KR102438693B1 - Wind turbine installation vessel - Google Patents

Abstract

A wind generator installation vessel is disclosed.
Wind power generator installation ship according to an embodiment of the present invention is a hull; Legs installed so as to be elevating on the hull; a crane boom provided on the hull and supporting the crane; provided on the crane boom, the leg insert into which the leg can be inserted; and a fixing portion provided movably to the leg insert and selectively in contact with the leg inserted into the leg insert to fix the crane boom to the leg.

Description

Wind generator installation vessel {WIND TURBINE INSTALLATION VESSEL}

The present invention relates to a wind turbine installation vessel.

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

Recently, interest in offshore wind power generators that are relatively free from the above constraints is increasing. The offshore wind generator can be installed in various ways, but is generally installed by dividing the parts into several units and manufacturing them on land, and then moving the manufactured units to the sea and assembling them. A ship that moves a unit of an offshore wind generator manufactured on land to the sea and installs an offshore wind generator on the sea is generally called a Wind Turbine Installation Vessel (WTIV).

The wind power generator installation vessel may be operated in transit mode and jackup mode due to the nature of the work. Specifically, the wind power generator installation vessel moves to a position where the offshore wind power generator is to be installed in the sailing mode. In the sailing mode, the leg can be maintained in a state moved upwards of the hull to reduce the resistance caused by sea water. After that, the wind generator installation vessel switches to the jack-up mode, lowers the legs and drives them into the sea floor, and then lifts the hull along the legs so that the hull can be separated from the sea level by a certain distance. When the hull reaches a certain position, the wind generator installation ship stops the movement of the hull and performs the work of installing the offshore wind generator, and when the installation is completed, proceeds in the reverse order of the above and moves to the next installation position.

At this time, in order to install the offshore wind power generator, a crane is essentially used. In order to maximize the working range of the crane, the crane is installed on the main deck of the wind generator installation vessel.

However, in this case, since the boom rest structure for mounting the crane boom of the crane is also separately installed on the main deck, there is a problem in that the loading space of the main deck in which the unit of the offshore wind power generator can be loaded is reduced.

In addition, there is a concern that the crane boom of the crane may interfere with the surrounding facilities installed on the main deck while seated on the boom rest structure in the sailing mode of the wind generator installation vessel, so that the crane boom cannot be stably mounted on the boom rest structure. there is

Domestic Patent Publication No. 10-1418419 (Registered on July 4, 2014)

Embodiments of the present invention are proposed in view of the problems of the prior art as described above, and it is possible to secure a wide loading space in which the unit of the offshore wind power generator can be loaded, and install a wind power generator capable of stably fixing the crane boom We want to provide a ship.

According to one aspect of the present invention, a hull; Legs that are installed to be elevating on the hull; a crane boom provided on the hull and supporting the crane; It is provided on the crane boom, the leg insert can be inserted into the leg; and a fixing part that is provided movably in the leg insert and is selectively in contact with the leg inserted into the leg insert to fix the crane boom to the leg, a wind generator installation vessel will be provided can

In addition, the jack case is installed on the hull and supporting the leg; and rotatably on the outer surface of the crane boom. Installed, selectively coupled to the jack case may further include a movement preventing portion for preventing the crane boom from moving in the longitudinal direction of the leg.

In addition, the fixing unit may include a moving body coupled to be movably coupled along the longitudinal direction of the leg insertion portion of the crane boom to selectively press the outer surface of the leg.

In addition, the movement preventing unit, at least one rotation means installed on the outer surface of the crane boom; a rotation bar having one end coupled to the rotation means and rotated with respect to the crane boom; and a locking means provided at the other end of the rotation bar and selectively coupled to the jack case.

In addition, further comprising a guide portion for guiding the movement of the movable body with respect to the crane boom, the guide portion, the first guide installed on any one of the leg insertion portion and the movable body of the crane boom; a second guide installed on the other one of the leg insertion part and the moving body of the crane boom, and engaged with the first guide; and a guide driving unit installed on any one of the first guide and the second guide to provide a driving force to any one of the first guide and the second guide.

The wind power generator installation vessel according to the embodiments of the present invention has the effect that the loading space in which the unit of the offshore wind power generator can be loaded can be secured widely, and the stable fixing of the crane boom is possible.

1 is a front view showing a wind power generator installation ship according to an embodiment of the present invention.
FIG. 2 is a plan view of FIG. 1 .
FIG. 3 is a view showing an example of a fixing part of the wind generator installation vessel of FIG. 1 .
FIG. 4 is a view showing a movement preventing unit of the wind generator installation vessel of FIG. 1 .
5 is a view showing a modified example of the leg and the fixing part of the wind generator installation ship of FIG. 1 .

Hereinafter, with reference to the accompanying drawings, the configuration and operation according to an embodiment of the present invention will be described in detail. The following description is one of several aspects of the present invention that is claimable, and the following description may form a part of the detailed description of the present invention.

However, in describing the present invention, detailed descriptions of known configurations or functions may be omitted for clarity of the present invention.

The present invention is capable of making various changes and may include various embodiments, and specific embodiments are illustrated in the drawings and described in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood as including all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms including an ordinal number such as 1st, 2nd, etc. may be used to describe various components, but the components are not limited by these terms. These terms are used only for the purpose of distinguishing one component from another.

When it is said that a component is 'connected' or 'coupled' to another component, it may be directly connected or coupled to the other component, but it is understood that other components may exist in between. it should be

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

In addition, in the present specification, the direction expression of up, down, side, etc. is described with reference to the drawings, and it is to be noted in advance that when the direction of the corresponding object is changed, it may be expressed differently.

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

1 to 4, the wind power generator installation vessel 1 according to an embodiment of the present invention is a hull 10, a jack case 20, a leg 30, a crane boom 40, a leg insertion unit 50 , a fixing part 60 , a movement preventing part 70 , and a guide part 80 may be included.

The hull 10 is provided with a main deck on which the units of the offshore wind power generator, for example, foundation, nacelle, blades, etc. can be loaded, and up to the location where the offshore wind generator is to be installed (hereinafter referred to as 'installation position'). It can be switched to a sailing mode for moving and a jack-up mode for installing offshore wind turbines at the installation location.

The jack case 20 may be installed on the hull 10 to support the legs 30 . The jack case 20 has an internal space, and a jacking unit (not shown) for elevating the leg 30 may be installed in this internal space.

An outer surface of the jack case 20 may be provided with a locking groove 21 for selectively engaging the locking means 73 of the movement preventing unit 70 to be described later. This will be discussed later.

The leg 30 maintains the state moved upward of the hull 10 in order to reduce the resistance by the sea water in the sailing mode, and descends below the sea level in the jack-up mode and penetrates the seabed, thereby raising the hull 10 from the sea level. can do it

The leg 30 is installed so as to be able to elevate with respect to the hull 10 . The leg 30 may move downward of the hull 10 and be fixed to the sea floor, and may have a substantially cylindrical shape.

The crane boom 40 is a member constituting a crane capable of installing an offshore wind generator by transporting the unit of the offshore wind generator loaded on the hull 10, and the leg 30 can be inserted into the crane boom 40 A leg insert 50 may be provided.

The leg insertion part 50 is a part into which the leg 30 is selectively inserted, and the length (a) of the leg insertion part 50 and the width (b) of the leg insertion part 50 are greater than the diameter of the leg 30. can be large For this reason, the position of the leg 30 inserted into the leg insertion part 50 can be easily changed.

Briefly describing the process in which the leg 30 is inserted into the leg insertion unit 50 , first, the leg 30 is moved downward of the hull 10 . Next, the crane boom 40 of the crane is moved in a direction toward the leg 30 adjacent to the leg 30 in which the crane is installed and the leg 30 adjacent to the longitudinal direction (x-axis direction in FIG. 1 ) of the hull 10 . When the movement of the crane boom 40 is completed, the leg 30 is raised, and the crane boom 40 of the crane may be inserted into the leg insertion part 50 while the leg 30 is raised.

The fixing part 60 may fix the crane boom 40 to the leg 30 . At this time, the fixing part 60 is provided movably to the leg insertion part 50 of the crane boom 40 , and selectively in contact with the leg 30 inserted into the leg insertion part 50 of the crane boom 40 . can be

The fixed part 60 is movably coupled along the longitudinal direction (x-axis direction in FIG. 2 ) of the leg insertion part 50 of the crane boom 40 to selectively press the outer surface of the leg 30 . (61) may be included.

At this time, the movable body 61 extends in the width direction (z-axis direction in FIG. 3 ) of the crane boom 40 from the contact portion 61a and the contact portion 61a that are selectively in close contact with the outer surface of the leg 30 . It is formed and may include an extended coupling portion (61b) coupled to the leg insertion portion (50) of the crane boom (40).

The shape of the contact portion 61a may vary depending on the shape of the outer surface of the leg 30 . For example, the contact portion 61a may include a curved surface corresponding to the outer surface of the leg 30 having a cylindrical shape.

The shape of the contact portion 61a is formed in a shape including a curved surface because the leg 30 is formed in a cylindrical shape, but the shape of the leg 30 and the shape of the contact portion 61a are only examples. .

Referring to FIG. 5 , the leg 30 may include three pillars, a rack provided on each pillar, and a substantially triangular pillar shape having braces interconnecting the pillars, and in this case, the contact portion 61a is In addition to the curved surface corresponding to the outer surface of the leg 30 having a triangular prism shape, it may additionally include flat surfaces.

The movement preventing unit 70 may prevent the crane boom 40 from moving in the longitudinal direction (the y-axis direction of FIG. 4 ) of the leg 30 .

At this time, the movement preventing unit 70 is at least one rotation means 71 installed on the outer surface of the crane boom 40, one end is coupled with the rotation means 71, and is rotated with respect to the crane boom (40) It is provided at the other end of the rotation bar 72 and the rotation bar 72 may include a locking means 73 selectively coupled to the jack case 20 .

The rotation bar 72 may be in close contact with the outer surface of the crane boom 40 , and may be rotated toward the jack case 20 around the rotation means 71 as necessary. In this case, the locking means 73 provided in the rotation bar 72 is caught in the locking groove 21 provided in the jack case 20, so that the crane boom 40 is fixed to the jack case 20 is maintained. can be

The guide part 80 may guide the movement of the movable body 61 with respect to the crane boom 40 .

At this time, the guide part 80 is a first guide 81 installed in any one of the leg insertion part 50 and the moving body 61 of the crane boom 40, the leg insertion part 50 of the crane boom 40 ) and the moving body 61, installed on the other of the second guide 82 and the first guide 81 engaged with the first guide 81, and installed on any one of the first guide 81 and the second guide 82. A guide driving unit (not shown) that provides a driving force to any one of the first guide 81 and the second guide 82 may be included.

The first guide 81 may be a guide block coupled to the extended coupling portion 61b of the movable body 51 , and the second guide 82 is coupled to the leg insertion portion 50 of the crane boom 40 . It may be a guide rail. However, this is only an example, and the spirit of the present invention is not limited thereto. For example, the first guide 81 is a guide rail coupled to the leg insertion portion 50 of the crane boom 40 , and the second guide 82 is attached to the extended coupling portion 61b of the movable body 51 . It may be a guide block to be coupled.

The wind generator installation vessel 1 having the above-described configuration is not mounted on a boom rest structure in which the crane boom 40 is separately installed on the hull 10, but is mounted on the leg 30 by the fixing unit 60. It is fixed and can be prevented from being moved with respect to the leg 30 by the movement preventing unit 70 . Accordingly, the loading space of the hull 10 in which the unit of the offshore wind generator can be loaded can be secured widely, and the crane boom 40 is fixed to the leg 30 in the sailing mode of the wind generator installation vessel 1 . There is an effect that the state can be stably maintained.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. you will be able to understand For example, those skilled in the art may change the material, size, etc. of each component according to the field of application, or combine or substitute the embodiments in a form not clearly disclosed in the embodiment of the present invention, but this is also the present invention that does not exceed the scope of Therefore, the embodiments described above should not be understood as illustrative and limiting in all respects, and it should be said that these modified embodiments are included in the technical spirit described in the claims of the present invention.

1: Wind generator installation vessel 10: Hull
20: jack case 21: jamming groove
30: leg 40: crane boom
50: leg insert 60: fixed part
61: moving body 61a: contact part
61b: extended coupling portion 70: movement preventing portion
71: rotation means 72: rotation bar
73: locking means 80: guide part
81: first guide 82: second guide

Claims (5)

hull;
Legs that are installed to be elevating on the hull;
a crane boom provided on the hull and supporting the crane;
It is provided on the crane boom, the leg insert can be inserted into the leg;
a fixing part that is provided movably in the leg insert and is selectively in contact with the leg inserted into the leg insert to fix the crane boom to the leg;
a jack case installed on the hull and supporting the legs; and
It is rotatably installed on the outer surface of the crane boom, and is selectively coupled with the jack case to include a movement preventing part for preventing the crane boom from moving in the longitudinal direction of the leg,
Wind generator installation ship. delete The method of claim 1,
The fixing part,
Containing a movable body coupled to be movably coupled along the longitudinal direction of the leg insertion portion of the crane boom to selectively press the outer surface of the leg,
Wind generator installation ship. The method of claim 1,
The movement preventing unit,
at least one rotation means installed on the outer surface of the crane boom;
a rotation bar having one end coupled to the rotation means and rotated with respect to the crane boom; and
It is provided on the other end of the rotation bar comprising a locking means selectively coupled to the jack case,
Wind generator installation ship. 4. The method of claim 3,
Further comprising a guide part for guiding the movement of the movable body with respect to the crane boom,
The guide part,
a first guide installed in any one of the leg insertion part and the movable body of the crane boom;
a second guide installed on the other one of the leg insertion part and the moving body of the crane boom, and engaged with the first guide; and
and a guide driving unit installed on any one of the first guide and the second guide to provide a driving force to any one of the first guide and the second guide,
Wind generator installation ship.

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