KR101358234B1 - Floating structure - Google Patents

Abstract

A floating structure is disclosed. Floating structure according to an embodiment of the present invention, the body that can be suspended in water, a leg penetrating the main body in the vertical direction, the fastening member connected to the lower portion of the leg, and the fastening member therebetween It may include a spud can coupled to the leg, and a detachable portion for coupling or releasing the fastening member and the spud can.

Description

{FLOATING STRUCTURE}

The present invention relates to a floating structure.

As the demand for environmentally friendly energy development grows, the development using wind power generators is getting popular all over the world. However, installation of wind turbines requires strict environmental conditions. For example, the place where the wind turbine is installed should be a place where a certain level of wind speed can be guaranteed to obtain significant rotation of the blade, and the pollution caused by the noise generated when driving the wind turbine should not be an issue do. Even if the environmental conditions are satisfied, there is a problem that a very large area of space is required for installing the wind turbine generator.

In recent years, interest in offshore wind turbines has increased, which is relatively free from the above-mentioned constraints. Offshore wind turbines can be installed in a variety of ways, but generally they are constructed by dividing the components into several units, making them on land, and then transferring the units to sea for assembly.

A ship that moves offshore wind turbine units on the sea to the sea and installs offshore wind turbine generators is commonly referred to as a wind turbine installation vessel (WTIV).

Wind turbine installation The ship can be operated in the transit mode and the jackup mode according to the characteristics of the operation. Specifically, the ship installed with the wind turbine moves to the navigation mode to the position where the off-axis wind turbine is to be installed. In navigation mode, the legs may remain moved upward of the body to reduce resistance by seawater. After that, the ship installed with the wind power generator is switched to the jack-up mode, the leg is lowered into the sea floor, and then the main body is lifted up along the leg so that the main body is separated from the sea level by a certain distance. When the main body reaches a certain position, the wind turbine installation ship stops the movement of the main body and installs the offshore wind turbine generator. When the installation is completed, proceed in the reverse order to move to the next installation position.

These floating structures must be removed from the area when the work is completed or an emergency situation such as a storm is encountered. In this case, the body should descend along the legs to a level that can float back to sea level, and the legs must be lifted.

However, if the spud-can, which is the lower end of the leg, is firmly fixed to the seabed, the leg can not be lifted. If a plurality of legs are provided, if only one of the legs can not be lifted, a large accident may occur, in which the body loses balance and collapses. Even if the main body does not lose balance, the main body may fall down due to a storm or the like.

(Patent Document 1) United States Patent Application Publication No. US2010 / 0067989 (published on May 18, 2010)

(Patent Document 2) United States Patent Application Publication No. US2008 / 0247827 (published on September 10, 2008)

An embodiment of the present invention is to provide a floating structure that can separate the leg and the spud cans in a simple operation when an emergency situation that needs to quickly lift the legs penetrated to the seabed occurs.

Floating structure according to an aspect of the present invention, the main body that can be suspended in water, a leg penetrating the main body in the vertical direction, the fastening member connected to the lower portion of the leg, the fastening member between the It may include a spud can coupled to the leg, and a removable portion for coupling or releasing the fastening member and the spud can.

The detachable part may include a bolt for fastening the spud can and the fastening member, and a driving part connected to the bolt.

The spud can includes a nut receiving part for receiving a nut fastened to the bolt, and when the nut and the bolt are released, the nut may be moved to the lower part of the nut receiving part.

The detachable part may further include a hollow case covering the driving part.

The hollow case may include a space in which the driving unit is moved according to the bolting release operation of the bolt.

Embodiment of the present invention can quickly lift the leg by removing the leg of the bolt release and the spud cans has the effect that can be quickly responded in an emergency situation.

1 is a perspective view illustrating a floating structure according to an embodiment of the present invention,
FIG. 2 is a view showing a jack-up state of the floating structure of FIG. 1,
3 is a partial perspective view showing a state in which the leg and the spud can is coupled to the floating structure of FIG.
4 is a schematic cross-sectional view taken along the line AA detachment portion of FIG. 3,
5 is a cross-sectional view illustrating an operation of separating the leg and the spud can.

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

FIG. 1 is a perspective view showing a floating structure according to an embodiment of the present invention, and FIG. 2 is a diagram showing a jack-up state of the floating structure of FIG.

1 and 2, a floating structure 1 according to an embodiment of the present invention includes a main body 10 capable of floating in water, a leg 20 extending vertically through the main body 10, And leg supports 30 that relatively move the legs 20 and the main body 10 in the vertical direction and support the legs 20.

The floating structure 1 may be a wind turbine installation vessel (WTIV) or a jack-up platform. In this embodiment, the floating structure 1 is a wind turbine installation vessel I'll explain it to you. However, the spirit of the present invention is not limited to this, and any floating structure having a jack-up mode to be described later may be included in the scope of the present invention.

The body 10 may have a planar structure of a floating rectangular shape as shown in FIG. 1, and may be formed in a structure having a wide width, a low height, and a short length as compared with a general commercial line (for example, a container line) . However, this is merely an example, and the body 10 according to the teachings of the present invention may have any three-dimensional structure in which the legs 20 and the leg supports 30 can be installed.

The main body 10 can be loaded with the load 2 according to the function of the floating structure 1. A blade, a nacelle, a tower, or the like, which is a part of an offshore wind power generator, can be loaded as the object 2 to be loaded on the main body 10 and the loading unit 2 for fixing the object 2 to the main body 10 (12) may be provided. The type and loading method of the load 2 shown in Fig. 1 are merely an example, and the load 2 can be loaded in various forms within the scope of the present invention. For example, the blades and nacelle can be loaded separately from each other, and the load 2 can be a riser pipe if the floating structure 1 is a jack-up platform.

In addition, the main body 10 may be provided with a propulsion device (not shown) for movement and position control.

A plurality of legs 20 may be provided depending on the purpose of use of the floating structure 1. In the embodiment of the present invention, a total of four legs 20 are provided, one pair at each of the port and starboard sides of the main body 10 I will explain what is provided as an example.

The leg 20 is installed to penetrate the main body 10 in a vertical direction and a leg well (not shown) through which the leg 20 passes is formed in the main body 10. The legs 20 can be moved downward of the main body 10 and fixed to the seabed so that they are rigid enough to withstand the load of the main body 10 in the jack-up state of FIG. 2, , A triangular truss structure, or the like. In the present embodiment, the legs 20 are formed in a triangular truss structure.

The leg support portion 30 is provided at a position corresponding to the leg well so that the leg 20 can pass therethrough and supports the leg 20 so that the leg 20 and the main body 10 can relatively move in the vertical direction . Specifically, the leg support portion 30 is provided with a driving device such as a motor, and the leg portion 20 is moved up and down with respect to the main body 10 by the operation of the driving device, In the vertical direction. For example, a pinion gear and a motor are provided on the leg support portion 30, and a rack gear is formed on the leg 20, so that the leg 20 and the main body 10 Exercise can be achieved.

The vertical movement of the leg 20 and the main body 10 in the present embodiment means that the leg 20 moves in the vertical direction with respect to the main body 10 and that the main body 10 moves in the vertical direction relative to the leg 20 It will be understood that the present invention includes both moving in the up and down direction.

On the other hand, the main body 10 may be provided with a crane 40 capable of installing the offshore wind power generator by transporting the loads 2 such as blades, nacelles, and towers.

The floating structure 1 having the above configuration can be operated in a transit mode and a jackup mode.

The floating structure (1) moves to the navigation mode to the position where the offshore wind turbine is to be installed. In the general navigation mode, the floating structure 1 can move in a state in which the legs 20 are moved upward in order to reduce the resistance by the legs 20.

The floating structure 1 can be moved to the target position and then accurately positioned for lowering the leg 20 using dynamic positioning. The automatic position control can be continued until the leg 20 descends and touches the seabed.

Thereafter, the floating structure 1 is switched to the jack-up mode to insert the legs 20 into the seabed B. Fig. In this process, the legs 20 can be moved downwardly of the main body 10 by the gravity and the driving device of the leg support 30.

When the lower end of the leg 20 touches the seabed B, the leg 20 can no longer move downward. In this state, the floating structure 1 actuates the driving device of the leg support 30 to move the main body 10 upward along the legs 20. The load of the main body 10 acts to force the leg 20 into the seabed B so that the leg 20 penetrates into the seabed B and is fixed.

The main body 10 may be spaced apart from the sea surface S by moving the main body 10 upward along the legs 20 so that the main body 10 is separated from the sea surface S, The state that is different from the set work position can be referred to as a jack-up state.

The floating structure 1 is installed in the jack-up state by using the crane 40, and when the installation work is completed, the operation can be started again in the reverse order of the above procedure.

The method of switching the floating structure 1 to the jack-up state is merely an example, and various changes can be made within the scope of the present invention.

Meanwhile, FIG. 3 illustrates a state in which the leg and the spud can of the floating structure of FIG. 1 are coupled to each other.

As shown in FIG. 3, in the floating structure 1 of the present invention, the spud can 50 is attached to the lower end of the leg 20, and the spud can 50 is attached to the bottom of the leg 20 when the bottom of the leg 20 is fixed. Can be substantially fixed to the seabed. For example, the lower end portion is formed in a wedge shape, and when the leg 20 descends, it may be firmly stuck in the seabed or penetrated into the seabed.

A portion facing the seabed in the scud can 50 may be formed in a cone shape, for example. In addition, it may be formed in the shape of a hexagonal or octagonal disk as a whole. On the other hand, it may be composed of a polyhedron having a polygonal pyramid, such as a triangular pyramid, a square pyramid, a pentagonal pyramid, or a circular disk. The shape of the spud can 50 is not limited to the shape mentioned above. 3 to 5 exemplarily show that the part facing the seabed in the spud can 50 is planar.

The spud can 50 penetrates into the seabed at a predetermined speed under the control of the floating structure 1 and can be formed to have a wider planar area than the plane of the leg 20 for stable fixing of the leg 20 have.

Floating structure 1 according to an embodiment of the present invention is a leg 20 in addition to the main body 10 that can be suspended in the water, and the leg 20 penetrating the main body 10 in the vertical direction as described above In particular, the fastening member 100 connected to the lower part of the cord 22, the spud can 50 is bolted to the fastening member 100 to secure the leg 20 to the seabed, and the fastening member 100 and It may include a detachable portion 200 for performing bolting engagement and release bolting with the spud can (50). Although the coupling of the fastening member 100 and the sputter can 50 is illustrated as a bolting coupling in the present embodiment, it is of course not limited thereto.

The fastening member 100 may include a fastening part fastened to the cord 22 of the leg 20. At this time, the cord 22 of the fastening member 100 and the leg 20 may be fastened by a pin or a welding coupling.

A screw hole 102 may be formed in a part of the fastening member 100.

The nut 52 may be accommodated in the spud can 50.

As shown in FIG. 4, the detachable part 200 includes a plurality of bolts 120 fastened to the screw holes 102 of the fastening member 100 to be bolted to the spud can 50, and each bolt 120. It may include a driving unit 160 connected to.

As the bolt 120 is rotated by the rotational drive of the driving unit 160, the bolting coupling between the fastening member 100 and the spud can 50 is released. The driving unit 160 provides a rotational force to the bolt 120. For example, a motor may be used. However, the driving unit 160 is not limited thereto, and any means may be used to provide the rotational force to the bolt 120.

The driving unit 160 may be accommodated in the hollow case 220 integrally formed with the fastening member 100.

On the other hand, since the floating structure 1 according to the embodiment of the present invention can separate the bolted leg 20 and the spud cans 50 as necessary, space for bolting release may be necessary, for this purpose The spud can 50 may include a nut housing 54 to which the housed nut 52 can descend.

The nut 52 may be moved to the lower portion of the nut housing 54 according to the bolting release operation of the bolt 120 to be fastened.

On the contrary, although not specifically illustrated, the driving unit 160 for bolting and coupling the fastening member 100 may be detached and lifted according to the bolting release operation of the bolt 120 to be detachable and separated from the spud can 50. The hollow case 220 may be formed to include a space therein.

When the floating structure 1 according to an embodiment of the present invention configured as described above to separate the leg 20 and the spud can 50 with reference to Figure 5 as follows.

In an emergency situation in which the leg 20 penetrated into the seabed needs to be lifted quickly, the floating structure 1 of the embodiment of the present invention operates the driving unit 160 to rotate the bolt 120, and the nut 52 ) Is moved to the lower portion of the nut housing 54, or the drive unit 160 is raised in the hollow case 220, the bolt 120 and the nut 52 is unbolted, so the leg 20 and the spud cans The coupling of 50 can be released and separated.

Floating structures (1) must leave the area when work is completed, or emergency situations such as storms are encountered. To this end, the leg 20 should be lifted up, but if the spud can 50 is firmly fixed to the sea floor, the leg 20 cannot be lifted.

In this case, the control unit (not shown) provided in the floating structure 1 applies an operation signal to the driving unit 160, and thus the fastening member 100 is separated by releasing the bolting coupling according to the operation of the driving unit 160. The restrained state of the spud can 50 may be released. As a result, the legs 20 can be lifted quickly irrespective of the spud can 50, and the floating structure 1 can escape the area.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not explicitly disclosed in the embodiments of the present invention. It is to be understood that the invention is not limited to the disclosed embodiments. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

1: Floating structure 2: Loaded material
10: main body 20: leg
30: leg support portion 40: crane
50: spud can 52: nut
54: nut housing 100: fastening member
102: screw hole 120: bolt
160: drive unit 200: detachable unit

Claims (5)

A body that can float in water;
A leg passing through the body in a vertical direction;
A fastening member connected to a lower portion of the leg;
A spud can coupled to the leg with the fastening member interposed therebetween; And
Floating structure comprising a detachable portion for coupling or releasing the fastening member and the spud can. The method of claim 1,
Wherein the detachable portion comprises:
A bolt for fastening the spud can and the fastening member;
Floating structure comprising a drive connected to the bolt. 3. The method of claim 2,
The spud can includes a nut receiving portion for receiving a nut fastened to the bolt,
When the nut and the bolt is released, the nut is moved to the lower portion of the nut receiving portion. 3. The method of claim 2,
Wherein the detachable portion comprises:
Floating structure further comprises a hollow case covering the drive unit. 5. The method of claim 4,
The hollow case is a floating structure including a space in which the drive unit is moved according to the bolting release operation of the bolt.

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