KR101511174B1 - Apparatus for installing offshore wind power generator - Google Patents

Abstract

The present invention relates to an apparatus to install an offshore wind power generator. More specifically, the apparatus to install an offshore wind power generator rapidly assembles each component of a disassembled offshore wind power generator, and rapidly moves the assembled offshore wind power generator to a predetermined position to install the offshore wind power generator at sea. According to the present invention, the apparatus to install an offshore wind power generator includes: an assembly unit including a first and a second stand frame installed to face each other in a ship, including a first and a second lifting plate installed to vertically be moved between the first and the second stand frame where each component of the disassembled offshore wind power generator is assembled; an installation unit including a first and a second guide frame installed to face each other, including a third and a fourth lifting plate installed to vertically be moved to the first and the second guide frame respectively where the offshore wind power generator assembled in the assembly unit is installed; a jig assembly supporting a support of the offshore wind power generator, moving horizontally from the assembly unit to the installation unit to enable the offshore wind power generator to move from the assembly unit to the installation unit; and a rail unit installed between the assembly unit and the installation unit to enable the jig assembly to move horizontally.

Description

[0001] APPARATUS FOR INSTALLING OFFSHORE WIND POWER GENERATOR [0002]

The present invention relates to an offshore wind turbine installation apparatus, and more particularly, to an offshore wind turbine installation apparatus capable of quickly assembling a separated offshore wind turbine generator for each component and quickly moving the assembled offshore wind turbine generator to a predetermined position, And an installation device.

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 turbine is installed on the ship after it is transported to the place to be installed on the ship. These offshore wind turbines consist of three parts: Tower, Nacelle, and Blade, which are the body of generator, and they are assembled according to size and load stability, It may be assembled at the installation site.

However, since the size of the offshore wind turbine has increased as the required power generation capacity has been increased in recent years, it is difficult to transport the assembled offshore wind turbine generator to the ship, so that the components such as struts and blades are separated and transported to the ship There arises a situation that it is necessary to assemble the wind turbine at the installation site. Therefore, a large amount of manpower, equipment, and time are required to assemble and install the offshore wind turbine generator, resulting in a problem that the installation cost is greatly increased.

Therefore, it is required to develop an offshore wind turbine installation device capable of rapidly assembling offshore wind turbines separated by parts, and moving the assembled offshore wind turbine generator to the installation position in a stable manner.

Korean Published Patent Application No. 10-2012-0048440 (May 15, 2012) Korean Patent Laid-Open Publication No. 10-2012-0113013 (published on October 12, 2012)

In order to solve the above-mentioned problems, the present invention provides a hull comprising first and second stand frames installed opposite to each other on a hull, first and second lifting plates vertically movably installed between the first and second stand frames, An assembly part for assembling the offshore wind turbine generator for each component; And a third and fourth lifting plates vertically movably mounted on the first and second guide frames, respectively, and the third and fourth lifting plates mounted on the first and second guide frames, An installation part for installing the generator; A jig assembly supporting the strut of the offshore wind power generator and horizontally moving from the assembly part to the installation part to move the offshore wind power generator from the assembly part to the installation part; The present invention also provides an installation device for an offshore wind power generator, comprising a rail portion provided between the assembly portion and the installation portion for horizontally moving the jig assembly.

Here, the first lifting plate may be installed to be vertically movable with respect to the first stand frame, and the second lifting plate may be installed to be vertically movable with respect to the second stand frame at a predetermined distance from the first lifting plate.

In addition, the first and second lifting plates may be formed as a single body. In this case, one side of the first and second lifting plates is provided with an incision for inserting a support.

The first and second stand frames are provided with first and second support rods. The first and second support rods are wound around or loosened with a plurality of wires respectively connected to the first and second lifting plates, 2 The first and second wire cylinders for vertically moving the lifting plate are installed.

In addition, a third and fourth wire cylinders are provided at upper ends of the first and second guide frames to wind or unwind the wires inserted therein, and the third and fourth lifting plates are provided inside the first and second guide frames And are respectively connected to the inserted wires.

The jig assembly includes a first jig for supporting the outer surface of the strut of the offshore wind power generator and a second jig for supporting the strut bottom of the offshore wind power generator, So that the offshore wind power generator is transferred from the assembly section to the installation section in a standing state.

Here, the first jig is formed with a hole into which the strut of the offshore wind power generator is inserted.

The upper surface of the second jig is formed with a fixing protrusion protruding from the bottom surface of the off-axis wind power generator.

In addition, the rail portion may include a plurality of first and second vertical frames disposed opposite each other between the assembly portion and the mounting portion; A first guide rail installed along upper portions of the first and second vertical frames for horizontal movement of the first jig; And a second guide rail installed on the upper surface of the hull between the first and second vertical frames for horizontal movement of the second jig.

Here, the first and second vertical frames are provided with auxiliary rails for supporting the lower sides of the first jig when the first jig moves along the first guide rails.

The rail section further includes a third guide rail provided below the first and second vertical frames. The first jig moves horizontally along the third guide rail to return to the assembling section from the mounting section .

Mounting rails to which the first jig moving along the first guide rails are coupled are respectively installed on the upper surfaces of the third and fourth lifting plates.

The apparatus for installing a offshore wind turbine generator according to the present invention is characterized in that it comprises an assembling operation of an offshore wind turbine generator for each component such as a nacelle, a strut, and a blade, and an offshore wind turbine generator So that the installation work can be continuously performed, and the time and manpower required for installing the offshore wind turbine generator can be minimized.

In addition, the apparatus for installing offshore wind power generators according to the present invention is capable of continuously and continuously installing the offshore wind turbine generator assembled with the first and second jig rail sections, .

1 is a perspective view showing the overall structure of a marine wind power generator installation apparatus according to the present invention.
2 is a plan view showing the overall structure of an offshore wind turbine installation apparatus according to the present invention.
3 to 5 are views showing a state in which an offshore wind power generator is assembled in an assembling part according to the present invention.
6 is a perspective view showing another embodiment of the first and second lifting plates according to the present invention.
7 is a view showing a state in which an offshore wind power generator is installed in an installation part according to the present invention.
8 is a perspective view showing the structure of the rail according to the present invention in more detail.
9 is a view showing a state where the offshore wind power generator is transferred to the installation part by the first and second jigs according to the present invention.

Hereinafter, preferred embodiments of the present invention in which the above objects can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and additional description thereof will be omitted in the following.

FIG. 1 is a perspective view showing the overall structure of an offshore wind turbine installation apparatus according to the present invention, and FIG. 2 is a plan view showing an overall structure of an offshore wind turbine installation apparatus according to the present invention.

1 and 2, an offshore wind turbine installation apparatus according to the present invention includes an assembly unit 100, a mounting unit 200, a jig assembly 300, And a rail part (400).

When the components (see FIG. 3) of the offshore wind power generator 10 such as the nacelle 11, the pillar 12, the blade 13 and the like are transported, the assembly unit 100 sequentially assembles the off- 10) is completed.

The assembly unit 100 includes first and second stand frames 110 and 120 mounted on the hull S so as to face each other and first and second stand frames 110 and 120 vertically movably installed between the first and second stand frames 110 and 120. [ Lifting plates 130,140.

The first lifting plate 130 is vertically movable to the first stand frame 110 and the second lifting plate 140 is spaced apart from the first lifting plate 130 by a predetermined distance, 2 stand frame 120 so as to be vertically movable.

3 to 5 are views showing a state in which an offshore wind power generator is assembled in an assembling part according to the present invention.

As shown in FIGS. 3 to 5, the assembly of the offshore wind turbine generator 10 includes a first and a second lifting plates 130 and 140, The first and second lifting plates 130 and 140 are vertically moved between the first and second stand frames 110 and 120 to lift the nacelle 11 and then the strut 12 is assembled on the lower surface of the nacelle 11 . At this time, the blade 13 is also assembled to the nacelle 11.

The first and second stand frames 110 and 120 must be lifted up by the first and second lifting plates 130 and 140 so that the nacelle 11 is lifted higher than the height of the offshore wind turbine generator 10 during assembly, (10).

Various devices for vertically moving the first and second lifting plates 130 and 140 are installed in the first and second stand frames 110 and 120. The first and second support frames 111 and 121 are connected to the first and second lifting plates 130 and 140. The first and second support frames 111 and 121 are connected to the first and second lifting plates 130 and 140, First and second wire cylinders 112 and 122 for winding and releasing the wire W are respectively installed.

Accordingly, when the first and second wire cylinders 112 and 122 wind the wire W, the first and second lifting plates 130 and 140 vertically rise. On the contrary, if the wire W is loosened, 130 and 140 are vertically lowered, the nacelle 11 can be moved in a vertical direction during assembly.

Here, when the first and second wire cylinders 112 and 122 wind up the wire W and lift the first and second lifting plates 130 and 140 vertically, the loads of the offshore wind turbine generator 10 exceeding several hundreds of tons are applied to the first, The first and second stand frames 110 and 120 are installed on the hull S so as to stably support the load of the offshore wind power generator 10 as shown in FIG. 1, since the first and second stand frames 110 and 120 are applied to the two stand frames 110 and 120, .

In this case, since the pair of first and second wire cylinders 112 and 122 are also installed to simultaneously wind the wire W connected to the first and second lifting plates 130 and 140, the first and second lifting plates 130 and 140 are more stable As shown in Fig.

6 is a perspective view showing another embodiment of the first and second lifting plates according to the present invention.

As shown in FIG. 6, the first and second lifting plates 130 and 140 may be formed as a single body and vertically movably installed between the first and second stand frames 110 and 120. In this case, when the first and second wire cylinders 112 and 122 wind or unwind the wires W connected to the left and right sides of the first and second lifting plates 130 and 140, And the two stand frames 130 and 140, respectively.

The installation part 200 is installed around the installation hole H formed in the hull S for installation of the offshore wind power generator 10 and is connected to the offshore wind power generator 10 assembled in the assembly part 100, When it is transported, it is installed on the sea.

The installation part 200 includes first and second guide frames 210 and 220 installed on the hull S so as to face each other and third and fourth guide frames 210 and 220 vertically movably installed on the first and second guide frames 210 and 220, Lifting plates 230,240.

Third and fourth wire cylinders 211 and 222 are provided at the upper end of the first and second guide frames 210 and 220 to wind or unwind the wires W inserted into the first and second guide frames 210 and 220. The third and fourth lifting plates 230 and 240 Are connected to the wires W inserted into the first and second guide frames 210 and 220 through grooves 212 formed in the longitudinal direction on the side surfaces of the first and second guide frames 210 and 220, respectively.

When the wire W is wound or unwound by the third and fourth wire cylinders 211 and 222, the third and fourth lifting plates 230 and 240 move vertically along the groove 212 of the first and second guide frames 210 and 220, .

7 is a view showing a state in which an offshore wind power generator is installed in an installation part according to the present invention.

As shown in FIG. 7, the third and fourth lifting plates 230 and 240 installed vertically movably in the first and second guide frames 210 and 220 are installed in the marine wind power generator 10 ) Is lifted and installed on the sea through the installation hole (H).

The first and second guide frames 210 and 220 have a vertical length greater than the vertical length of the offshore wind power generator 10 so that the third and fourth lifting plates 230 and 240 can lift the offshore wind power generator 10, A plurality of hulls S are installed to stably support the load of the offshore wind turbine generator 10 exceeding one hundred and thirty tons.

For example, four first and second guide frames 210 and 220 may be installed as shown in FIG. 1. In this case, each of the third and fourth lifting plates 230 and 240 has four portions, that is, first and second guide frames 210 and 220 (Not shown).

The jig assembly 300 supports the strut 12 of the offshore wind turbine generator 10 and horizontally moves from the assembly unit 100 to the installation unit 200 to rotate the offshore wind turbine generator 10 on the assembly unit 100, To the mounting unit 200. [0050]

The jig assembly 300 includes a first jig 310 that surrounds the outer surface of the strut 12 of the offshore wind power generator 10 and a second jig 310 that supports the bottom surface of the strut 12 of the offshore wind power generator 10. And a jig 320.

The first jig 310 is positioned on the upper surfaces of the first lifting plate 130 and the second lifting plate 140 respectively before the assembling of the offshore wind power generator 10 starts, The nacelle 11 of the offshore wind power generator 10 is naturally seated on the upper surface of the first jig 310 (see FIG. 3)

When the first and second lifting plates 130 and 140 vertically rise, the nacelle 11 vertically rises together with the first jig 310 and the strut 12 of the offshore wind turbine generator 10 is moved to the nacelle 11), and are coupled by bolt fastening, welding, or the like.

A hole 311 is formed at the center of the first jig 310 and the strut 12 is coupled to the lower surface of the nacelle 11 through the hole 311 and is coupled to the lower surface of the nacelle 11 The strut 12 is naturally wrapped around the outer surface by the first jig 310.

Since the first and second lifting plates 130 and 140 are installed in the first and second stand frames 110 and 120 at predetermined intervals, the strut 12 of the offshore wind power generator is installed in the first and second lifting plates 130, and 140 through the hole 311 and is coupled to the lower surface of the nacelle 11.

6, when the first and second lifting plates 130 and 140 are formed as one body, a separate cut-out portion C is formed on one side of the first and second lifting plates 130 and 140, So that the struts 12 are inserted into the cut-out portion C and then are passed through the holes 311 to be coupled to the lower surface of the nacelle 11.

Since the height of the offshore wind power generator 10 is several tens to several hundreds of meters, the struts 12 may be separated into a plurality of pieces and sequentially transferred to the assembly unit 100. 4 and 5, when the first and second lifting plates 130 and 140 are lifted vertically, the four struts 12 are sequentially engaged with each other, .

When the assembly of the offshore wind power generator 10 is completed, the second jig 320 moves to the lower side of the offshore wind power generator 10 to support the lower surface of the support 12 which is lowered to the hull S as shown in FIG. 5 . A fixing protrusion 321 protrudes from the upper surface of the second jig 320. The fixing protrusion 321 is inserted into the lower surface of the support 12 when the support 12 is placed on the upper surface of the second jig 320 so that the assembled maritime wind power generator 10 is stably erected .

The first and second jigs 310 and 320 constructed as described above are horizontally moved together along the rail part 400 to move the offshore wind power generator 10 from the assembly part 100 to the installation part 200. The operation of the first and second jigs 310 and 320 will be described in detail below while explaining the rail 400.

The rail part 400 is installed between the assembly part 100 and the mounting part 200 for horizontal movement of the jig assembly 300.

The rail section 400 includes first and second vertical frames 410 and 420, a first guide rail 430 and a second guide rail 440.

8 is a perspective view showing the structure of the rail according to the present invention in more detail.

8, a plurality of first and second vertical frames 410 and 420 are provided between the assembly unit 100 and the mounting unit 200 so as to face each other, and the first guide rail 430 And the second guide rail 440 is installed on the upper surface of the hull S between the first and second vertical frames 410 and 420. The first and second vertical frames 410 and 420 are installed along the upper portion of the first and second vertical frames 410 and 420,

Therefore, the transfer of the offshore wind turbine generator 10 is carried out by the first jig 310 supporting the outer surface of the strut 12 of the offshore wind turbine generator and the second jig 320 supporting the bottom surface 12 of the offshore wind turbine generator The first guide rail 430 and the second guide rail 440, respectively.

The first and second vertical frames 410 and 420 have vertical lengths smaller than the vertical length of the offshore wind turbine generator 10 so that the first guide rails 430 are connected to the offshore wind turbine generator 10, Is installed at a lower position.

9 is a view showing a state where an offshore wind power generator is transferred to an installation section by first and second jigs according to the present invention.

9, when the offshore wind power generator 10 is transported to the installation part 200 by the first and second jigs 310 and 320, the first jig 310 is connected to the offshore wind power generator 10, And moves horizontally along the first guide rail 430 while wrapping the upper portion of the column 12 at a lower position.

Unlike the second jig 320, the first jig 310 vertically moves along with the first and second lifting plates 130 and 140 while the offshore wind power generator 10 is being assembled, thereby continuously changing its position. Therefore, in order to transfer the offshore wind power generator 10 to the installation part 200, it is necessary to first locate the first jig 310 at the same height as the first guide rail 430.

4, the first jig 310 is positioned higher than the first guide rail 430 during the assembly of the offshore wind turbine generator 10, so that the offshore wind turbine generator 10 is mounted on the mounting portion The first and second lifting plates 130 and 140 are lowered so that the first jig 310 is moved to the first jig 320 and the second jig 320 is lowered as shown in FIG. So that it is positioned at the same height as the rail 430.

The first and second vertical frames 410 and 420 are provided with auxiliary rails 431 for supporting both sides of the first jig 310 when the first jig 310 moves along the first guide rail 430 Can be installed.

The first jig 310 has a very large size and weight so as to stably support the strut 12 of the offshore wind turbine 10 exceeding several hundreds of tons, Both sides of the first jig 310 are preferably supported by the auxiliary rail 431 as shown in FIG.

The first jig 310 moves to the mounting part 200 along the first guide rail 430 and is coupled to the mounting rails 231 and 241 formed on the upper surfaces of the third and fourth lifting plates 230 and 240 And moves to the upper surface of the third and fourth lifting plates 230 and 240.

7, when the first jig 310 is positioned on the upper surface of the third and fourth lifting plates 230 and 240, the third and fourth lifting plates 230 and 240 are moved vertically to rotate the marine wind power generator 10 At this time, the second jig 320 is separated from the lower surface of the support 12 and returns to the initial position along the second guide rail 440.

The first jig 310 moves along the mounting rails 231 and 241 from the upper surface of the third and fourth lifting plates 230 and 240 and the lifted wind turbine generator 10 is lifted up from the installation holes H And the third and fourth lifting plates 230 and 240 are lowered so that the offshore wind power generator 10 is installed on the sea via the installation hole H.

When the installation work of the offshore wind power generator 10 is completed, the first jig 310 is moved along the third guide rails 450 provided below the first and second vertical frames 410 and 420, (100) and is again located on the upper surface of the first and second lifting plates (130, 140).

The first jig 310 is positioned at the same height as the third guide rail 450 by the vertical movement of the third and fourth lifting plates 230 and 240. [

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.

S: Ship H: Installation hole
10: offshore wind power generator 11: nacelle
12: support 13: blade
100: assembly part 110, 120: first and second stand frame
111, 121: first and second supports 112, 122: first and second wire cylinders
130, 140: first and second lifting plates 200:
210, 220: first and second guide frames 211, 221: third and fourth wire cylinders
230, 240: third and fourth lifting plates 231, 241: mounting rails
300: jig assembly 310: first jig
311: hole 320: second jig
321: Fixing projection 400:
410, 420: first and second vertical frames 430: first guide rail
440: second guide rail 450: third guide rail
W: wire C: incision

Claims (12)

The present invention relates to an offshore wind turbine including a first and a second stand frame mounted on the hull so as to face each other and first and second lifting plates vertically movably installed between the first and second stand frames, An assembling part for assembling;
And a third and fourth lifting plates vertically movably mounted on the first and second guide frames, respectively, and the third and fourth lifting plates mounted on the first and second guide frames, An installation part for installing the generator;
A jig assembly supporting the strut of the offshore wind power generator and horizontally moving from the assembly part to the installation part to move the offshore wind power generator from the assembly part to the installation part; And,
And a rail portion provided between the assembly portion and the installation portion for horizontally moving the jig assembly. The method according to claim 1,
Wherein the first lifting plate is installed to be vertically movable with respect to the first stand frame and the second lifting plate is installed to be vertically movable with respect to the second stand frame at a predetermined distance from the first lifting plate. Wind turbine installation device. The method according to claim 1,
The first and second lifting plates are made of one body,
Wherein an incision is formed at one side of the first and second lifting plates to insert a pillar. The method according to claim 1,
The first and second support frames are provided with first and second support rods on the upper ends of the first and second stand frames. The first and second support rods are wound around the first and second lifting plates, Wherein the first and second wire cylinders for vertically moving the plate are installed. The method according to claim 1,
A third and fourth wire cylinders are provided at upper ends of the first and second guide frames to wind or unwind the wire inserted therein,
Wherein the third and fourth lifting plates are connected to the wires inserted into the first and second guide frames, respectively. The method according to claim 1,
The jig assembly includes a first jig for supporting an outer surface of a pillar of the offshore wind power generator, and a second jig for supporting a pillar of the offshore wind power generator,
Wherein the first and second jigs are horizontally moved along the rail portion so that the off-axis wind power generator is transferred from the assembly portion to the mounting portion in a state where the off-axis wind power generator is erected. The method according to claim 6,
Wherein the first jig is formed with a hole into which the strut of the offshore wind power generator is inserted. The method according to claim 6,
Wherein an upper surface of the second jig is formed with a fixing protrusion protruding from a bottom surface of the marine wind power generator. The method according to claim 6,
The rail portion
A plurality of first and second vertical frames provided to face each other between the assembly portion and the mounting portion;
A first guide rail installed along upper portions of the first and second vertical frames for horizontal movement of the first jig; And,
And a second guide rail installed on an upper surface of the hull between the first and second vertical frames for horizontal movement of the second jig. 10. The method of claim 9,
Wherein the first and second vertical frames are provided with auxiliary rails for supporting the both side surfaces of the first jig when the first jig moves along the first guide rail. 10. The method of claim 9,
The rail section further includes a third guide rail installed below the first and second vertical frames,
Wherein the first jig moves horizontally along the third guide rail to return to the assembled portion from the installation portion. 10. The method of claim 9,
And a mounting rail to which a first jig moving along the first guide rail is coupled is installed on the upper surface of the third and fourth lifting plates.

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