KR20140141442A - Installing apparatus for marine file - Google Patents

Abstract

The present invention relates to a marine pile installation apparatus and, more particularly, to a marine pile installation apparatus that is installed on a hull for stable and expedited installation of various marine piles such as mono piles and marine wind power generators. The marine pile installation apparatus according to the present invention includes first and second stand frames that are disposed on both left and right sides of an installation hole which is through-formed on one side of a hull for marine pile installation; multiple lifting wires with one end selectively coupled with an outer surface of the marine pile loaded between the first and second stand frames and the other end extending to upper sides of the first and second stand frames; and multiple lifting jacks that are disposed on respective upper surfaces of the first and second stand frames and wind or unwind the lifting wires therethrough so that the marine pile can be vertically moved between the first and second stand frames.

Description

{INSTALLING APPARATUS FOR MARINE FILE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a marine file installation apparatus, and more particularly, to a marine file installation apparatus installed in a hull and capable of stably and quickly installing various marine files such as a mono file and an offshore wind power generator.

Generally, a wind power generator is a generator that generates electricity using wind. Wind turbines can be classified into offshore wind turbines installed on the land and offshore wind turbines installed on the sea depending on where they are installed.

The offshore wind power generator is transported to the place where it will be installed using the ship, and construction is carried out. The offshore wind power generators can be largely composed of the three parts of the pillar, the generator body, and the blades. Depending on the size of the offshore wind turbine and the stability of loading, the components are assembled or separated and transported to the sea for installation.

On the other hand, a foundation structure can be used to support an offshore wind power generator on the seafloor. Depending on the location of the offshore wind turbine installation, generation capacity, etc., the types of foundation structures and construction methods are also different. For example, the basic structure of an offshore wind power generator may be a monoplane, a jacket, a tripile, or the like.

In order to install the above-mentioned offshore wind turbine generators, mono-pile, jacket, and other basic structures (hereinafter referred to as "marine files") on the sea, a dedicated vessel was required to be individually constructed. In addition, there is a need for a tool for vertically setting up the marine file and a tool for adjusting the marginal spacing of the marine file. In general, the construction work is very troublesome and time consuming.

Further, as the capacity of the offshore wind turbine becomes larger, the size and weight of the foundation structure also increase, so that more manpower, equipment, and time are required to install the sea file.

Therefore, it is required to develop a marine file installation apparatus capable of precisely and quickly constructing various types of marine files such as offshore wind generators, foundation files, and tri-files.

In order to solve the above-mentioned problems, one embodiment of the present invention includes first and second stand frames installed on both left and right sides of a mounting hole formed at one side of a hull for installation of a maritime file; A plurality of lifting wires, one end of which is selectively coupled to the outer surface of the marine file to be loaded between the first and second stand frames, and the other end of which is extended above the first and second stand frames; And a plurality of lifting jacks installed on the upper surfaces of the first and second stand frames to wind or loosen the lifting wires passing through the first and second stand frames to vertically move the first and second stand frames between the first and second stand frames, Provides a file installer.

Here, a plurality of annular portions to which one end of the lifting wire is coupled is formed on the outer surface of the sea file.

A plurality of wire housings are provided on the upper surfaces of the first and second stand frames to protect the lifting wires.

Further, an embodiment of the present invention may further include a supporting plate installed on the upper surface of the hull between the first and second stand frames to support the lower surface of the sea file.

Here, on the upper surface of the supporting plate, fixing protrusions to be inserted into the lower surface of the marine file are protruded.

The supporting plate is installed horizontally on the upper surface of the ship so that the installation hole can be selectively opened.

Here, a guide rail is provided on the upper surface of the hull for horizontal movement of the supporting plate, and a rail groove into which the guide rail is inserted is formed on the lower surface of the supporting plate.

According to another embodiment of the present invention, first and second stand frames installed on both left and right sides of a mounting hole formed at one side of a hull for installing a marine file; A lifting bar selectively enclosing an outer surface of a maritime file loaded in a standing state between the first and second stand frames; A plurality of fastening ropes, one end of which is coupled to the lifting bar and the other end of which is selectively coupled to an outer surface of the nail file; A plurality of lifting wires having one end connected to the upper surface of the lifting bar and the other end extending to the upper surface of the first and second stand frames; And a plurality of lifting jacks installed on the upper surfaces of the first and second stand frames to wind or loosen the lifting wires passing through the first and second stand frames to vertically move the lifting bars between the first and second stand frames, Provides a file installer.

Here, a plurality of annular portions to which the other ends of the fastening ropes are coupled are formed on an outer surface of the sea file.

A plurality of wire housings are provided on the upper surfaces of the first and second stand frames to protect the lifting wires.

According to another embodiment of the present invention, a supporting plate is provided on the upper surface of the hull between the first and second stand frames to support the lower surface of the sea file.

Here, on the upper surface of the supporting plate, fixing protrusions to be inserted into the lower surface of the marine file are protruded.

The supporting plate is installed horizontally on the upper surface of the ship so that the installation hole can be selectively opened.

Here, a guide rail is provided on the upper surface of the hull for horizontal movement of the supporting plate, and a rail groove into which the guide rail is inserted is formed on the lower surface of the supporting plate.

The apparatus for installing a marine file according to the present invention stably and quickly lifts a marine file to be loaded on a hull so that the marine file can be installed on the sea through an installation hole formed in the hull.

1 is a view showing the overall structure of a marine file installation apparatus according to the present invention.
2 is a view showing a state in which a marine file is vertically moved by a marine file installation apparatus according to the present invention.
FIGS. 3 and 4 are views showing an installation hole being opened and closed by a supporting plate according to the present invention.
5 is a view showing another embodiment of a marine file installation apparatus according to the present invention.
FIG. 6 is a diagram showing a state in which a vertical file is moved by the apparatus for installing a file of FIG. 5; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The marine file installation apparatus of the present invention can be used to install offshore wind turbines as well as various types of marine foundation structures such as mono files, tri-files, and the like. Therefore, the following sea files are used as a generic term for offshore wind generators as well as marine foundation structures.

FIG. 1 is a view showing the overall structure of a marine file installation apparatus according to the present invention, and FIG. 2 is a view showing a state where a marine file is vertically moved by a marine file installation apparatus according to the present invention.

1 and 2, the apparatus for installing a marine file according to the present invention includes first and second stand frames 100 and 200, a lifting wire 300, and a lifting jack 400.

The first and second stand frames 100 and 200 are installed on opposite sides of the installation hole 20 formed on one side of the hull 10 for installation of the marine pile 30 such as an offshore wind power generator. The first and second stand frames 100 and 200 include a lifting wire 300 to be described below in detail and a lifting jack 300 mounted in a standing state between the first and second stand frames 100 and 200, So as to have a height enough to serve as a support when lifting.

Considering that the height of the offshore wind turbine is more than several tens of meters and the weight of the offshore wind turbine exceeds tens to hundreds of tons, the first and second stand frames 100 and 200 sufficiently hold the load of the various sea- . For example, the first and second stand frames 100 and 200 may be made of a steel frame structure in which steel frames are connected to each other.

The lifting wire 300 is coupled to the outer surface of the marine file 30, one end of which is loaded between the first and second stand frames 100 and 200, when the installation of the marine file 30 proceeds.

For this, a locking ring 31 is formed on the outer surface of the above-mentioned marine file 30, and a ring 310 inserted into the locking ring 31 is formed at one end of the lifting wire 300. When the ring 310 of the lifting wire 300 is inserted into the locking ring 31, the lifting wire 300 is coupled to the outer surface of the marine pile 30 and the ring 310 is fastened to the locking ring 31, The lifting wire 300 is separated from the marine file 30.

The other end of the lifting wire 300 extends to the upper side of the first and second stand frames 100 and 200 and is connected to the lifting jack 400.

A plurality of the lifting wires 300 may be installed as needed. In this case, a plurality of fastening rings 31 are formed on the outer surface of the sea-shaped pile 30. For example, when four lifting wires 300 are installed, four fastening rings 31 are formed on the outer surface of the marine file 30.

The lifting jacks 400 are installed on the upper surfaces of the first and second stand frames 100 and 200 so that the lifting wires 300 passing through the lifting jacks 300 are rolled or loosened so that the vertical movement of the sea-

2, the lifting jack 400 may be configured to wind the lifting wire 300 to lift the vertical file 30 vertically upward between the first and second stand frames 100 and 200, On the contrary, the lifting wire 300 may be loosened so that the horizontal file 30 is lowered vertically downward between the first and second stand frames 100 and 200.

For this, a driving device such as a motor or a hydraulic cylinder for winding the lifting wire 300 is installed in the lifting jack 400, and a clamping device for fixing the lifting wire 300 is installed.

At least one lifting jack 400 is installed on the upper surfaces of the first and second stand frames 100 and 200 so as to wind or unwind the lifting wires 300. Of course, as described above, when four lifting wires 300 are installed, four lifting jacks 400 are also installed (see FIGS. 3 and 4)

On the upper surface of the first and second stand frames 100 and 200, a plurality of wire housings 500 that surround the lifting wire 300 are installed.

The other end of the lifting wire 300 passes through the inside of the lifting jack 400 and extends to the upper surface of the first and second stand frames 100 and 200. When the lifting jack 400 winds or loosens the lifting wire 300 in a state in which a plurality of lifting wires 300 are exposed on the upper surfaces of the first and second stand frames 100 and 200, It may cause accidents such as twisting. Therefore, it is preferable that a wire housing 500 surrounding each of the lifting wires 300 is provided on the upper surface of the first and second stand frames 100 and 200 so as to prevent interference between the lifting wires 300.

A supporting plate 600 is installed on the upper surface of the hull 10 between the first and second stand frames 100 and 200.

The supporting plate 600 supports the lower surface of the sea floor piles 30 so that the sea floor piles 30 can stably stand between the first and second stand frames 100 and 200.

For this, a fixing protrusion 610 inserted into the lower surface of the sea-shaped pile 30 is protruded from the upper surface of the supporting plate 600. Here, in the case where the sea-shape file 30 is a hollow structure in which the inside is hollow, it is not necessary to form a separate groove into which the fixing protrusion 610 can be inserted in the lower surface of the sea-shape file 30, The groove 32 into which the fixing protrusion 610 is inserted is formed on the lower surface of the sea-

The supporting plate 600 is installed horizontally on the upper surface of the hull 10 so that the installation hole 20 formed in the hull 10 can be selectively opened.

The supporting plate 600 supports the lower surface of the marine file 30 in the upper right room of the installation hole 20 and then the lifting jack 400 winds the lifting wire 300 around the marine file 30 When it is raised vertically upward, it moves to the inside of the hull to open the installation hole 20.

When the installation hole 20 is opened as described above, the marine file 30 is vertically downwardly moved again by the lifting jack 400 and installed in the sea through the installation hole 20. Here, when the sea file 30 is a basic structure such as a mono file, the sea file 30 is lowered to the sea floor through the installation hole 20, , And when the sea file 30 is an offshore wind power generator, it is placed on a foundation structure installed on the sea floor through the installation hole 20 and then joined to the foundation structure by welding, bolt tightening or the like.

FIGS. 3 and 4 are views showing an installation hole being opened and closed by a supporting plate according to the present invention.

3, when the marine file 30 is mounted on the upper surface of the supporting plate 600 inside the hull 10, the supporting plate 600 horizontally moves as shown in FIG. 4 The mounting hole 20 is naturally closed by the supporting plate 600. In this case, When the lifting jack 300 is lifted up and the lifting jack 300 is lifted up vertically upward, the supporting plate 600 is returned to the inside of the hull to open the installation hole 20.

A guide rail 700 is provided on the upper surface of the hull 10 for horizontal movement of the supporting plate 600 and a rail groove 620 through which the guide rail 700 is inserted is formed on the lower surface of the supporting plate 600 (See Figs. 1 and 2)

FIG. 5 is a view showing another embodiment of a marine file installation apparatus according to the present invention, and FIG. 6 is a diagram showing a state in which a marine file is vertically moved by the marine file installation apparatus of FIG.

5 and 6, the apparatus for installing a marine file according to the present invention may further include a lifting bar 800 and a fastening rope 900.

The lifting bar 800 surrounds the outer surface of the marine file 30, which is installed in a standing state between the first and second stand frames 100 and 200.

Specifically, the lifting bar 800 opens one side of the lifting bar 800 when the lifting pile 30 is raised between the first and second stand frames 100 and 200 by a crane or the like, And closes the opened portion to cover the outer surface of the marine file 30 as shown in Fig.

To this end, the lifting bar 800 is provided with at least one pair of pivoting bars 810 which are mutually coupled or separated to open one side of the lifting bar 800.

A plurality of lifting wires 300 are connected to the upper surface of the lifting bar 800. Thus, when the lifting jack 400 winds or releases the lifting wire 300, the lifting bar 800 is vertically moved.

One end of the fastening rope 900 is coupled to the lifting bar 800 and the other end of the fastening rope 900 is coupled to the outer surface of the marine pile 30 when a marine file installation operation is performed.

A plurality of such fastening ropes 900 are provided and at the other end of each fastening rope 900 is formed a ring 910 to be inserted into the fastening ring 31 of the marine pile 30. Therefore, when the hook 910 is inserted into the fastening ring 31 of the wing 30, the lifting bar 800 is naturally connected to the wing 30 so that the lifting bar 400 can be lifted using the lifting jack 400 800 are vertically moved, the vertical movement of the marine file 30 is performed.

The lifting bar 800 and the fastening rope 900 described above can be installed between the lifting wire 300 and the marine file 30 so that the lifting jack 400 can wind the lifting wire 300 more stably. Various modifications are possible. For example, instead of the lifting bar 800, a clamping device may be provided which is directly coupled to the outer surface of the marine pile 30. In this case, when the lifting wire 300 connected to the clamping device is lifted by using the lifting jack 400, the vertical movement of the marine file 30 is naturally performed together with the clamping device. In addition, since the clamping device is directly coupled to the marine file 30, the fastening rope 900 for connecting the lifting bar 800 to the marine file 30 as described above is not required.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Hull 20: Installation hole
30: sea file 31: fastening ring
100: first stand frame 200: second stand frame
300: lifting wire 310, 910:
400: Lifting jack 500: Wire housing
600: Supporting plate 610: Fixing projection
620: rail groove 700: guide rail
621: circular hole 630: pressure plate
700: Support conveying part 710: Guide rail
800: lifting bar 810: turning bar
900: fastening rope

Claims (14)

First and second stand frames installed on both left and right sides of the installation hole formed through one side of the hull for installation of the sea file;
A plurality of lifting wires, one end of which is selectively coupled to the outer surface of the marine file to be loaded between the first and second stand frames, and the other end of which is extended above the first and second stand frames; And,
And a plurality of lifting jacks installed on the upper surfaces of the first and second stand frames to wind or loosen the lifting wires passing through the first and second stand frames to vertically move the first and second stand frames between the first and second stand frames, Device. The method according to claim 1,
Wherein a plurality of annular portions are formed on the outer surface of the marine file to which one end of the lifting wire is coupled. The method according to claim 1,
Wherein a plurality of wire housings are installed on the upper surface of the first and second stand frames to protect the lifting wires. The method according to claim 1,
And a supporting plate installed on the upper surface of the hull between the first and second stand frames to support the lower surface of the sea file. 5. The method of claim 4,
Wherein a fixing protrusion inserted into the lower surface of the sea-floor pile is protruded from the upper surface of the supporting plate. 5. The method of claim 4,
Wherein the supporting plate is installed horizontally on the upper surface of the hull so as to selectively open the installation hole. The method according to claim 6,
Wherein a guide rail is provided on an upper surface of the hull for horizontally moving the supporting plate, and a rail groove is formed in a lower surface of the supporting plate to receive the guide rail. First and second stand frames installed on both left and right sides of the installation hole formed through one side of the hull for installation of the sea file;
A lifting bar selectively enclosing an outer surface of a maritime file loaded in a standing state between the first and second stand frames;
A plurality of fastening ropes, one end of which is coupled to the lifting bar and the other end of which is selectively coupled to an outer surface of the nail file;
A plurality of lifting wires having one end connected to the upper surface of the lifting bar and the other end extending to the upper surface of the first and second stand frames; And,
And a plurality of lifting jacks installed on the upper surfaces of the first and second stand frames for vertically moving the lifting bars between the first and second stand frames by winding or loosening the lifting wires passing through the inside of the first and second stand frames, Device. 9. The method of claim 8,
Wherein a plurality of annular portions are formed on an outer surface of the sea file to connect the other end of the fastening rope. 9. The method of claim 8,
Wherein a plurality of wire housings are installed on the upper surface of the first and second stand frames to protect the lifting wires. 9. The method of claim 8,
And a supporting plate installed on the upper surface of the hull between the first and second stand frames to support the lower surface of the sea file. 12. The method of claim 11,
Wherein a fixing protrusion inserted into the lower surface of the sea-floor pile is protruded from the upper surface of the supporting plate. 9. The method of claim 8,
Wherein the supporting plate is installed horizontally on the upper surface of the hull so as to selectively open the installation hole. 14. The method of claim 13,
Wherein a guide rail is provided on an upper surface of the hull for horizontally moving the supporting plate, and a rail groove is formed in a lower surface of the supporting plate to receive the guide rail.

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