KR102474065B1 - Wind turbine installation vessel - Google Patents

Abstract

The present invention relates to a wind turbine installed vessel. Specifically, according to one embodiment of the present invention, a wind turbine installation ship is a ship for installing an offshore wind turbine, including a hull; And provided on the hull, it may include a loading device for loading at least some of the parts constituting the offshore wind power generator. In addition, the loading device may include a first loading unit including a first accommodating unit capable of accommodating parts for a wind turbine; a loading part rotating shaft disposed on one side of the first loading part; And it may include a second loading part connected to the first loading part rotatably to the outside of the hull through the loading part rotating shaft and having a second accommodating part capable of accommodating parts for a wind turbine.

Description

Wind turbine installation vessel {WIND TURBINE INSTALLATION VESSEL}

The present invention relates to a wind turbine installed ship.

As the demand for eco-friendly energy development increases, power generation using wind power generators is in the limelight worldwide. However, stringent environmental conditions are required to install a wind turbine. For example, the place where the wind turbine is installed must be a place where wind speed above a certain level can be guaranteed to obtain meaningful rotation of the blades, and pollution caused by noise generated when the wind turbine is driven must not be an issue. do. In addition, even if these environmental conditions are satisfied, a very large area of space is required to install the wind turbine.

Recently, interest in offshore wind turbines that are relatively free from the above constraints has increased. Although offshore wind turbines can be installed in various ways, they are generally installed in a way that is divided into several parts, manufactured on land, and then moved to the sea to assemble the manufactured parts. Here, the offshore wind turbine mainly consists of three parts: a blade, a nacelle, and a tower.

A ship that moves parts of offshore wind turbines manufactured on land to the sea and installs offshore wind turbines on the sea is generally called a wind turbine installation vessel (WTIV).

Due to the nature of the work, such a wind turbine installation vessel may be operated in a transit mode and a jackup mode. Specifically, the wind turbine installation vessel moves to a location where the offshore wind turbine is to be installed in a sailing mode. In sailing mode, the leg may remain moved upward of the hull to reduce resistance caused by seawater. Thereafter, the wind turbine-installed ship switches to jack-up mode, lowers the legs, and drives them into the seabed, and then lifts the hull along the legs so that the hull can be separated from the sea level by a predetermined distance. When the hull reaches a certain position, the wind turbine installation vessel stops moving the hull and performs an operation to install the offshore wind turbine, and when the installation is completed, it proceeds in the reverse order of the above order and moves to the next installation location.

However, since the main deck of such a wind turbine installation ship provides only a limited space, the number of parts constituting the offshore wind generator can be loaded is limited, but the more the quantity that can be installed after one voyage, the more economical it is. . In addition, since various structures such as a crane, a wheelhouse, and a crew room are disposed on the hull as well as component parts of an offshore wind turbine, a means for efficiently loading these parts on the hull is required.

Publication No. 10-2015-0138256 Public Utility Model Publication No. 20-2015-0004035 Publication No. 10-2012-0118524

Embodiments of the present invention have been invented in the above background, and to provide a wind turbine installation vessel capable of supplying parts for a wind turbine to the wind turbine installation vessel.

According to one aspect of the present invention, in a ship for installation of an offshore wind power generator, the hull; And a loading device provided on the hull and loading at least some of the parts constituting the offshore wind turbine, wherein the loading device includes a first accommodating part capable of accommodating the wind turbine parts. 1 loading part; a loading part rotating shaft disposed on one side of the first loading part; And a second loading part connected to the first loading part rotatably to the outside of the hull through the loading part rotating shaft and having a second accommodating part capable of accommodating parts for a wind turbine, a wind turbine installed vessel can be provided.

In addition, when the second loading part is rotated inside the hull around the loading part rotation axis, the second receiving part of the second loading part faces the first receiving part of the first loading part, a wind turbine installed vessel this can be provided.

In addition, the loading part rotating shaft, when the second loading part is rotated inside the hull around the loading part rotation axis, is higher than the first accommodating part and is disposed at a lower position than the second accommodating part, a wind turbine An installation vessel may be provided.

In addition, it further includes a moving device for moving the loading device, the loading device and the moving device are provided in plural, and the plurality of loading devices move along the moving device, so that the distance between them can be adjusted. There, a wind turbine installation vessel may be provided.

In addition, when the second loading part is rotated at a predetermined angle to the outside of the hull around the rotation axis of the loading part, a safety device for preventing the second loading part from further rotating with respect to the first loading part is further included, , The safety device includes a first locking member provided in the first loading part; a second locking member provided on the second loading part; And when the second loading part is rotated at a predetermined angle to the outside of the hull around the loading part rotational axis, a wind turbine installation vessel comprising a connecting member capable of connecting the first engaging member and the second engaging member to each other is provided. It can be.

According to an embodiment of the present invention, there is an effect that the wind turbine installation vessel can load a large amount of wind turbine parts and supply them to the wind turbine installation vessel.

1 is a side view of a wind turbine installation vessel according to an embodiment of the present invention.
Figure 2 is a front view showing when the second loading portion of the wind turbine installation vessel of Figure 1 is unfolded.
3 is an enlarged front view of the loading device and the moving device of FIG. 2;
4 is a plan view showing the loading device and the moving device of FIG. 2;
5 is a side view showing a loading device and a moving device when viewed from AA of FIG. 2;
Figure 6 is a front view showing when the second loading portion of the wind turbine installation vessel of Figure 1 is folded.
7 is an enlarged front view of the loading device and the moving device of FIG. 6;
8 is a side view showing a loading device and a moving device when viewed from BB of FIG. 6;

Hereinafter, specific embodiments for implementing the spirit of the present invention will be described in detail with reference to the drawings.

In addition, in the description of the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

In addition, it should be understood that when a component is referred to as being connected to another component, it may be directly connected to the other component, but other components may exist in the middle.

In addition, in this specification, front refers to the direction from the center of the hull to the bow side of the hull, rear refers to the direction from the center of the hull to the aft side of the hull, and the left and right sides indicate the left and right sides of the front side. In the drawings accompanying this specification, some components are exaggerated, omitted, or schematically illustrated, and the size of each component does not entirely reflect the actual size.

In addition, terms including ordinal numbers, such as first and second, may be used to describe various components, but the components are not limited by these terms. These terms are only used to distinguish one component from another.

As used herein, the meaning of "comprising" specifies specific characteristics, regions, integers, steps, operations, elements, and/or components, and other specific characteristics, regions, integers, steps, operations, elements, elements, and/or groups. does not exclude the presence or addition of

Hereinafter, a wind turbine installation vessel 1 according to an embodiment of the present invention will be described with reference to the drawings.

Referring to the drawings, a wind turbine installation vessel 1 according to an embodiment may load and transport at least some of wind turbine parts. In the drawing according to the present embodiment, the wind turbine parts to be loaded are shown as towers, but may be other examples, such as nacelles and blades. The wind turbine installation vessel 1 may include a hull 100, a leg 200, a spud can 300, a loading device 400, a moving device 500, and a controller (not shown).

The hull 100 may be a floating structure capable of operating on the sea and may have self-navigation capability. The hull 100 may have a shape extending in the front-rear direction. The hull 100 has a main deck capable of loading components of an offshore wind turbine, for example, a tower, a nacelle, a blade, and the like, and is in a sailing mode and installation position for moving to a location where the offshore wind turbine is to be installed. It can be switched to jack-up mode for installing offshore wind turbines.

The leg 200 may move vertically along the hull 100 . Specifically, the leg 200 and the hull 100 perform relative motion in the vertical direction with each other, and in a state in which the hull 100 is floating on the sea, the leg 200 moves in the vertical direction, and the leg 200 moves in the vertical direction. In a state in which it is fixed to the seabed, the hull 100 may be moved vertically along the legs 200. To this end, the hull 100 may be provided with a hole (not shown) penetrating in the vertical direction so that the leg 200 can be installed, and the leg support 12 may be provided in a form surrounding the hole. .

The wind turbine installation vessel 1 is sailed while moving the leg 200 upward of the hull 100 to reduce resistance due to seawater in the sailing mode moving to the destination. Then, when reaching the destination, the wind turbine installation vessel 1 switches to the jack-up mode, lowers the leg 200 as shown in FIG. 1, contacts / buries it on the sea floor, and then moves the hull 100 a certain distance from the sea level. The hull 100 is raised along the legs 200 so that they can be spaced apart. When the hull 100 reaches a certain position, the wind turbine installation vessel 1 stops moving the hull 100, and in this state, an offshore wind turbine installation operation is performed. When the work is completed, proceed in the reverse order above and move to the next installation location after transition to navigation mode.

The loading device 400 can receive the part 2 . This loading device 400 is disposed on the side of the hull 100, and interference with other facilities and work spaces disposed on the main deck of the hull 100 can be minimized. Through this loading device 100, space utilization efficiency for loading parts can be maximized, and efficient ship operation is possible.

In addition, the loading device 400 may be moved in one direction with respect to the hull 100 through the moving device 500. In addition, the loading device 400 may be provided in plural, and may be disposed on the left and right sides of the hull 100. The loading device 400 may include a first loading unit 410 , a second loading unit 420 , a loading unit rotating shaft 430 and a safety device 440 .

The first loading part 410 may include a first loading body 411 and a first accommodating part 412 . The first loading body 411 may be a body capable of supporting the first accommodating part 412 and may have a plate shape. The first accommodating part 412 may be configured to accommodate parts for a wind turbine, and may be provided in plurality. The first accommodating portion 412 may have a shape corresponding to the outer shape of one side of the wind turbine component. For example, when a tower is loaded, the first accommodating part 412 may have a groove extending in one direction. The first accommodating part 412 may accommodate a plurality of parts arranged side by side in left and right directions.

The second loading part 420 may include a second loading body 421 and a second accommodating part 422 . The second loading body 421 may be a body capable of supporting the second accommodating part 422 and may have a plate shape. The side of the second loading body 421 opposite to the portion where the second accommodating part 422 is disposed may be a work surface parallel to a horizontal surface and formed flat to provide a work space to a worker. The second accommodating part 422 may be configured to accommodate parts for a wind turbine, and may be provided in plurality. Also, the second accommodating part 422 may be provided in the same number as the first accommodating part 412 . The second accommodating part 422 may have a shape corresponding to the outer shape of one side of the wind turbine component. For example, when a tower is loaded, the second accommodating part 422 may have a groove extending in one direction. The second accommodating part 422 may accommodate a plurality of parts arranged side by side in left and right directions.

Also, the second loading part 420 may be connected to the first loading part 410 through the loading part rotating shaft 430 . In other words, the second mounting unit 420 may be configured to be rotatable with respect to the first mounting unit 410 .

2 to 4, the second loading part 420 may protrude toward the side rather than the side of the hull when it is rotated at a predetermined angle to the outside of the hull 100 and unfolded with respect to the first loading part 410. have. In this case, the predetermined angle at which the second loading part 420 rotates with respect to the first loading part 410 may be approximately 180°, and when rotated, the second loading part 420 rotates with respect to the first loading part 410. and can be arranged side by side along the horizontal plane. In addition, the components accommodated in the first mounting unit 410 and the components accommodated in the second mounting unit 420 may be arranged side by side.

On the other hand, referring to FIGS. 6 and 7, the second loading part 420 rotates to the inside of the hull 100 so as not to protrude beyond the side of the hull 100 when folded with respect to the first loading part 410. can be configured. In this case, the second loading part 420 may be disposed above the first loading part 410 . For example, the first accommodating part 412 may support the lower part of the part, and the second accommodating part 422 may support the upper part of the part supported by the first accommodating part 412 . Also, the second accommodating part 422 may be disposed on the lower side of the second loading body 421, and the working surface of the second loading body 421 may be disposed on the upper side. Also, in this case, the first accommodating part 412 of the first loading part 410 and the second accommodating part 422 of the second loading part 420 may be spaced apart from each other in the vertical direction. In addition, the first accommodating part 412 and the second accommodating part 422 may be arranged to face each other in the vertical direction.

A stopper (not shown) is provided at a portion where the first loading part 410 and the second loading part 420 are connected to each other to prevent the second loading part 420 from excessively rotating with respect to the first loading part 410. may be provided. The stopper may be provided on one or more of the first loading body 411 and the second loading body 421 and may prevent the second loading body 421 from rotating outward beyond a predetermined angle.

The rotation shaft 430 of the load unit may be a rotation shaft of the second load unit 420 relative to the first load unit 410 . The first loading body 411 may be rotatably connected to the second loading body 421 through the loading unit rotation shaft 430 . The loading unit rotating shaft 430 may be disposed outside the hull 100 within the first loading body 411 and may be disposed between the first loading body 411 and the second loading body 421 . In addition, the loading part rotating shaft 430 receives the first loading part 420 when the second loading part 420 is rotated to the inside of the hull 100 around the loading part rotating shaft 430 and folded with respect to the first loading part 410. It may be disposed higher than the portion 412 and lower than the second accommodating portion 422 .

The safety device 440 is the second loading part 420 when the second loading part 420 is rotated to the outside of the hull 100 around the loading part rotating shaft 430 and unfolded with respect to the first loading part 410. ) may be prevented from excessively rotating with respect to the first mounting unit 410 . In other words, the safety device 440 may prevent the second loading body 421 from rotating outwardly of the hull 100 beyond a predetermined angle.

The safety device 440 may include a first locking member 441 , a second locking member 442 and a connecting member 443 . The first locking member 441 may be disposed in the first loading body 411 of the first loading unit 410, and the second locking member 442 is the second loading body of the second loading unit 420 ( 421) can be placed. Hole-like structures may be provided at ends of the first locking member 441 and the second locking member 442 so as to be connected to the connection member 443 . The connecting member 443 may be a chain connecting the end of the first locking member 441 and the end of the second locking member 442 . The connecting member 443 may be installed on the hooks 441 and 442 by an operator when the wind turbine parts are loaded into the loading unit.

When the second loading part 420 is rotated to the outside of the hull around the loading part rotating shaft 430 and spreads with respect to the first loading part 410, the connecting member 443 is connected to the first locking member 441. It is connected between the two hooks 442 and the second mounting unit 420 can be prevented from excessively rotating at a predetermined angle or more with respect to the first mounting unit 410 .

In addition, when the second loading part 420 is rotated inside the hull around the loading part rotating shaft 430 and folded with respect to the first loading part 410, the first locking part 441 and the second hanging part 442 ) The connecting member 443 between them can be removed by an operator or a separate power unit. In addition, when the second loading part 420 is folded with respect to the first loading part 410, the first hook 441 and the second hook 442 are located at the center of the hull 100 within the loading device 400. At the edges of the sides, they may be arranged so as not to overlap each other. For example, as shown in FIGS. 1, 4 and 8 , the separation distance of the second locking member 442 in the front-back direction may be greater than that of the first locking member 441 in the front-back direction. In addition, the second locking member 442 may be disposed farther than the first locking member 441 with respect to the center line of the loading device 400 extending in the left and right directions.

The first locking member 441 and the second locking member 442 are interposed between the first loading part 410 and the second loading part 420, and the first accommodating part 412 or the second accommodating part ( 422) supports at least a part of the force that may be applied due to the folding of the second loading part 420. In other words, the first locking member 441 and the second locking member 442 may support at least a portion of the load when the second loading part 420 is folded. Accordingly, it is possible to prevent the first accommodating part 412 and the second accommodating part 422 from being deformed or damaged by the force caused by the load of the second loading part 420 .

A driving device (not shown) may be provided in the loading device 400 to provide power for the second loading unit 420 to rotate with respect to the first loading unit 410 . For example, the driving device may be a hydraulic motor.

A plurality of loading devices 400 may be provided, and the plurality of loading devices 400 may be arranged in one direction along at least one of the left and right sides of the hull 100 . In addition, the first accommodating part 412 and the second accommodating part 422 provided in any one of the plurality of loading devices 400 arranged in one direction are among the plurality of loading devices 400 arranged in one direction. The first accommodating part 412 and the second accommodating part 422 provided in the other may be arranged in parallel. For example, the first accommodating portion 412 and the second accommodating portion 422 of the loading device 400 arranged at the front of the left side are the first accommodating portion 412 of the loading device 400 arranged second on the left side. ) and the second accommodating portion 422 may be arranged in parallel. In this case, one side of one part is accommodated in the accommodating part of any one of the plurality of loading devices 400 (eg, the first loading device 400), and the other one of the plurality of loading devices 400 (eg, the first loading device 400). For example, the other side of one component may be accommodated in the accommodating portion of the second loading device 400).

The moving device 500 may be configured to move the loading device 400. The moving device 500 includes a rail 510 installed on the hull 100 and providing a path for the moving device 500 to move, a moving device 520 moving along the rail 510, and a motor. It may include a power unit (not shown) that provides power for movement. In other drawings of this embodiment, the rail 510 is composed of a protruding T-rail extending in one direction, and the moving member 520 is shown as a roller, but it can be deformed within a range that does not impair the spirit of the present invention.

When a plurality of loading devices 400 are provided (for example, three), the plurality of loading devices 400 may be installed on one moving device 500 to be movable in one direction. For example, the moving device 500 may extend in the forward and backward directions of the hull 100 and may be disposed on the left and right sides of the hull 100. The plurality of loading devices 400 may be arranged side by side along the moving device 500, and the distance between them may be adjusted by moving along the moving device 500. By moving the loading device 400 through the moving device 500, the operator can utilize the working space on the deck of the hull 100 according to circumstances.

The controller (not shown) may control driving and movement of the loading device 400 by controlling the driving device of the loading device 400 and the power unit of the moving device 500 . Such a control unit may include a computing device including a microprocessor for its implementation.

On the other hand, although the embodiments of the present invention have been described as specific embodiments, this is only an example, and the present invention is not limited thereto, and should be interpreted as having the widest scope according to the basic ideas disclosed herein. A person skilled in the art may implement a pattern of a shape not indicated by combining/substituting the disclosed embodiments, but this also does not deviate from the scope of the present invention. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on this specification, and it is clear that such changes or modifications also fall within the scope of the present invention.

1: Wind turbine installation vessel 2: Wind turbine parts
100: hull 200: leg
300: spud can 400: loading device
410: first loading unit 420: second loading unit
430: loading part rotation shaft 440: safety device
500: moving device

Claims (5)

In a ship for installing an offshore wind turbine,
hull; and
It is provided on the hull and includes a loading device for loading at least some of the parts constituting the offshore wind power generator,
The loading device,
A first loading part including a first accommodating part capable of accommodating parts for a wind turbine;
a loading unit rotating shaft disposed on one side of the first loading unit; and
A second loading part rotatably connected to the first loading part through the loading part rotating shaft to the outside of the hull and including a second receiving part capable of accommodating parts for a wind turbine,
The loading part rotating shaft is disposed at a position higher than the first accommodating part and lower than the second accommodating part when the second loading part is rotated toward the inside of the hull around the loading part rotation axis,
When the second loading part is rotated to the inside of the hull around the loading part rotation axis, the second receiving part of the second loading part faces the first receiving part of the first loading part, and the first receiving part Supports the lower part of the part, and the second accommodating part supports the upper part of the part supported by the first accommodating part,
Wind turbine installation vessel. delete delete According to claim 1,
Further comprising a moving device for moving the loading device,
The loading device and the moving device are provided in plurality,
The plurality of loading devices are moved along the moving device, so that the distance between them can be adjusted.
Wind turbine installation vessel. According to claim 1,
Further comprising a safety device for preventing the second loading part from further rotating with respect to the first loading part when the second loading part is rotated at a predetermined angle to the outside of the hull around the rotation axis of the loading part,
The safety device is
a first locking member provided on the first loading part;
a second locking member provided on the second loading part; and
When the second loading part is rotated at a predetermined angle to the outside of the hull around the rotation axis of the loading part, it includes a connecting member capable of connecting the first locking member and the second locking member to each other,
Wind turbine installation vessel.

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