extender and mounted with a pitch drive for providing rotational force to a pitch bearing for rotating the blade.

Preferably, the pitch drive includes: a pinion provided in the drive mount and meshing with the pitch bearing; And a motor unit that is connected to the pinion and provides power to the pinion, wherein the motor unit is disposed in a direction opposite to an arrangement direction of the hub to avoid interference with the hub.

And the pinion is installed inside the drive mount.

Preferably, the drive mount further comprises: a first piece projecting from the outside of the hub extender; a second piece extending from the end of the first piece; a second piece extending from the end of the second piece, And a third piece that is parallel and has a drive shaft end portion of the pitch drive facing the first piece, the motor piece being fixed to the drive shaft end of the pitch drive, the hub piece being coupled to the drive shaft end portion between the first piece and the third piece, And a pinion gear-engaged with a pitch bearing coupled between the blades.

Preferably, the third part is formed with a communication hole through which the end portion of the driving shaft passes through the first piece.

Preferably, the drive mount further includes a fifth piece protruded from the outside of the hub extender, a sixth piece bent and extended from one side edge of the fifth piece, and a sixth piece extending from the end of the sixth piece, And a seventh piece in parallel with the drive shaft end of the pitch drive and the motor part being fixed to the fifth piece, And a pinion gear-engaged with a pitch bearing coupled between the extender and the blade.

Preferably, the seventh piece is formed with a communication hole through which the end portion of the driving shaft is passed to the fifth piece.

In the meantime, according to the present invention, the motor part of the pitch drive, which is protruded from the outside of a hub extender provided in a hub of a wind power generator rotor and rotates a blade mounted on the hub extender, moves in a direction away from the hub extender And a drive mount for fixing the pitch drive so as to be arranged side by side in the mounting direction of the blades. The present invention also provides a hub extender mount of a wind power generator.

According to another aspect of the present invention, there is provided a wireless communication system including: a plurality of hub extenders provided on a hub; A pitch bearing provided in the plurality of hub extender for rotating the blade; A drive mount provided on an outer circumferential surface of the plurality of hub extender; And a pitch drive provided in the drive mount for providing power to rotate the pitch bearing.

Preferably, the pitch drive includes a motor unit as a power source, and the motor unit is disposed in a direction opposite to an arrangement direction of the hub to avoid interference with the hub.

According to the present invention having such a configuration, it is possible to avoid the interference between the pitch drive and the hub by applying the structure of the structure in which the motor portion of the pitch drive is fixed by the drive mount so as to be away from the hub extender and disposed side by side with the blade Of course, since the volume of the hub extender can be minimized compared to the existing wind turbine generators, the overall weight of the hub extender can also be reduced, thereby reducing the operating load of the wind turbine generator.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view showing the overall structure of a hub extender mount of a wind turbine according to an embodiment of the present invention;
2 and 3 are perspective views showing the structure of a drive mount, which is a main part of a hub extender mount of a wind turbine generator in accordance with various embodiments of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a schematic cross-sectional view illustrating the overall structure of a hub extender mount of a wind turbine according to an embodiment of the present invention. FIG. 2 is a cross-sectional view illustrating a structure of a drive mount, which is a main part of a hub extender mount of a wind turbine according to an embodiment of the present invention. Fig.

As shown in the drawing, the present invention is characterized in that a blade 20 protruded from the outside of a hub extender 10 provided in a hub 60 of a rotor for wind power generation is rotated to rotate the blade 20 mounted on the hub extender 10 And a drive mount 40 for fixing the pitch drive 30 such that the motor portion 31 of the pitch drive 30 is arranged in parallel with the mounting direction of the blade 20 in the direction away from the hub extender 10. [ .

The hub extender 10 is for supporting a load of the blade 20 and providing a space for mounting the blade 20 to a plurality of members protruding from the outside of the hub 60 of the rotor for wind power generation.

The blade 20 is mounted on each of the hub extender 10 and is rotatable.

The pitch drive 30 transmits a driving force for rotating the blade 20 relative to the hub extender 10 so that the motor portion 31 is moved in parallel with the mounting direction of the blade 20 in the direction away from the hub extender 10 .

The drive mount 40 projects from the outside of the hub extender 10 to fix the pitch drive 30.

Accordingly, the present invention can reduce the height h of the hub extender 10 protruded from the hub 60 according to the above-described structure and reduce the height h of the hub portion 60 of the pitch drive 30, There is no need to worry about mutual interference.

The present invention can be applied to the embodiments described above, and it goes without saying that the following various embodiments can be applied.

The hub extender 10 is for supporting the rotation of the blade 20 as described above and is further provided with a pitch bearing 50 for rotating the blade 20. The pitch drive 30 includes a pitch bearing 50, Respectively.

The pitch drive 30 further includes a pinion 33 mounted on an end of the drive shaft 32 of the motor unit 31 to rotate the blade 20.

That is, the pitch bearing 50 is gear-engaged with the pinion 33 to rotate the blade 20.

The drive mount 40 is for fixing the pitch drive 30 as described above. Referring to FIG. 2, the drive unit 40 includes a first piece 41, a second piece 42, and a third piece 43 It is possible to recognize that the structure is included.

The first piece 41 protrudes from the outside of the hub extender 10 and the second piece 42 extends from the end of the first piece 41 and is bent. The motor portion 31 is fixed so that it extends from the end of the pitch drive 30 and is parallel to the first piece 41 and the end of the drive shaft 32 (see FIG. 1) of the pitch drive 30 faces the first piece 41. [ .

A pinion 50 that is coupled to the end of the drive shaft 32 and is coupled between the hub extender 10 and the blade 20 is provided between the first piece 41 and the third piece 43, (33) is disposed.

At this time, it is preferable that a communication hole 43a is formed in the third piece 43 so that the end portion of the drive shaft 32 penetrates toward the first piece 41.

Therefore, after the operator places the pinion 33 on the first piece 41, the operator joins the drive shaft 32 to the pinion 33 through the communication hole 43a and then connects the motor portion 31 to the third And then fixed to the piece 43.

3, the drive mount 40 includes a fifth piece 45 protruding from the outside of the hub extender 10 and a sixth piece 46 extending from one side edge of the fifth piece 45, And a motor portion 31 extending from the end of the sixth piece 46 and being in parallel with the fifth piece 45 and the end of the drive shaft 32 of the pitch drive 30 facing the fifth piece 45 It is fixed.

Between the fifth clutch 45 and the seventh clutch 47, a pinion 50, which is coupled to the end of the drive shaft 32 and is coupled between the hub extender 10 and the blade 20, (33) is disposed.

At this time, it is preferable that the seventh part 47 is formed with a communication hole 47a through which the end of the drive shaft 32 penetrates toward the fifth piece 45.

Therefore, after the operator places the pinion 33 on the fifth piece 45, the operator joins the drive shaft 32 to the pinion 33 through the communication hole 47a and then connects the motor portion 31 to the seventh (47).

As described above, it is understood that the present invention is intended to provide a hub extender mount of a wind turbine generator that can reduce the weight of the entire wind turbine rotor while avoiding interference between the hub and the pitch drive.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Various modifications and variations are possible within the scope of equivalents.

10: Hub Extender
20: blade
30: Pitch drive
31: Motor
32: drive shaft
33: pinion
40: Mounting the drive
41: Part 1
42: Part 2
43: Part 3
43a, 47a: communicating hole
43b, 47b:
45: Part 5
46:
47: Seventh
50: Pitch bearing
60: Hub

Claims (10)

A hub extender provided at a hub and having a blade connected to one side thereof; And
And a drive mount mounted on an outer circumferential surface of the plurality of hub extender and mounted with a pitch drive for providing a rotational force to a pitch bearing for rotating the blade. The method according to claim 1,
The pitch drive includes:
A pinion provided on the drive mount and engaging with the pitch bearing; And
And a motor part connected to the pinion in an axial direction to provide power to the pinion,
Wherein the motor unit is disposed in a direction opposite to an arrangement direction of the hub to avoid interference with the hub. The method of claim 2,
Wherein the pinion is installed inside the drive mount. ≪ RTI ID = 0.0 > 11. < / RTI > The method according to claim 1,
The drive mount
A first part projecting from the outside of the hub extender,
A second piece bent from the end of the first piece,
And a third piece extending from the end of the second piece and being parallel to the first piece and having the drive shaft end of the pitch drive facing the first piece,
And a pinion that is coupled to the drive shaft end portion and is gear-engaged with a pitch bearing coupled between the hub extender and the blade is disposed between the first and third pieces. The method of claim 4,
And a communication hole through which the end portion of the driving shaft is passed to the first piece is formed in the third piece. The method according to claim 1,
The drive mount
A fifth part protruding from the outside of the hub extender,
A sixth piece bent from one side edge of the fifth piece,
And a seventh piece extending from the sixth end of the pitch driver and parallel to the fifth track, the motor portion of the pitch driver being fixed such that the drive shaft end of the pitch drive is directed to the fifth track,
And a pinion of the pitch driver coupled to the drive shaft end portion and gear-coupled with the pitch bearing coupled between the hub extender and the blade is disposed between the fifth and seventh pieces. Hub Extender Mount. The method of claim 6,
And the seventh portion is formed with a communication hole through which the end portion of the driving shaft is passed to the fifth piece. A motor unit of a pitch drive which is provided on an outer circumferential surface of a hub extender provided on a hub of a wind power generator and rotates the blade mounted on the hub extender is arranged side by side in a mounting direction of the blade in a direction away from the hub And a drive mount for fixing the pitch drive. ≪ RTI ID = 0.0 > 11. < / RTI > A plurality of hub extensions provided on a hub;
A pitch bearing provided in the plurality of hub extender for rotating the blade;
A drive mount provided on an outer circumferential surface of the plurality of hub extender; And
And a pitch drive provided in the drive mount for providing power to rotate the pitch bearing. The method of claim 9,
The pitch drive includes a motor unit as a power source,
Wherein the motor unit is disposed in a direction opposite to an arrangement direction of the hub to avoid interference with the hub.

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