KR20160063643A - 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 comprises: a hull having a through hole for installing an offshore wind power generator; First and second platforms disposed opposite to the left and right sides of the through hole with a predetermined gap therebetween; First and second guide frames installed at a predetermined height on the first and second platforms; And a lifting device installed on the first and second guide frames for vertically moving the offshore wind turbine conveyed to the through holes.

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.

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

However, as the size of the wind turbine becomes bigger in recent years, the assembling work of the wind turbine generator is getting harder. Especially, lifting the offshore wind turbine mounted on the hull by using the crane is time- There is a problem in that the work can not be performed on a strong windy day.

Therefore, it is required to develop a ship for installing a offshore wind turbine generator capable of stably moving a offshore wind turbine generator to a construction site, thereby enabling precise and quick installation.

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 platforms disposed opposite to the left and right sides of the through hole with a predetermined gap therebetween; First and second guide frames installed at a predetermined height on the first and second platforms; And a lifting device installed on the first and second guide frames for vertically moving an offshore wind power generator that is fed to the through hole.

The present invention further includes a position adjusting device installed on the first and second platforms to press the outer surface of the strut of the offshore wind turbine vertically moving by the lifting device to adjust the horizontal position of the offshore wind turbine.

The position adjusting device is installed on one side of the first and second platforms facing each other with the through hole interposed therebetween.

Here, the position adjusting device may include a plurality of piston rods each of which is adjustable in length on one side of the first and second platforms, And a pressing portion provided on the piston rod and selectively contacting the outer surface of the strut as the length of the piston rod is adjusted.

The lifting device may include a lifting wire having one end connected to a jacket head coupled to a lower or lower strut of the offshore wind power generator; And an actuator for vertically moving the offshore wind power generator by winding or loosening the other end of the lifting wire.

Here, the first and second guide frames are provided with support plates, respectively, and the actuators are provided on the upper surfaces of the first and second support plates, respectively.

Further, the present invention is characterized in that a jacket head installed between the first and second platforms for supporting a jacket head coupled to a supporting surface or a supporting lower end of an offshore wind power generator, horizontally moves along an upper surface of the first and second platforms, And a transfer panel for placing the transfer panel in the chamber immediately above the through hole.

Here, a pair of guide rails for horizontally moving the conveying panel are installed on the upper surfaces of the first and second platforms.

The guide rail is provided with a skid device coupled to the transport panel and horizontally moving the transport panel to the through hole.

In the present invention, first and second platforms having a predetermined height for installing an offshore wind power generator on both sides of the through hole are installed to prevent an accident that the offshore wind power generator collides with a support structure such as a jacket located in the through hole.

In addition, the present invention adjusts the horizontal position of an offshore wind turbine vertically descending through the through hole, so that the offshore wind turbine is accurately lowered to the upper end of a support structure such as a jacket located in the through hole.

1 and 2 are views showing the overall structure of a ship for installing a offshore wind power generator according to the present invention.
3 is a view showing a sliding movement structure of a transfer panel according to the present invention.
4 is a view showing a state in which a vertical movement of an offshore wind power generator is performed by a lifting device according to the present invention.
5 is a perspective view illustrating the structure of the position adjusting device according to the present invention in more detail.

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

1 and 2 are views showing the overall structure of a ship for installing a offshore wind power generator according to the present invention.

1 and 2, a ship for installing a maritime wind power generator according to the present invention includes a ship 100, first and second platforms 200 and 300, first and second guide frames 400 and 500, (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.

The hull 100 is formed with a through hole H for installing the offshore wind power generator 10 constituted by the support 11, the nacelle 12 and the blade 13. As shown in the drawing, when the jacket head 14 is coupled to the lower end of the strut 11 of the offshore wind power generator, the struts 11, the nacelle 12, the blades 13, An offshore wind power generator 10 constituted by a jacket head 14 is installed.

In order to install the offshore wind turbine generator 10 in general, a jacket as a support structure is installed in advance, the offshore wind turbine generator 10 is lifted from the ship 100 and the lower end of the strut 11 is coupled to the jacket head 14 It needs work. At this time, it is necessary to align the positions of the flanges formed on the jacket head 14 and the flange formed on the lower end of the support 11 for bolt fastening, and this operation is required for the operation of the offshore wind turbine 10 Considering the load, it is not only time consuming, but also the risk of safety accidents is high.

In the case where the jacket head 14 is previously coupled to the lower end of the support 11, the jacket head 14 can be installed in advance in the sea without the necessity of aligning the position of the flange portion for bolt fastening in the installation work of the offshore wind power generator 10 (Not shown), so that the installation work of the offshore wind power generator 10 can be performed more quickly and stably.

The first and second platforms 200 and 300 are installed on both sides of the through hole H with a predetermined gap therebetween. Therefore, the space between the first and second platforms 200 and 300 is communicated with the through hole H as shown in FIG.

An offshore wind turbine 10 to be installed on the sea through the through hole H is transferred and positioned between the first and second platforms 200 and 300. To this end, a transfer panel 700 is horizontally installed between the first and second platforms 200 and 300.

The conveying panel 700 may be provided on the lower surface of the strut 11 of the offshore wind power generator or in a state where the jacket head 14 is coupled to the lower end of the strut 11, And horizontally moves along the upper surface of the two platforms 200 and 300 to position the offshore wind turbine generator 10 in the upper right room.

Specifically, the conveying panel 700 horizontally moves along a pair of guide rails 210 and 310 formed on the upper surfaces of the first and second platforms 200 and 300 to rotate the offshore wind power generator 10 in a vertical direction .

3 is a view showing a sliding movement structure of a transfer panel according to the present invention.

Here, the skid device 800 coupled to the transfer panel 700 may be installed on the guide rails 210 and 310 to move the transfer panel 700 horizontally.

Skid  The device 800 is hydraulically Hundreds of tons  As an apparatus for stably sliding over an object, as shown in Fig. 3, the guide rails 210 and 310 can be selectively Coupled  First, 2 Clamping  Devices (810, 820), first and second Clamping  The device 810, 820 is provided with a length adjustable Hydro  RAM 830, Transfer packet A plurality of sliders (not shown) installed on the lower surface of the board 700 and moving along the guide rails 210 and 310 840)  .

Such Skid  A process of horizontally moving the transfer panel 700 using the apparatus 800 will be briefly described as follows.

First, in order to move the transfer panel 700 to the left side in Fig. 3, Clamping  The apparatus 820 is coupled to the guide rails 210, Fixed  after Hydro  The length of the ram 830 is increased, Clamping  The device 810 is horizontally moved to the left. Hydro  When the length of the ram 830 is increased, Clamping  Apparatus 810 includes Hydro  It is pushed by the ram 830 and moves to the left along the guide rails 210 and 310 naturally.

Next, the second Clamping  In order for the device 820 to move along the guide rails 210 and 310, Clamping  The device 820 and the guide rails 210 and 310 are disengaged and the first Clamping  The apparatus 810 is coupled to the guide rails 210, Fix .

to the next, Hydro  The length of the ram 830 is reduced again, Clamping  With the apparatus 820, the transfer panel 700 is moved to the first Clamping Toward device 810  . 1st Clamping  In a state where the apparatus 810 is fixed to the guide rails 210 and 310 Hydro  When the length of the ram 830 is reduced, Clamping  Apparatus 820 includes a first Clamping Toward device 810 Pulled , The second Clamping  The transfer panel 700 connected to the apparatus 820 horizontally moves to the left along the guide rails 210 and 310 by the slider 830.

When the transfer panel 700 is moved to the right side in Fig. 3, Clamping  Device 810 to guide rails 210 and 310 Fixed  after Hydro  The length of the ram 830 is increased, Clamping  Along with the apparatus 820, the conveying panel 700 is horizontally moved to the right along the guide rails 210 and 310.

Of course, when the transfer panel 700 Hydro  Pushed by the ram 830, Clamping  Moving to the right with the device 820, Clamping  Releasing the engagement between the apparatus 810 and the guide rails 210 and 310, Clamping  The apparatus 820 is coupled to the guide rails 210, Fixed  after Hydro  The length of the ram 830 is reduced again, Clamping  Device 810 may be a second Clamping  chapter (820) side .

The first and second platforms 200 and 300 are installed on both the right and left sides of the through hole H and the conveyance panel 700 is horizontally moved by the skid device 800 so that the off- It is possible to prevent an accident that the lower end of the strut 11 of the offshore wind power generator or the collision of the jacket head 14 with the support structure such as the jacket located in the through hole H is moved.

The upper end of a support structure such as a jacket to which the offshore wind power generator 10 is to be coupled is positioned in a state in which the upper end of the support structure is exposed on the sea surface, so that the offshore wind power generator 10 is inserted into the through hole H from the upper surface of the ship 100 There is a danger that the offshore wind power generator 10 may collide with the upper end portion of the support structure when horizontally moved to the hole H. The first and second platforms 200 and 300 having a predetermined height are installed on both right and left sides of the through hole H and the offshore wind turbine generator 10 is installed in the through hole H along the upper surface of the first and second platforms 200 and 300, As shown in FIG.

The first and second guide frames 400 and 500 are installed at a predetermined height on the first and second platforms 200 and 300, respectively. The first and second guide frames 400 and 500 serve as supports when lifting the offshore wind turbine generator 10 using a lifting device 600 to be described below.

The lifting device 600 vertically moves the offshore wind turbine generator 10 installed in the first and second guide frames 400 and 500 to be fed to the through holes H. [

Specifically, the lifting device 600 vertically moves the off-axis wind power generator 10, which is transported by the transport panel 700 to the upright room through the through hole H, The lower end or jacket head 14 is lowered to the upper end of the support structure located in the through hole H. [

The lifting device 600 includes a lifting wire 610 and an actuator 620.

The lifting wire 610 is coupled to the lower end of the strut 11 or the jacket head 14 of the offshore wind turbine, one end of which is located in the upper right room when the offshore wind power generator installation operation is proceeded. A fastening ring 611 is formed at one end of the lifting wire 610 and a fastening ring (not shown) for fastening the fastening ring 611 to the lower end of the strut 11 or the jacket head 14 is formed .

The actuator 620 is installed in the first and second guide frames 400 and 500 so that the other end of the lifting wire 610 is wound or loosened so that the offshore wind power generator 10 is vertically moved, Such as a jacket or the like, located at the lower end (H).

4 is a view showing a state in which a vertical movement of an offshore wind power generator is performed by a lifting device according to the present invention.

Specifically, when the offshore wind turbine generator 10 is located in the upper right room of the through-hole H by the conveying panel 700, the actuator 620 winds the other end of the lifting wire 610, , Lifting the offshore wind power generator (10) vertically upward and then releasing the other end of the lifting wire (610) so that the offshore wind power generator (10) falls down to the through hole (H).

At this time, the conveying panel 700 lifts the offshore wind power generator 10 vertically upward by the actuator 620 and moves again along the guide rails 210 and 310 to open the through holes H. Four actuators 620 may be installed on the upper surface of the support plate 630 installed on the first and second guide frames 400 and 500, respectively.

A jig 410 may be installed in the first and second guide frames 400 and 500 so that the vertical movement of the offshore wind power generator 10 by the lifting device 600 can be stably performed by surrounding the outer surface of the support 11. have.

A plurality of jigs 410 may be installed at different heights as required and horizontally moved along the rails R provided on the first and second guide frames 400 and 500 so that the wind power The generator 10 can be moved to the through hole H.

The first and second platforms 200 and 300 are provided with a position adjusting device for adjusting the horizontal position of the offshore wind power generator 10 by pressing the outer surface of the strut 11 of the offshore wind power generator vertically moving by the lifting device 600, Respectively.

5 is a perspective view illustrating the structure of the position adjusting device according to the present invention in more detail.

5, the position adjusting device 900 is disposed opposite to one side of the first and second platforms 200 and 300 facing each other with the through hole H therebetween, The wind turbine generator 10 is pushed or pulled from both the left and right sides of the outer surface of the support 11 vertically descending to the through hole H by the support members 600 and 600 so that the off- Let it fall.

The position adjusting device 900 may pressurize the left and right outer surfaces of the strut 11 to prevent the offshore wind power generator 10 from being shaken by wind or the like when the operation of coupling the offshore wind power generator 10 to the support structure proceeds You can also perform roles.

The position regulating device 900 includes a plurality of piston rods 910 each of which is adjustable in length on one side of the first and second platforms 200 and 300 and a plurality of piston rods 910 installed on the piston rods 910, And a pressing portion 920 selectively contacting the outer surface of the strut 11 as the length of the strut 910 is adjusted.

The process of installing the offshore wind power generator 10 on the support structure located in the through hole H using the vessel for installing a offshore wind power generator according to the present invention will be briefly described below.

First, the hull 100 is moved so that a supporting structure such as a jacket is positioned in the through hole H, and then the hull 100 is moored at the corresponding position using an anchor or the like.

Next, the conveyance panel 700 supporting the offshore wind power generator 10 is horizontally moved along a pair of guide rails 210 and 310 formed on the upper surfaces of the first and second platforms 200 and 300, and the offshore wind power generator 10 Is positioned in the upper chamber in the through hole (H). Horizontal movement of the offshore wind turbine 10 can be performed by the skid device 800 or the like.

Next, the lifting wire 610 is connected to the lower end of the strut 11 or the jacket head 14, and then the lifting wire 610 is wound on the actuator 620 to move the off-axis wind power generator 10 to the upper side of the transfer panel 700 Lift up.

Next, the transfer panel 700 is moved backward to open the through hole H, and then the lifting wire 610 is loosened by the actuator 620 to lower the off-axis wind power generator 10 to the through hole H .

The length of the piston rod 910 is adjusted so that the pressing portion 920 pushes the outer surface of the strut 11 selectively so that the strut 11 or the jacket head 14 of the offshore wind power generator is inserted into the through hole H To be accurately lowered to the upper end of the supporting structure being located.

Next, the offshore wind power generator 10 is moved to the upper end portion of the support structure 10 in a state in which the outer surface of the support 11 of the offshore wind power generator is pressed by the pushing portion 920 so that the offshore wind power generator 10 does not deviate from the installation position by wind, As shown in FIG.

When the support structure is a jacket, the lower end of the support 11 is engaged with the jacket head 14. When the jacket head 14 is coupled to the lower end of the support 11, To the jacket leg located in the hole (H).

Of course, when the jig 410 is installed in the first and second guide frames 400 and 500, the jig 410 covers the outer surface of the strut 11 and can be vertically moved by the vertical movement of the offshore wind power generator 10, 10) to the support structure can be stably performed.

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 11: holding
12: Nacelle 13: Blade
100: Hull 200, 300: Platform 1, 2
210, 310: guide rails 400, 500: first and second guide frames
410: Jig 600: Lifting device
610: Lifting wire 620: Actuator
630: Support plate 700: Transfer panel
800: skid device 810, 820: first and second clamping device
830: Hydro Ram 840: Slider
900: Position adjusting device 910: Piston rod
920: pressing portion H: through hole
R: Rail

Claims (9)

A hull having a through hole for installing an offshore wind power generator;
First and second platforms disposed opposite to the left and right sides of the through hole with a predetermined gap therebetween;
First and second guide frames installed at a predetermined height on the first and second platforms; And,
And a lifting device installed on the first and second guide frames for vertically moving the offshore wind power generator being transferred to the through holes. The method according to claim 1,
Further comprising a position adjusting device installed in each of the first and second platforms to adjust the horizontal position of the offshore wind power generator by pressing the outer surface of the strut of the offshore wind power generator vertically moved by the lifting device. 3. The method of claim 2,
Wherein the position adjusting device is installed on one side of the first and second platforms facing each other with the through hole interposed therebetween. The method of claim 3,
The position adjusting device comprises:
A plurality of piston rods each of which is adjustable in length on one side of the first and second platforms; And,
And a pressing part installed on the piston rod and selectively contacting the outer surface of the strut as the length of the piston rod is adjusted. The method according to claim 1,
The lifting device comprises:
A lifting wire having one end connected to a jacket head coupled to a lower or lower strut of the offshore wind power generator; And,
And an actuator for vertically moving the offshore wind power generator by winding or loosening the other end of the lifting wire. 6. The method of claim 5,
The first and second guide frames are each provided with a support plate,
Wherein a plurality of the actuators are installed on the upper surface of the support plate. The method according to claim 1,
The wind power generator is installed between the first and second platforms and supports a jacket head coupled to a supporting surface or a lower supporting surface of the offshore wind power generator and horizontally moves along the upper surface of the first and second platforms, And a conveying panel for positioning the wind turbine generator. 8. The method of claim 7,
And a pair of guide rails for horizontally moving the conveying panel are installed on upper surfaces of the first and second platforms. 9. The method of claim 8,
A first and a second clamping devices selectively coupled to the guide rails; a hydro-ram disposed between the first and second clamping devices to adjust the length of the first and second clamping devices; And a skid device including a plurality of sliders.

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