KR20150145776A - Ship for assemblying and installing wind power generator - Google Patents

Abstract

The present invention relates to a ship for assembling and installing a marine wind power generator, and more specifically, to a ship for assembling and installing a marine wind power generator which can assemble a marine wind power generator on a ship hull, and install the marine wind power generator in a marine location quickly and stably. The ship for assembling and installing a marine wind power generator according to the present invention comprises: a ship hull on which an installation hole is formed; a pair of guide frames installed on a left and a right side of the installation hole to face each other, in which a plurality of marine wind power generators are loaded to be erected; a first moving panel which supports a lower surface of a pillar of the marine wind power generator loaded between the guide frames, and is installed between the guide frames to be moved in a horizontal direction; a first lift unit installed on upper ends of the guide frames to lift the marine wind power generator, transported to the installation hole by the first moving panel, to vertically move the marine wind power generator; a second moving panel which supports a lower surface of a pillar of the marine wind power generator loaded between the guide frames at a lower position than the first moving panel, and is installed between the pair of guide frames to be moved in the horizontal direction; and a second lift unit installed on the upper ends of the guide frames to lift the marine wind power generator, transported to a location directly below the second lift unit by the first moving panel or the second moving panel, to vertically move the marine wind power generator.

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ship for assembling and installing an offshore wind power generator, and more particularly, to a ship for assembling and installing an offshore wind power generator capable of assembling an offshore wind power generator on a ship and swiftly and stably installing on the sea.

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, there is a problem in that it takes a lot of time and money to separate and install the offshore wind turbine generator, to ship it to the ship, and to assemble it in the construction site. In particular, as the required power generation capacity has increased in recent years, the size of the offshore wind turbine increases, which makes it difficult to transport the assembled offshore wind turbine generator to the ship, and the components such as struts and blades are further separated and transported to the ship There is a situation in which it has to be assembled at the installation site, and such a problem is getting larger.

Therefore, it is required to develop a ship for assembling and installing an offshore wind power generator capable of assembling a offshore wind power generator on a ship, as well as being able to install it on a ship quickly and stably.

In order to solve the above problems, the present invention provides a hull comprising: a hull having an installation hole; A pair of guide frames installed on both left and right sides of the installation hole so as to face each other and to be stacked with a plurality of offshore wind power generators installed therein; A first moving panel that supports a supporting surface of an offshore wind turbine mounted between the guide frames and is installed horizontally between the pair of guide frames; A first lift part installed at an upper end of the guide frame to lift and vertically move an offshore wind power generator that is transferred to the installation hall by the first moving panel; A second moving panel that supports a supporting surface of an offshore wind turbine mounted between the guide frames at a lower position than the first moving panel and horizontally movably installed between the pair of guide frames; And a second lift part installed on an upper end of the guide frame for vertically moving an offshore wind power generator which is directly transported by the first moving panel or the second moving panel to vertically move the wind power generator, Provide the vessel.

Here, first and second guide rails for horizontally moving the first and second moving panels are provided between the guide frames, respectively, and the second guide rails are installed at lower positions than the first guide rails.

The first and second moving panels are provided with first and second clamping devices that horizontally move on the upper surface of the first and second moving panels to respectively surround the outer surface of the lower end of the strut of the offshore wind power generator.

The first clamping device includes a pair of first and second fixing plates that respectively surround the left and right outer sides of the lower portion of the support of the offshore wind turbine placed on the upper surface of the first moving panel, And a pair of first piston rods horizontally moving on the upper surface of the first moving panel in a state that the first moving plate is horizontally moved to horizontally move the first fixing plate, A pair of second fixing plates which surround the left and right outer surfaces of the bottom portion of the offshore wind turbine to be laid, and a pair of second fixing plates which horizontally move on the upper surface of the second moving panel in a state of being coupled to the rear surface of the second fixing plate, And a pair of second piston rods which are horizontally moved.

The first and second moving panels are provided on the upper side of the first and second moving panels, respectively, and the first and second moving panels are disposed between the guide frames. And first and second jigs for moving the offshore wind power generator are respectively installed.

Here, between the guide frames, third and fourth guide rails for horizontally moving the first and second jigs are installed at different heights.

The first and second jigs are provided with first and second rotating plates for opening and closing the central portions of the first and second jigs which are coupled to each other or separated from the first and second jigs to receive the strut of the offshore wind power generator.

In addition, fourth and fifth clamping devices, which horizontally move on the upper surfaces of the first and second jigs, respectively surround the strut outer surface of the offshore wind power generator, are installed.

The first lift unit may include a first coupling device selectively coupled to an outer surface of a strut of the offshore wind power generator; A first lifting wire connected to the first fastening device; And a plurality of first lifting jacks installed at an upper end of the guide frame to wind or loosen the first lifting wire to vertically move the first fastening device.

The first fastening device includes a first lifting bar that surrounds an outer surface of a strut of the offshore wind power generator, and a plurality of first fastening ropes that are coupled to the first lifting bar at one end and to the outside of the strut of the offshore wind power generator. .

The second lift portion may include a second fastening device coupled to an outer surface of the strut of the offshore wind power generator; A second lifting wire connected to the second fastening device; And a plurality of second lifting jacks installed at an upper end of the guide frame to wind or loosen the second lifting wire to vertically move the second fastening device.

Here, the second fastening device may include a second lifting bar surrounding an outer surface of the strut of the offshore wind power generator, a plurality of second fastening ropes coupled to the outer surface of the strut of the offshore wind power generator, .

The present invention further includes a third moving panel installed horizontally at the same height as the second moving panel and supporting a supporting floor of an offshore wind turbine installed between the guide frames.

The third moving panel is disposed above the third moving panel and surrounds the outer surface of the stratum of the offshore wind turbine. The third moving panel is horizontally movable between the guide frames, A jig is installed.

On the other hand, on the upper side of the first and second moving panels, the support of the offshore wind power generator mounted between the guide frames is respectively enclosed. In the assembling and installation work of the offshore wind power generator, The first and second jigs for moving the offshore wind power generator are installed at different heights and the outer surface of the strut of the offshore wind power generator is wrapped on the upper side of the third moving panel and horizontally movably between the guide frames A third jig for horizontally moving the offshore wind power generator between the guide frames together with the third moving panel is installed at the same height as the first jig.

The ship for assembling and installing the offshore wind power generator according to the present invention can assemble a plurality of offshore wind power generators in the hull and stably mount the offshore wind turbine on the hull.

In addition, the ship for assembling and installing a offshore wind power generator according to the present invention rapidly moves an offshore wind power generator from a hull to an installation position by using a moving panel and a jig, and vertically moves using a lift part so that installation work can be rapidly performed.

1 to 3 are views showing the structure of a ship for assembling and installing an offshore wind power generator according to the present invention.
4 to 11 are views showing a process of assembling an offshore wind power generator on a ship by using a ship for assembling and installing a offshore wind power generator according to the present invention.
12 to 17 are views showing a process of installing an offshore wind power generator on the sea using a ship for assembling and 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 structure of a ship for assembling and installing an offshore wind power generator according to the present invention.

1 to 3, a ship for assembling and installing a offshore wind power generator according to the present invention includes a ship 100, a guide frame 200, a first moving panel 300, a first lift part 400, a second moving panel 500, and a second lift unit 600.

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.

An installation hole H for installing an offshore wind power generator 10 constituted by a strut 11, a nacelle 12 and a blade 13 is formed through the hull 100. Of course, not only the offshore wind power generator 10 is installed through the installation hole H, but is installed in the seabed and connected to the offshore wind power generator 10 such as a monopie, a jacket, A base file F (see FIG. 12) such as a Tripile may be installed through the installation hole H.

The guide frames 200 are installed on both sides of the installation hole H so as to face each other. The guide frame 200 is installed so as to have a height enough to serve as a support when lifting the offshore wind power generator 10 having a height of several tens of meters by using the first and second lift parts 400 and 600 do.

Since the weight of the offshore wind turbine generator 10 has increased to several hundreds of tons in the recent years, the guide frame 200 is constructed to have a structure capable of sufficiently supporting the load of the offshore wind turbine generator 10. For example, the guide frame 200 may be made of a steel frame structure in which steel frames are connected to each other.

The first moving panel 300 supports the lower surface of the strut 11 of the offshore wind power generator installed between the pair of guide frames 200 to be mounted between the guide frames 200 so that the offshore wind turbine generator 10 So that the guide frame 200 can be stably stood upright.

The first moving panel 300 is installed horizontally between the guide frames 200 so as to move the offshore wind turbine generator 10. To this end, a first guide rail 110 is installed between the guide frames 200.

The first guide rail 110 protrudes from the upper surface of a pair of supporting bars 111 formed on the upper surface of the hull 100. The first moving panel 300 has both left and right sides of the first guide rail 110 110).

The first moving panel 300 supports the lower surface of the strut 11 of the offshore wind power generator at a position spaced a certain distance from the upper surface of the ship 100 and horizontally moves along the first guide rail 110, (10) is moved between the guide frames (200).

The first lift part 400 is installed at the upper end of the guide frame 200 and lifts the offshore wind power generator 10 being transported to the installation hole H by the first moving panel 300, .

The first lift part 400 lifts the offshore wind power generator 10 so that the offshore wind power generator 10 is lifted up by the first moving panel 300, When the first moving panel 300 moves again along the first guide rail 110 after the lower surface of the wind turbine generator 10 is separated from the first moving panel 300 and the installation hole H is opened, The generator 10 is vertically lowered into the installation hole H so as to be coupled to the foundation file F previously installed on the seabed.

The first lifting part 400 includes a first fastening device 410, a first lifting wire 420, and a first lifting jack 430.

The first fastening device 410 is coupled to the outer surface of the strut 11 of the offshore wind power generator when the offshore wind power generator 10 is transferred to the installation hole H by the first moving panel 300.

Specifically, the first fastening device 410 includes a first lifting bar 411 that surrounds the outer surface of the strut 11 of the offshore wind power generator that is fed to the installation hole H by the first moving panel 300, And a plurality of first fastening ropes 412 coupled to the outer surface of the strut 11 of the offshore wind power generator.

The first lifting bar 411 includes at least a pair of pivoting bars 411a which are coupled to or separated from each other to open and close one side of the first lifting bar 411. Accordingly, the first lifting bar 411 separates the pivot bar 411a when the offshore wind power generator 10 is conveyed, so that the pillar 11 of the offshore wind power generator is located inside the first lifting bar 411, And winds the offshore wind turbine generator 10 housed therein.

The first lifting wire 420 extends to the upper end of the guide frame 200 while being connected to the first fastening device 410.

The first lifting jack 430 is installed at an upper end of the guide frame 200 to wind or loosen the first lifting wire 420 to vertically move the first fastening device 410.

Specifically, the first lifting jack 430 is configured to wind the first lifting wire 420 so that the off-axis wind power generator 10 is vertically lifted up between the pair of guide frames 200, So that the offshore wind power generator 10 is lowered into the installation hole H.

Although not shown, the first lifting jack 430 may include a motor for winding the first lifting wire 420, a holder for fixing the first lifting wire 420 together with a driving device such as a hydraulic cylinder, And the like.

The first lifting wire 420 and the first lifting jack 430 may be installed in a number so that the offshore wind power generator 10 can be stably vertically moved. For example, as shown in FIG. 3, four first lifting wires 420 and one first lifting jack 430 may be installed.

The second moving panel 500 supports the lower surface of the strut 11 of the offshore wind turbine generator installed between the guide frames 200 at a lower position than the first moving panel 300, So that a stable standing state is maintained.

The second moving panel 500 is also installed horizontally between the guide frames 200 so that the offshore wind turbine generator 10 can be moved. To this end, a second guide rail 120 is installed between the guide frames 200.

The second guide rail 120 is installed at a lower position than the first guide rail 110 because the second movable panel 500 is installed at a lower position than the first movable panel 300. For example, as shown in FIG. 2, the pair of second guide rails 120 may protrude from the upper surface of the hull 100.

The second lift portion 600 is installed at an upper end portion of the guide frame 200 at a distance from the first lift portion 400 and is supported by the first moving panel 300 or the second moving panel 500, The wind turbine generator 10 is lifted and transferred from the first moving panel 300 to the second moving panel 500 or the second moving panel 500 to the first moving panel 300 do.

Specifically, the second lift part 600 lifts the offshore wind power generator 10, which is being transported by the first moving panel 300 to the downward direction after the assembling operation of the offshore wind power generator 10 is completed, And is moved to the second moving panel 500 (see Figs. 9 and 10)

The second lift part 600 lifts the offshore wind turbine generator 10 which is being transported by the second moving panel 500 to the direct lower side when the installation work of the offshore wind power generator 10 is progressed, So that the offshore wind power generator 10 is transferred to the installation hole H by the first moving panel 300 (see FIGS. 13 and 14).

The second lift portion 600 includes a second fastening device 610, a second lifting wire 620, and a second lifting jack 630.

The second fastening device 610 is coupled to the outer surface of the strut 11 of the offshore wind power generator which is directly transported by the first moving panel 300 or the second moving panel 500 as described above.

Specifically, the second fastening device 610 includes a second lifting bar 611 surrounding an outer surface of the strut 11 of the offshore wind power generator, one end coupled to the second lifting bar 611, And a plurality of second fastening ropes 612 coupled to an outer surface of the strut 11 of the wind power generator.

Here, the second lifting bar 611 may be coupled to or separated from the side surface of the second lifting bar 611, as in the first lifting bar 411 described above, so that at least a pair of pivoting bars 611a ) (See Fig. 7)

The second lifting wire 620 is connected to the second fastening device 610 and extends to the upper end of the guide frame 200. The second lifting jack 630 is installed at the upper end of the guide frame 200, 2 Lifting wire 620 is rolled or loosened to move the second fastening device 610 vertically.

Specifically, the second lifting jack 630 winds the second lifting wire 620 to lift the off-axis wind power generator 10 vertically upward or conversely loosens the second lifting wire 620 to rotate the off-axis wind power generator 10 vertically So that the offshore wind turbine generator 10 can be moved from the first moving panel 300 to the second moving panel 500 or from the second moving panel 500 to the first moving panel 300.

To this end, a second lifting wire 620 is coupled with a driving device such as a motor or a hydraulic cylinder for winding the second lifting wire 620 inside the second lifting jack 630, like the first lifting jack 430 And a holder for fixing it.

Also, the second lifting wire 620 and the second lifting jack 630 may be installed in a plurality of ways, such as a first lifting wire 420 and a first lifting jack 430.

The supporting frame 11 supports the lower surface of the strut 11 of the offshore wind power generator mounted between the guide frames 200 together with the first and second moving panels 300 and 500 between the guide frames 200, A third moving panel 700 for moving the generator 10 between the guide frames 200 is provided.

The third moving panel 700 is installed to further mount the offshore wind power generator 10 on the hull 100. Accordingly, when the third moving panel 700 is installed, three marine wind power generators 10 can be mounted on the hull 100. Of course, when four or more offshore wind turbines 10 are to be mounted, the fourth moving panel and the fifth moving panel may be additionally provided.

The third moving panel 700 is installed at the same height as the second moving panel 500 and moves horizontally along the second guide rail 120 like the second moving panel 500. In this case, since there is no need to additionally provide a guide rail for horizontally moving the third moving panel 700, it is possible to simplify the guide rail structure and to prevent an unnecessary increase in manufacturing cost.

When the third moving panel 700 is additionally installed between the guide frames 200, the second lift part 600 is moved in the vertical direction by the first moving panel 300, (See FIGS. 6 and 7), lift up the offshore wind turbine generator 10 which is being transported by the third moving panel 700 to the direct lower side, 1 mobile panel 300 (see Figs. 15 and 16).

The first, second, and third clamping devices 310, 510, and 710 are installed on the upper surfaces of the first, second, and third moving panels 300, 500, and 700 to respectively cover the outer surfaces of the lower ends of the struts 11 of the offshore wind power generator.

The first, second, and third clamping devices 310, 510, and 710 include a pair of first, second, and third clamping devices 310, 510, and 710 that respectively 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 surfaces of the first, 2 and 3 fixing plates 311, 511 and 711 and the upper surfaces of the first, second and third moving panels 300, 500 and 700 while being coupled to the rear surfaces of the first, second and third fixing plates 311, And a pair of first, second and third piston rods 312, 512 and 712 for horizontally moving the first, second and third fixing plates 311, 511 and 711.

The first, second and third piston rods 312, 512 and 712 are connected to the first, second and third fixed plates 311, 511 and 711 (see FIG. 3) when the support 11 of each offshore wind turbine is located on the upper surface of the first, The outer surfaces of the lower ends of the support 11 of the offshore wind turbine are naturally surrounded by the first, second and third fixing plates 311, 511 and 711 so that the three offshore wind turbines 10 Is stably erected between the guide frames 200.

On the other hand, first and second jigs 800 and 900 are horizontally movable at different heights on the upper side of the first and second moving panels 300 and 500, respectively.

The first and second jigs 800 and 900 surround the struts 11 of the offshore wind turbine mounted between the guide frames 200 and are connected to the first and second moving panels 300 and 500, And moves horizontally between the guide frames 200 to move the offshore wind turbine generator 10.

Here, the first and second jigs 800 and 900 may be installed for stable support and horizontal movement of the offshore wind turbine generator 10. For example, two first and second jigs 800 and 900 may be installed on the upper side of the first and second mobile panels 300 and 500, respectively.

Third and fourth guide rails 130 and 140 are installed between the guide frames 200 for horizontal movement of the first and second jigs 800 and 900. The third and fourth guide rails 130 and 140 are installed at different heights so that mutual interference does not occur when the first and second jigs 800 and 900 move horizontally.

Of course, as described above, when a plurality of first and second jigs 800 and 900 are installed, that is, two second and third guide rails 130 and 140 are installed at two different heights .

A third jig 1000 is horizontally movably mounted on the third movable panel 700. The third jig 1000 surrounds the support 11 of the offshore wind turbine mounted between the guide frames 200 like the first and second jigs 800 and 900 and supports the guide frame 200 together with the third movement panel 700, 200 to move the offshore wind turbine generator 10. A plurality of third jigs 1000 may also be installed, such as the first and second jigs 800 and 900.

It is preferable that the third jig 1000 is installed at the same height as the first jig 800 so as to horizontally move along the third guide rail 130.

The third jig 1000 horizontally moves from the inside of the hull 100 to the second lift portion 600 when assembling or installing the offshore wind power generator 10, The first jig 800 moves horizontally between the second lift portion 600 and the installation hole H (see FIGS. 4 and 5, 12 and 13) Even if the first and third jigs 800 and 1000 move at the same height, interference does not occur. Therefore, it is preferable to simplify the guide rail structure by installing the third jig 1000 at the same height as the first jig 800.

The central portions of the first, second, and third jigs 800, 900, and 1000, which are coupled to or separated from one side of the first, second, and third jigs 800, 900, and 1000 to receive the struts 11 of the offshore wind turbines, First, second, and third copper plates 810, 910, and 1010 are provided.

The first, second, and third rotating copper plates 810, 910, and 1010 rotate downward from one side of the first, second, and third jigs 800, 900, The outer surface of the strut 11 of the offshore wind power generator accommodated in the central portion of the first, second and third jigs 800, 900, and 1000 is wound around the outer surface of the first, second, and third jigs 800,

The fourth, fifth, and sixth clamping devices 820, 920, and 1020 are installed on the upper surfaces of the first, second, and third jigs 800, 900, and 100 to respectively cover the outer surfaces of the struts 11 of the offshore wind power generator.

The fourth, fifth, and sixth clamping devices 820, 920, and 1020 include a pair of clamping devices 820, 920, and 1020 that respectively surround the left and right outer surfaces of the strut 11 of the offshore wind power generator accommodated in the central portions of the first, The first, second, and third jigs 800, 900, and 1000 are connected to the rear surfaces of the first, second, third, fourth, fifth, and sixth fixing plates 821, 921, and 1021 and the rear surfaces of the fourth, fifth, and sixth fixing plates 821, 921, And a pair of fourth, fifth and sixth piston rods 822, 922 and 1022 horizontally moving on the upper surface to horizontally move the fourth, fifth and sixth fixing plates 821, 921 and 1021.

Since the fourth, fifth and sixth clamping devices 820, 920 and 1020 have the same structure as the first and second clamping devices 310 and 510, detailed description will be omitted.

The process of assembling and installing the offshore wind power generator 10 on the ship 100 using the ship for assembling and installing the offshore wind power generator according to the present invention will be described below.

4 to 11 are views showing a process of assembling an offshore wind power generator on a ship by using a ship for assembling and installing a offshore wind power generator according to the present invention.

First, as shown in FIG. 4, the hull 100 is ridden on the seawall formed on the shore, and then the hull 100 is anchored to the shore using the floating leg L and an anchor.

Here, the quay wall is a concrete structure constructed on the shore so as to allow the hull 100 to berth, and a support stand can be constructed by standing on the shore. The crane C and the respective components of the offshore wind power generator 10 to be assembled in the hull 100 are placed on the quay wall.

Next, the struts 11 of the offshore wind power generator are lifted using the crane C and placed on the first moving panel 300 located between the guide frames 200. [ The lower end of the strut 11 is wrapped by the first clamping device 310 and the upper and middle portions of the strut 11 are wrapped by the first jig 800 so that the strut 11 is stably inserted between the guide frames 200 It is built.

5, when the nacelle 12 and the blade 13 are assembled to the strut 11 and the offshore wind power generator 10 is completed, the first moving panel 300 is moved to the first guide rail The first jig 800 horizontally moves along the third guide rail 130 and moves the offshore wind turbine generator 10 to a position directly below the second lift portion 600. [

Next, as shown in FIG. 6, the first jig 800 is separated from the strut 11 and returned to the original position, and at the same time, the second jig 900 surrounds the central portion and the upper portion of the strut 11 . In addition, the third moving panel 500 is horizontally moved along the second guide rail 120 to be positioned directly below the first moving panel 300.

Next, the off-axis wind power generator 10 is vertically lifted using the second lift part 600, separated from the first moving panel 300, and then returned to the original position.

Next, using the second lift part 600, the strut 11 is lowered again to lower the strut on the upper surface of the third moving panel 700. At this time, the lower end of the strut 11 is wrapped by the third clamping device 710.

The third moving panel 700 and the second jig 900 are moved horizontally along the second guide rail 120 and the fourth guide rail 140 to move the offshore wind turbine generator 10 to the hull 100, .

Next, when the offshore wind power generator 10 is moved and positioned inside the ship 100, the second jig 900 is separated from the support 11 and returned to the original position as shown in FIG. 8, So that the jig 1000 surrounds the pillars 11.

9, when the second off-axis wind power generator 10 is assembled between the guide frames 200, the off-axis wind power generator 10 is moved between the first moving panel 300 and the first jig 800, The second lift part 600 is moved to the right and below the second lift part 600. [

Next, the first jig 800 is detached from the support 11 and the second jig 900 is retracted so as to surround the center portion and the upper portion of the support 11. Further, the second moving panel 500 is horizontally moved along the second guide rail 120 to be positioned directly below the first moving panel 300.

10, the offshore wind power generator 10 is vertically lifted using the second lift part 600 and separated from the first moving panel 300, and then the first moving panel 300 is rotated Return to home position.

Next, the pillar 11 is lowered again by using the second lift part 600, and the pillar is lowered on the upper surface of the second moving panel 500. At this time, the lower end of the strut 11 is wrapped by the second clamping device 510. Therefore, the second assembled offshore wind turbine is mounted on the hull 100 while being supported by the second moving panel 500 and the second jig 900.

11, when the third offshore wind turbine generator 10 is assembled between the guide frames 200, the offshore wind turbine generator 10 is mounted on the first moving panel 300 and the first jig 800, To the inside of the hull.

Accordingly, when the above process is completed, the third moving panel 700, the third jig 1000, the second moving panel 500, the second jig 900, the first moving panel 700, Three offshore wind turbines 10 supported by the first jig 800 and the first jig 800 are mounted in a row.

Of course, as described above, if the number of installed mobile panels is increased, the number of offshore wind turbines 10 mounted on the hull 100 increases.

12 to 17 are views showing a process of installing an offshore wind power generator on the sea using a ship for assembling and installing a offshore wind power generator according to the present invention.

When the assembly work of the offshore wind turbine generator 10 is completed, the floating leg L and the anchor are collected by the hull 100 and then the hull 100 is lifted up as shown in FIG. The installation hole H formed in the hull 100 is positioned in the upper right room of the foundation file F provided on the bottom of the sea floor and the hull 100 is resolved by using the floating leg L and the anchor, .

Next, the first moving panel 300 and the first jig 800 are moved to place the offshore wind power generator 10 in the upper right room of the installation hole H, and then, the first lift portion 400 is used to rotate the off- The generator 10 is lifted and separated from the first moving panel 300.

Next, the first moving panel 300 is returned to its original position to open the installation hole H, and then the offshore wind power generator 10 is gradually lowered so that the lower surface of the support 11 of the offshore wind power generator It is seated on the upper surface and then joined by welding, bolt tightening or the like.

At this time, since the first jig 800 surrounds the outer surface of the strut 11 of the offshore wind power generator, the offshore wind turbine generator 10 is prevented from deviating from the installed position while shaking in the descending direction.

Next, when the offshore wind power generator 10 is coupled to the foundation pile F, the first jig 800 and the first lift portion 400 are separated from the support 11 as shown in Fig. 13 The hull 100 is moved to a place where the next offshore wind turbine generator 10 is to be installed and is moored.

Next, the offshore wind turbine generator 10 is lifted using the second lift part 600 to be separated from the second moving panel 500, and then the first moving panel 300 is moved to a position directly below the offshore wind turbine generator 10 .

Next, the offshore wind power generator 10 is lowered to place the lower surface of the support 11 on the upper surface of the first moving panel 300, and then, as shown in FIG. 14, The second jig 900 surrounding the struts 11 of the wind power generator is horizontally moved to move the offshore wind power generator 10 to the installation hall H in a vertical direction.

Next, the second jig 900 is separated from the strut 11, and the first jig 800 surrounds the strut 11. Then, as described above, the first lift part 400 is used to wind the off- The operation of coupling the generator 10 to the foundation file F proceeds.

Next, after separating the first jig 800 and the first lift portion 400 from the pillars 11, the hull 100 is moved to a place where the next offshore wind turbine generator 10 is to be installed and then moored.

Next, as shown in FIG. 15, the third moving panel 700 and the third jig 1000 are horizontally moved to move the third offshore wind turbine generator 10 to a position directly below the second lift portion 600 .

Next, as shown in FIG. 16, the third jig 1000 is separated from the strut 11 and returned to the original position, and at the same time, the second jig 900 surrounds the strut 11.

Next, the offshore wind power generator 10 is lifted using the second lift part 600 to be separated from the third moving panel 700, and then the first moving panel 300 is moved to a position directly below the offshore wind power generator 10 .

Next, the offshore wind power generator 10 is lowered to lower the column 11 on the upper surface of the first moving panel 300, and then the first moving panel 300 and the second jig 900) horizontally to move the offshore wind power generator (10) to the upright room (H).

Next, the second jig 900 is separated from the strut 11, and the first jig 800 surrounds the strut 11, and then the first lift part 400 is used to wind the marine wind power generator 10, To the base file (F).

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 rail 120: second guide rail
130: third guide rail 140: fourth guide rail
200: guide frame 300: first movable panel
310: first clamping device 400: first lift part
500: second moving panel 510: second clamping device
600: second lift part 700: third moving panel
710: third clamping device 800: first jig
810: first copper plate 820: fourth clamping device
900: second jig 910: second copper plate
920: fifth clamping device 1000: third jig
1010: third copper plate 1020: sixth clamping device
H: Mounting hole L: Floating leg

Claims (15)

A hull having an installation hole formed therein;
A pair of guide frames installed on both left and right sides of the installation hole so as to face each other and to be stacked with a plurality of offshore wind power generators installed therein;
A first moving panel that supports a supporting surface of an offshore wind turbine mounted between the guide frames and is installed horizontally between the pair of guide frames;
A first lift part installed at an upper end of the guide frame to lift and vertically move an offshore wind power generator that is transferred to the installation hall by the first moving panel;
A second moving panel that supports a supporting surface of an offshore wind turbine mounted between the guide frames at a lower position than the first moving panel and horizontally movably installed between the pair of guide frames; And,
And a second lift unit installed at an upper end of the guide frame for lifting and vertically moving an offshore wind power generator being directly transported by the first or second moving panel. The method according to claim 1,
First and second guide rails for horizontally moving the first and second moving panels are installed between the guide frames,
Wherein the second guide rail is installed at a lower position than the first guide rail. The method according to claim 1,
Wherein the first and second moving panels are provided with first and second clamping devices that horizontally move on the upper surfaces of the first and second moving panels to respectively surround the outer surfaces of the lower portions of the strut of the offshore wind power generator. The method of claim 3,
The first clamping device includes a pair of first and second fixing plates that respectively surround the left and right outer sides of the lower portion of the support of the offshore wind turbine placed on the upper surface of the first moving panel, And a pair of first piston rods horizontally moving on an upper surface of the first moving panel to horizontally move the first stationary plate,
Wherein the second clamping device comprises a pair of second fixing plates each enclosing left and right outer surfaces of a lower end portion of an offshore wind power generator placed on an upper surface of the second moving panel, And a pair of second piston rods horizontally moving on an upper surface of the moving panel to horizontally move the second fixing plate. The method according to claim 1,
The first and second moving panels are provided on the upper side of the first and second moving panels, respectively. The first and second moving panels are horizontally moved together with the first and second moving panels during the assembling and installation work of the offshore wind power generator And a first and a second jig for moving the offshore wind power generator are installed, respectively. 6. The method of claim 5,
And third and fourth guide rails for horizontally moving the first and second jigs are installed between the guide frames at different heights. 6. The method of claim 5,
Wherein the first and second jigs are provided with first and second rotating plates for opening and closing the central portions of the first and second jigs which are coupled to each other or separated from the first and second jigs to receive the strut of the offshore wind power generator, Ship for installation. 6. The method of claim 5,
And a fourth and a fifth clamping device are installed on the upper surfaces of the first and second jigs to respectively surround the outer surfaces of the strut of the offshore wind power generator. The method according to claim 1,
Wherein the first lift portion comprises:
A first fastening device selectively coupled to the strut outer surface of the offshore wind power generator;
A first lifting wire connected to the first fastening device; And,
And a plurality of first lifting jacks installed at an upper end of the guide frame for vertically moving the first fastening device by winding or loosening the first lifting wire. 11. The method of claim 10,
The first fastening device includes a first lifting bar that surrounds the outer surface of the strut of the offshore wind power generator, and a plurality of first fastening ropes coupled to the outer surface of the strut of the offshore wind power generator, And a ship for assembling and installing offshore wind power generators. The method according to claim 1,
Wherein the second lift portion comprises:
A second fastening device coupled to the strut outer surface of the offshore wind power generator;
A second lifting wire connected to the second fastening device; And,
And a plurality of second lifting jacks installed at an upper end of the guide frame to wind or loosen the second lifting wire to vertically move the second fastening device. 12. The method of claim 11,
The second fastening device may include a second lifting bar surrounding the strut outer surface of the offshore wind power generator and a plurality of second fastening ropes coupled to the outer surface of the strut of the offshore wind power generator, And a ship for assembling and installing the offshore wind power generator. The method according to claim 1,
Further comprising a third moving panel horizontally movably installed at the same height as the second moving panel and supporting a supporting surface of an offshore wind power generator mounted between the guide frames. 15. The method of claim 14,
And a third jig for horizontally moving between the guide frames to horizontally move the offwind wind power generator between the guide frames together with the third moving panel, And a ship for assembling and installing the offshore wind power generator. 14. The method of claim 13,
The first and second moving panels are provided on the upper side of the first and second moving panels, respectively. The first and second moving panels are horizontally moved together with the first and second moving panels during the assembling and installation work of the offshore wind power generator The first and second jigs for moving the offshore wind power generator are installed at different heights,
And a third jig for horizontally moving between the guide frames to horizontally move the offwind wind power generator between the guide frames together with the third moving panel, Wherein the first jig is installed at the same height as the first jig.

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