KR101809658B1 - Mooring apparatus for floating offshore wind power equipment - Google Patents

Abstract

The present invention relates to a mooring apparatus for a floating offshore wind power generator comprising: a mooring wire, one lengthwise end of which is connected to a floating structure and the other lengthwise end is disposed on a seabed; a box-structure main body which is installed to be fixed to the floating structure, and is penetrated by the mooring wire to be slid in a vertical direction; a wire fixing portion which is installed in the main body, and fixes the upper end and the lower end of the mooring wire positioned in the main body in a pressed state; a wire adjustment portion which is installed in the main body, fixes the mooring wire positioned in the main body in a pressed state where the fixture by the wire fixing portion is released, and then moves the mooring wire to the upper portion or the lower portion. According to the mooring apparatus for a floating offshore wind power generator described above, in the state where the mooring wire is disposed to penetrate the main body, the wire fixing portion fixes the upper end and the lower end of the mooring wire in the pressed state in the main body. The wire adjustment portion adjusts the mooring wires tension through positional movement in the vertical direction while pressing and fixing the mooring wire in the main body in a state where the pressing and fixing by the wire fixing portion is released, and prevents stress concentration of the mooring wire through the wire adjustment portion with respect to the movement of the floating structure, thereby maintaining the floating structure to be in a stable mooring state on the sea.

Description

[0001] Mooring apparatus for floating offshore wind power equipment [0002]

The present invention relates to a floating apparatus for a floating offshore wind turbine in which a floating structure floating on a water surface with a wind power generation facility is maintained in a stable floating state within a predetermined range of a mooring wire.

In general, marine floating structures can be moored floating in the ocean, and there are a variety of things to do in the moored state such as power generation, fossil fuel collection, production, congestion, storage and / or unloading. In particular, marine floating structures are classified into various types according to their function, structure, mooring method, etc. For example, there are SEMI (Semi-submersibe), TLP (Tensioned Leg Platform), SPAR, FPSO (Floating, Production, Storage and Offloading ), FSRUs, or drilling rigs, and the like.

On the other hand, interest in marine floating structures for power generation applications such as wind power and solar power has been greatly increased in recent years due to various reasons such as site cost, limitation of installation scale, and difficulties of nearby residents.

The floating structure equipped with the power generation facility is provided with a mooring device to stably float on the water surface. In this case, the mooring device connects the anchor and the floating structure with the mooring wire while fixing the anchor to the floor below the water surface. However, such mooring device has the mooring wire connected to the floating structure by the wind load and the oil force applied to the floating structure, The stress is concentrated on the end portion, and there is a risk that the floating structure continuously moves with the risk of breakage.

Such a floating structure having a forward mooring device is disclosed in Korean Patent Laid-Open Publication No. 2009-0028972 (2009.03.20).

A mooring device for a floating offshore wind power generator that prevents stress concentration at a portion where a floating structure and a mooring wire are connected to each other and reduces the motion of the floating structure to stably stow the floating structure .

The present invention relates to a mooring structure comprising a mooring wire having one end in the longitudinal direction connected to the floating structure and the other end in the longitudinal direction disposed on the seabed, a main body of a box structure fixedly installed on the floating structure and penetrating the mooring wire so as to slide in the vertical direction, A wire fixing part provided inside the main body and fixing the upper end and the lower end of the mooring wire located in the main body in a pressurized state; and a wire fixing part provided inside the main body, And a wire adjusting unit for moving the mooring wire upward or downward after fixing the mooring wire located in the main body in a pressurized state. The present invention also provides a mooring apparatus for a floating offshore wind power generator.

In addition, the wire fixing portion may be provided at an upper end of the main body, and upper fixing means for fixing the upper end of the mooring wire in the main body in a pressurized state, a lower fixing portion provided at the lower end of the main body, And a lower fixing means for fixing in a pressurized state.

The upper fixing means and the lower fixing means may include a first fixing cylinder and a second fixing cylinder which are coupled to the main body so as to be perpendicular to the mooring wire while being symmetrically disposed about the mooring wire, The first fixed cylinder rod and the second fixed cylinder rod being installed on both ends of the first fixed cylinder rod and the second fixed cylinder rod so as to be opposed to each other, 1 fixture and a second fixture.

The wire regulating unit may include a moving base inserted into the main body so as to be slidable in the vertical direction so that the mooring wire in the main body penetrates the mooring wire in the vertical direction, A third fixed cylinder and a fourth fixed cylinder coupled to the moving base so as to be perpendicular to the wire, and a second fixed cylinder coupled to the third fixed cylinder rod end and the fourth fixed cylinder rod end so as to be opposed to each other on both sides of the mooring wire , A third fixing table and a fourth fixing table for pressing the mooring wire in close contact with the mooring wire according to the operation of the third fixing cylinder and the fourth fixing cylinder so as to be arranged symmetrically about the mooring wire And the rod end is connected to the bottom surface of the moving table so that the moving table is moved up and down And a second regulating cylinder for slidably moving the first regulating cylinder and the second regulating cylinder.

The mooring device for a floating offshore wind turbine according to the present invention is characterized in that the wire fixing part fixes the upper end and the lower end of the mooring wire in a pressurized state in a state in which the mooring wire penetrates the main body, The tension of the mooring wire is adjusted by moving the mooring wire in the vertical direction while fixing the mooring wire in the main body while the pressurizing and fixing by the wire is released, and the stress concentration of the mooring wire is prevented through the wire adjusting part against the movement of the floating structure Thereby allowing the floating structure to remain in a stable mooring state at sea.

1 is a sectional view of a mooring apparatus for a floating offshore wind power generator according to an embodiment of the present invention.
2 is an enlarged cross-sectional view of a mooring apparatus for a floating offshore wind turbine according to an embodiment of the present invention.
3 and 4 are cross-sectional views of a mooring device for a floating offshore wind turbine according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a sectional view of a floating mooring wind power generator according to an embodiment of the present invention, and FIG. 2 is an enlarged sectional view of a floating mooring wind power generator according to an embodiment of the present invention. 1 and 2, a mooring device for a floating offshore wind turbine according to an embodiment includes a mooring wire 100, a main body 200, a wire fixing part 300, and a wire adjusting part 400 . Here, the floating structure 10 is a structure arranged to float on the water surface, and it is preferable that the floating structure 10 has a rectangular plane shape, but it can be designed to have various shapes according to the structure to be installed on the upper surface in a floating state on the water surface. Of course. In addition, although the wind turbine 20 for generating electricity using wind generated in the sea is installed on the floating structure 10, it is not limited thereto, but a photovoltaic power generation facility or various other power generation facilities can be installed. Of course.

The mooring wire (100) is a connecting member for connecting the floating structure (10) to the seabed. One end of the mooring wire 100 in the longitudinal direction is connected to one side of the floating structure 10. The other end in the longitudinal direction of the mooring wire 100 is installed in the seabed. At this time, the other end in the longitudinal direction of the mooring wire 100 is preferably fixed to the sea bed with an anchor or an anchor pile It is also possible to connect a weight such as a weight.

The main body 200 is a box-shaped structure for guiding the mooring wire 100 in a sliding manner in the vertical direction. The main body 200 is fixedly connected to the floating structure 10 and has a space for inserting the wire fixing part 300 and the wire adjusting part 400 to be described later. A first guide hole 101 may be formed through the upper and lower ends of the main body 100 so that the mooring wire 100 can pass therethrough.

The guide tube 110 may be coupled to the inside of the main body 100 so as to be inserted outside the mooring wire 100. The guide tube 110 is inserted and disposed outside the guide tube 110 positioned between the moving base 410 of the wire adjusting unit 400 and the lower end surface of the main body 200. The guide tube 110 has a tube structure for opening both ends so as to be correspondingly inserted outside the mooring wire 100. The guide tube 110 can be stably moved while preventing the buckling due to the compression of the mooring wire 100 when the mooring wire 100 is moved downward by the wire adjusting part 400 to be described later do. Reference numeral 220 denotes a fixed guide for guiding the first and second fixing members 313 and 323 and the second fixing members 314 and 324 of the wire fixing unit 300 to be described later in a sliding manner. That is, the first and second fixing legs 313 and 323 and the second fixing legs 314 and 324 are inserted and arranged in the fixed guide 220.

The mooring wire 100 moves up and down in the vertical direction while the mooring wire 100 moving in the vertical direction on the main body 100 is fixed or released in a pressurized state, . That is, the wire fixing part 300 fixes the upper end and the lower end of the mooring wire 100 located in the main body 200 in a pressurized state, so that the wire adjusting part 400 can be positioned in the main body 200 So that the fixed mooring wire 100 can be stably pressed and fixed. When the mooring wire 100 is pressed and fixed by the wire adjusting part 400, the wire fixing part 300 is released from the pressure fixed state of the upper and lower ends of the mooring wire 100 in the main body 200 The position of the mooring wire 100 in the up and down direction can be adjusted by driving the wire adjusting unit 400. The wire fixing unit 300 is installed at the upper and lower ends of the inside of the main body 200 and includes an upper fixing unit 310 and a lower fixing unit 320. The upper fixing means 310 is installed at an inner upper end of the main body 200 and allows the upper end of the mooring wire 100 located inside the main body 200 to be fixedly pressed or released in a pressurized state . The lower end fixing means 320 is installed at the lower inner side of the main body 200 and the lower end portion of the mooring wire 100 located inside the main body 200 is fixedly pressed or fixed .

The upper end fixing means 310 and the lower end fixing means 320 of the wire fixing portion 300 may include first fixing cylinders 311 and 321, second fixing cylinders 312 and 322, first fixing portions 313 and 323, (314,324).

The first fixing cylinder 311 and the second fixing cylinder 312 of the upper fixing means 310 are disposed to face each other at an upper end inside the main body 200. More preferably, And is arranged symmetrically with respect to the upper end of the mooring wire (100). The first fixing cylinder 311 and the second fixing cylinder 312 of the upper fixing means 310 are coupled to the upper inside of the main body 200 so as to be perpendicular to the mooring wire 100.

The first fixing base 313 and the second fixing base 314 of the upper fixing means 310 are disposed on both sides of the upper end of the mooring wire 100 in the main body 200 so as to face each other, 310 to the first fixed cylinder 311 and the second fixed cylinder 312, respectively. That is, the first fixing table 313 of the upper fixing means 310 is coupled to the rod end of the first fixing cylinder 311 of the upper fixing means 310, The second fixing table 314 is coupled to the rod end of the first fixing cylinder 312 of the upper fixing means 310. The first fixing table 313 and the second fixing table 314 of the upper fixing means 310 are fixed to the first fixing cylinder 311 and the second fixing cylinder 312 of the upper fixing means 310, The mooring wire 100 may be pressed and fixed in a state of close contact with the upper end of the mooring wire 100 while being moved adjacent to each other according to the operation of the mooring wire 100, State is released.

The first fixing cylinder 321 and the second fixing cylinder 322 of the lower fixing means 320 are disposed opposite to each other at an inner lower end of the main body 200. More preferably, And is symmetrically disposed about the lower end of the mooring wire 100. The first fixing cylinder 321 and the second fixing cylinder 322 of the lower fixing means 320 are coupled to the lower inner side of the main body 200 so as to be perpendicular to the mooring wire 100.

The first fixing table 323 and the second fixing table 324 of the lower fixing means 320 are disposed on opposite sides of the lower ends of the mooring wire 100 in the main body 200, 320 to the first fixed cylinder 321 and the second fixed cylinder 322, respectively. That is, the first fixing table 323 of the lower fixing means 320 is coupled to the rod end of the first fixing cylinder 321 of the lower fixing means 320, The second fixing table 324 is coupled to the rod end of the first fixing cylinder 322 of the lower fixing means 320. The first fixing base 323 and the second fixing base 324 of the lower fixing means 320 are fixed to the first fixing cylinder 321 and the second fixing cylinder 322 of the lower fixing means 320, The mooring wire 100 is pressed and fixed to the outer side of the lower end of the mooring wire 100 in a close contact state while being moved to be adjacent to each other, State is released.

The wire regulating unit 400 fixes the mooring wire 100 in the main body 200 in a pressurized state and then moves the mooring wire 100 to the upper or lower side, Adjust the tension. That is, the wire regulating unit 400 is disposed at the upper and lower ends of the mooring wire 100 in the main body 200 by the upper fixing unit 310 and the lower fixing unit 320 of the wire fixing unit 300, The mooring wire 100 in the main body 200 is moved upward or downward while being pressed and fixed. The wire adjusting unit 400 may be disposed on one side of the main body 200 and more specifically between the upper fixing unit 310 and the lower fixing unit 320 of the wire fixing unit 300. [ (200). The wire adjusting unit 400 includes a moving bar 410, a third fixing cylinder 420, a fourth fixing cylinder 430, a third fixing bar 440, a fourth fixing bar 450, A second adjustment cylinder 460, and a second adjustment cylinder 470.

The moving table 410 moves in the vertical direction inside the main body 100 according to the operation of the first adjusting cylinder 460 and the second adjusting cylinder 470. The moving table 410 is formed to have a shape corresponding to the inside of the main body 100 so that the moving table 410 can be moved in the vertical direction only from the inside of the main body 100. A second guide hole 411 is formed at the center of the moving table 410 so as to penetrate the moving table 410 in the vertical direction and the mooring wire 100 is disposed through the second guide hole 411.

The third fixing cylinder 420 and the fourth fixing cylinder 430 are disposed to face each other inside the main body 200. More preferably, And is positioned symmetrically about the mooring wire 100 in a state of being positioned between the lower fixing means 320. The third fixed cylinder 420 and the fourth fixed cylinder 430 are fixedly coupled to the upper surface of the moving table 410 so as to be perpendicular to the mooring wire 100.

The third fixing table 440 and the fourth fixing table 450 are disposed on both sides of the mooring wire 100 in the main body 200 such that the third fixing cylinder 420 and the fourth fixing cylinder 450 are disposed opposite to each other, (430). That is, the third fixing table 440 is coupled to the rod end of the third fixing cylinder 420, and the fourth fixing table 450 is coupled to the rod end of the fourth fixing cylinder 430. The third fixing table 440 and the fourth fixing table 450 are moved in a mutually adjacent manner in accordance with the operation of the third fixing cylinder 420 and the fourth fixing cylinder 430, And is released from the state of being in close contact with the outer side of the mooring wire 100 while being moved apart from each other, thereby releasing the pressure fixing state.

The first adjusting cylinder 460 and the second adjusting cylinder 470 may be fixed to the third fixing table 440 and the fourth fixing cylinder 440 according to the operation of the third fixing cylinder 420 and the fourth fixing cylinder 430. [ So that the moving table 410 is slid upward or downward while the mooring wire 100 is pressed and fixed through the fixing table 450. Thus, the first adjusting cylinder 460 and the second adjusting cylinder 470 can move the mooring wire 100, which is pressed through the third fixing base 440 and the fourth fixing base 450, So that the tension of the mooring wire 100 is adjusted.

The first adjustment cylinder 460 and the second adjustment cylinder 470 are coupled to the inside of the main body 200 so that the rod ends of the first adjustment cylinder 460 and the second adjustment cylinder 470 are coupled to the bottom surface of the movable table 410. The first adjusting cylinder 460 and the second adjusting cylinder 470 are disposed symmetrically with respect to the mooring wire 100 in the main body 200, 100 in the longitudinal direction of the main body 200.

The first adjusting cylinder 460 and the second adjusting cylinder 470 may be disposed on the third fixing cylinder 420 and the fourth fixing cylinder 430, When the floating structure 10 is moved by wind, wave, or current in a state in which the first fixing cylinder 440 and the fourth fixing table 450 are pressed and fixed according to the operation of the first fixing cylinder 440 and the fourth fixing table 450, And the second adjustment cylinder (470). In this way, the movement of the floating structure 10 is canceled by the movement of the first adjusting cylinder 460 and the second adjusting cylinder 470 by the upward and downward reciprocation by the rod length, and the movement of the mooring wire 100 Thereby preventing stress from concentrating and maintaining a stable mooring state.

The mooring device for a floating offshore wind turbine according to an embodiment of the present invention includes a position detection sensor (not shown) capable of detecting a degree of inclination of the floating structure 10 in the sea, The first fixing cylinder 311 and the second fixing cylinder 320 provided in the upper fixing means 310 and the lower fixing means 320 of the wire fixing portion 300 and the third fixing cylinder 420 of the wire adjusting portion 400, And a control unit (not shown) for controlling the operation of the fourth fixed cylinder 430, the first adjusting cylinder 460 and the second adjusting cylinder 470 may be installed in the floating structure 10.

The operation of the floating apparatus for a floating offshore wind turbine of this embodiment will be described as follows.

3, in order to adjust the tension of the mooring wire 100 in the horizontal direction according to the swinging motion of the floating structure 10, the upper fixing means 310 of the wire fixing portion 300, The upper and lower ends of the mooring wire 100 in the main body 200 are fixed in a pressurized state by the lower fixing means 320, respectively. That is, the first fixing cylinder 311 and the second fixing cylinder 312 of the upper fixing means 310 are operated so that the first fixing base 313 and the second fixing base 314 are moved in the main body 200 Thereby fixing the upper end portion of the mooring wire 100 in a pressurized state. The first fixing cylinder 321 and the second fixing cylinder 322 of the lower fixing means 320 are operated so that the first fixing base 323 and the second fixing base 324 are moved in the main body 200 The lower end portion of the mooring wire 100 is fixed in a pressurized state.

Thus, the mooring wire 100 is stably fixed while the wire fixing part 300 fixes the upper and lower ends of the mooring wire 100 disposed inside the main body 200 in a pressurized state.

After the wire fixing part 300 presses and fixes the upper and lower ends of the mooring wire 100 disposed inside the main body 200 and the third fixing cylinder 420 of the wire adjusting part 400, And the fourth fixed cylinder (430). That is, the third fixing cylinder 420 and the fourth fixing cylinder 430 of the wire adjusting unit 400 are operated so that the third fixing base 440 and the fourth fixing base 450 are moved in the main body 200 The intermediate portion of the mooring wire 100 is fixed in a pressurized state.

The upper and lower ends of the mooring wire 100 in the main body 200 by the upper fixing means 310 and the lower fixing means 320 are released to be pressed and fixed, The second adjusting cylinder 470 and the second adjusting cylinder 470 are operated to adjust the tension while the mooring wire 100 is moved upward or downward.

The mooring device for a floating offshore wind turbine according to an embodiment is a mooring structure for a wire fixing part 300 in the main body 200 in a state where the mooring wire 100 passes through the main body 200, The upper and lower ends of the mooring wire 100 are fixed in a pressed state and the wire adjusting part 400 is fixed to the mooring wire 100 in the state where the wire fixing part 300 is released, The tension of the mooring wire 100 is controlled by moving the wire 100 in a vertical direction while pressing and fixing the wire 100, The stress concentration of the wire 100 is prevented so that the floating structure 10 is maintained in a stable mooring state at sea.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Floating structure 20: Wind power plant
100: mooring wire 200: main body
300: wire fixing part 310: upper fixing part
320: lower fixing means 311, 321: first fixing cylinder
312, 322: second fixed cylinder 313, 323:
314, 324: second fixing table 400:
410: Moving stand 420: Third fixed cylinder
430: fourth fixing cylinder 440: third fixing base
450: fourth fixing table 460: first adjusting cylinder
470: second regulation cylinder

Claims (4)

A mooring wire having one longitudinal end connected to the floating structure and the other longitudinal end disposed at the seabed;
A main body having a box structure fixed to the floating structure and penetrating the mooring wire so as to be slid in the vertical direction;
A wire fixing unit installed inside the main body and fixing the upper and lower ends of the mooring wire positioned in the main body in a pressed state; And
A wire regulating unit installed inside the main body and fixing the mooring wire positioned in the main body in a state in which the fixed state by the wire fixing unit is released and then moving the mooring wire upward or downward; ≪ / RTI &
The wire regulator includes:
A movable base inserted into the body so as to be slidable in the vertical direction and the mooring wire in the body penetrating in the vertical direction,
A third fixed cylinder and a fourth fixed cylinder coupled to the upper surface of the moving table so as to be perpendicular to the mooring wire while being symmetrically disposed about the mooring wire,
And a second fixed cylinder connected to the rod end of the third fixed cylinder and the rod end of the fourth fixed cylinder so as to be opposed to each other on both sides of the mooring wire, A third fixing table and a fourth fixing table for pressing in a close contact state,
The rod is connected to the main body so as to be parallel to the mooring wire while being symmetrically disposed about the mooring wire, the rod end is connected to the bottom surface of the moving rod to slide the moving rod in the vertical direction, And a second conditioning cylinder. The method according to claim 1,
The wire-
An upper fixing means installed at an upper end of the main body to fix the upper end of the mooring wire in the main body in a pressurized state,
And a lower fixing means provided at a lower end of the main body for fixing the lower end of the mooring wire in the main body in a pressurized state. The method of claim 2,
Wherein the upper fixing means and the lower fixing means comprise:
A first fixed cylinder and a second fixed cylinder coupled to the main body so as to be perpendicular to the mooring wire in a symmetrical arrangement with respect to the mooring wire,
The first fixed cylinder and the second fixed cylinder being connected to the rod end of the first fixed cylinder and the rod end of the second fixed cylinder so as to be opposed to each other on both sides of the mooring wire, And a first fixing table and a second fixing table for pressing the first fixing table and the second fixing table in close contact with each other.




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