KR20160011404A - Ship for installing wind power generator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ship for installing an offshore wind power generator, and more particularly, to a ship for installing an offshore wind power generator on which an offshore wind power generator can be installed quickly and stably.
The ship for installing a offshore wind power generator according to the present invention includes: a hull having a through hole for installing an offshore wind power generator; First and second guide posts disposed on opposite sides of the through hole opposite to each other; First and second lifting plates installed opposite to the first and second guide posts with a predetermined gap therebetween and vertically moving along the first and second guide posts; First and second connecting wires, one end of which is connected to the first and second lifting plates, and the other end of which is connected to an outer surface of the strut of the offshore wind power generator which is transferred between the first and second guide posts; When the first and second connecting wires installed on the first and second guide posts are connected to the strut outer surface of the offshore wind power generator, the first and second lifting plates are vertically moved to connect the off- And a first and second lifting device vertically moving between the posts.

Description

[0001] SHIP FOR INSTALLING WIND POWER GENERATOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ship for installing an offshore wind power generator, and more particularly, to a ship for installing an offshore wind power generator on which an offshore wind power generator can be installed quickly and stably.

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 offshore wind power generator is transported to the place where it will be installed using the ship, and construction is carried out. These offshore wind turbines consist of three parts: Tower, Nacelle, and Blade, which are the body of generator, and they are assembled according to size and load stability, It may be assembled at the installation site.

However, since the size of the offshore wind turbine increases with the increase of the capacity of the offshore wind turbine generator, various devices such as a tool for vertically setting the offshore wind turbine on the hull and a crane for moving the construction site are separately installed In general, the size of the ship is very large, which increases the cost of constructing the ship, and there is a risk that a large accident occurs.

Accordingly, it is required to develop a ship for installing a offshore wind power generator capable of mounting the offshore wind power generator on a hull so as to be stably moved to a construction site, and capable of installing a offshore wind power generator precisely and quickly.

In order to solve the above-mentioned problems, the present invention provides a wind turbine comprising: a hull having a through hole for installing an offshore wind power generator; First and second guide posts disposed on opposite sides of the through hole opposite to each other; First and second lifting plates installed opposite to the first and second guide posts with a predetermined gap therebetween and vertically moving along the first and second guide posts; First and second connecting wires, one end of which is connected to the first and second lifting plates, and the other end of which is connected to an outer surface of the strut of the offshore wind power generator which is transferred between the first and second guide posts; When the first and second connecting wires installed on the first and second guide posts are connected to the strut outer surface of the offshore wind power generator, the first and second lifting plates are vertically moved to connect the off- And a second lifting device for vertically moving the first and second lifting devices between the posts.

The first and second lifting devices include first and second lifting wires extending from upper ends of the first and second guide posts and connected to the first and second lifting plates, respectively. The first and second actuators are installed at the upper ends of the first and second guide posts to vertically move the first and second lifting plates by winding or loosening the first and second lifting wires.

First and second guide holes are formed in the longitudinal direction of the first and second guide posts and first and second cutouts are formed on one side of the first and second guide posts to communicate with the first and second guide holes. And first and second fastening portions inserted into the first and second guide holes are protruded from one side of the two lifting plate through the first and second incisions.

In this case, the first and second lifting devices include first and second lifting wires inserted into the first and second guide holes and connected to the first and second fastening portions, respectively. And first and second actuators provided on the upper ends of the first and second guide posts to vertically move the first and second fastening portions in the first and second guide holes by winding or loosening the first and second lifting wires .

According to another aspect of the present invention, there are provided first and second guide frames disposed on opposite sides of the first and second guide posts, respectively; First and second supporting plates disposed at the lower portions of the first and second guide posts to face each other with a predetermined gap therebetween; The first and second guide frames are disposed between the first and second guide frames and horizontally move to the upper surface of the first and second supporting plates between the first and second guide frames to support the marine wind power generator, And a first jig for placing the first jig in the hall-standing room.

The horizontal wind power generator is disposed between the first and second guide frames to surround the outer surface of the pillar of the offshore wind power generator and horizontally moves between the first and second guide frames to the upper surface of the first and second lifting plates, And a second jig for positioning the first jig in the room.

A pair of first guide rails for horizontally moving the first jig are provided at lower ends of the first and second guide frames, and a pair of second guide rails connected to the first guide rails are formed on the upper surfaces of the first and second supporting frames. A pair of first auxiliary rails is provided.

The first and second guide frames are provided with a pair of second guide rails for horizontally moving the second jig, and the upper surfaces of the first and second lifting plates are connected to the second guide rails A pair of second auxiliary rails are provided.

Here, a first clamping device is installed on the upper surface of the first jig to horizontally move the outer side of the lower end of the offshore wind power generator when the supporting surface of the offshore wind power generator is laid, And a pair of rotation plates for opening and closing the space portion are provided on one side surface thereof.

The upper surface of the second jig is provided with a second clamping device for horizontally moving the wind turbine when the strut of the offshore wind power generator is accommodated in the space, thereby enclosing the strut outer surface of the offshore wind power generator.

In the present invention, when the first and second connecting wires installed on the first and second lifting plates are connected to the outer surface of the strut of the offshore wind power generator, one end of the first and second connecting wires is wound or loosened, And a third and fourth lifting device for vertically moving the first and second guide posts between the first and second guide posts.

According to another aspect of the present invention, there is provided a wind turbine comprising: a hull having a through hole for installing an offshore wind power generator; First and second guide posts disposed on opposite sides of the through hole opposite to each other; First and second lifting plates disposed opposite to the first and second guide posts at regular intervals; First and second connecting wires, one end of which is connected to the first and second lifting plates, and the other end of which is connected to an outer surface of the strut of the offshore wind power generator which is transferred between the first and second guide posts; When the first and second connecting wires installed on the first and second lifting plates are connected to the outer surface of the strut of the offshore wind turbine generator, one end of the first and second connecting wires is wound or loosened, And a third and fourth lifting device for vertically moving the two guide posts between the two guide posts.

The ship for installing a offshore wind power generator according to the present invention can stably mount a plurality of offshore wind power generators on a ship.

In addition, the ship for installing a offshore wind power generator according to the present invention rapidly moves an offshore wind power generator from a hull to a construction site by using a jig, and vertically moves an offshore wind power generator by using a lifting device, so that installation work can be rapidly performed.

1 to 3 are views showing the overall structure of a ship for installing an offshore wind power generator according to the present invention.
4 is a perspective view showing in more detail the coupling structure of the first and second guide posts and the first and second lifting plates according to the present invention.
5 to 8 are views showing a process of installing an offshore wind power generator on the sea using a ship for installing a offshore wind power generator according to the present invention.

Hereinafter, preferred embodiments of the present invention in which the above objects can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and additional description thereof will be omitted in the following.

1 to 3 are views showing the overall structure of a ship for installing an offshore wind power generator according to the present invention.

1 to 3, a ship for installing a marine wind power generator according to the present invention includes a ship 100, first and second guide posts 200 and 300, first and second lifting plates 400 and 500, 1 and 2 connecting wires W1 and W2, and first and second lifting devices 600 and 700, respectively.

The hull 100 may be formed in various shapes as a main body of the ship. For example, the hull 100 may be formed in a rectangular shape in which four corners are gently cut.

The hull 100 is provided with a through hole H for installing an offshore wind power generator 10 (see Fig. 5) constituted by a strut 11, a nucelle 12 and a blade 13, respectively. Of course, not only the offshore wind power generator 10 is installed through the through hole H but also a mono-plate, a jacket, and a tri-file installed in advance on the seabed and coupled with the offshore wind power generator 10 A basic file F (see FIG. 5) such as a Tripile may also be installed through the through hole H.

The first and second guide posts 200 and 300 are installed on both sides of the through hole H so as to face each other. The first and second guide posts 200 and 300 serve as supports when lifting the offshore wind power generator 10 using the first and second lifting devices 600 and 700 to be described in detail below. A plurality of holes may be provided on both left and right sides of the through hole H so as to stably support the load of the through hole H. For example, as shown in FIG. 3, the first and second guide posts 200 and 300 may be installed on the left and right sides of the through hole H, respectively.

The first and second lifting plates 400 and 500 are vertically movable to the first and second guide posts 200 and 300, respectively.

4 is a perspective view showing in more detail the coupling structure of the first and second guide posts and the first and second lifting plates according to the present invention.

4, first and second guide holes 210 and 310 are longitudinally formed in the first and second guide posts 200 and 300, and the first and second guide holes 200 and 300 are formed on one side of the first and second guide posts 200 and 300, 210 and 310 are formed in the first and second incisions 220 and 320, respectively.

The first and second fastening parts 410 and 510 are inserted into the first and second guide holes 210 and 310 through the first and second cutouts 220 and 320, respectively, at one side of the first and second lifting plates 400 and 500, Respectively.

Accordingly, the first and second fastening portions 410 and 510 are fastened to the first and second fastening portions 410 and 510 by using the first and second lifting devices 600 and 700 while the first and second fastening portions 410 and 510 are inserted into the first and second guide holes 210 and 310. [ The first and second lifting plates 400 and 500 are vertically moved by moving along the guide holes 210 and 310.

When four first and second guide posts 200 and 300 are installed, four first and second fastening portions 410 and 510 are formed on the first and second lifting plates 400 and 500, respectively.

The first and second connecting wires W1 and W2 are connected to the first and second lifting plates 400 and 500 at one end and the other end is supported between the first and second guide posts 200 and 300, (See Fig. 6).

The first and second connecting wires W1 and W2 extend from the lower surface of the first and second lifting plates 400 and 500 when the offshore wind power generator 10 is positioned between the first and second guide posts 200 and 300. [ And is connected to the outer surface of the support 11 of the offshore wind power generator.

Accordingly, the first and second lifting plates 400 and 500 and the offshore wind power generator 10 are connected to each other by the first and second connecting wires W1 and W2. Therefore, the first and second lifting devices 400 and 500, When the plates 400 and 500 are vertically moved together with the first and second connecting wires W1 and W2, the offshore wind power generator 10 vertically moves between the first and second guide posts 200 and 300 Reference)

The first and second connecting wires W1 and W2 are connected to the lower end portion of the offshore wind power generator 10 so as to allow stable lifting and lowering of the offshore wind power generator 10 between the first and second guide posts 200 and 300, To the flange portion 11a formed on the outer surface of the lower end portion of the offshore wind power generator 10 in order to engage with the flange portion F of the offshore wind power generator 10. Of course, although not shown, it is also possible to form a separate annular portion capable of connecting the first and second connecting wires W1 and W2 to the outer surface of the offshore wind turbine generator 10.

The first and second lifting devices 600 and 700 vertically move the first and second lifting plates 400 and 500 to allow the vertical movement of the offshore wind power generator 10 between the first and second guide posts 200 and 300.

The first and second lifting devices 600 and 700 are installed on the first and second guide posts 200 and 300 so that the first and second connecting wires W1 and W2 are supported by the support 11 of the offshore wind power generator, The vertical movement of the first and second lifting plates 400 and 500 causes the vertical wind power generator 10 to vertically move between the first and second guide posts 200 and 300. [

The first and second lifting devices 600 and 700 include first and second lifting wires 610 and 710 and first and second actuators 620 and 720.

The first and second lifting wires 610 and 710 extend from the upper ends of the first and second guide posts 200 and 300 and are respectively connected to the first and second lifting plates 400 and 500. The first and second actuators 620 and 720 The first and second lifting wires 400 and 500 are vertically moved by winding or loosening the first and second lifting wires 610 and 710 respectively at the upper ends of the first and second guide posts 200 and 300.

When the first and second fastening portions 410 and 510 are formed on the first and second lifting plates 400 and 500 as described above, the first and second lifting wires 610 and 710 are inserted into the first and second guide holes 210 and 310, And are connected to the first and second fastening portions 410 and 510, respectively.

Accordingly, when the first and second actuators 620 and 720 wind or unwind the first and second lifting wires 610 and 710, the first and second coupling parts 410 and 510 vertically move along the first and second guide holes 210 and 310 The vertical movement of the first and second lifting plates 400 and 500 is achieved.

Of course, the structure of the first and second lifting devices 600 and 700 is not limited thereto, and various modifications are possible. For example, the first and second lifting devices 600 and 700 may be implemented as a hydraulic piston device installed on the hull 100 and pushing the lower surfaces of the first and second lifting plates 400 and 500 upward.

The first and second lifting plates 400 and 500 may be provided with third and fourth lifting devices L1 and L2 for winding or unwinding first and second connecting wires W1 and W2.

In this case, the first and second connecting wires W1 and W2 are connected to the offshore wind power generator 10 and then the first and second connecting wires W1 and W2 are connected to each other using the third and fourth lifting devices L1 and L2. The offshore wind power generator 10 is vertically lowered when the first and second connecting wings W1 and W2 are released.

The vertical movement of the offshore wind turbine generator 10 can be accomplished by vertically moving the first and second lifting plates 400 and 4500 using the first and second lifting devices 600 and 700 as described above, L1, and L2 of the first and second connecting wires W1 and W2. Of course, it is also possible to vertically move the offshore wind power generator 10 by simultaneously operating the first to fourth lifting devices 600, 700, L1, L2.

As the third and fourth lifting devices L1 and L2, various devices such as a winch, a hydraulic device, a strand jack, and the like can be used.

Meanwhile, it is possible to stably support the offshore wind turbine generator 10 mounted on the hull 100 during the operation of the ship, and to quickly move the offshore wind turbine generator 10 to the through hole H when the installation work is started The first and second guide frames 110 and 120 and the first jig 130 are installed on the hull 100 and the first and second supporting posts 800 and 900 are installed on the first and second guide posts 200 and 300 do.

The first and second guide frames 110 and 120 are installed on one side of the first and second guide posts 200 and 300 so as to face each other and accommodate therein an offshore wind power generator 10 mounted on the ship 100. The first and second guide frames 110 and 120 may be made of a steel frame structure in which the steel frames are connected to each other and a plurality of the first and second guide frames 110 and 120 may be installed along the upper surface of the ship 100 according to the number of the offshore wind power generators 10.

The first jig 130 is installed between the first and second guide frames 110 and 120 to support the lower surface of the strut 11 of the offshore wind power generator so that the offshore wind turbine generator 10 is supported by the first and second guide frames 110 and 120, So that a stable standing state is maintained.

The first jig 130 is installed horizontally between the first and second guide frames 110 and 120 so as to move the offshore wind turbine generator 10 to the through hole H. To this end, a pair of first guide rails 140 are installed between the first and second guide frames 110 and 120. The first guide rail 140 protrudes from the upper surface of the hull 100 and is coupled to the left and right sides of the lower surface of the first jig 130.

Therefore, when the first jig 130 is horizontally moved along the first guide rail 140 while supporting the lower surface of the pillar 11 of the offshore wind power generator, the offshore wind power generator 10 is rotated in the first and second guide frames 110 and 120, And moves toward the through hole (H).

The first and second supporting plates 800 and 900 are installed to face the first and second guide posts 200 and 300 at regular intervals.

The first and second supporting plates 800 and 900 are provided to allow the first jig 130 to move between the first and second guide posts 200 and 300 and to position the offshore wind turbine generator 10 in a straight- It plays a role.

To this end, a pair of first auxiliary rails (R1) connected to the first guide rails (140) are installed on the upper surfaces of the first and second supporting plates (800, 900). When the first jig 130 moves along the first guide rail 140 and the first auxiliary rail R1 and is positioned on the upper surface of the first and second supporting plates 800 and 900, The guide frames 110 and 120 are moved between the first and second guide posts 200 and 300 and positioned in the upper right room.

The third and fourth fastening portions 810 and 910 inserted into the first and second guide holes 210 and 310 are formed on one side of the first and second supporting plates 800 and 900 through the first and second cut portions 220 and 320, So that the first and second guide posts 200 and 300 are maintained in a fixed state during the process.

A second jig 150 is installed between the first and second guide frames 110 and 120 to surround the outer surface of the strut 11 of the offshore wind power generator.

When the lower surface of the strut 11 of the offshore wind power generator is supported by the first jig 130, the second jig 150 surrounds the outer surface of the strut 11 of the offshore wind power generator, The guide frames 110 and 120 can be stably stood upright.

3, a space C is formed at the center of the second jig 150 to accommodate the support, and a pair of rotation plates (not shown) (151).

The rotary plate 151 rotates from one side of the second jig 150 downward to be separated from each other to allow the offshore wind turbine generator 10 to be accommodated in the space C of the second jig 150, And surrounds the outer surface of the strut 11 of the offshore wind power generator accommodated in the space portion C.

The second jig 150 horizontally moves between the first and second guide frames 110 and 120 on the upper surfaces of the first and second lifting plates 400 and 500 to move the off- .

3, a pair of second guide rails 160 for horizontally moving the second jig 150 are installed on the first and second guide frames 110 and 120, A pair of second auxiliary rails R 2 and R 3 connected to the second guide rails 160 on the upper surfaces of the first and second lifting plates 400 and 500 for moving the second jig 150 to the upper surface of the first and second lifting plates 400 and 500, ) Is installed. Here, the second guide rails 160 may protrude from the upper surfaces of the pair of reinforcing plates S, which are installed on the first and second guide frames 110 and 120 so as to face each other.

The second jig 150 moves horizontally along the first and second guide rails 140 and 160 and the first and second auxiliary rails R1 and R2 together with the first jig 130, When the second jig 150 is positioned on the upper surface of the first and second lifting plates 400 and 500, the offshore wind power generator 10 is positioned between the first and second guide frames 110 and 120 And the first and second guide posts 200 and 300 to be positioned in the upper right chamber.

The second jig 150 may have a plurality of units at different heights. In this case, since the plurality of second jigs 150 surround the outer surface of the offshore wind turbine generator 10 at different heights, the offshore wind turbine generator 10 is more stably erected between the first and second guide frames 110 and 120 State.

The plurality of second jigs 150 can be horizontally moved simultaneously between the first and second guide frames 110 and 120 so that the offshore wind turbine generator 10 can be stably moved to the through holes H. [ Of course, a plurality of the second guide rails 160 and the first and second lifting plates 400 and 500 may be installed at different heights.

On the upper surface of the first jig 130, there is installed a first clamping device 131 which horizontally moves when the lower surface of the strut 11 of the offshore wind power generator is placed and surrounds the left and right outer surfaces of the lower end of the offshore wind power generator 10 do.

The first clamping device 131 includes a pair of first fixing plates 131a that surround the left and right outer surfaces of the lower end of the strut 11 of the offshore wind power generator placed on the upper surface of the first jig 130, And a pair of first piston rods 131b horizontally moving on the upper surface of the first jig 130 while horizontally moving the first fixing plate 131a while being coupled to the rear surface of the plate 131a, .

When the lower surface of the strut 11 of the offshore wind power generator is positioned on the upper surface of the first jig 130 and the first piston rod 131b pushes the first fixing plate 131a toward the offshore wind power generator 10, The left and right outer surfaces of the lower portion of the support 11 of the offshore wind turbine are surrounded by the first fixing plate 131a so that the offshore wind turbine generator 10 stably stands up between the first and second guide frames 110 and 120 .

The second jig 150 is supported on the upper surface of the second jig 150 by a horizontal movement of the support 11 of the offshore wind power generator in the space C, (152).

The second clamping device 152 includes a pair of second fixing plates 152a surrounding the left and right outer surfaces of the support 11 of the offshore wind power generator accommodated in the space C of the second jig 150, A pair of second piston rods 152b that horizontally move on the upper surface of the second jig 150 and horizontally move the second fixing plate 152a while being coupled to the rear surface of the second fixing plate 152a, ).

Since the second clamping device 152 has the same structure as that of the first clamping device 131 described above, a detailed description will be omitted.

A process of installing the offshore wind power generator 10 on the sea using the ship for installing a offshore wind power generator according to the present invention will be described.

5 to 8 are views showing a process of installing an offshore wind power generator on the sea using a ship for installing a offshore wind power generator according to the present invention.

First, as shown in Fig. 5, when the ship moves and the installation hole H is positioned in a room on the floor of the base file F previously installed on the sea floor, a floating leg (not shown) and an anchor (not shown) The hull 100 is anchored in the sea.

6, the first and second jigs 130 and 150 are moved along the first and second guide rails 140 and 160 and the first and second auxiliary rails R1 and R2 to move the first and second jigs 130 and 150 along the first and second guide rails 140 and 160, 900, and first and second lifting plates 400, 500, respectively. At this time, the through hole (H) is closed by the first jig (130).

Next, the first and second connecting wires W1 and W2 are connected to the outer surface of the strut 11 or the flange portion 11a of the offshore wind power generator, and then the first and second actuators 620 and 720, The first and second lifting wires 610 and 710 are wound to vertically lift the first and second lifting plates 400 and 500.

When the first and second lifting plates 400 and 500 vertically rise as described above, the offshore wind power generator 10 also vertically rises together with the first and second connecting wires W1 and W2 connected to the first and second lifting plates 400 and 500, The strut 11 of the offshore wind power generator is separated from the first jig 130 naturally.

8, the first and second lifting plates 400 and 500 are fixed to the first and second guide posts 200 and 300 while the first and second lifting plates 400 and 500 are fixed to the third and fourth lifting devices L1 and L2, It is also possible to wind the connecting wires W1 and W2 directly to elevate the offshore wind power generator 10 vertically.

7, the first and second actuators 620 and 720 release the first and second lifting wires 610 and 710 to move the first jig 130 horizontally to the first jig 130, The two lifting plates 400 and 500 may be lowered vertically or the first and second connecting wires W1 and W2 may be directly loosened by the third and fourth lifting devices L1 and L2 as shown in FIG. 11 are lowered toward the through holes H.

At this time, since the second jig 150 surrounds the outer surface of the strut 11 of the offshore wind power generator, it is prevented that the offshore wind power generator 10 deviates from the installation position while shaking.

Finally, when the strut passes through the through hole H and is seated on the upper surface of the foundation pile F, the first and second connecting wires W1 and W2 are separated from the offshore wind power generator 10, 11a are joined to the foundation file F by welding, bolting, or the like.

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: offshore wind power generator 100: hull
110: first guide frame 120: second guide frame
130: first jig 131: first clamping device
140: first guide rail 150: second jig
151: Rotary plate 152: Second clamping device
160: second guide rail 200, 300: first and second guide posts
210, 310: first and second guide holes 220, 320: first and second incisions
400, 500: first and second lifting plates 410, 510: first and second fastening portions
600, 700: first and second lifting devices 610, 710: first and second lifting wires
620,720: First and second actuators 800,900: First and second supporting plates
810, 910: third and fourth fastening portions H: through hole
R1, R2: 1st and 2nd auxiliary rails F: Basic file

Claims (17)

A hull having a through hole for installing an offshore wind power generator;
First and second guide posts disposed on opposite sides of the through hole opposite to each other;
First and second lifting plates installed opposite to the first and second guide posts with a predetermined gap therebetween and vertically moving along the first and second guide posts;
First and second connecting wires, one end of which is connected to the first and second lifting plates, and the other end of which is connected to an outer surface of the strut of the offshore wind power generator which is transferred between the first and second guide posts; And,
When the first and second connecting wires installed on the first and second guide posts are connected to the outer surface of the strut of the offshore wind turbine generator, the first and second lifting plates are moved vertically to move the offshore wind turbine generator between the first and second guide posts And a second lifting device for vertically moving the first and second lifting devices. The method according to claim 1,
Wherein the first and second lifting devices comprise:
First and second lifting wires extending from upper ends of the first and second guide posts and connected to the first and second lifting plates, respectively; And,
And first and second actuators installed at upper ends of the first and second guide posts for vertically moving the first and second lifting plates by winding or loosening the first and second lifting wires. Ship. The method according to claim 1,
First and second guide holes are formed in the longitudinal direction of the first and second guide posts and first and second cutouts are formed on one side of the first and second guide posts to communicate with the first and second guide holes,
Wherein the first and second fastening portions are formed at one side of the first and second lifting plates so as to be protruded from the first and second fastening portions to be inserted into the first and second guide holes through the first and second cut portions. 3. The method of claim 2,
Wherein the first and second lifting devices comprise:
First and second lifting wires inserted into the first and second guide holes and connected to the first and second fastening portions, respectively; And,
And first and second actuators provided at the upper ends of the first and second guide posts to wind or loosen the first and second lifting wires to vertically move the first and second fastening portions in the first and second guide holes A ship for installation of an offshore wind power generator. The method according to claim 1,
First and second guide frames disposed on opposite sides of the first and second guide posts;
First and second supporting plates disposed at the lower portions of the first and second guide posts to face each other with a predetermined gap therebetween; And,
And a second support frame disposed between the first guide frame and the second guide frame to support a supporting surface of the offshore wind power generator and horizontally move between the first and second guide frames toward the upper surface of the first and second supporting plates, And a first jig for positioning the wind turbine generator in the room. 6. The method of claim 5,
The wind power generators are disposed between the first and second guide frames to surround the outer surface of the strut of the offshore wind power generator and horizontally move between the first and second guide frames to the upper surface of the first and second lifting plates, And a second jig for positioning the wind turbine generator. 6. The method of claim 5,
A pair of first guide rails for horizontally moving the first jig are provided at lower ends of the first and second guide frames,
And a pair of first auxiliary rails connected to the first guide rails are installed on upper surfaces of the first and second supporting plates. The method according to claim 6,
Wherein the first and second guide frames are provided with a pair of second guide rails for horizontally moving the second jig,
And a pair of second auxiliary rails connected to the second guide rails are installed on the upper surfaces of the first and second lifting plates. 6. The method of claim 5,
Wherein a first clamping device is installed on an upper surface of the first jig to horizontally move the outer surface of the off-axis wind power generator and surround the outer surfaces of the left and right lower ends of the off-axis wind power generator. The method according to claim 6,
Wherein a space is formed in the central portion of the second jig to receive a pillar, and a pair of pivoting plates for opening and closing the space are provided on one side of the second jig. 11. The method of claim 10,
Wherein a second clamping device is installed on an upper surface of the second jig to horizontally move the strut of the offshore wind power generator in the space to enclose the strut outer surface of the offshore wind power generator. The method according to claim 1,
The first and second connecting wires are installed on the first and second lifting plates. When the first and second connecting wires are connected to the strut outer surface of the offshore wind power generator, one end of the first and second connecting wires is wound or loosened, Further comprising: third and fourth lifting devices for vertically moving between the first and second guide posts. A hull having a through hole for installing an offshore wind power generator;
First and second guide posts disposed on opposite sides of the through hole opposite to each other;
First and second lifting plates disposed opposite to the first and second guide posts at regular intervals;
First and second connecting wires, one end of which is connected to the first and second lifting plates, and the other end of which is connected to an outer surface of the strut of the offshore wind power generator which is transferred between the first and second guide posts; And,
The first and second connecting wires are installed on the first and second lifting plates. When the first and second connecting wires are connected to the strut outer surface of the offshore wind power generator, one end of the first and second connecting wires is wound or loosened, And a third and fourth lifting device vertically moving between the two guide posts. 14. The method of claim 13,
First and second guide frames disposed on opposite sides of the first and second guide posts;
First and second supporting plates disposed at the lower portions of the first and second guide posts to face each other with a predetermined gap therebetween; And,
And a second support frame disposed between the first guide frame and the second guide frame to support a supporting surface of the offshore wind power generator and horizontally move between the first and second guide frames toward the upper surface of the first and second supporting plates, And a first jig for positioning the wind turbine generator in the room. 15. The method of claim 14,
The wind power generators are disposed between the first and second guide frames to surround the outer surface of the strut of the offshore wind power generator and horizontally move between the first and second guide frames to the upper surface of the first and second lifting plates, And a second jig for positioning the wind turbine generator. 15. The method of claim 14,
A pair of first guide rails for horizontally moving the first jig are provided at lower ends of the first and second guide frames,
And a pair of first auxiliary rails connected to the first guide rails are installed on upper surfaces of the first and second supporting plates. 16. The method of claim 15,
Wherein the first and second guide frames are provided with a pair of second guide rails for horizontally moving the second jig,
And a pair of second auxiliary rails connected to the second guide rails are installed on the upper surfaces of the first and second lifting plates.

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