KR20150059584A - Installing apparatus for wind power generator and installing mehtod for wind power generator using the same - Google Patents

Abstract

The present invention relates to a wind power generator installing device and a wind power generator installing method and, more specifically, relates to a wind power generator installing device and a wind power generator installing method capable of rapidly and safely installing a high-capacity wind power generator on the sea or ground. According to the present invention, the wind power generator installing device comprises: a pair of supporting frames having a top surface whereon a nacelle of the wind power generator is seated; stand frames installed in both sides of the supporting frame at a predetermined height; supporting plates fixated on the top surfaces of the stand frames, and positioned on the upper side of the supporting frames; and lifting devices installed in the supporting plates and vertically moving the supporting frames. In addition, the wind power generator installing method in accordance to the present invention comprises: a step of seating the nacelle of the wind power generator on the top surfaces of the supporting frames; a step of installing stand guides having a predetermined height on both sides of the supporting frames; a step of seating the supporting frames on the top surface of both sides of the stand guides; a step of installing the stand frames at a predetermined height by successively joining a plurality of stand cells transferred to the insides of the stand guides to the lower sides of the supporting plates; and a step of installing the lifting device vertically moving the supporting frames to the supporting plates; a step of successively joining the plurality of post cells transferred to the right lower sides of the supporting frames to an underside of the nacelle while vertically moving the supporting frames using the lifting device.

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wind turbine installation device and a wind turbine installation method using the same, and more particularly, to a wind turbine installation device capable of installing a large capacity wind turbine at sea or on the ground quickly and safely, and a wind turbine installation method using the same .

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.

The wind turbine generator consists of three parts: a nacelle (generator body), a blade (propeller) and a tower (tower). The nacelle, the blade, and the pillar are separated and assembled by a crane or the like.

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 order to solve the above problems, the present invention provides a wind turbine comprising: a pair of support frames on which a nose of a wind turbine is mounted; A stand frame installed at left and right sides of the support frame so as to have a predetermined height; A supporting plate fixed to the upper end of the stand frame and positioned above the supporting frame; And a lifting device installed on the supporting plate to vertically move the pair of support frames.

Here, the lifting device may include a wire having one end connected to the support frame and the other end extending to the outside through the supporting plate; And an actuator installed on the supporting plate to wind or unwind the wire to vertically move the support frame.

The stand frame includes a plurality of stand cells sequentially coupled to each other, and stand guides for assembling the stand cells are installed on both sides of the support frame.

The stand guide is provided with a stand lift for lifting a plurality of stand cells to be transferred and assembling a plurality of stand cells sequentially.

In addition, a jig assembly for fixing the support of the wind power generator, which is coupled to the lower surface of the nose cell, is provided directly below the support frame.

The jig assembly includes a guide frame installed at a predetermined height; And a jig provided on the guide frame for holding and fixing the outer surface of the support which is transferred into the guide frame.

The jig is provided with a pressure plate for adjusting the horizontal position of the post by pushing the left or right side of the post.

Here, a circular hole is formed in the center of the jig to receive the support, and a rotary plate for opening and closing the circular hole is installed on one side of the jig.

In addition, a guide rail extending from the outside to the inside of the guide frame is provided at one side of the jig assembly, and a moving block moving along the guide rail when the support is mounted on the upper surface.

According to another aspect of the present invention, there is provided a wind turbine comprising: a support frame; Providing a stand guide having a predetermined height on both left and right sides of the support frame; Placing the supporting plates on the left and right upper sides of the stand guide, respectively; Providing a lifting device for vertically moving the support frame on the supporting plate; Mounting a plurality of stand cells, each of which is individually transferred to the inside of the stand guide, to a lower portion of the supporting plate, thereby installing a stand frame having a predetermined height; And a step of vertically moving the support frame using the lifting device, and sequentially coupling a plurality of support cells, which are transported to the lower portion of the support frame, to the lower surface of the nacelle, .

In the step of installing the stand frame, lifting up the stand cell, which is first transferred to the inside of the stand guide, to the lower surface of the supporting plate; And repeating a process of lifting the combined stand cell and the supporting plate together and then coupling another stand cell to the lower portion of the stand cell.

The step of installing the lifting device may include the steps of fixing a wire to one end of the support frame and extending to the outside through the supporting plate at the other end; And installing an actuator for vertically moving the support frame by winding or loosening the wire on the upper surface of the supporting plate.

According to another aspect of the present invention, there is provided a method of installing a wind turbine, the method comprising: moving a support frame vertically upward by using the lifting device to fix a support cell that is transported directly under the support frame; And installing a jig that covers the outer surface of the holding cell.

The joining of the support cell to the lower surface of the nacelle may include vertically lifting the support frame using the lifting device. Transferring the holding cells to a position directly under the support frame; Coupling the support cell to the lower surface of the nose cell which is seated on the upper surface of the support frame by vertically lowering the support frame using the lifting device; Elevating the support frame vertically to raise the nose cell and the support cell together, and then transferring the other support cell directly under the support frame; And vertically lowering the support frame again to join the other support cells to the lower surface of the support cell.

In the wind turbine installation device and the installation method of the present invention, the support frame on which the nacelle is mounted is vertically moved using a lifting device without lifting the nacelle directly by using a crane, so that the nacelle can be vertically moved. Therefore, the assembly of the wind turbine generator can be stably and quickly performed, and the influence of external factors such as wind can be minimized.

1 is a view showing the overall structure of a wind turbine installation apparatus according to the present invention.
2 is a view showing a state in which an operation of placing a noselle of a wind power generator on an upper surface of a support frame according to the present invention is performed.
FIG. 3 is a view showing a state in which a blade is assembled to the nose of FIG. 2. FIG.
4 is a view showing a state in which stand guides according to the present invention are installed on both sides of the support frame.
5 to 8 are views showing a process in which the stand cell according to the present invention is continuously assembled to a lower portion of a supporting plate.
9 is a view showing a state in which the support frame is vertically moved by the lifting apparatus according to the present invention.
10 and 11 are views showing a process of sequentially assembling the holding cells on the lower surface of the nacelle using the lifting apparatus according to the present invention.

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.

1 is a view showing the overall structure of a wind turbine installation apparatus according to the present invention.

1, the apparatus for installing a wind turbine according to the present invention includes a support frame 100, a stand frame 200, a supporting plate 300, and a lifting device 400. As shown in FIG.

The support frame 100 is installed to face each other with a predetermined interval so as to stably support the nacelle 10 of the wind turbine placed on the upper surface. The support frame 100 may be made of a steel sheet or a steel beam having a predetermined length and thickness.

The stand frame 200 is installed on both left and right sides of the support frame 100 to have a predetermined height. The stand frame 200 supports the load of the wind power generator when the lifting device 400 lifts the support frame 100 to vertically move the nugget 10 of the wind power generator, It is preferable that a plurality of frames are provided on both sides of the frame 100.

Although the stand frame 200 may be formed as a single body, since the stand frame 200 is typically several tens of meters in length, a plurality of stand cells 210 are combined.

On the other hand, stand guides 500 are installed on both sides of the support frame 100. The stand guide 500 allows the stand frame 200 to be accurately installed at a predetermined position and prevents a safety accident that may occur during the installation process.

When the stand frame 200 is formed by combining a plurality of stand cells 210 as described above, the stand cell 210 is sequentially transferred to the stand guide 500, And assembled therein.

To this end, the stand guide 500 is provided with a stand lift 510 for lifting up the stand cell 210 and assembling the plurality of stand cells 210 in order.

The stand lift 510 pushes up the stand cell 210 upward when the plurality of stand cells 210 are transferred to the inside of the stand guide 500 by the forklift L or the like, 6 and 7). To this end, a separate fastening part (not shown) may be formed at one side of the stand cell 210 to engage with the stand lift 510. As shown in FIG. It is preferable that a plurality of stand lifts 510 are installed inside the stand guide 500 so that the stand cell 210 can be steadily pushed up. The process of assembling the stand cell 210 using the stand lift 510 will be described in detail below.

The supporting plate 300 is fixed to the upper end of the stand frame 200. Since the stand frame 200 is installed higher than the support frame 100, the supporting plate 300 installed at the upper end of the stand frame 200 is naturally located on the upper side of the support frame 100.

The lifting device 400 is installed on the supporting plate 300 to vertically move the pair of support frames 100. When the support frame 100 is vertically moved using the lifting device 400, the nocelle 10 naturally seated on the support frame 100 is vertically moved. Therefore, the nocelle 10 is lifted, It is possible to quickly and stably carry out the operation of coupling the column 20 to the lower surface of the column.

Generally, the wind turbine generator is assembled by lifting the nacelle 10 using a crane and then joining the support 20 to the lower surface of the nacelle 10. However, as the size of the wind turbine increases, the operation of lifting the nacelle (10) using the crane exceeding hundreds of tons of nacelle (10) is time consuming and the risk of safety accidents is high. I can not proceed.

However, according to the present invention, since the support frame 100 on which the nacelle 10 is mounted is vertically moved using the lifting device 400 without vertically moving the nacelle 10 directly, It is possible to minimize the influence of external environment such as wind.

The lifting device 400 includes a wire 410 having one end connected to the support frame 100 and the other end extending to the outside through the supporting plate 300, And an actuator 420 for vertically moving the support frame 100 by winding or loosening the wire 410.

When the actuator 420 winds the wire 410, the supporting frame 100 moves vertically upward to lift the nugget 10 of the wind power generator. On the other hand, when the actuator 420 releases the wire 410, The frame 100 moves vertically downward and the nucelle 10 of the wind power generator is lowered.

Although not shown, a winding device for winding the wire 410 and a clamping device for fixing the wire 410 are installed in the actuator 420 so that the length of the wire 410 can be accurately controlled.

A jig assembly 600 is provided in the lower portion of the support frame 100 to fix the support 20 of the wind power generator and to stably assemble the support 20 on the lower surface of the nacelle 10.

The jig assembly 600 includes a guide frame 610 installed at a predetermined height and a jig for mounting and fixing the outer surface of the support 20 installed in the guide frame 610, 620).

11) is formed at a central portion of the jig 620 to accommodate the column 20 and a column 20 is formed at one side of the jig 620 in a circular hole 621 A rotary plate 622 for opening and closing the circular hole 621 is provided.

The pivot plate 622 rotates to open the circular hole 621 and then the pillar 20 is inserted into the circular hole 621 The rotary plate 622 is returned to its original position by rotation and closes the circular hole 621. When this process is completed, the strut 20 is wrapped around the outer surface by the jig 620 and is fixed in a position directly under the nacelle 10.

When the support 20 is fixed by the jig 620 as described above, the nu- cle 10 is vertically lowered using the lifting device 400 as described above, (See Fig. 10).

Since the nacelle 10 is vertically moved only by the lifting device 400, the support 20 must be accurately fixed at a predetermined position in order to accurately couple the support 20 to the lower surface of the nacelle 10.

The jig 620 may be provided with a pressing plate 630 that can adjust the horizontal position of the support pillars by pushing the left or right side of the column 20 accommodated in the circular hole 621. The pressure plate 630 may be installed only one as needed, or a pair of the pressure plates 630 may be provided facing each other so as to push the left and right sides of the column 20, respectively.

Meanwhile, the support column 20 may be formed as a single body. However, since the support frame 20 has a length of several tens of meters, like the stand frame 200, a plurality of support cells 21 are combined. In this case, the plurality of support cells 21 are sequentially transferred and assembled to the support frame 100 directly below.

In order to transfer the holding cell 21, a holding conveyance unit 700 is installed on one side of the jig assembly 600. The support conveyor 700 includes a guide rail 710 extending from the outside to the inside of the guide frame 610 and a movable block 720 moving along the guide rail 710 when the support 20 is mounted on the upper surface. ).

The wind turbine installation apparatus according to the present invention can be installed on the ground to be used for installation of onshore wind turbine generators, and also for installing offshore wind turbine generators when installed on a ship.

A process of installing the wind turbine generator using the wind turbine generator according to the present invention will now be described.

FIG. 2 is a view showing a state where a nose cell of a wind turbine is placed on a top surface of a support frame according to the present invention, and FIG. 3 is a view showing a state where a blade is assembled in the nose cell of FIG.

First, as shown in FIG. 2, the nacelle 10 of the wind power generator is placed on the upper surface of a pair of support frames 100, which are placed on the ground or on the upper surface of the hull at regular intervals. This is done by using a crane or a height-controlled trailer (T).

Next, the blade 30 is installed on the nacelle 10 which is seated on the support frame 100 as shown in Fig. Generally, three blades 30 are installed on the nacelle 10 at intervals of 120 degrees. However, since the support frame 100 is placed on the ground or the upper surface of the ship and is at a low position, only the two blades 30 are installed in the nacelle 10, Respectively.

4 is a view showing a state in which stand guides according to the present invention are installed on both sides of the support frame.

Next, as shown in FIG. 4, a stand guide 500 having a predetermined height is installed on both left and right sides of the support frame 100.

5 to 8 are views showing a process in which the stand cell according to the present invention is continuously assembled to a lower portion of a supporting plate.

Next, as shown in FIG. 5, the supporting plates 300 are seated on the left and right upper surfaces of the stand guide 500, respectively. The supporting plate 300 is lifted by a crane or the like and is seated on the upper surface of the stand guide 500.

5 to 8, a plurality of stand cells 210, which are respectively transported into the stand guide 500 by the forklift L or the like, are sequentially disposed under the supporting plate 300 So that the stand frame 200 having a constant height is installed.

5, the stand cell 210, which is first transferred to the inside of the stand guide 500 by the forklift L, is lifted up as shown in FIG. 6, and the lower surface of the supporting plate 300 Lt; / RTI > Next, as shown in FIGS. 7 and 8, the assembled stand cell 210 and the supporting plate 300 are lifted together, and then the process of coupling the stand cell 210 to the lower portion of the stand cell 210 is repeated So that the stand frame 200 having a predetermined height is installed.

Here, the lifting operation of the stand cell 210 is performed by the stand lift 510 installed in the stand guide 500.

9 is a view showing a state in which the support frame is vertically moved by the lifting apparatus according to the present invention.

Next, as shown in FIG. 9, a lifting device 400 for vertically moving the support frame 100 is installed on the supporting plate 300.

The process of installing the lifting device 400 includes the steps of fixing one end of the wire 410 to the support frame 100 and the other end of the wire 410 passing through the supporting plate 300 and extending to the outside, And installing an actuator 420 for vertically moving the support frame 100 by winding or loosening the wire 410 on the upper surface of the plate 300.

Here, the lifting device 400 may be installed on the upper surface of the supporting plate 300 before the installation of the stand frame 200.

5 to 8, the operation of sequentially coupling the stand cell 210 to the lower portion of the supporting plate 300 is performed after the lifting device 400 is installed on the upper surface of the supporting plate 300, The stand lift 510 lifts the lifting device 400 as well as the stand cell 210 and the supporting plate 300 during the assembling of the stand cell 210.

The work of installing the lifting device 400 is performed by placing a worker 410 and an actuator 420 on the upper surface of the supporting plate 300 using a crane and then moving the worker on the upper surface of the supporting plate 300. Therefore, if the stand cell 210 is assembled on the lower surface of the supporting plate 300 to increase the height of the supporting plate 300 as shown in FIG. 8, it is difficult to install the lifting device 400, It is preferable to install the lifting device 400 on the upper surface of the supporting plate 300 before the work.

10 and 11 are views showing a process of sequentially assembling the holding cells on the lower surface of the nacelle using the lifting apparatus according to the present invention.

10, the guide frame 610 and the holding cells (not shown) are disposed directly below the support frame 100, as shown in FIG. 10, after the support frame 100 is vertically moved upward using the lifting device 400 A jig 620 is provided to surround the outer surface of the main body 21. Here, the jig 620 may further include a pressure plate 630 for adjusting the horizontal position of the holding cell 21. [

10 and 11, the support frame 100 is vertically moved by using the lifting device 400, and the support frame 100 is supported by the holding cells (not shown) of the wind power generator, 21 to the lower surface of the nacelle 10 in order.

The process of sequentially coupling the supporting cells 21 to the lower surface of the nacelle 10 will be described in more detail as follows.

10, when the holding cell 21 is mounted on the moving block 720 and is conveyed along the guide rail 710 to the lower portion of the supporting frame 100, the holding cell 21 is moved by the jig 620, .

Next, the support frame 100 is moved vertically downward by using the lifting device 400 to bring the upper end of the support cell 21 into contact with the lower surface of the nacelle 10, Thereby joining the cell 21.

Next, as shown in FIG. 11, the support frame 100 is lifted up vertically to raise the nucelle 10 and the support cell 21 together, and then the next support cell 21 is fixed by the jig 620 do.

Next, the supporting frame 100 is vertically lowered again, and the other supporting cells 21 are engaged with the lower surface of the supporting cell 21. This operation is repeated several times according to the number of the holding cells 21. [

When the support 20 having a predetermined height is coupled to the lower surface of the nacelle 10 through the above process, a third blade (not shown) is finally installed in the nacelle 10.

When the wind turbine installation work is completed through the above process, the wind turbine installation apparatus according to the present invention can be disassembled and used for installation of other wind turbines.

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: Nacelle 20: The landlord
21: holding cell 30: blade
100: support frame 200: stand frame
210: Stand cell 300: Supporting plate
400: lifting device 410: wire
420: Actuator 500: Stand guide
510: stand lift 600: jig assembly
610: guide frame 620: jig
621: circular hole 630: pressure plate
700: Support conveying part 710: Guide rail
720: Moving Block T: Trailer
L: Forklift

Claims (14)

A pair of support frames on which an nose of a wind turbine generator is mounted on an upper surface thereof;
A stand frame installed at left and right sides of the support frame so as to have a predetermined height;
A supporting plate fixed to the upper end of the stand frame and positioned above the supporting frame; And,
And a lifting device installed on the supporting plate for vertically moving the pair of support frames. The method according to claim 1,
The lifting device comprises:
A wire having one end connected to the support frame and the other end extending outwardly through the supporting plate; And,
And an actuator installed on the supporting plate to wind or unwind the wire to vertically move the support frame. The method according to claim 1,
The stand frame is formed by sequentially stacking a plurality of stand cells,
And a stand guide for assembling the stand cell is installed on both left and right sides of the support frame. The method of claim 3,
Wherein the stand guide is provided with a stand lift for lifting a plurality of stand cells to be transferred and assembling a plurality of stand cells sequentially. The method according to claim 1,
And a jig assembly for fixing a strut of the wind power generator coupled to the lower surface of the nacelle is provided directly below the support frame. 6. The method of claim 5,
The jig assembly includes:
A guide frame installed at a predetermined height; And,
And a jig installed on the guide frame to surround and fix the outer surface of the struts that are fed into the guide frame. The method according to claim 6,
Wherein the jig is provided with a pressure plate for pressing the left or right side of the pillar to adjust the horizontal position of the pillar. The method according to claim 6,
A circular hole is formed in the center of the jig for receiving the support,
Wherein a rotary plate for opening and closing the circular hole is installed at one side of the jig. 6. The method of claim 5,
Wherein the jig assembly is provided with a guide rail extending from the outside to the inside of the guide frame and a moving block moving along the guide rail when the pillar is loaded on the top surface. Placing a nugget of a wind turbine on an upper surface of a pair of support frames;
Providing a stand guide having a predetermined height on both left and right sides of the support frame;
Placing the supporting plates on the left and right upper sides of the stand guide, respectively;
Providing a lifting device for vertically moving the support frame on the supporting plate;
Mounting a plurality of stand cells, each of which is individually transferred to the inside of the stand guide, to a lower portion of the supporting plate, thereby installing a stand frame having a predetermined height; And,
And vertically moving the support frame using the lifting device while sequentially coupling a plurality of support cells, which are transported to a lower portion of the support frame, to the lower surface of the nacelle. 11. The method of claim 10,
The step of installing the stand frame includes:
Lifting up the stand cell which is first transferred to the inside of the stand guide and engaging with the lower surface of the supporting plate; And,
And repeating the step of lifting the combined stand cell and the supporting plate together and then joining the stand cell to the lower part of the stand cell. 11. The method of claim 10,
Wherein the step of installing the lifting device comprises:
Providing a wire having one end fixed to the support frame and the other end passing through the supporting plate and extending to the outside; And,
And installing an actuator for vertically moving the support frame by winding or loosening the wire on the upper surface of the supporting plate. 11. The method of claim 10,
A supporting frame is vertically moved upward by using the lifting device to fix the supporting cell which is transported to the lower portion of the supporting frame, and a guide frame and a jig which surrounds the outer surface of the supporting cell are disposed directly below the supporting frame And installing the wind turbine in the wind turbine. 11. The method of claim 10,
The step of coupling the support cell to the lower surface of the nacelle includes:
Vertically lifting the support frame using the lifting device;
Transferring the holding cells to a position directly under the support frame;
Coupling the support cell to the lower surface of the nose cell which is seated on the upper surface of the support frame by vertically lowering the support frame using the lifting device;
Elevating the support frame vertically to raise the nose cell and the support cell together, and then transferring the other support cell directly under the support frame; And,
And vertically lowering the support frame again to connect the other supporting cells to the lower surface of the supporting cell.

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