KR20120113013A - Ship for installing sea wind power generator and method using the same - Google Patents

Abstract

PURPOSE: A ship and a method for installing an offshore wind power generator is provided to rapidly install an offshore wind power generator by loading, transporting, and installing the offshore wind power generator in a state where the assembly of the offshore wind power generator is completed. CONSTITUTION: A ship for installing an offshore wind power generator comprises a ship body(10), a fixing unit(33), a rail part, and a gantry crane(31). An installation hole is formed on the ship body and downwardly penetrates the ship body to install an offshore wind power generator at an installation position of the sea. The fixing unit fixes the offshore wind power generator on the ship body. The rail part comprises a pair of rails extended in parallel. The gantry crane is movably installed along the rails of the rail part. In a state where the offshore wind power generator fixed by the fixing unit is released, the gantry crane transports the offshore wind power generator to the installation hole by clamping a post part of the offshore wind power generator and installs the offshore wind power generator on the sea through the installation hole.

Description

SHIP FOR INSTALLING SEA WIND POWER GENERATOR AND METHOD USING THE SAME}

The present invention relates to an offshore wind generator installation ship for installing an offshore wind turbine installed at sea, and a method of installing an offshore wind generator using the same.

With the increasing need for the regulation of greenhouse gas emissions and the suppression of environmental pollution, there is an increasing interest and demand for renewable energy in recent years.

Renewable energy means energy that can produce usable energy such as electricity without using fossil fuels such as petroleum or coal, and using renewable energy such as solar, solar, tidal-wave or wind power.

Wind turbines that generate electricity by using wind from the renewable energy are classified into onshore wind turbines installed on land and offshore wind turbines installed on the sea, depending on where they are installed.

In the case of the marine wind turbine, the marine wind turbine is installed in a state in which each component is separated and loaded on a ship for installing the marine wind turbine by the size and loading stability of the marine wind turbine. You are moved to a place.

When the installation vessel is moved to the place, each component of the marine wind turbine is assembled and the installation of the marine wind turbine is performed on the sea.

On the other hand, there is a problem in that the installation of the offshore wind turbine is delayed or limited by the offshore working environment in each of the installation and assembly of the offshore wind turbine on the sea.

Thus, an embodiment of the present invention can provide an offshore wind turbine installation ship that can be quickly, easily, and stably installed on the offshore wind turbine, and an offshore wind turbine installation method using the same.

According to an aspect of embodiments of the invention, the holding portion; A generator body supported by the support unit; And a propeller rotatably connected to the generator body, wherein the offshore wind turbine installation vessel for installing an offshore wind turbine comprises: a plurality of offshore wind turbines assembled with the support, the generator body and the propeller. The ship body is mounted on the deck, the installation body is formed through the installation hole penetrating downward to install the marine wind turbine at the installation point of the sea; A fixed unit fixing the marine wind power generator to the ship body; A rail unit including a pair of rails spaced apart from each other about the installation hole and extending in parallel with each other; The marine wind turbine is installed to be movable along the rails of the rail unit, and the clamping unit of the marine wind turbine is clamped while the marine wind turbine is not fixed by the fixing unit. An offshore wind turbine installation vessel may be provided, including a gantry crane for transferring to the offshore installation hole and installing the offshore wind turbine on the sea through the installation hole.

In addition, the gantry crane, the crane body for supporting the load of the offshore wind turbine; A crane moving part provided at both ends of the crane body and installed to be movable on the rails; An upper side clamping part installed on the crane body and configured to clamp an upper end portion and a lower end portion of the support portion of the offshore wind turbine; And a lower side clamping part.

The gantry crane of claim 2, wherein the gantry crane is spaced apart from the ship body by a predetermined distance in a state where the upper clamping portion and the lower clamping portion clamp the support portion of the offshore wind turbine. After raising to, the support may be transferred to the installation hole.

The upper clamping portion and the lower clamping portion may be provided to be movable along a crane body in a direction perpendicular to a moving direction of the crane body.

In addition, the fixed unit is installed on the deck of the ship body to be elevated, the fixed unit is raised relative to the deck, the fixed unit is surrounded by a portion of the offshore wind turbine, The marine wind turbine is fixed with respect to the ship body, and when the holding portion is clamped by the gantry crane, the fixing unit is lowered relative to the deck, the fixing of the marine wind turbine with respect to the ship body Can be released.

In addition, the fixing unit may be liftable with respect to the deck by a hydraulic cylinder.

In addition, the offshore wind turbine is supported and rotatably provided to stand on the deck, optionally supporting the offshore wind turbine in an obliquely inclined state, or perpendicular to the offshore wind turbine. It may further include a standing unit that can stand in one direction.

In addition, the fixed unit is installed in the standing unit, it is possible to prevent the offshore wind turbine is removed from the ship body.

In addition, the standing unit, the standing unit body that the support portion of the offshore wind turbine is supported; A standing unit hinge rotatably connecting the standing unit body to the ship body; And a standing unit driving part for selectively standing the standing unit body with respect to the deck of the ship body.

In addition, the standing unit driving part may be one side is fixed to the standing unit body, the other side may be a hydraulic cylinder fixed to the deck.

In addition, the installation hole of the ship body includes a front side installation hole opened to the front of the ship body around the center of the ship body and a rear side installation hole opened to the rear of the ship body, the gantry crane The front side gantry crane is moved toward the front side installation hole to install the marine wind turbine through the front side installation hole; And a rear side gantry crane moving toward the rear side installation hole to install the marine wind turbine through the rear side installation hole.

In addition, the fixing unit may be installed on the gantry crane, the upper side clamping means and the lower side clamping means for selectively clamping the upper end and the lower end of the holding portion of the offshore wind turbine.

In addition, a plurality of leg units which are installed on the ship body so as to be lifted and lowered to support the ship body with respect to the sea bottom in order to suppress the flow of the ship body in the state of installing the marine wind power generator. It may further include them.

According to another aspect of embodiments according to the invention, the holding portion; A generator body supported by the support unit; And a propeller rotatably connected to the generator body; offshore wind power using an offshore wind power generator installation vessel for installing a plurality of offshore wind generators loaded in a fixed state relative to the deck of the ship body in an assembled state. A generator installation method, comprising: a first release step of releasing the fixing of the offshore wind turbine with respect to the ship body of the offshore wind turbine generator; A transfer step of transferring the offshore wind turbine to an installation hole formed in the ship body in a state in which the holding portion of the offshore wind turbine is clamped; Located in the installation hole, the base portion alignment step for aligning the base exposed to the sea and the offshore wind turbine; A base fixing step of fixing the marine wind turbine to the foundation such that the installation of the marine wind turbine for the sea can be performed; And a second release step of releasing the clamping state of the support portion after the marine wind turbine is completely installed at sea, and the offshore wind generator installation method may be provided.

In addition, the first release step, the fixed unit surrounding a portion of the holding portion of the offshore wind turbine is lowered with respect to the deck of the ship body, can release the offshore wind turbine fixed to the ship body. have.

In addition, the wind generator standing step of standing the offshore wind turbine loaded in an inclined state with respect to the deck; may further comprise a.

In addition, the transfer step of transferring the offshore wind turbine and the base unit alignment step of aligning the offshore wind power generator with respect to the base unit may be movable along a plurality of rails installed side by side around the installation hole. It can be performed by a gantry crane is installed.

In addition, the conveying step may include a lifting step of lifting the offshore wind turbine generator against the deck in the state in which the holding unit is clamped.

According to the proposed embodiment, since the assembly of the offshore wind turbine is completed, it is loaded and then transported and installed on the sea, so that the offshore wind turbine can be quickly installed.

In addition, as the installation of the offshore wind turbine is performed quickly, there is an advantage that the restrictions on the installation of the offshore wind turbine such as weather conditions can be reduced.

1 is a side view showing a marine wind turbine installation ship according to a first embodiment of the present invention.
Figure 2 is a plan view showing a marine wind turbine installation ship of Figure 1;
3 is a front view of the gantry crane of FIG.
Figure 4 is a bottom view of the gantry crane looking up from the gantry crane of Figure 3;
5 to 8 is a view showing the offshore wind power generator installation process using the offshore wind power generator installation ship according to the first embodiment of the present invention.
9 is a side view showing a marine wind turbine installation ship according to a second embodiment of the present invention.
10 is a plan view showing the offshore wind turbine installation vessel of FIG.
Figure 11 is a side view showing a marine wind turbine installation ship according to a third embodiment of the present invention.
12 is a plan view showing the offshore wind turbine installation vessel of FIG.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment according to the present invention.

1 is a side view showing a marine wind turbine installation vessel according to a first embodiment of the present invention, Figure 2 is a plan view showing the marine wind turbine installation vessel of FIG. 3 is a front view of the gantry crane of FIG. 2, and FIG. 4 is a bottom view of the gantry crane looking up from the bottom of the gantry crane of FIG. 3.

1 to 4, the offshore wind turbine generator ship 1 according to the present embodiment rotates on a supporter 21, a generator body 22 supported by the supporter 21, and a generator body 22. The plurality of offshore wind turbines 20 including propellers 23 that are possibly connected carry offshore wind turbines 20 from the onshore to the offshore where the offshore wind turbines 20 are installed.

At this time, the sea is provided with a base portion (P) that provides an installation position for installing the offshore wind turbine (20).

For example, the base portion P may be provided in a fixed state on the sea floor S (see FIG. 5), and the base of the offshore wind power generator 20 may be supported on the base portion P securely fixed to the sea bottom S. As the main part 21 is fixed by a fastening member or welding, for example, the installation of the offshore wind turbine 20 can be performed on the sea. At this time, a portion of the base portion P may be provided in a state exposed at sea.

On the other hand, the offshore wind turbine generator ship 1 includes a ship body 10, a rail 32, a gantry crane 31, and a fixing unit 33.

In more detail, the ship body 10 forms the outline of the installation ship 1, and is installed to be able to elevate the dwelling port 11 and the ship body 10 for driving the offshore wind power generator installation ship 1. In order to suppress the flow of the ship body 10 in the state of installing the offshore wind turbine 20, a plurality of leg units 13 are lowered to fix the ship body 10 to the sea bottom (S) ) And a deck 19 on which the offshore wind turbines 20 are loaded. In addition, an installation hole 15 is formed at the rear side of the ship body 10 so as to be opened toward the rear, and penetrated through the deck 19 toward the lower side of the ship body 10. At this time, a part of the base portion P exposed to the sea is located in the installation hole 15.

And, the rail portion 32 is formed to extend in the front and rear direction on the deck 19 of the ship body 10, a pair of rails 321 spaced apart from each other and formed parallel to each other around the installation hole (15). Include them. At this time, the plurality of offshore wind generators 20 are mounted on the deck 19 in a state located between the rails 321.

The gantry crane 31 is installed to be movable along the rails 32, and in the state of clamping the support 21 of the offshore wind turbine 20 mounted on the deck 19, the installation hole 15 is provided. After transporting the offshore wind power generator 20 to the side, the base portion (P) and the support portion 21 located in the installation hole 15 is aligned, and the offshore wind power generator (20) to the base portion (P). Can be installed.

At this time, the gantry crane 31 is provided on both ends of the crane body 311 and the crane body 311 for supporting the load of the offshore wind turbine 20 and installed on the rails 321 to be movable. Installed on the crane moving part 312, the crane body 311, the upper end (211, Fig. 5) and the lower end (212, Fig. 5) of the holding portion 21 of the offshore wind turbine (20) The upper clamping portion 313 and the lower clamping portion 314 and the downwardly extending from the crane body 311 is formed to clamp the upper clamping portion 313 and the lower clamping portion 314 is moved And a clamping moving part 315 that is possibly installed.

At this time, the clamping moving part 315 is extended downward from the center of the crane body 311, the clamping moving part 315 guides the movement of the upper clamping portion 313 and the lower clamping portion 314 The first guide rail 316 is installed to.

In addition, the crane body 311 is provided with a second guide rail 317 to which the clamping moving part 315 is movably connected.

The second guide rail 317 is formed on the bottom surface of the central portion of the crane body 311 in the same direction as the central extension direction of the crane body 311, that is, the left and right directions with respect to the crane body 311. Accordingly, the clamping moving part 315 may be moved in the extending direction of the second guide rail 317, that is, in the left and right directions.

That is, by the first guide rail 316 and the second guide rail 317, the upper clamping portion 313 and the lower clamping portion 314 is moved up and down and left and right with respect to the crane body 311 This is made possible.

Meanwhile, the fixing unit 33 fixes the marine wind turbines 20 to the ship body 10 in the process of transporting the marine wind turbines 20 to the sea.

At this time, the fixing unit 33 is provided in plurality in order to fix each of the offshore wind turbines 20, it is provided to be able to lift relative to the deck 19 of the ship body (10).

That is, when fixing the marine wind turbine 20 with respect to the ship body 10, the fixed unit 33 in the lifting state in the upward direction from the deck 19, the holding portion of the marine wind turbine 20 A portion of 21, for example, is surrounded by the outer circumferential surface of the lower portion 212 to prevent the offshore wind turbine 20 from floating or falling with respect to the ship body 10 while standing up on the deck 19 and loaded. .

And, in order to install the offshore wind turbine 20 to the base portion (P), the holding portion 21 of the offshore wind turbine 20 by the clamping portion (313,314) of the gantry crane 31 is clamped By lowering the deck unit 19, the fixing unit 33 may release the offshore wind turbine generator 20 to the ship body 10.

In the present embodiment, for example, the fixing unit 33 may include a hydraulic cylinder that provides a driving force for allowing the fixing unit 33 to be elevated with respect to the ship body 10.

Hereinafter, the installation process of the offshore wind turbine 20 using the offshore wind turbine installation vessel 1 according to the present embodiment will be described in detail.

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

Referring to FIGS. 1 to 8, first, a plurality of offshore wind turbines 20 in a state in which a holding part 21, a generator main body 22, and a propeller 23 are integrally assembled on land are loaded at sea. The wind turbine installation vessel 1 transports the offshore wind turbines 20 to the offshore installation site, that is, to the point where the foundation P is installed.

Next, the installation ship 1 is aligned so that a part of the foundation part P exposed to the sea is located in the installation hole 15 of the installation ship 1. Then, the leg units 13 provided on the installation ship 1 are pulled out toward the sea bottom S, so that the installation ship 1 is fixed to the sea bottom S. In a state in which the installation ship 1 is fixed by the leg units 13, the installation ship 1 may be maintained at a predetermined height relative to the sea level by the leg units 13.

First, in the state where the marine wind turbine 20 is fixed with respect to the ship body 10, the gantry crane 31 approaches the marine wind turbine 20 side, the holding portion of the marine wind turbine 20 ( 21). At this time, only the upper clamping part 313 of the gantry crane 31 clamps the upper end 211 of the support 21.

Then, by lowering the fixed unit 33 for fixing the offshore wind turbine 20 with respect to the ship body 10 with respect to the deck 19, the offshore wind generator 20 by the fixed unit 33 A first release step of releasing the lock is performed.

When the fixing of the offshore wind power generator 20 by the fixing unit 33 is released, the lower side clamping portion 314 of the gantry crane 31 clamps the lower end 212 of the support 21. Accordingly, both the upper end 211 and the lower end 212 of the support 21 may be clamped by the gantry crane 31.

Next, the gantry crane 31 transfers the offshore wind turbine 20 to the installation hole 15 formed in the ship body 10 while clamping the support 21 of the offshore wind turbine 20. The transfer step is performed, the gantry crane 31 is moved toward the installation hole 15 along the rail portion (32).

At this time, by the upper clamping portion 313 and the lower clamping portion 314 of the gantry crane 31, the upper end 211 and the lower end 212 of the support portion 21 is clamped at the same time, thereby standing Offshore wind turbine 20 can be transported stably.

And, the conveying step, by the lifting step of lifting the offshore wind turbine 20 against the deck 19 in the state in which the gantry crane 31 clamped the holding portion 21, offshore wind turbine In the transfer process of 20, the offshore wind turbine 20 is attracted to the deck 19, or the transfer of the offshore wind turbine 20 by other equipment installed on the deck 19 can be prevented. have.

When the offshore wind power generator 20 is transferred to the installation hole 15 by the gantry crane 31, the base portion P positioned in the installation hole 15 and the support portion 21 of the offshore wind power generator 20 are used. ) Is performed to align the base.

When the base portion P and the shore portion 21 of the offshore wind turbine 20 are aligned, the offshore wind turbine 20 is lowered to bring the base portion P into contact with the shore portion 21. A base fixing step of fixing the support 21 to the foundation P is performed. At this time, the fixing of the support portion 21 to the base portion P may be performed by welding and / or fixing member.

When the foundation fixing step is completed, that is, when the marine wind turbine 20 is completely installed on the sea, the upper clamping portion 313 and the lower clamping portion 314 of the gantry crane 31 are the holding portions. By performing the second release step of releasing the state of clamping 21, the installation of the offshore wind turbine 20 is completed.

At this time, in the state where the installation of the offshore wind power generator 20 is completed, the offshore wind power generator installation ship 1 moves forward so that the installed offshore wind power generator 20 and the installation ship 1 do not interfere with each other. In addition, the installed offshore wind turbine 20 can be released from the installation hole 15 of the installation vessel (1).

In addition, the clamping moving unit 315 is moved to the left or the right with respect to the offshore wind turbine 20, so that the installation vessel 1 is moved in the state where the installation of the offshore wind turbine 20 is completed. In addition, the clamping moving part 315 may be prevented from interfering with the offshore wind turbine 20. According to the proposed embodiment, the assembling of the offshore wind turbine 20 is completed and then transported and installed in the sea, thereby providing an advantage that the offshore wind turbine 20 can be quickly installed. .

In addition, as the installation of the offshore wind turbine 20 is performed quickly, there is an advantage that the restriction on the installation of the offshore wind turbine 20, such as weather conditions, can be reduced.

9 is a side view showing a marine wind turbine installation ship according to a second embodiment of the present invention, Figure 10 is a plan view showing the marine wind turbine installation vessel of FIG.

This embodiment differs in the configuration in which the offshore wind turbine 20 is loaded on the installation ship, but in the other configuration, the same as the configuration of the offshore wind turbine installation ship according to the first embodiment. The description focuses on the characteristic parts.

9 and 10, the offshore wind turbine installation ship 5 according to the present embodiment is installed for the installation of the deck 52 and the offshore wind turbine 20 on which the offshore wind turbine 20 is loaded. Hole body 505 is formed and the ship body 50 is provided with a living port 51 for driving the installation vessel 5, the rail unit 54 extending in the front and rear direction of the ship body 50, and The gantry crane 53 is installed to be movable along the portion 54 and the offshore wind turbine 20 is rotatably provided so that it can stand and stand on the deck 52, and optionally the offshore wind turbine ( 20, the standing unit 55 and the installation vessel 5 capable of supporting the marine wind power generator 20 in the vertical direction with respect to the deck 52, or supporting the ship in an inclined state, the bottom surface (S) Leg unit 56 for fixing relative to the < RTI ID = 0.0 >

In more detail, the standing unit 55 includes a standing unit body 551 on which the support portion 21 of the offshore wind turbine 20 is supported, and a standing unit body 551 on the deck 52 of the ship body 50. And a standing unit hinge 552 for rotatably connecting the standing unit hinge 552 and a standing unit driving unit 554 for selectively standing the standing unit body 551 with respect to the deck 52 of the ship body 50. At this time, the standing unit driving unit 554 is one side is fixed to the standing unit body 551, the other side is fixed to the deck 52, to selectively stand the standing unit body 551 from the deck 52, an example It can be a hydraulic cylinder.

In addition, the fixed unit 553 for fixing the offshore wind generator 20 to prevent the offshore wind generator 20 from being removed from the ship body 50 is a standing unit body 551 of the standing unit 55. It may be installed in, and may be formed of a wire member or a clamping member.

On the other hand, the standing unit 55 is provided in plural to correspond to each of the plurality of offshore wind turbines 20, the plurality of offshore wind turbines 20 and standing units 55 according to the present embodiment is a rail portion A plurality of rows may be disposed between the plurality of rails of 54.

The upper clamping portion 533 and the lower clamping portion 534 of the gantry crane 53 extend along the crane body 531 in the moving direction of the crane body 531, that is, the rail portion 54. It is provided to be movable in a direction perpendicular to the direction, it is possible to clamp the offshore wind turbines 20 of different rows. That is, the upper clamping portion 533 and the lower clamping portion 534 is provided to be movable in the vertical direction and the left and right directions.

At this time, the gantry crane 53 may include a moving means such as a rail and a pulley for moving the upper clamping portion 533 and the lower clamping portion 534 in the left and right directions.

In this embodiment, the marine wind turbine 20 is described as being inclined with respect to the deck 52, but the marine wind turbine 20 is completely laid on the deck 52, It will be said that the configuration supported by the standing unit 55 is also possible.

According to the proposed embodiment, the offshore wind power generator 20 is loaded at an inclined angle with respect to the deck 52, and thus the transport of the offshore wind power generator 20 can be safely performed.

11 is a side view showing a marine wind turbine installation ship according to a third embodiment of the present invention, Figure 12 is a plan view showing a marine wind turbine installation vessel of FIG.

This embodiment is different from the structure of the ship body and the fixed structure of the offshore wind power generator, and in the other configuration is the same as the configuration of the first embodiment, the following description will focus on the characteristic parts of this embodiment.

11 and 12, the inlet port 61 of the ship body 60 of the offshore wind turbine installation vessel 6 according to the present embodiment is located in the center of the ship body 60, the ship body 60 ) Is the first hull 621 and the second hull 622 symmetrical and spaced apart from each other around the inlet 61 and the leg unit 66 for supporting the ship body 60 against the sea bottom And a front work hole 67 and a rear work hole 68 are formed between the first hull 621 and the second hull 622.

The offshore wind power generator installation ship 6 according to the present embodiment is formed such that the first hull 621 and the second hull 622 are symmetrical, and in the central portion of the first hull 621 and the second hull 622. The residence port 61 may be a catamaran (Catamaran) is located.

At this time, the front work hole 67 is opened toward the front of the ship body 60, the rear work hole 68 is opened toward the rear of the ship body 60.

The front gantry crane 63 and the rear gantry crane 64 spaced apart from each other around the inlet 61 are movable to the rail 65 extending in the front-back direction to the ship body 60. Is installed. At this time, the front gantry crane 63 and the rear gantry crane 64, respectively, the crane body (631,641) for supporting the offshore wind turbine (20), the upper clamping parts (633,643) and the lower clamping part (634,644).

Then, in the process of transporting the offshore wind turbine installation vessel 6 according to the present embodiment to the sea offshore wind turbine 20, the offshore wind turbine 20 is the front side gantry crane 63 and the rear side gantry It is transported in a fixed state by the crane 64. That is, the clamping parts 633, 643, 634 and 644 according to the present embodiment serve to fix the marine wind power generator 20 to the ship body 60 as the fixing unit of the first embodiment.

According to the proposed embodiment, the work hole for installing the offshore wind turbine 20 is provided in a pair of openings toward the front and rear of the ship body 60, respectively, any one foundation (P) After installing the offshore wind power generator 20, there is an advantage that can minimize the repeated operation of the forward and backward of the installation ship 6 in order to ensure that the other base P is located in the work hall. .

In addition, when the offshore wind power generator 20 is installed by the offshore wind power generator installation ship 6 in the vicinity of the port, the above-described repeat operation is minimized, so that the offshore wind power generator 20 is quickly installed. Can be.

Although the above has been illustrated and described with respect to the preferred invention of the present invention, the invention is not limited to the specific embodiments described above, it is common in the art to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications may be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the scope of the present invention.

1: offshore wind power generator installation ship 10: ship body
13 Leg Unit 15 Mounting Hole
20: offshore wind power generator 31: gantry crane
32: rail portion 33: fixed unit
32: rail portion 33: fixed unit

Claims (19)

Holding part; A generator body supported by the support unit; In the offshore wind power generator installation ship for installing a marine wind power generator comprising; and a propeller rotatably connected to the generator body,
The ship, wherein the plurality of offshore wind turbines, to which the props, the generator body and the propellers are assembled, are mounted on a deck, and an installation hole penetrates downwards to install the offshore wind turbines at the offshore installation point. Body;
A fixed unit fixing the marine wind power generator to the ship body;
A rail unit including a pair of rails spaced apart from each other about the installation hole and extending in parallel with each other;
The marine wind turbine is installed to be movable along the rails of the rail unit, and the clamping unit of the marine wind turbine is clamped while the marine wind turbine is not fixed by the fixing unit. An offshore wind turbine installation vessel comprising: a gantry crane for transporting to an installation hole and for installing the offshore wind turbine at sea through the installation hole. The method of claim 1,
The gantry crane,
A crane body for supporting the load of the marine wind turbine;
A crane moving part provided at both ends of the crane body and installed to be movable on the rails;
An upper side clamping part installed on the crane body and configured to clamp an upper end portion and a lower end portion of the support portion of the offshore wind turbine; And a lower side clamping portion. Offshore wind turbine installation vessel comprising a. The method of claim 2,
The gantry crane, in the state in which the upper clamping portion and the lower clamping portion clamps the support portion of the offshore wind turbine, lifts the support portion at a predetermined distance from the ship body, and then the support portion Offshore wind power generator installation ship characterized in that the transfer to the installation hole. The method of claim 2,
The upper clamping portion and the lower clamping portion, marine wind turbine installation ship, characterized in that provided along the crane body to be movable in a direction perpendicular to the moving direction of the crane body. The method of claim 1,
The fixed unit is installed to be elevated on the deck of the ship body,
In a state in which the fixed unit is raised relative to the deck, the fixed unit is surrounded by a portion of the marine wind turbine to fix the marine wind turbine to the ship body with respect to the ship body,
When the holding portion is clamped by the gantry crane, the fixed unit is lowered to the deck, the offshore wind turbine installation ship, characterized in that to release the offshore wind turbine for the ship body. The method of claim 5, wherein
The fixed unit is an offshore wind turbine generator ship, characterized in that the lifting and lowering with respect to the deck by a hydraulic cylinder. The method of claim 1,
The offshore wind turbine is supported and rotatably provided so as to stand on the deck, and optionally supports the offshore wind turbine in an obliquely inclined state or the offshore wind turbine is perpendicular to the deck. An offshore wind generator installation vessel further comprising; a standing unit capable of standing up. The method of claim 7, wherein
The fixed unit is installed in the standing unit, the offshore wind turbine generator, characterized in that to prevent the offshore wind generator is removed from the ship body. The method of claim 7, wherein
The standing unit,
A standing unit body in which the support portion of the offshore wind turbine is supported;
A standing unit hinge rotatably connecting the standing unit body to the ship body; And
And a standing unit driving part for selectively standing the standing unit body with respect to the deck of the ship body. The method of claim 9,
The standing unit driving unit, one side is fixed to the standing unit body, the other side is offshore wind turbine installation ship, characterized in that the hydraulic cylinder is fixed to the deck. The method of claim 1,
The installation hole of the ship body includes a front side installation hole opened to the front of the ship body around the center of the ship body and a rear side installation hole opened to the rear of the ship body,
The gantry crane, the front side gantry crane is moved toward the front side installation hole to install the offshore wind power generator through the front side installation hole; And a rear side gantry crane moving toward the rear side installation hole to install the marine wind turbine through the rear side installation hole. The method of claim 11,
The ship body is an offshore wind turbine generator ship formed of a catamaran (Catamaran) comprising a first hull and a second hull symmetrical about the front and rear mounting holes. 13. The method of claim 12,
The fixed unit is installed on the gantry cranes, offshore wind turbine generator ship, characterized in that the upper clamping means and the lower clamping means for selectively clamping the upper and lower ends of the holding portion of the offshore wind turbine. The method of claim 1,
It is installed on the ship body to be lifted, offshore wind power generator installation ship further comprising a plurality of leg units for fixing the ship body to the bottom surface in order to suppress the flow of the ship body. Holding part; A generator body supported by the support unit; And a propeller rotatably connected to the generator body; offshore wind power using an offshore wind power generator installation vessel for installing a plurality of offshore wind generators loaded in a fixed state relative to the deck of the ship body in an assembled state. In the generator installation method,
A first releasing step of releasing the fixing of the offshore wind turbine with respect to the ship body of the offshore wind generator installation vessel;
A transfer step of transferring the offshore wind turbine to an installation hole formed in the ship body in a state in which the holding portion of the offshore wind turbine is clamped;
Located in the installation hole, the base portion alignment step for aligning the base exposed to the sea and the offshore wind turbine;
A base fixing step of fixing the marine wind turbine to the foundation such that the installation of the marine wind turbine for the sea can be performed; And
And a second release step of releasing the clamping state of the support portion after the marine wind turbine is completely installed in the sea. The method of claim 15,
In the first release step, the fixed unit surrounding a portion of the holding portion of the offshore wind turbine is lowered with respect to the deck of the ship body, characterized in that to release the offshore wind turbine for the ship body fixed. Offshore wind power generator installation using offshore wind turbine installation method. The method of claim 15,
And a wind generator standing step of standing the marine wind generator loaded in an inclined state with respect to the deck. The method of claim 15,
The transporting step of transporting the offshore wind turbine and the base unit sorting step of aligning the offshore wind power generator with respect to the base,
Method for installing a wind turbine using an offshore wind turbine installation ship, characterized in that performed by a gantry crane movably installed along a plurality of rails installed side by side around the installation hole The method of claim 15,
The transfer step,
And a lifting step of lifting the offshore wind turbine generator against the deck in the clamping state of the supporter.

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