KR20120033854A - Ship for installing a wind power generator - Google Patents

Abstract

PURPOSE: A ship for installing a wind power generator is provided to minimize costs for drying a ship and installing a wind power generator because the wind power generator is effectively installed on the sea without using a jack-up system. CONSTITUTION: A ship for installing a wind power generator includes a hull and a gantry crane(130). The hull comprises a pair of unit hulls(112) and a loading unit(114). The pair of unit hulls are separated each other. The loading unit connects a part of the unit hulls and a wind power generator is loaded on the upper part of the loading part. The gantry crane allows the wind power generator loaded on the loading unit to move to a space between the pair of the unit hulls in order to unload the wind power generator on the sea.

Description

Ship for wind generator installation {SHIP FOR INSTALLING A WIND POWER GENERATOR}

The present invention relates to a ship, and more particularly to a wind generator installation ship for installing a wind generator on the sea.

Wind generators can be installed on land as well as on land, and thus, in order to install a wind generator on the sea, a special vessel having the purpose of installing a wind generator can be used.

In other words, the wind generator parts are loaded on a ship having the purpose of installing a wind generator, moved to the area where the offshore wind generator is to be installed, and the wind generator is installed on the sea by unloading these parts using a crane installed on the ship. Can be.

Conventionally, ships equipped with jack # up systems and cranes have been used for the installation of wind generators, which move these ships to the wind generator installation site and lower jack # up leg to the bottom of the ship. Was lifted several tens of meters above sea level, and a wind generator was installed using a crane.

However, according to the prior art, there is a problem in that a high cost is required for the construction of the ship due to the installation of the jack-up system and the leg structure.

An embodiment of the present invention is to provide a wind generator installation vessel that can efficiently install a wind generator on the sea without using a jack-up system.

According to an aspect of the present invention, a pair of unit hulls spaced apart from each other, a twin hull having a load connecting the portion of the pair of the unit hull and the wind generator is mounted on top, and a wind generator is installed on the sea To this end, a wind generator installation vessel may be provided that includes a gantry crane that unloads the wind generator loaded in the loading section into a space between a pair of unit hulls.

The gantry crane is installed upright on the twin-hull hull, the first frame movable from the loading unit to the space between the pair of the unit hull, the second frame is installed to be movable in the longitudinal direction on the first frame, and the wind generator It may be installed on the second frame for fixing, and may include a gripper that is movable laterally on the second frame.

The first frame, the second frame and the gripper are arranged in a pair, respectively, a pair of first frames are respectively disposed on a pair of unit hulls, and a pair of second frames each has a pair of first frames It is movably coupled to each, and a pair of grippers may be disposed in each of the pair of second frames.

The catamaran hull may be provided with a rail for guiding the movement of the first frame.

The loading section may connect the bow or stern of a pair of unit hulls.

In the loading unit, a wind generator may be loaded upright.

The embodiment of the present invention can efficiently install a wind generator on the sea without using a jack-up system, and as a result, it is possible to minimize the ship construction cost and the wind generator installation cost.

1 is a perspective view showing a ship for a wind generator installation according to an embodiment of the present invention.
Figure 2 is a perspective view of the gantry crane of the ship for a wind generator installation according to an embodiment of the present invention.
3 to 5 are views showing a process of installing a wind generator on the sea in a wind generator installation ship according to an embodiment of the present invention.

An embodiment of a ship for a wind generator installation according to the present invention will be described in detail with reference to the accompanying drawings, in the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and redundant description thereof. Will be omitted.

1 is a perspective view showing a ship 100 for a wind generator installation according to an embodiment of the present invention.

According to this embodiment, as shown in FIG. 1, as a vessel 100 for installing a wind generator (10 in FIG. 3) on a pile (20 in FIG. 3) installed at sea, a pair of unit hulls 112 There is presented a wind generator installation vessel (100) comprising a twin hull (110) having a), and a gantry crane (130) installed on the twin hull (110).

According to the present embodiment as described above, by using the space 120 between the unit hull 112 of the twin-hull hull 110, the wind turbine generator 10 is installed more efficiently at sea without using the conventional jack-up system Can be.

Accordingly, it is possible to drastically reduce the construction cost of the ship 100, and at the same time it is also possible to minimize the offshore installation cost of the wind generator 10.

Hereinafter, with reference to FIGS. 1 to 5, each configuration of the ship 100 for a wind generator installation according to the present embodiment will be described in more detail.

As shown in FIG. 1, the twin hull 110 connects a pair of unit hulls 112 spaced apart from each other, and a portion of the pair of unit hulls 112, and a wind generator 10 is disposed on an upper portion thereof. A loading unit 114 to be stacked may be provided.

That is, the twin hull 110 has a twin structure consisting of two unit hulls 112 spaced apart from each other, as shown in Figure 1, a part of these unit hulls 112, namely bow or stern 1 may be connected by the loading unit 114, as shown in FIG.

The loading unit 114 may provide an area in which the wind generator 10 is loaded, and the loading unit 114 is not a part of the wind generator 10, but the assembled wind generator 10 itself is in an upright state. Can be loaded.

In this case, a rail 116 for guiding the movement of the gantry crane 130 may be installed on the twin hull 110, as shown in FIG. As the first frame 132 of the gantry crane 130 moves along the rail 116, the wind generator 10 loaded on the loading unit 114 is viewed as the space 120 between the unit hulls 112. It can be moved easily.

The gantry crane 130 is a structure for installing the wind generator 10 on the sea, and as shown in FIG. 1, the wind generator installed on the twin hull 110 and loaded on the loading unit 114 ( By moving 10) into the space 120 between the pair of unit hulls 112, the wind generator 10 can be unloaded to an offshore installation location. As shown in FIG. 1, the gantry crane 130 may include a first frame 132, a second frame 134, a gripper 136, and the like.

Hereinafter, the structure of the gantry crane 130 will be described in more detail with reference to FIGS. 1 and 2. 2 is a perspective view showing the gantry crane 130 of the ship 100 for a wind generator installation according to an embodiment of the present invention.

1 and 2, the first frame 132 may be installed in an upright state on the catamaran hull 110, and more specifically, the pair of first frames 132 may be a unit hull ( 112) can be installed in each.

As shown in FIGS. 1 and 2, the first frame 132 slides in the front-rear direction, ie, between the bow and the stern, on the rail 116 installed on the catamaran hull 110. Since the wind generator 10 may be coupled to be movable, the wind generator 10 may be moved from the loading unit 114 in which the wind generator 10 is loaded to the space 120 between the pair of unit hulls 112.

As illustrated in FIGS. 1 and 2, the second frame 134 may be installed to be movable in the longitudinal direction in the first frame 132. In this case, as illustrated in FIGS. 1 and 2, the second frame 134 may be installed in a pair on the first frame 132, and both ends of the second frame 134 may be provided in the first frame 132. ) May be coupled to each other so as to be slidable in the longitudinal direction, that is, in the vertical direction.

1 and 2, the gripper 136 may be installed on the second frame 134 for fixing the wind generator 10, and the gripper 136 may be mounted on the second frame 134. Accordingly, it may be installed on the second frame 134 to be movable in the lateral direction, that is, the left and right directions. 1 and 2, the grippers 136 may also be arranged in pairs, and may be installed to be slidably movable in each of the pair of second frames 134.

Since the gripper 136 may be formed to have a shape corresponding to the tower outer circumferential surface of the wind generator 10, the gripper 136 may grip the wind generator 10 loaded in an upright state more effectively to fix the gantry crane 130. have.

As such, the gantry crane 130 includes the first frame 132, the second frame 134, and the gripper 136, so that the gantry crane 130 is loaded onto the loading unit 114 on the gantry crane 130 by the gripper 136. After the fixed wind power generator 10 is fixed, the wind power generator 10 can be moved back and forth, vertically and horizontally, that is, in three dimensions, so that the wind power generator 10 can be installed more efficiently at sea. Will be.

Next, referring to Figures 3 to 5, it will be described a process in which the wind generator 10 loaded on the wind generator installation vessel 100 according to the present embodiment is installed at sea.

3 to 5 are views illustrating a process in which the wind generator 10 is installed on the sea in the ship 100 for wind generator installation according to an embodiment of the present invention.

As shown in FIG. 3, the wind generator 10, which has been assembled, may be mounted upright on the loading unit 114 on the catamaran hull 110. As the wind generator 10 completed as described above is loaded in an upright state, it is possible to reduce the time and cost required to install the wind generator 10 at sea.

As shown in FIG. 3, the gantry crane 130 may move toward the loading unit 114 along the rail 116 of the twin hull 110, and the gantry crane 130 moved to the loading unit 114. Gripper 136 is moved in the left and right directions corresponding to the position of the wind generator (10). As such, the gripper 136 moved according to the position of the wind generator 10 may be fixed to the gantry crane 130 by gripping the outer circumferential surface of the wind generator 10.

4, the gripper 136 of the gantry crane 130 may be re-adjusted in the transverse position to correspond to the position of the space 120 between the unit hulls 112 and the gripper 136 After adjusting the position of the gantry crane 130, the first frame 132 is slid backwards along the rail 116 of the twin hull 110, the space 120 between a pair of unit hull 112 It is possible to position the wind generator 10 on the open sea through).

Subsequently, as shown in FIG. 4, the second frame 134 of the gantry crane 130 may move downward toward the wind generator installation pile 20 installed at sea, whereby the wind generator 10 may pile It can be disposed on 20 and effectively installed at sea.

After the wind generator 10 is installed on the pile 20 as described above, the gantry crane 130 may move back to the loading unit 114, as shown in FIG. 5. That is, after each second frame 134 of the gantry crane 130 is moved to the upper portion of the first frame 132, the first frame 132 may slide along the rail 116 of the hull 110. As a result, the gantry crane 130 may return to the loading part 114 of the hull 110 while passing through the upper portion of the wind generator 10.

As mentioned above, although an embodiment of the present invention has been described, those of ordinary skill in the art may add, change, delete or add components within the scope not departing from the spirit of the present invention described in the claims. The present invention may be modified and changed in various ways, etc., which will also be included within the scope of the invention.

10: wind power generator
20: file
100: ship for wind generator installation
110: catamaran hull
112: unit hull
114: loading section
116: rail
120: space
130: gantry crane
132: first frame
134: second frame
136: gripper

Claims (6)

A twin-hull hull having a pair of unit hulls spaced apart from each other, and a loading unit for connecting a portion of the pair of unit hulls and having a wind generator loaded thereon; And
In order to install the wind generator on the sea, including a gantry crane (untrying) to move the wind generator loaded on the loading section to the space between the pair of unit hull unloaded (sea) Ship for wind generator installation.
The method of claim 1,
The gantry crane,
A first frame installed upright on the catamaran hull and movable from the loading part to a space between the pair of unit hulls;
A second frame installed on the first frame to be movable in the longitudinal direction; And
The wind generator installation vessel, characterized in that it comprises a gripper (gripper) which is installed on the second frame for fixing the wind generator, movable in the transverse direction on the second frame.
The method of claim 2,
The first frame, the second frame and the gripper are each disposed in a pair,
The pair of first frames are respectively disposed on the pair of unit hulls,
Both ends of the pair of second frames are movably coupled to each of the pair of first frames,
The pair of grippers are installed on the wind turbine generator, characterized in that disposed on each of the pair of second frame.
The method according to claim 2 or 3,
And a rail for guiding the movement of the first frame is installed in the catamaran hull.
4. The method according to any one of claims 1 to 3,
The loading unit is a wind generator installation vessel, characterized in that for connecting the bow or stern of the pair of unit hull.
4. The method according to any one of claims 1 to 3,
The wind generator installation vessel, characterized in that the wind generator is loaded upright in the loading portion.

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