KR101603193B1 - Ship for installing a wind power generator on the sea and installing methods using the same - Google Patents

Abstract

A tower 20 supported by the foundation structure 10; a nacelle 30 coupled to the tower 20 and converting rotational force into electrical energy; The present invention relates to a ship for installing an offshore wind turbine generator that includes a rotor (40) for providing a rotating force to a ship (300) 100), a loading space (120) formed in the hull (100) and on which the components of the offshore wind power generator or the offshore wind power generator are loaded, and a space between the loading space (110) and the loading space (120) And a gantry crane (200) for moving the components of the offshore wind power generator or the offshore wind power generator, and a method for installing a offshore wind power generator using the same.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ship for installing an offshore wind power generator and a method for installing the offshore wind power generator using the same,

The present invention relates to a civil engineering field, and more particularly, to a marine wind turbine installation vessel equipped with a cargo space and a gantry crane in which a cargo waiting section formed from land to sea is located, and a method for installing an offshore wind power generator using the same.

The offshore wind power generation business using the technology related to offshore wind power generation is currently being actively carried out in Europe, and research and implementation of wind power generation technology aiming at acquiring environment friendly energy to the Americas and Asia will be expanded.

Unlike the case of the construction of the offshore wind power generation facility where a large portion is placed on the production of the power generation device itself, the construction of the offshore wind power generation facility is also largely focused on the movement and installation of the offshore wind power generation plant. This is because the offshore wind power generation is required to construct a stable structure under the marine environment where the construction environment is poor compared with the land.

FIG. 1A is a view showing an offshore wind turbine installation dedicated line 2 equipped with a conventional large-scale floating crane 2, and FIG. 1B is a view showing a conventional large-size floating crane line 4. That is, conventionally, a dedicated offshore wind turbine installation line 2 equipped with a large-sized overhead crane 2 has been used for the transportation and installation of an offshore wind power generator, or a separate large overhead crane line 4 has been used.

However, it has been difficult to smoothly install offshore wind power generators because the supply of the offshore wind turbine installation line (2) or the large offshore crane ship (4) is not smooth.

In addition, even if a marine wind turbine generator installation line (2) or a large marine crane line (4) is used, it is difficult to precisely adjust the movement of a large-scale offshore wind turbine generator (3) There has been a problem of high difficulty.

An object of the present invention is to provide a marine wind turbine installation dedicated line 2 or a large marine crane line 4 having a large marine crane, The present invention is to provide a vessel for installing an offshore wind turbine generator capable of moving and installing components of a large-scale offshore wind turbine generator or an offshore wind turbine generator.

It is another object of the present invention to provide a ship for installing an offshore wind power generator, which is particularly effective for the movement and installation of the foundation structure among the components of the offshore wind power generator.

Another object of the present invention is to provide a vessel for installing an offshore wind turbine generator capable of precisely constructing an offshore wind turbine.

It is still another object of the present invention to provide a method for installing an offshore wind power generator using a ship for installing a offshore wind power generator proposed in the present invention.

According to an aspect of the present invention, there is provided a building structure including a foundation structure, a tower supported by the foundation structure, a nacelle which is coupled with the tower and converts rotational force into electrical energy, And a rotor (40) for providing a rotating force to the nacelle (30), wherein a loading space (110) in which a loading / unloading base (400) protruding from the land (300) A formed hull 100; A loading space 120 formed in the hull 100 and loaded with the components of the offshore wind power generator or the offshore wind power generator; And a gantry crane (200) moving between the loading space (110) and the loading space (120) and moving the components of the offshore wind power generator or the offshore wind power generator A vessel is provided.

Here, the land 300 is formed to extend from the land 300 to the unloading base 400, and the first rail 500, on which the components of the offshore wind power generator or the offshore wind power generator are mounted, And a rail 310 is formed on the outer surface of the ship.

The gantry crane 200 may further include a second rail 210 spaced apart from the hull 100 by a predetermined distance to move the gantry crane 200.

The second rail 210 may be a pair of rails spaced apart from each other by a predetermined distance about the loading space 110 and extending parallel to each other.

The gantry cranes 200 may include a pair of first frames 220 installed upright on the second rails 210 and movable along the second rails 210; A second frame 230 vertically coupled to the pair of first frames 220; And a lifting line (260) coupled with a gripper (240) for fixing the configuration of the offshore wind power generator or the offshore wind power generator to the gantry crane (200) at one end; And a crane motor (250) installed on the second frame (230) for taking up and winding the lifting line (260).

In addition, the unloading space 110 is formed in a depressed shape corresponding to a protruding shape of the unloading standby portion 400.

According to another aspect of the present invention, there is provided a method of installing an offshore wind turbine generator using a vessel for installing an offshore wind turbine generator, the method comprising the steps of: mounting a component of the offshore wind generator or the offshore wind generator on the rail bogie Step SlOO; A second step (S200) of moving the rail bail (500) to the unloading standby portion (400); A third step (S300) of coupling the gripper (240) to a component of the offshore wind power generator or the offshore wind power generator mounted on the rail bail (500); A fourth step (S400) of loading the components of the offshore wind power generator or the offshore wind power generator into the loading space 120 using the gantry crane 200; A fifth step (S500) of transporting the components of the offshore wind power generator or the offshore wind power generator mounted on the loading space 120 to the installation points of the components of the offshore wind power generator or the offshore wind power generator; And a sixth step (S600) of installing the offshore wind power generator or the components of the offshore wind power generator.

In operation S600, the installation point is located in the unloading space 110 (S610). (S620) using the gantry crane (200) to move the components of the offshore wind power generator or the offshore wind power generator to an upper portion of the installation point; And a step (S630) of winding off the lifting line (260) wound on the crane motor (250) and unloading the components of the offshore wind power generator or the offshore wind power generator to the installation point (S630) A method for installing an offshore wind power generator.

According to the present invention, it is possible to move and install components of an offshore wind power generator or an offshore wind power generator without using a large-sized overhead crane.

According to the present invention, since it is not required to use a large-sized floating crane in the movement and installation of the offshore wind power generator, it is possible to provide a large- , The overall construction cost can be lowered.

According to the present invention, it is possible to facilitate loading and installation for movement of a large-scale structure offshore wind turbine.

FIG. 1A is a view showing a dedicated line for installation of an offshore wind turbine provided with a conventional large-scale floating crane. FIG.
1B is a view showing a conventional large-scale marine crane line.
2 is a diagram showing a basic configuration of an offshore wind power generator;
3 is a view showing a process in which a ship for installing a offshore wind power generator according to an embodiment of the present invention enters for settlement on the land.
4 is a view showing a state where an offshore wind power generator or an offshore wind power generator is located in a cargo standby part according to an embodiment of the present invention;
FIG. 5 is a plan view showing a state where an offshore wind turbine or an offshore wind turbine is loaded on a ship for installing a offshore wind turbine according to an embodiment of the present invention. FIG.
FIG. 6 is a front view showing a state in which components of an offshore wind power generator or an offshore wind power generator are loaded on a ship for installing a offshore wind power generator according to an embodiment of the present invention; FIG.
FIG. 7 is a plan view showing a state where components of an offshore wind turbine or an offshore wind turbine are installed at a mounting point in a ship for installing a offshore wind turbine generator according to an embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, And the description thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

As shown in Fig. 1, the offshore wind turbine installation dedicated line 2 (Fig. 1A) equipped with the conventional large-scale overhead crane 2 for moving and installing the offshore wind power generator 3, (FIG. 1B) is difficult to supply and receive, and it is difficult to smoothly install the offshore wind turbine generator, and the rent is expensive, which causes a rise in the overall construction cost.

Even if the offshore wind power generator installation dedicated line 2 and the large offshore crane line 4 are used, it is not easy to finely adjust the position of the offshore wind power generator 3, which is a large structure. There has been a problem that the degree of difficulty increases.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the above-described conventional marine wind turbine installation vessel.

The offshore wind turbine basically includes a foundation structure 10, a tower 20 supported by the foundation structure 10, a nacelle 30 and a nacelle 30 which are combined with the tower 20 and convert rotational force into electric energy, And a rotor 40 that provides rotational force to the rotor 40 (FIG. 2).

The ship for installing a offshore wind power generator according to an embodiment of the present invention basically comprises a hull 100 having a loading space 110 in which a loading and unloading base 400 protruding from a land 300 is positioned, 100 and moves between the loading space 120 where the components of the offshore wind power generator or the offshore wind power generator are loaded and the loading space 110 and the loading space 120. The components of the offshore wind turbine or offshore wind turbine (Fig. 3).

The unloading base unit 400 is a place for positioning the components of an offshore wind power generator or an offshore wind power generator before being mounted on a ship for installation, and is preferably protruded toward the sea from the land surface 300 (FIG. 4). The protruded unloading base portion 400 can be inserted into the unloading space 110, which is formed by being recessed on the installation ship.

For this purpose, it is preferable that the unloading space 110 is formed in a concave shape corresponding to the protruding shape of the unloading base 400.

The land 300 is formed from the land 300 to the unloading base 400 and is formed with a first rail 310 on which a rail balancer 500 on which an offshore wind turbine or offshore wind turbine generator is mounted is moved (Fig. 3).

The ship for installing an offshore wind power generator according to an embodiment of the present invention may further include a second rail 210 spaced from the hull 100 by a predetermined distance and on which the gantry crane 200 is moved 3).

In this case, it is preferable that the second rails 210 are a pair of rails spaced apart from each other by a predetermined distance around the loading space 110 and extending parallel to each other.

Since the offshore wind turbine generator 400 or the offshore wind turbine generator 400 can be located in the unloading space 110 and the offshore wind turbine generator or the offshore wind turbine generator can be located on the unloading base, The gripper 240 of the gantry crane 200 can be positioned above the unloading base through a pair of rails extending in parallel (FIG. 5).

Therefore, the ship for installing a offshore wind power generator according to an embodiment of the present invention can be installed on an offshore wind power generator or a marine offshore wind turbine without using a dedicated offshore wind turbine installation line equipped with a large offshore crane 2 or a large offshore crane line 4. [ It is possible to move the components of the wind power generator from the land to the ship.

Compared to the large-scale floating crane 2, the gantry crane 200 is easy to move vertically and horizontally in a lifted state of the object to be moved. Therefore, in loading and installing the components of an offshore wind power generator or an offshore wind power generator, An advantage that a more precise adjustment is made possible by the conventional technique is added.

Further, since the use of the large-sized overhead crane 2 is not required, it is possible to reduce the burden on the overhead rent of the large overhead crane 2 and the delay of the construction due to the difficulty in supplying and receiving the overhead overhead crane 2 .

A gantry crane 200 provided on a ship for installing an offshore wind power generator according to an embodiment of the present invention includes a pair of first and second rails 210 and 220 installed upright on a second rail 210, A frame 220, a second frame 230 vertically coupled to the pair of first frames 220, and a gripper 240 securing the components of the offshore wind turbine or offshore wind turbine to the gantry crane 200 at one end, And a crane motor 250 installed on the lifting line 260 and the second frame 230 for lifting and winding the lifting line 260 (FIG. 6).

Hereinafter, a method for installing an offshore wind turbine using a ship for installing a offshore wind power generator according to an embodiment of the present invention will be described.

A method of installing an offshore wind power generator using a ship for installing a offshore wind power generator according to an embodiment of the present invention includes a first step (S100) of loading components of an offshore wind power generator or an offshore wind power generator on a rail bogie (500) A second step S200 of moving the rail bail 500 to the unloading standby portion 400 and a third step of coupling the gripper 240 to the components of the offshore wind turbine or offshore wind turbine mounted on the rail bail 500, (S300), a fourth step (S400) of loading the components of the offshore wind power generator or the offshore wind power generator into the loading space 120 using the gantry crane 200, the offshore wind power generator A fifth step S500 of conveying the components of the offshore wind power generator to an installation point of the components of the offshore wind power generator or the offshore wind power generator and a sixth step S600 of installing components of the offshore wind power generator or offshore wind power generator, .

In the first step S100, the order of loading the components of the offshore wind turbine or offshore wind turbine generator on the rail bogie 500 may be after all the components of the offshore wind turbine or offshore wind turbine have been formed, A configuration of an offshore wind power generator or an offshore wind power generator may be formed on the upper portion of the wind power generator 500.

In the sixth step S600, an installation point is located at the loading space 110 (S610). The gantry crane 200 is used to move the components of the offshore wind turbine or offshore wind turbine Step S620 of winding off the lifting line 260 wound on the crane motor 250 and unloading the offshore wind power generator or the components of the offshore wind power generator to the installation point S630.

The unloading space 110 may be located at a loading / unloading base 400 for loading an offshore wind power generator or an offshore wind power generator, and may also be located at an installation point of an offshore wind power generator or an offshore wind generator, By taking the configuration of the unloading space (110), the present invention has the effect of facilitating the loading and installation for moving the components of the offshore wind turbine generator or offshore wind turbine generator.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: Hull
200: Gantry crane
300: Athletics
400: unloading donation
500: rail carriage

Claims (8)

A tower 20 supported by the foundation structure 10; a nacelle 30 coupled to the tower 20 and converting rotational force into electric energy; A method for installing an offshore wind power generator including a rotor (40) provided on a ship using a ship for installing a offshore wind power generator,
The ship for installing an offshore wind power generator,
A hull (100) having a loading space (110) in which a loading / unloading base (400) protruding from the land (300) toward the sea is located;
A loading space 120 formed in the hull 100 and loaded with the components of the offshore wind power generator or the offshore wind power generator; And
And a gantry crane (200) moving between the loading space (110) and the loading space (120) and moving the components of the offshore wind power generator or the offshore wind power generator,
The ship for installing an offshore wind power generator,
And a second rail 210 formed at a predetermined distance from the hull 100 and on which the gantry crane 200 is moved,
The second rails 210 are a pair of rails spaced apart from each other by a predetermined distance around the loading space 110 and extending parallel to each other,
The gantry crane (200)
A pair of first frames (220) installed upright on the second rails (210) and movable along the second rails (210);
A second frame 230 vertically coupled to the pair of first frames 220; And
A lifting line (260) coupled with a gripper (240) for fixing the offshore wind power generator or the components of the offshore wind power generator to the gantry crane (200) at one end; And
And a crane motor (250) installed on the second frame (230) to take up and unwind the lifting line (260)
The unloading space 110 is formed in a concave shape corresponding to the protruding shape of the unloading standby portion 400,
A first step S100 of mounting the components of the offshore wind power generator or the offshore wind power generator on a rail bail 500 moving on a first rail 310 formed from the land area 300 to the unloading standby part 400, ;
A second step (S200) of moving the rail bail (500) to the unloading standby portion (400);
A third step (S300) of coupling the gripper (240) to a component of the offshore wind power generator or the offshore wind power generator mounted on the rail bail (500);
A fourth step (S400) of loading the components of the offshore wind power generator or the offshore wind power generator into the loading space 120 using the gantry crane 200;
A fifth step (S500) of transporting the components of the offshore wind power generator or the offshore wind power generator mounted on the loading space 120 to the installation points of the components of the offshore wind power generator or the offshore wind power generator; And
And a sixth step (S600) of installing the offshore wind power generator or the components of the offshore wind power generator.
The method according to claim 1,
In a sixth step S600,
Placing the installation point in the unloading space 110 (S610);
(S620) using the gantry crane (200) to move the components of the offshore wind power generator or the offshore wind power generator to an upper portion of the installation point; And
A step (S630) of winding off the lifting line (260) wound on the crane motor (250) and unloading the components of the offshore wind power generator or the offshore wind power generator to the installation point;
Wherein the wind turbine is installed in the offshore wind turbine.

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