KR101533786B1 - Installing apparatus for blade of wind power generator, and installing mehtod for blade of wind power generator using the same - Google Patents

Abstract

The present invention relates to a blade installation device for a wind power generator, and a blade installation method for a wind power generator using the same.
A blade mounting apparatus for a wind turbine according to the present invention comprises: a jig housing a nacelle of a wind turbine and surrounding a tower of a wind turbine vertically coupled to a lower surface of a nacelle; A supporting frame for supporting the lower surface of the jig; A lifting device installed on the jig and lifting the blade of the wind power generator by a hub formed on a front side of the nacelle; And a mounting device installed on the supporting frame for supporting the upper portion of the blade lifted by the lifting device.
According to another aspect of the present invention, there is provided a method of installing a blade for a wind turbine, comprising the steps of: connecting a first wire to a top of a blade of a wind turbine; Connecting a second wire released from the crane to the lower portion of the blade; Rotating the drum to wind the first wire and adjusting the length of the second wire extending from the crane so that the blade is raised and vertically erected; So that the upper portion of the blade is inserted into the bent portion of the sliding panel provided on the front portion of the supporting plate supporting the lower surface of the jig. And adjusting the horizontal position of the blade and the angle at which the blade is coupled to the hub by horizontally moving the sliding panel and pushing the blade inserted into the bent portion.

Description

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

The present invention relates to a blade mounting apparatus for a wind turbine generator, and more particularly, to a blade mounting apparatus for a wind turbine generator capable of quickly and stably assembling a blade to a hub, and a wind turbine generator And a method of installing the blade.

Generally, a wind power generator is a generator that generates electricity using wind. Wind turbines can be classified into offshore wind turbines installed on the land and offshore wind turbines installed on the sea depending on where they are installed.

These wind turbines are largely composed of three parts: a nacelle (generator body), a blade (propeller), and a tower (tower). The nacelle, the blade and the pillar are separated and are transported to the installation site and then assembled by a crane.

However, as the size of the wind turbine becomes bigger in recent years, the assembly work of the wind turbine generator becomes difficult and time consuming. Especially, the operation using the crane has a risk of safety accident, .

In particular, in order to assemble the blades to the hub formed on the front of the nacelle, the blade must be lifted up to a height of several tens to hundred meters of nucelle using a crane. At this time, the blades swing back and forth It is difficult to accurately couple the blade to the hub, and an accident that the blade collides with the support and the like may occur.

Korean Registered Patent No. 10-0806661 (registered on Feb. 18, 2008) Korean Patent Laid-Open No. 10-2013-0084549 (published on July 25, 2013)

In order to solve the above-described problems, the present invention provides a jig for accommodating a nose of a wind turbine and surrounding a strut of the wind turbine, A supporting frame for supporting the lower surface of the jig; A lifting device installed on the jig and lifting the blade of the wind power generator by a hub formed on a front side of the nacelle; And a mounting device installed on the supporting frame for supporting the upper portion of the blade lifted by the lifting device.

Here, the jig may include: a body plate having a cut-out portion at which the strut is received; And a holder installed on the upper surface of the main plate and surrounding the outer surface of the support when the support is received in the incision.

The holder may include: first and second pressure plates respectively surrounding left and right outer sides of the strut; And first and second piston devices for pushing or pulling the first and second pressure plates horizontally.

Here, the lifting device includes: a first wire connected to the blade; And a drum mounted on a front portion of the jig for winding the first wire.

A first fastening plate to which the first wire to be unwound from the drum is coupled to a top of the blade, and a second fastening plate to which a second wire to be loosened from the crane is coupled is coupled to a lower portion of the blade.

The lifting device may further include: a first wire connected to the blade; And,

And a pair of drums disposed on both sides of the front surface of the first and second pressure plates or the front surface of the main plate to wind the first wires.

Here, the mounting device may include: a bracket fixedly installed on a front portion of the supporting frame; And a sliding panel horizontally movably mounted on the bracket and having a bent portion for inserting the blade at a front end thereof.

Here, the bracket is provided with a pair of guide rails, and a pair of rail grooves into which the guide rails are respectively inserted are formed on the lower left and right sides of the sliding panel.

According to another aspect of the present invention, there is provided a method of manufacturing a wind turbine, comprising the steps of: connecting a first wire to a top of a blade of a wind power generator; Connecting a second wire released from the crane to the lower portion of the blade; Rotating the drum to wind the first wire and adjusting the length of the second wire extending from the crane so that the blade is raised and vertically erected; So that the upper portion of the blade is inserted into the bent portion of the sliding panel provided on the front portion of the supporting plate supporting the lower surface of the jig. And adjusting the horizontal position of the blade and the angle at which the blade is coupled to the hub by horizontally moving the sliding panel and pushing the blade inserted into the bent portion.

The step of connecting the first wire to the upper portion of the blade includes: coupling a first fastening plate to an upper portion of the blade; And connecting the first wire to the first fastening plate.

The step of connecting the second wire to the lower portion of the blade may include: coupling a second fastening plate to a lower portion of the blade; And connecting the second wire to the second fastening plate.

The present invention relates to a blade installation apparatus and a method for installing a blade for a wind turbine, which are capable of stably lifting the blade by simultaneously using a lifting device or a lifting device and a crane, Can be adjusted. Therefore, the operation of assembling the blades to the hub can be performed stably and quickly, and the influence of external factors such as wind can be minimized.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a diagram showing the overall structure of a blade installation device for a wind turbine according to the present invention; FIG.
2 is a perspective view showing the structure of a jig according to the present invention in more detail.
3 to 5 are views illustrating a process of lifting a blade to a hub using a lifting apparatus according to the present invention.
6 is a perspective view showing the structure of the mounting apparatus according to the present invention in more detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a diagram showing the overall structure of a blade installation device for a wind turbine according to the present invention; FIG.

1, the blade mounting apparatus for a wind turbine according to the present invention includes a jig 100, a supporting frame 200, a lifting device 300, and a mounting device 400.

The jig 100 houses the nacelle 11 of the wind power generator and surrounds the strut 12 of the wind power generator which is vertically coupled to the lower surface of the nacelle 11. Accordingly, the nacelle 11 and the strut 12 of the wind power generator are supported by the jig 100 and remain in a standing position perpendicular to the installation position.

2 is a perspective view showing the structure of a jig according to the present invention in more detail.

The jig 100 may include a body plate 110, a holder 120, and a vertical plate 130, as shown in FIG.

The main plate 110 constitutes a main body of the jig 100 and the main plate 110 has a cutout C formed therein. The cut-away portion C is a space in which the support 12 of the wind power generator coupled to the lower surface of the nacelle 11 is accommodated, and one side of the main plate 110 may be cut in a rectangular shape.

The holder 120 is installed on the upper surface of the main plate 110 and surrounds the outer surface of the strut 12 of the wind power generator housed in the cut-out portion C.

The holder 120 includes first and second pressing plates 121 and 122 which are installed on both left and right sides of the upper surface of the main plate 110 to respectively surround left and right sides of the outer surface of the strut 12 accommodated in the cutout C, And first and second piston devices (123, 124) for pushing or pulling the first and second pressure plates (121, 122) horizontally.

A plurality of first and second piston devices 123 and 124 are installed and the first and second pressure plates 121 and 122 have a semicircular bent portion R1 corresponding to the outer shape of the support 12 on the inner side. Therefore, when the first and second piston devices 123 and 124 start to move and push the first and second pressure plates 121 and 122 toward the support 12, the support pillars 12 are bent respectively by the bending of the first and second pressure plates 121 and 122, And is surrounded by a portion R1.

The vertical plate 130 is formed on the left and right sides of the main plate 110 in a vertical direction. The vertical plate 130 is configured such that the nacelle 11 placed on the upper surface of the holder 120 is detached from the main plate 110 while being shaken by an external force in the process of assembling and installing the wind turbine generator 10 .

The support frame 200 supports the lower surface of the jig 100 and supports the nacelle 11 more stably during the operation of coupling the support 12 to the lower surface of the nacelle 11. [ .

The supporting frame 200 may be installed such that a pair of the supporting frames 200 face each other at regular intervals so as to prevent interference with the support 12 coupled to the lower surface of the nacelle 11 and to more stably support the load of the nacelle 11. [ 3). In this case, the pair of supporting frames 200 supports the front end and the rear end lower surface of the main plate 110, respectively.

3 to 5 are views illustrating a process of lifting a blade to a hub using a lifting apparatus according to the present invention.

3 to 5, the lifting device 300 is installed on the jig 100 and lifts the blade 13 of the wind power generator with a hub 11a formed on the front surface of the nacelle 11. [

Specifically, the lifting device 300 is configured to lift the blade 13 from the ground when the operation of coupling the strut 12 to the lower surface of the nacelle 11 is completed, So that the blade 13 can be coupled to the hub 11a.

The lifting device 300 includes a first wire 310 and a drum 320.

The first wire 310 is wound on the drum 320 and is released from the drum 130 and connected to the ground blade 13 when the assembly work of the blade 13 is started. Of course, when the wind power generator 10 is installed on the sea, the first wire 310 is connected to the blade 13 mounted on the hull.

3, the first fastening plate 510 may be coupled to the upper portion of the blade 13 to easily connect the first wire 310 to the blade 13. In this case, the first wire 310 Is connected to the first fastening plate 510.

When the first wire 310 is connected to the blade 13, the drum 320 is rotated by a driving device such as a motor to wind the first wire 310, 13 to the hub 11a.

The drum 320 may be installed on both sides of the front portion of the first and second pressing plates 121 and 122 so as to stably raise the blades 13 of tens of tons. In this case, the first wires 310 are loosened at the respective drums 320 and connected to the blade 13 or the first fastening plate 510. Of course, a pair of the drums 320 may be installed on both right and left sides of the front surface of the main plate 110, and the mounting position may be variously modified.

3, a second fastening plate 520 is coupled to the lower portion of the blade 13, and a second wire 610 extending from the crane 600 is connected to the second fastening plate 520 Do.

The load of the blade 13 is supported by the drum 320 and the crane 600 when the drum 320 hoists the first wire 310 to lift the blade 13, Is stably achieved.

Specifically, when the lifting device 300 starts lifting the blade 13, the crane 600 lifts the lower portion of the blade 13 together, as shown in FIG. 3, so that the blade 13 collides with the ground, To prevent accidents. Also, as shown in FIGS. 4 and 5, when the blade 13 is vertically erected, the lower portion of the blade 13 is gripped to prevent a safety accident that may occur when the blade 13 is shaken by a wind or the like.

The mounting device 400 is installed on the supporting frame 200 and covers a part of the outer surface of the blade 13 lifted by the lifting device 300 to the hub 11a.

6 is a perspective view showing the structure of the mounting apparatus according to the present invention in more detail.

6, the mounting apparatus 400 includes a bracket 410 fixed to the supporting frame 200, and a bracket 410 installed at the bracket 410. The bracket 410 is inserted into the bracket 410, And a sliding panel 420 on which a semicircular bent portion R2 is formed.

The bracket 410 is installed on the front portion of the supporting frame 200 so that the blade 13 can be inserted into the bending portion R2 of the sliding panel 420. Accordingly, The upper portion of the blade 13 is inserted and supported by the bent portion R2 of the sliding panel 420 as shown in Figure 5 so that the operation of coupling the blade 13 to the hub 11a Can proceed quickly and stably.

Meanwhile, the sliding panel 420 is installed horizontally on the bracket 410. In this case, when the sliding panel 420 is horizontally moved, the blade 13 inserted in the bent portion R2 is pushed by the sliding panel 420 and moves backward and is rotated at a predetermined angle. Therefore, it is possible to adjust the horizontal position and the coupling angle of the blade 13 using the sliding panel 420 so that the blade can be accurately engaged with the hub.

A pair of guide rails 411 are installed on the bracket 410 for horizontally moving the sliding panel 420 and the guide rails 411 are inserted into the lower left and right sides of the sliding panel 420 A pair of rail grooves 421 are formed.

A process of coupling the blade 13 to the hub 11a using the blade mounting apparatus for a wind turbine according to the present invention will now be described.

3, the first wire 310 is loosened from the drum 320 installed on the front portion of the jig 100, and then the windings of the wind power generators 11, And connected to the top of the blade (13).

When the first fastening plate 510 is coupled to the blade 13, the first fastening plate 510 is coupled to the upper portion of the blade 13, and then the first fastening plate 510 is fastened to the first fastening plate 510. [ (510).

Next, the second wire 610 is released from the crane 600 and connected to the lower portion of the blade 13.

When the second fastening plate 520 is coupled to the blade 13, the second fastening plate 520 is first joined to the lower portion of the blade 13, and then the second fastening plate 520 is joined to the second fastening plate 520 520).

Next, the drum 320 is rotated to wind the first wire 310 and the length of the second wire 610 extending from the crane 600 is adjusted so that the blade 13 rises While standing upright.

Next, the blade 13 is continuously lifted so that the upper portion of the blade 13 is inserted into the bent portion R2 of the sliding panel 420 as shown in Fig. When the upper portion of the blade 13 is inserted into the bent portion R2 of the sliding panel 420 as described above, the blade 13 is naturally positioned vertically above the hub 11a.

The horizontal position of the blade 13 and the blade are coupled to the hub 11a by horizontally moving the sliding panel 420 at the bracket 410 and pushing the blade 13 inserted in the bend R2 Adjust the angle.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: wind turbine generator 11: nacelle
12: support 13: blade
100: Jig 110: Body plate
120: holders 121 and 122: first and second pressure plates
123, 124: first and second piston devices 130: vertical plates
200: supporting frame 300: lifting device
310: first wire 320: drum
400: mounting device 410: bracket
411: Guide rail 420: Sliding panel
421: rail grooves 510, 520: first and second fastening plates
600: Crane 610: Second wire
C: incision section R1, R2: bent section

Claims (11)

A jig enclosing a wind turbine support vertically coupled to a lower surface of a nacelle while accommodating a nacelle of the wind turbine generator;
A supporting frame for supporting the lower surface of the jig;
A lifting device installed on the jig and lifting the blade of the wind power generator by a hub formed on a front side of the nacelle; And,
And a mounting device installed on the supporting frame to surround an upper portion of the blade lifted by the lifting device. The method according to claim 1,
The jig,
A main plate having a cut-out portion on one side thereof for receiving the support; And,
And a holder installed on an upper surface of the main plate to surround the outer surface of the strut when the strut is received in the incision. 3. The method of claim 2,
Wherein the holder comprises:
First and second pressure plates respectively surrounding left and right outer sides of the strut; And,
And a first and a second piston device for pushing or pulling the first and second pressure plates horizontally. The method according to claim 1,
The lifting device comprises:
A first wire connected to the blade; And,
And a drum installed at a front portion of the jig for winding the first wire. 5. The method of claim 4,
A first fastening plate to which the first wire to be loosened in the drum is coupled is coupled to an upper portion of the blade,
And a second fastening plate to which a second wire to be released from the crane is coupled is coupled to a lower portion of the blade. The method of claim 3,
The lifting device comprises:
A first wire connected to the blade; And,
And a pair of drums disposed on left and right sides of the front surface of the first and second pressure plates or the front surface of the main plate to wind the first wires. The method according to claim 1,
The mounting device includes:
A bracket fixedly installed on a front portion of the supporting frame; And,
And a sliding panel horizontally movably installed on the bracket and having a bent portion at a front end thereof to insert the blade. 8. The method of claim 7,
The bracket is provided with a pair of guide rails,
And a pair of rail grooves into which the guide rails are inserted, respectively, are formed on both left and right sides of the lower portion of the sliding panel. Connecting a first wire that is unwound from a drum installed in a front portion of a jig supporting a nacelle bottom to an upper portion of a blade of the wind power generator;
Connecting a second wire released from the crane to the lower portion of the blade;
Rotating the drum to wind the first wire and adjusting the length of the second wire extending from the crane so that the blade is raised and vertically erected;
So that the upper portion of the blade is inserted into the bent portion of the sliding panel provided on the front portion of the supporting plate supporting the lower surface of the jig. And,
And adjusting the horizontal position of the blade and the angle at which the blade is coupled to the hub by horizontally moving the sliding panel and pushing the blade inserted in the bent portion. 10. The method of claim 9,
The step of connecting the first wire to the top of the blade comprises:
Coupling a first fastening plate to an upper portion of the blade; And,
And connecting the first wire to the first fastening plate. 10. The method of claim 9,
And connecting the second wire to the lower portion of the blade,
Coupling a second fastening plate to a lower portion of the blade; And,
And connecting the second wire to the second fastening plate.

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