KR101614497B1 - hub support for wind generator - Google Patents

Abstract

The present invention relates to a hub support for assembling a rotor of a wind power generator of a novel structure which can easily mount a blade of a wind power generator on a hub. According to the present invention, the hub support for assembling a rotor of a wind power generator minimizes an area occupied by the hub support by folding a leg member (20) when the hub support is not used (i.e., when storing or transporting the hub support), and rotates an extension unit (23) to unfold the leg member (20) lengthwise when using the hub support to prevent a hub (1) and a blade (2) from tilting in a side direction by an eccentric load caused by the blade (2) when the blade (2) is mounted on the hub (1). Therefore, the hub support can be easily transported and stored, and the blade (2) does not need to be supported by using an additional crane (3) after mounting the blade (2) on the hub (1). Therefore, only one crane (3) can be used to lift the blade (2) to mount the blade (2) on the hub (1).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hub support for a wind turbine generator,

The present invention relates to a hub assembly for rotor assembly of a wind turbine of a new structure capable of easily coupling a blade of a wind turbine generator to a hub.

2. Description of the Related Art Generally, a wind turbine generator that generates electricity by wind is provided with a supporter fixedly installed on a bottom surface of the supporter to extend in a vertical direction, And a rotor coupled to the drive shaft of the generator and rotated by the wind.

At this time, the rotor is composed of a hub coupled to the drive shaft of the generator and a plurality of blades radially coupled to the circumferential surface of the hub.

A coupling portion is formed at the periphery of the hub to couple the base end of the blade.

The structure of such a wind turbine generator is described in detail in a plurality of prior documents including the patent document 10-2012-0001652 and the patent document 10-2012-0040747, and a detailed description thereof will be omitted.

Meanwhile, when assembling the wind turbine constructed as described above, the nut is first assembled to the upper end of the support, the rotor is assembled on the ground, and the assembled rotor is lifted by using a crane to be coupled to the drive shaft of the generator.

In order to assemble the rotor, the hub of the rotor is placed on a base provided on the ground, the blade is lifted by using a separate crane, and the blade is mounted on the coupling portion formed on the circumferential surface of the hub Assembled.

However, since the pedestal merely supports the hub so as not to touch the ground, the blade is coupled to the hub so as to extend in the radial direction so that when the blades are coupled to the hub one by one, A load is applied to the hub, whereby the hub and the blade are tilted to one side, and the blade is brought into contact with the ground.

Therefore, when coupling the blade to the hub, the blade coupled to the hub is lifted upwards by using a separate auxiliary crane after the blade is coupled to the hub, so that the end of the blade does not touch the bottom surface, There is a problem that it is very troublesome and a plurality of cranes are required to support the respective blades.

Further, in order to couple the blade to the hub, the base end portion of the blade must be adjusted so as to exactly coincide with the coupling portion formed on the circumferential surface of the hub. In a state in which the blade is lifted using the crane, It takes a lot of time to adjust it so as to exactly coincide with the coupling portion of the first lens group.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hub assembly for a rotor assembly of a wind turbine with a new structure that can easily couple a blade of a wind turbine generator to a hub.

According to an aspect of the present invention, there is provided a hub assembly for a rotor assembly of a wind turbine supporting a hub (1) provided on a floor surface and coupled to an upper surface of the hub, And a plurality of leg members 20 extending radially from the circumferential surface of the support base 10, wherein the leg members 20 are arranged on the circumference of the support base 10, An extension part 23 hinged to the distal end of the fixing part 21 and connected to the extension part 23 to pivot the extension part 23, Wherein a length of the entire leg member (20) is adjustable by folding or unfolding the extension portion (23) by the stretching and driving means (24) including the stretching and driving means (24) A hub assembly for a rotor assembly is provided.

According to another aspect of the present invention, the caster 22 is provided below the tip end of the fixing portion 21. When the extension portion 23 is lifted upward, the caster 22 is brought into contact with the bottom surface, The hub assembly for assembling a rotor of a wind power generator is provided.

According to another aspect of the present invention, the apparatus further includes an auxiliary support (30) provided on the support (10) to support the periphery of the base end of the blade (2) coupled to the hub (1) A support ring body 31 rotatably coupled to the circumferential surface of the support frame 10 so as to be rotatable in the lateral direction and a rotation drive unit 30 connected to the support ring body 31 to rotate the support ring body 31 in the lateral direction A rotating bar 33 which is rotatably coupled to the supporting ring body 31 so as to be vertically rotatable and which is provided at a distal end of the rotating bar 33 and which can support the base of the blade 2 And a lifting and driving means (35) connected to the pivoting bar (33) for lifting and lowering the pivoting bar (33). / RTI >

According to another aspect of the present invention, the support base 10 includes a lower support base 11 having the leg members 20 on a circumference thereof, An upper support 12 having a fixing part 21 on which the hub 1 is fixed and a direction adjusting device connected to the upper support 12 to rotate the upper support 12 in a lateral direction The hub assembly for a rotor assembly of a wind power generator according to the present invention includes:

The hub assembly for assembling a rotor of a wind turbine according to the present invention comprises a support base 10 configured to engage the hub 1 on an upper surface thereof and a plurality of Wherein the leg member 20 comprises a fixing part 21 extending radially from the circumferential surface of the support frame 10 and a hinge part 21 formed on the distal end of the fixing part 21, And a retracting and driving means 24 connected to the extending portion 23 and pivoting the extending portion 23 so that when the pedestal is not used or stored or transported The leg member 20 is folded so that the area occupied by the pedestal is minimized and the leg member 23 is pivoted to extend the leg member 20 so that the blade 2 is engaged with the hub 1. [ , The hub (1) and the blades Is 2 can be prevented from being inclined in the lateral direction.

Therefore, it is not necessary to support the blade 2 by using a separate crane 3 after coupling the blade 2 to the hub 1, so that it is easy to carry or store the pedestal, There is an advantage in that the blade 2 can be joined to the hub 1 by using only one crane 3 for raising.

1 and 2 are side views of a hub assembly for rotor assembly of a wind turbine according to the present invention,
3 is a plan view showing a hub support for assembling a rotor of a wind power generator according to the present invention,
4 is a side cross-sectional view showing a hub support for assembling a rotor of a wind power generator according to the present invention,
5 is a reference view showing a support member of a hub support for assembling a rotor of a wind turbine according to the present invention,
6 to 10 are reference views showing a method of coupling a blade to a hub using a hub support for assembling a rotor of a wind turbine according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 10 illustrate a hub support for assembling a rotor of a wind turbine according to the present invention. The hub 1 is provided on the bottom surface and is coupled to an upper surface of the hub, (2).

At this time, at the periphery of the hub 1, three coupling portions 1a to which the proximal ends of the blades 2 are coupled are formed, and three blades 2 are formed at the periphery of the hub 1 at a predetermined angle As shown in FIG.

According to the present invention, the pedestal includes a support 10 configured to engage the hub 1 on an upper surface thereof, a plurality of leg members 10 extending radially from the circumferential surface of the support 10, And an auxiliary support 30 provided on the support 10 to support a base end portion of the blade 2 coupled to the hub 1.

The support base 10 includes a lower support base 11 on which the leg members 20 are disposed and a lower support base 11 on which the hub 1 is fixed, An upper support 12 provided on the upper surface of the fixing bracket 12a and a direction adjusting means 13 connected to the upper support 12 to turn the upper support 12 in the lateral direction.

To this end, a support shaft 12b extending downward below the upper support 12 and rotatably coupled to the lower support 11 is provided.

4, the direction adjusting means 13 is provided on the lower support 11 and is connected to the support shaft 12b so that the upper support 12 is supported on the side of the support shaft 12b via the support shaft 12b. Drive motor that rotates in the direction of the arrow.

Therefore, after the hub 1 is coupled to the fixing bracket 12a of the upper support 12, when the upper support 12 is laterally rotated using the direction adjusting means 13, the upper support 12 The hub 1 can be rotated in the lateral direction to adjust the direction of the hub 1.

As shown in FIGS. 1 to 3, the leg members 20 are formed so as to be spaced apart from each other at an angle of 90 degrees with respect to the circumferential surface of the support member 10, A caster 22 provided below the distal end of the fixing portion 21 and an extension portion 23 hinged to the distal end of the fixing portion 21, And an expansion and contraction driving means (24) connected to the extension portion (23) to pivot the extension portion (23).

The fixing portion 21 is provided to extend downward from the peripheral surface of the lower support 11 in an inclined manner.

The caster 22 is coupled to the lower surface of the fixing part 21 so as to be adjustable in the lateral direction so as to be in close contact with the bottom surface of the fixing part 21 so as to adjust the position of the entire pedestal by pushing the supporting part 10 in the lateral direction .

The extension portion 23 is rotatably coupled to the distal end portion of the fixing portion 21 so as to be vertically pivotable so that the extension portion 23 can be folded or pivoted outward to be pivoted. 23a.

The expansion and contraction driving means 24 uses hydraulic cylinders whose both ends are connected to the fixed portion 21 and the extended portion 23 so as to rotate the extended portion 23 in accordance with the expansion and contraction.

2, the extension portion 23 is pivoted upward and the caster 22 is brought into contact with the floor surface, and when the worker moves the support base 10, The position of the entire pedestal can be adjusted.

1, when the elongating and contracting drive means 24 is extended, the elongated portion 23 is pivoted outward, and the receiving plate 23a of the elongated portion 23 is brought into close contact with the bottom surface, The support 10 and the caster 22 are lifted upward and the entire support frame 10 and the leg members 20 are fixed so as not to move.

3 to 5, the auxiliary support 30 includes a support ring body 31 rotatably coupled to the circumferential surface of the support block 10 so as to be laterally rotatable, a support ring body 31 connected to the support ring body 31, A rotation driving means 32 for causing the support ring body 31 to rotate in the lateral direction, a rotation bar 33 coupled to the support ring body 31 so as to be vertically rotatable, A support member 34 provided at a distal end of the blade 2 and adapted to support a base of the blade 2 and an elevation driving means 35 connected to the rotation bar 33 for raising and lowering the rotation bar 33 ).

The support ring body 31 is rotatably coupled to an outer circumferential portion of the lower supporter 11 and a bracket 31a to which the rotation bar 33 is coupled is provided at one side of the circumferential surface.

The rotation driving means 32 uses a driving motor provided on the lower support 11 and connected to the supporting ring body 31 to rotate the supporting ring body 31 in the lateral direction.

The pivot bar 33 is rotatably coupled to the bracket 31a of the support ring body 31 in a vertical direction.

5, a support groove 34a is formed on the upper surface of the support member 34 so as to be recessed downward, so that the proximal end of the blade 2 can be inserted into the support groove 34a .

The support groove 34a is laterally wider than the base end of the blade 2 so that the proximal end of the blade 2 can be properly moved in a state where the base end of the blade 2 is inserted into the support groove 34a .

The elevation driving means 35 uses hydraulic cylinders whose both ends are connected to the supporting ring body 31 and the turning bar 33, respectively.

Therefore, when the elevation driving means 35 is extended or contracted, the pivoting bar 33 can be pivoted in the vertical direction to adjust the height of the supporting member 34. By using the rotation driving means 32, The rotation bar 33 and the support member 34 are rotated along the circumference of the support base 10 to adjust the lateral position of the support member 34. [

A method of coupling the blade 2 to the periphery of the hub 1 using the hub assembly for assembling the rotor of the wind turbine constructed as described above will be described below.

First, when storing or transporting the pedestal, as shown in Fig. 2, the extending portion 23 is turned upward by using the stretching and driving means 24, thereby minimizing the area occupied by the pedestal.

At this time, since the caster 22 of the leg member 20 is in close contact with the bottom surface, an operator can push the pedestal to adjust the position of the pedestal.

1, the support plate 23a of the extension portion 23 is fixed to the support portion 23a of the extension portion 23 by means of the extension and retraction means 24, And then the support base 10 and the fixing portion 21 are pushed upward to fix the entire pedestal so as not to move.

6, the hub 1 is coupled to the fixing bracket 12a of the upper support 12, the blade 2 is lifted by the crane 3, To be close to the hub (1).

7, by using the direction adjusting means 13, the joining portion 1a of the hub 1 rotates the upper support 12 so as to face the proximal end of the blade 2, And the support ring body 31 is rotated so that the support member 34 is positioned below the base end of the blade 2 by using the rotation driving means 32. [

8, the pivoting bar 33 is elevated by using the elevation driving means 35 so that the lower surface of the blade 2 is supported by the supporting groove 34a of the supporting member 34, The lateral position and the height of the support member 34 are adjusted by using the rotation driving means 32 and the elevation driving means 35 so that the lateral direction of the base end portion of the blade 2 Position and height are adjusted.

9, after the blade 2 is adjusted so that the proximal end of the blade 2 faces the engaging portion 1a of the hub 1, the blade 2 is rotated by the crane 3, The blade 2 is advanced to the hub 1 so that the proximal end of the blade 2 is engaged with the engaging portion 1a and then the blade 2 is fixed to the engaging portion 1a using a separate bolt or nut Assemble.

10, when the blade 2 is engaged with the coupling portion 1a of the hub 1 as described above, the upper support 12 is moved in the lateral direction The assembly is completed by repeating the above-described process and coupling the blades 2 to the three engaging portions 1a formed in the hub 1. [0052] As shown in Fig.

The hub assembly for assembling the rotor of the wind turbine configured as described above includes a support base 10 configured to engage the hub 1 on an upper surface thereof and a plurality of support members 10 extending radially from the circumferential surface of the support base 10, The leg member 20 includes a fixing portion 21 extending radially from the circumferential surface of the support member 10 and a hinge coupling portion 23 at the distal end of the fixing portion 21, And a retracting and driving means 24 connected to the extended portion 23 to turn the extended portion 23. When the pedestal is not used, that is, when it is stored or transported The blade member 2 is joined to the hub 1 by minimizing the area occupied by the leg member 20 by folding the leg member 20 and by extending the leg member 20 by rotating the extension portion 23 when the leg member 20 is used. , The hub (1) and the blades A load (2) can be prevented from being inclined in the lateral direction.

Therefore, it is not necessary to support the blade 2 by using a separate crane 3 after coupling the blade 2 to the hub 1, so that it is easy to carry or store the pedestal, There is an advantage in that the blade 2 can be joined to the hub 1 by using only one crane 3 for raising.

Particularly, the caster 22 is provided below the distal end of the fixing portion 21. When the extension portion 23 is lifted upward, the caster 22 is brought into contact with the bottom surface, so that the pedestal is placed on the bottom surface , There is an advantage that the operator can easily adjust the position of the pedestal by pushing the pedestal.

The support base 10 is provided with an auxiliary support 30 for supporting the base end portion of the blade 2 coupled to the hub 1 and the auxiliary support 30 is mounted on the peripheral surface of the support 10, (32) connected to the support ring body (31) and adapted to rotate the support ring body (31) in the lateral direction, a support ring body (31) rotatably coupled to the support ring body 31), a support member (34) provided at a distal end of the pivoting bar (33) and configured to support a base portion of the blade (2) And raising and lowering driving means (35) connected to the turning bar (33) for raising and lowering the turning bar (33).

Therefore, in the state where the blade 2 is lifted by the crane 3, the base end portion of the blade 2 is supported by the support member 34, and the rotation driving means 32 and the elevation driving means 35, It is necessary to adjust the base end portion of the blade 2 to be directed toward the coupling portion 1a of the hub 1 by using the coupling portion 1a of the hub 2 to couple the base end portion of the blade 2 to the coupling portion 1a of the hub 1. [ The time required for the operation can be shortened.

That is, in the conventional case, since the position of the proximal end of the blade 2 is adjusted to be coupled to the coupling portion 1a of the hub 1 using only the crane 3, the operation is very troublesome, Since the position of the proximal end of the blade 2 can be adjusted by using the auxiliary support 30, the proximal end of the blade 2 can be easily coupled to the hub 1.

The support base 10 includes a lower support base 11 on which the leg members 20 are disposed and a hub 11 rotatably coupled to an upper portion of the lower support base 11 in a lateral direction, And a direction adjusting means 13 connected to the upper support 12 to rotate the upper support 12 in the lateral direction. The upper support 12 includes a fixing bracket 12a fixed on the upper surface thereof, When the blade 2 is lifted using the crane 3 to be coupled to the coupling portion 1a of the hub 1 and then the upper support 12 is laterally rotated as shown in Fig. The engaging portion 1a of the engaging portion 1a of the hub 1 to which the blade 2 is not engaged is directed toward the crane 3. [

Therefore, there is an advantage in that the blade 2 can be joined to all the three engaging portions 1a formed in the hub 1 without moving the crane 3.

10. Support member 20. Leg member
30. Auxiliary support

Claims (4)

A hub assembly for a rotor assembly of a wind power generator which is provided on a floor surface and supports a hub (1) coupled to an upper surface,
A support base 10 configured to be able to engage the hub 1 on an upper surface thereof,
And a plurality of leg members (20) extending radially from the circumferential surface of the support (10)
The leg member (20)
A fixing portion 21 extending radially from the peripheral surface of the support 10,
A caster 22 provided below the tip end of the fixing portion 21,
An extension part 23 hinged to the tip end of the fixing part 21,
And expansion and contraction driving means (24) connected to the extension portion (23) to rotate the extension portion (23)
When the extension portion 23 is lifted upward, the caster 22 is brought into contact with the floor surface, and the position can be adjusted by pushing the pedestal, and the extension portion 23 is folded and folded or unfolded Wherein a length of the entire leg member (20) is adjustable.
delete The method according to claim 1,
Further comprising an auxiliary support (30) provided on the support (10) and supporting a base end portion of the blade (2) coupled to the hub (1)
The auxiliary support (30)
A support ring body 31 rotatably coupled to the circumferential surface of the support 10 in a lateral direction,
A rotation driving means (32) connected to the support ring body (31) for rotating the support ring body (31) in the lateral direction,
A rotation bar 33 coupled to the support ring body 31 so as to be vertically rotatable,
A support member 34 provided at a distal end of the pivoting bar 33 and configured to support a base end of the blade 2,
And an elevation driving means (35) connected to the rotation bar (33) for raising and lowering the rotation bar (33).
The method according to claim 1,
The support (10)
A lower support 11 on which the leg members 20 are provided,
An upper support 12 rotatably coupled to an upper portion of the lower support 11 and having a fixing portion 21 to which the hub 1 is fixed,
And a direction adjusting means (13) connected to the upper support (12) and rotating the upper support (12) in the lateral direction.

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