KR101687368B1 - Support structure of offshore wind turbines and structure method thereof - Google Patents

Abstract

The present invention relates to an offshore wind power generation supporting structure that is installed on a sea floor and has an upper portion protruding in the sea and on which a wind power generator is mounted on a protruded upper surface, A cylindrical monofilament suction part provided so as to protrude at a predetermined height from the sea floor; A tubular steel portion inserted into an upper portion of the monofilament suction portion protruding from the sea floor at a predetermined height and having an upper surface protruding from the sea and having a hollow therein; And a fixing part provided between the monofilament suction part and the steel part to fix the steel part to the monofilament suction part. Thus, it is possible to provide an offshore wind power support structure, It is possible to reduce the time and cost for constructing the support structure by providing the technology to install at sea by separating the manufacturing of the development monofile support structure, and to improve the structural stability by controlling the verticality of the support structure So that the offshore wind power generator can be stably supported.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an offshore wind turbine support structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction field and, more particularly, to an offshore wind power support structure.

In general, an offshore structure is a structure that is installed on the ground in order to install various objects on the sea.

These offshore structures are always subjected to external forces due to waves, tides, winds and the like, and as a result, these offshore wind power support structures are often formed of a concrete material that is most resistant to external forces and resistant to corrosion.

1 is a perspective view showing a structure in which a conventional offshore wind power generation structure is installed on the sea.

As the problem of the noise caused by the wind power generation structure of the land is pointed out, an attempt is made to construct and use the wind power generation structure at sea.

As shown in FIG. 1, a conventional wind power generation structure is formed of a concrete material as a whole, and includes a main body 1 in which a power generation facility is installed, a tower 2 installed at an upper portion thereof, And a braid 3 provided on the outer circumferential surface.

A conical protrusion 4 is formed in the lower part of the main body 1 to prevent the main body 1 from being conducted by a strong wind force, a wave, an earthquake or the like in the sea. In order to prevent the overall sliding of the structure, The sliding prevention portion 5 is also formed.

However, such a conventional wind power generation structure requires excessive cost due to the use of many steel materials, excessive labor and cost are required for its manufacture and construction, and structural stability is not excellent.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a wind turbine supporting structure capable of stably supporting an offshore wind turbine by reducing the cost and time required for constructing an offshore wind power generation support structure, The present invention relates to an offshore wind power support structure capable of supporting an offshore wind turbine.

In order to solve the above problems, the present invention provides an offshore wind power support structure installed on the sea floor and having an upper portion protruding in the sea and allowing the wind power generator to be seated on a protruded upper surface, A cylindrical monofilament suction part provided with the opening and protruding from the bottom surface at a predetermined height; A tubular steel portion inserted into an upper outer surface of the monofilament suction portion protruding from the bottom surface at a predetermined height and having an upper surface protruding from the sea surface and having a hollow therein; And a fixing part provided between the monofilament suction part and the steel part to fix the steel part to the monofilament suction part.

The fixing portion may include a plurality of shear keys protruding from the inner surface of the steel material portion at a position overlapping the outer surface of the monofilament suction portion, and concrete placed between the outer surface of the monofilament suction portion and the inner surface of the steel material portion.

The plurality of shear keys may be spaced apart from each other by a predetermined distance along a circumferential direction and a height direction of the inner surface of the steel material.

In addition, a ring-shaped bottom flange extending along the radial direction and the circumferential direction of the steel material portion may be provided at a lower end portion of the steel material portion seated on the sea floor.

In addition, a plurality of reinforcing ribs may be installed on the lower side of the outer surface of the steel material portion, one side surface of which is fixed to the outer surface of the steel material portion, the other side surface is fixed to the upper surface of the bottom flange, and is radially arranged along the circumferential direction of the steel material portion.

In addition, the upper surface of the monofilament suction part is provided with a steel cover detachable from the monofilament suction part, and is connected to the monofilament suction part by bolting. The monofilament suction part is connected to a suction pump, A plurality of suction holes through which the monofilament suction part is inserted into the seabed surface can be formed.

In addition, the steel material portion is inserted into an upper outer surface of the monofilament suction portion and is seated on the bottom surface of the monofilament suction portion. On the inner surface of the steel material portion, a plurality of engaging members May be radially disposed along the circumferential direction of the steel material portion.

In addition, the steel member is inserted into an upper inner surface of the monofilament suction part and is seated on the seabed surface. On the outer surface of the steel member, a plurality of engaging members, which engage the upper surface of the monofilament suction part when the steel member is seated on the seabed surface, May be radially disposed along the circumferential direction of the steel material portion.

The upper surface of the monofilament suction part is provided with a protruding member which is in contact with the lower inner surface of the steel member which is seated on the upper surface of the monofilament suction part. On the upper surface of the monofilament suction part outside the protruding member, And a support member protruding at a predetermined height along the first direction.

In addition, a plurality of shear keys may protrude from the inner surface of the support member and the outer surface of the steel member, and concrete may be installed between the inner surface of the support member and the outer surface of the steel member.

In addition, a plurality of vanes may be radially arranged on the outer surface of the support member, one side of which is fixed to the outer surface of the support member and the other side of which is fixed to the upper surface of the monofilament suction unit.

In order to solve the above problem, the present invention is characterized in that after the monofilament suction part is seated on a seabed surface to be installed, the inside of the monofilament suction part is sucked by a pump so that the monofilament suction part is inserted into the sea floor, A first step of inserting the suction part such that the suction part is protruded and fixed while maintaining a constant height from the sea floor; A second step in which the steel material is arranged while maintaining a vertical degree around the upper portion of the monofilament suction part protruding from the sea floor at a predetermined height; A third step of pouring the concrete between the outer surface of the monofilament suction part and the inner surface of the steel material to cure the monofilament suction part and the steel material part; The present invention also provides a method of constructing an offshore wind power support structure.

The method may further include removing the steel cover provided on the upper surface of the monofilament suction part and filling the inside of the monofile suction part and the steel part to a predetermined height.

The present invention separates and manufactures an offshore wind power concrete supporting structure having a height of several tens of meters, thereby providing a technique for installing the offshore wind turbine, thereby reducing the time and cost required for constructing the supporting structure, The vertical stability can be improved by adjusting the vertical degree, and thus it is possible to stably support the offshore wind turbine generator.

1 is a perspective view showing a structure in which a conventional offshore wind power generation structure is installed on the sea,
2 is a perspective view illustrating a structure of an offshore wind power generation supporting structure according to the present invention,
3 is a longitudinal sectional view showing a structure in which a monofilament suction part of a offshore wind power generating supporting structure according to the present invention is introduced into a sea floor,
4 is a longitudinal sectional view showing a structure of an offshore wind power generator supporting structure according to a first embodiment of the present invention,
5 is a longitudinal sectional view showing a structure of an offshore wind power generator supporting structure according to a second embodiment of the present invention,
6 is a longitudinal sectional view showing a structure in which a monofilament suction part of a offshore wind power generator supporting structure according to a third embodiment of the present invention is introduced into a sea floor,
FIG. 7 is a longitudinal sectional view showing a structure in which a steel member is coupled to the monofilament suction portion of FIG. 6,
8 is a plan view showing a construction structure in which a monofilament suction part according to the present invention is inserted into a sea floor,
9 is a flowchart sequentially illustrating a construction method of a offshore wind power generation supporting structure according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a structure of a marine wind power generating supporting structure according to the present invention, FIG. 3 is a longitudinal sectional view showing a structure in which a monofile suction part of a marine wind power generating supporting structure according to the present invention is penetrated into a sea floor, FIG. 4 is a longitudinal sectional view showing the structure of an offshore wind power generating supporting structure according to a first exemplary embodiment of the present invention, FIG. 5 is a longitudinal sectional view showing the structure of an offshore wind power generating supporting structure according to a second exemplary embodiment of the present invention 6 is a longitudinal sectional view showing a structure in which a monofilament suction part of an offshore wind power generating supporting structure according to a third embodiment of the present invention is inserted into a sea floor, FIG. 8 is a plan view showing a construction structure in which a monofilament suction part according to the present invention is inserted into a sea floor, FIG. 9 is a perspective view showing a structure of a coastal wind power generation supporting structure according to the present invention, A flow chart describing the method in sequence.

As shown in these figures, the offshore wind power generation supporting structure according to the present invention is an offshore wind power generation supporting structure provided on a sea floor and having an upper portion protruding in the sea and allowing a wind power generator to be placed on a protruded upper surface, A monofilament suction part 100 having a cylindrical shape and protruding from the bottom surface at a predetermined height so as to be inserted into the seafloor by vacuum suction, A tubular steel part 200 which is inserted into the upper outer surface of the main body 100 and has an upper surface protruding in the sea and has a hollow 210 therein, 200 to secure the steel material 200 to the monofilament suction part 100. The monofilament sucking part 100 includes a fixing part 300,

The monofilament suction part 100 is a member which is inserted into a sea floor by using a vacuum formed therein and stably supports the steel part 200 provided on the bottom, And is formed into a cylindrical shape having a bottom and an opening.

The upper surface of the monofilament suction unit 100 is provided with a steel cover 110 detachable from the monofilament suction unit 100 and is bolted to the monofilament suction unit 100. When a vacuum is formed in the space inside the monofilament suction unit 100, It is preferable that a separate packing is provided on the contact surface of the steel cover 110 and the monofilament suction part 100 so that the sealing can be accurately performed.

The steel cover 110 is connected to a suction pump to form a vacuum inside the monofilament suction part 100 to thereby form a plurality of suction holes 111 for inserting the monofilament suction part 100 into the bottom surface, Respectively.

The side surface of the monofilament suction unit 100 may be provided with a position checking means 400 for confirming the position where the monofilament suction unit 100 is inserted into the bottom surface.

 The positioning means 400 includes two pad eyes 410 on the side of the monofilament suction unit 100 and a vertical cable 420 extending perpendicularly to the upper surface of the monofilament suction unit 100, And a float 430 provided on the vertical cable 420 so that the vertical cable 420 is perpendicular to the upper surface of the monofilament suction unit 100.

The steel material part 200 is a tubular member having a hollow 210 formed therein and inserted into the outer surface of the monofilament suction part 100 so that the upper part of the steel material part 200 can be extended .

The provision of the hollow 210 in the steel part 200 reduces the weight of the steel part 200, thereby facilitating transportation and installation.

The upper part of the steel material part 200 is provided with a region larger in diameter than the steel material part 200 so that a structure such as a wind power generator can be seated and installed. Shaped bottom flange 230 is formed extending along the direction of the bottom surface of the flange.

The bottom flange 230 extends the area where the steel member 200 is in contact with the bottom surface so that a structure such as a wind power generator is installed on the upper portion of the steel member 200 so that the lower portion of the steel member 200 It plays a role to prevent sinking to the sea floor.

One side of the steel member 200 is fixed to the outer surface of the steel member 200 and the other side of the steel member 200 is fixed to the upper surface of the bottom flange. It is effective that the reinforcing ribs 240 are provided.

The fixing unit 300 includes a plurality of shear keys 310 protruding from the inner surface of the steel member 200 at a position overlapped with the outer surface of the monofilament suction unit 100 and the outer surface of the monofilament suction unit 100, And a concrete 320 placed between the outer surface of the monofilament suction part 100 and the inner surface of the steel part 200.

The arrangements and the number of the shear keys 310 may be different from that of the monofilament suction part 100 and the shear keys 310. [ And is determined according to the required bonding force between the steel members 200.

That is, when a large current is required between the monofilament suction part 100 and the steel part 200 by installing algae on the sea surface, the shear keys 310 must be arranged densely, When a relatively small coupling force is required between the monofilament suction part 100 and the steel part 200, the economical efficiency can be improved by elastically arranging the shear keys 310.

5, the steel part 200 of the offshore wind power generating structure according to the second embodiment of the present invention is inserted into the upper outer surface of the monofilament suction part 100 and is seated on the seabed surface, A plurality of engaging members 250 which are engaged with the upper surface of the monofilament suction unit 100 when the steel member 200 is seated on the seabed surface are formed on the inner surface of the steel member 200 along the circumferential direction of the steel member 200 Can be arranged radially.

The engaging member 250 is preferably welded to the joining member 220 of the steel member 200 and integrally formed with the steel member 200.

6, the steel part 200 of the offshore wind power generating structure according to the third embodiment of the present invention is inserted into the upper inner surface of the monofilament suction part 100 and is seated on the seabed surface, A plurality of engaging members 250 that are engaged with the upper surface of the monofilament suction unit 100 when the steel member 200 is seated on the seabed surface are formed on the outer surface of the steel member 200 along the circumferential direction of the steel member 200 Can be arranged radially.

As in the case of the offshore wind power sup- ply structure according to the second embodiment of the present invention, the inner surface of the steel part 200 at a position overlapped with the outer surface of the mono-file suction part 100 and the outer surface of the mono-file suction part 100 A plurality of shear keys 310 are protruded and a concrete 320 is laid between the outer surface of the monofilament suction part 100 and the inner surface of the steel part 200 to form the monofilament suction part 100 and the steel part 200, .

8, on the upper surface of the monofilament suction part 100 of the offshore wind power generator supporting structure according to the fourth embodiment of the present invention, a steel material part 200, which is seated on the upper surface of the monofilament suction part 100, And a support member 120 protruding at a predetermined height along the height direction of the monofilament suction part 100 is provided on the upper surface of the monofilament suction part 100 outside the protruding member 120, (Not shown).

The protruding member 120 may be constituted by a plurality of pieces spaced apart from each other by a distance corresponding to the inner diameter of the steel member 200 and may be constituted by a ring-shaped member integrally formed with an outer diameter equal to the inner diameter of the steel member 200 Of course.

However, in order to reduce the cost and time required for manufacturing the monofilament suction part 100, it is more effective that the projecting member 120 is composed of a plurality of pieces arranged in a radial direction.

The supporting member 130 is formed to have a relatively higher height than the height of the protruding member 120 and is formed at a predetermined distance from the outer surface of the steel member 200 when the steel member 200 is inserted into the outside of the protruding member 120 It is preferable that the second electrode is formed to have a diameter that can be spaced apart.

This is for securing a space where concrete can be cured by integrating the steel material part 200 with the monofilament suction part 100 to cure.

A plurality of shear keys 310 protrude from the inner surface of the support member 130 and the outer surface of the steel member 200. Concrete 320 is inserted between the inner surface of the support member 130 and the outer surface of the steel member 200, The monofilament suction part 100 and the steel part 200 are integrated with each other to support a structure such as a wind power generator.

A plurality of wings 140 are fixed to the outer surface of the support member 130 and fixed to the upper surface of the monofilament suction unit 100 with one side fixed to the outer surface of the support member 130 and the other side fixed to the upper surface of the monofilament suction unit 100, The wing wall 140 may be formed of the same material as the steel material 200 or may be formed of a concrete material.

A method for constructing the offshore wind power generation supporting structure according to the present invention having such a construction on the sea floor is as follows.

First, after the monofilament suction part 100 is seated on the undersurface to be installed, the inside of the monofilament suction part 100 is made to be in a vacuum state so that the monofilament suction part 100 has a predetermined height from the sea floor And is inserted so as to be protruded and fixed.

Thereafter, the steel material part 200 is disposed while maintaining a vertical degree around the upper part of the monofilament suction part 100 protruding from the sea floor at a predetermined height, and the outer surface of the monofilament suction part 100 and the steel part 200) by placing concrete therebetween.

At this time, the step of discharging the seawater existing in the steel material part 200 to the outside of the steel material part 200 before the concrete is poured has the effect of accelerating the concrete more quickly.

The plurality of brackets are seated on the upper surface of the monofilament suction part 100 and welded to the upper surface of the monofilament suction part 100 and the inner surface of the steel part 200 to weld the monofilament suction part 100, (200) are integrated.

Thereafter, the eccentric insertion preventing means 400 is removed while removing the steel cover provided on the upper surface of the monofilament suction unit 100, and the inside of the monofilament suction unit 100 and the upper surface of the steel member 200 It is filled up to a certain height.

The installation of the offshore wind power support structure is completed by installing an offshore structure such as a wind power generator on the upper surface of the steel material part 200.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: Monofilament suction part 110: Steel cover
111: suction hole 120: projecting member
130: support member 140:
200: steel part 210: hollow
220: bracket joint member 230: bottom flange
240: reinforcing rib 250: engaging member
300: Fixing unit 310:
320: Concrete

Claims (16)

An offshore wind power support structure installed on the sea floor and having an upper portion protruding in the sea, and a wind power generator mounted on a protruded upper surface,
The suction port 111 is formed in the upper surface in a state where the lower surface of the opening is in contact with the bottom surface, and the suction pump is connected to the vacuum port A monofilament suction part 100 having a single cylindrical shape and penetrating into the sea floor and protruding at a predetermined height from the sea floor;
A tubular steel part 200 inserted into the upper part of the monofilament suction part 100 protruding from the bottom surface at a predetermined height and having an upper surface protruding from the sea and having a hollow 210 formed therein;
A fixing part 300 provided between the monofilament suction part 100 and the steel part 200 to fix the steel part 200 to the monofilament suction part 100; Including,
The monofilament suction part 100 is inserted into the bottom of the sea so that the upper surface of the monofilament suction part 100 is in contact with the bottom surface of the monofilament suction part 100, The upper surface of the monofilament suction part 100 on the outer side of the protruding member 120 is provided with a protruding member 120 vertically contacting the lower inner surface of the steel part 200 to which the monofilament suction part 100 A supporting member 130 protruding at a predetermined height along the height direction of the supporting member 130,
A plurality of shear keys are formed on the inner surface of the support member and the outer surface of the steel member so as to be spaced apart from each other along the circumferential direction of the inner surface of the steel member by a predetermined distance, And a concrete is poured between the outer surfaces. delete delete The method according to claim 1,
Wherein a bottom flange of a ring shape extending along the radial direction and the circumferential direction of the steel material portion is provided at a lower end portion of the steel material portion seated on the sea floor. 5. The method of claim 4,
Wherein a plurality of reinforcing ribs are provided on a lower side of the outer surface of the steel material portion, one side surface of which is fixed to the outer surface of the steel material portion, the other side surface is fixed to the upper surface of the bottom flange, and the radial direction is arranged along the circumferential direction of the steel material portion. Support structure. The method according to claim 1,
The upper surface of the monofilament suction part is provided with a steel cover detachable from the monofilament suction part, and is connected to the monofilament suction part by bolting. The inside of the monofilament suction part is connected to a suction pump by vacuum, And a plurality of suction holes through which the monofilament suction part is inserted and installed into the sea floor are formed to pass through. The method according to claim 1,
And a plurality of engaging members engageable with an upper surface of the monofilament suction portion when the steel member is seated on the seabed surface, the engaging member being engaged with the upper surface of the monofilament suction portion, And is arranged radially along the circumferential direction of the steel material portion. The method according to claim 1,
A plurality of engaging members engageable with an upper surface of the monofilament suction portion when the steel member is seated on the seabed surface, the engaging member being engaged with the upper surface of the monofilament suction portion, And is arranged radially along the circumferential direction of the steel material portion. 9. The method according to claim 7 or 8,
Wherein the engaging member is welded to the joining member formed on the steel member and integrally formed with the steel member. delete delete The method according to claim 1,
Wherein a plurality of wings for fixing the support member to the upper surface of the monofilament suction part is radially disposed on an outer surface of the support member, wherein one end of the support member is fixed to the outer surface of the support member and the other end is fixed to the upper surface of the monofilament suction part. . The method according to claim 1,
And a position confirming means for confirming a position where the monofilament suction portion is inserted into the bottom surface is provided at one side of the monofilament suction portion. 14. The method of claim 13,
The position checking means includes a pad eye protruding from a side surface of the monofilament suction part, a vertical cable connected to the pad eye and extending in a marine shape and vertically disposed on an upper surface of the monofilament suction part, And the vertical cable is perpendicular to the upper surface of the monofilament suction part. A method of constructing an offshore wind power support structure for installing a offshore wind power support structure according to any one of claims 1 to 8 on a sea floor,
And a suction device for sucking the inside of the monofilament suction part by a pump after the monofilament suction part is seated on a seabed surface to be installed and inserting the monofile suction part so as to be protruded and fixed at a predetermined height from the bottom surface Step 1;
A second step of arranging the steel material around the upper portion of the monofilament suction portion protruding from the seabed surface at a predetermined height while maintaining a vertical degree;
A third step of curing the concrete after being poured between the outer surface of the monofilament suction part and the inner surface of the steel material part so that the monofilament suction part and the steel material part are integrated;
Wherein the support structure comprises at least one of the following: 16. The method of claim 15,
Further comprising the step of removing the steel cover provided on the upper surface of the monofilament suction part and filling the sandy soil up to a height of the inside of the monofilament suction part and the steel part.

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