KR20230025989A - Plate-type spudcan for supporting floating structure - Google Patents

Abstract

A plate-shaped spud can supporting a floating structure is disclosed. The plate-shaped spud can includes a body part formed in a flat bottom shape with a flat lower surface; and a plurality of docking pillar parts disposed on an upper surface of the body part at a predetermined height and having docking grooves formed therein. The present invention is to provide the plate-shaped spud can supporting a floating structure capable of securing stable ground bearing capacity even when seabed soil is soft ground.

Description

Plate-type spudcan for supporting floating structure}

The present invention relates to a plate-shaped spud can supporting a floating structure.

Recently, various floating structures have been developed, and among them, a floating structure having self-navigation ability to move to a specific location and then lifting the main body from the sea to perform a predetermined task is also being developed.

For example, floating structures such as wind turbine installation vessels (WTIV), jack-up drilling rigs, and mobile offshore drilling units (MODUs) are moved to specific locations on the sea. After fixing the main body by lowering the leg, the main body can be switched to a working state by lifting the main body along the leg.

As illustrated in (a) of FIG. 1, in the floating structure, a plurality of legs 120 are provided to penetrate the body 110 in the vertical direction, and the legs 120 are fixed to the body 110, A structure such as a jack up house 130 for elevating the main body 110 along the leg 120 is provided.

Such a floating structure is fixed by inserting a leg 120 into the sea floor. For this purpose, a spudcan provided at the lower end of the leg 120 is lowered from the water surface and penetrated into the seabed soil 127 to fix it. this is carried out

However, when the seafloor soil 127 is soft ground, the spud can 125 must be penetrated to a depth (for example, a depth of about 15m to 30m or more from the seabed) at which a stable bearing capacity can be obtained. 1(b) shows an example of a simulation in which the spud can 125 penetrates soft ground.

In order to reduce the penetration depth of the spud can 125, the contact area of the spud can 125 should be widened, but in this case, there is a problem in that the dimensions of the main body 110 must also be changed.

In addition, since some countries, such as the United States, have restrictions on displacement of wind turbine installation vessels (WTIV), there is also a problem in that it is difficult to increase the size of the main body 110.

Korean Patent Publication No. 10-2015-0052805 (jack-up rig and ship or offshore structure including the same)

The present invention provides a plate-type spud can for supporting a floating structure that does not require penetration of the spud can into the seabed soil to stably support the floating structure, and can secure stable ground bearing capacity even when the seabed soil is soft ground. is to provide

The present invention can form a relatively short length of the leg for supporting the floating structure, thereby minimizing the cargo load of the main body, and supporting the floating structure capable of securing operational safety when moving to the installation position. It is for providing a plate-shaped spud can.

Other objects of the present invention will be readily understood through the following description.

According to one aspect of the present invention, the lower surface of the body portion formed in a flat flat bottom (平底面) shape; And a plurality of docking pillars disposed on the upper surface of the body at a predetermined height and having a docking groove formed therein, so that the floating structure is supported from the bottom, while the body is seated on the sea floor. A plate-shaped spud can is provided in which a plurality of legs of the structure are inserted into and seated in corresponding docking grooves.

At least one thruster providing a driving force for movement of the body in the water may be mounted on the body.

A connection portion to which a towing line for towing the body portion by a tug boat located on the sea is fixed may be fixed to the body portion.

The expansion part is coupled to the body part through a connection bar, and the distance between the extension part and the body part is increased or decreased so that the outer range of the area in contact with the sea floor is increased or decreased to support the floating structure from the bottom. Or it can be adjusted by withdrawal.

Each corner of the body portion may be formed in a spherical or curved shape.

Other aspects, features and advantages other than those described above will become apparent from the following drawings, claims and detailed description of the invention.

According to an embodiment of the present invention, there is no need to infiltrate the spud can into the seabed soil in order to stably support the floating structure, and even when the seabed soil is soft ground, there is an effect of stably securing the ground bearing capacity.

In addition, the length of the leg for supporting the floating structure can be formed relatively short, thereby minimizing the cargo load of the main body and ensuring operational safety when moving to the installation position.

1 is a view showing a fixed position state of a floating structure according to the prior art.
Figure 2 is a view illustrating a fixed position state of a floating structure according to an embodiment of the present invention.
3 is a view illustrating each shape of a plate-shaped spud can according to embodiments of the present invention.
Figure 4 is a view showing a position fixing process of a floating structure using a plate-shaped spud can according to an embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention.

In addition, in the description with reference to the accompanying drawings, the same or related reference numerals are given to the same components regardless of reference numerals, and overlapping descriptions thereof will be omitted. The accompanying drawings are somewhat exaggerated for convenience of explanation and understanding, and it is natural that the present invention is not limited to the size of each component shown in the accompanying drawings.

2 is a view illustrating a position fixing state of a floating structure according to an embodiment of the present invention, and FIG. 3 is a view illustrating the shape of a plate-shaped spud can according to embodiments of the present invention, respectively, and FIG. 4 is It is a view showing a position fixing process of a floating structure using a plate-shaped spud can according to an embodiment of the present invention.

Referring to FIG. 2, the floating structure has a main body 110 having floating performance, a plurality of legs 120 installed to penetrate the main body 110 in the vertical direction, and fixing the legs 120 to the legs 120. ) May include a jack-up house 130 for elevating the body 110 along.

Although the case in which the leg 120 is installed to pass through the main body 110 is illustrated in FIG. 2, the technical spirit of the present invention is a floating structure in which the leg 120 is movable in the vertical direction of the main body 110. It goes without saying that it can be applied without limitation.

In addition, the floating structure may be a variety of floating structures that may be spaced apart from the sea along the legs 20 as well as a wind power generator installation vessel (WTIV) and a mobile drilling rig (MODU) for installing a wind power generator on the sea. Of course, the floating structure may be an offshore structure that is not movable and is fixedly installed at a specific point.

The leg 120 is installed to perform relative movement in the vertical direction in relation to the body 110 .

Legs 120 may be provided in multiple pieces according to the purpose of use of the floating structure, and are formed to have sufficient rigidity to withstand the load of the main body 110 in a jacked-up state, and the shape is a cylindrical or triangular truss structure. , square truss structures, etc.

When the main body 110 is floating on the sea, the leg 120 is moved up and down, and when the leg 120 is seated in the plate-shaped spud can 200 to be described later, the main body 110 moves the leg 120. It can be moved in the up and down direction. To this end, a through hole (not shown) may be formed in the main body 110 in the vertical direction so that the leg 120 may be installed, and the jack-up house 130 may be provided in a form surrounding the hole. there is.

In order to lift the main body 110 from the sea, the leg 120 lowered below the sea level is supported from the bottom by the plate-shaped spud can 200 disposed on the sea floor.

The plate-shaped spud can 200 may include a body portion 210 , a docking post portion 220 and a thruster 230 .

The body portion 210 may be formed in a flat bottom surface with a flat lower surface so as to be seated on the sea floor. Although a case where the upper surface of the body portion 210 is also formed in a flat shape similar to the lower surface is illustrated in FIG. 2 , it is natural that the shape of the upper surface of the body portion 210 is not limited thereto.

As illustrated in (a) and (b) of FIG. 3 , the cross-sectional shape of the body portion 210 cut in the horizontal direction may be various such as a square shape or a letter shape. In addition, the shape of the body portion 210 may vary, such as an elliptical shape, an H shape, and the like.

Although not shown, each corner of the body portion 210 may be formed in a spherical or curved shape to reduce underwater drag. At this time, the front edge of the body portion 210 may be formed in a relatively more rounded shape than the rear edge.

The body portion 210 of the plate-shaped spud can 200 functions as a base area that simultaneously supports a plurality of legs 120 while seated on the sea floor. Here, since the body part 210 of the plate-shaped spud can 200 evenly distributes the pressure over a relatively wide area compared to the existing spud can for seabed penetration, there is no possibility of ground subsidence even when the seabed soil is soft ground. There is an advantage that the ground bearing capacity can be secured stably.

Additionally, the plate-shaped spud can 200 may further include an extension part 320 that is drawn outward from the body part 210 and further expands the range of the base area supported by the seabed.

As illustrated in (c) of FIG. 3, the extension part 320 is coupled to the body part 210 via one or more connecting bars 330, and the body part 210 is pulled in and out by the connecting bar 330. Adjacent to contact the portion 210, or moved to the outside of the body portion 210 may be positioned away from the body portion 210 and the gap. A driving means such as a motor for retracting and withdrawing the connecting bar 330 may be provided in the body 210 .

Docking pillars 220 corresponding to the number of legs 120 to be supported in the lower portion may be formed on the upper surface of the body portion 210 at a predetermined height.

Each docking post 220 has a docking groove for inserting and accommodating the lower end region of the corresponding leg 120, and the circumferential shape of the docking groove is the shape of the outer circumferential surface of the leg 120 to be accommodated. It can be formed to correspond to. At this time, in order to allow the lower end region of the leg 120 to be easily inserted into the docking groove, the size of the docking groove may be set relatively larger than the size of the lower end region of the leg 120 .

Of course, in order for one plate-shaped spud can 200 to be universally used for various floating structures, a plurality of docking corresponding to the arrangement position, shape and quantity of the legs 120 provided in various floating structures The plate-shaped spud can 200 may be manufactured so that the pillar portion 220 is provided on the upper surface of the body portion 210 .

In a state where the plate-shaped spud can 200 is seated on the sea floor, the lower end region of the leg 120 is inserted into the docking groove formed in the docking pillar 220 to support the leg from the bottom, and the leg 120 The length may be determined in consideration of the height of the docking post 220 and the depth of the docking groove.

That is, since the docking post 220 having a docking groove having a predetermined depth is positioned upright toward the sea level, and the lower end region of the leg 120 is inserted and supported in the docking groove, the leg 120 may be formed relatively short compared to the length directly reaching the sea floor. Due to this, when the main body is moved to the installation position, not only can the navigation safety be improved, but also has the advantage of reducing the cargo load.

One or more thrusters 230 may be mounted on the body 210 as a propellant. The thruster has, for example, a propeller capable of rotating the body 210 around an axis perpendicular to the body 110 by 360 degrees, so that the position of the body 210 can be easily controlled. thruster).

As illustrated in FIG. 3 , one or more thrusters 230 may be mounted on an upper surface of the rear side of the body 210 . Of course, the quantity and position of the mounted thrusters 230 may be variously determined according to the operation type of the plate-shaped spud can 200.

Apart from the thruster 230, one or more connection parts 310 for fixing a towing line 420 (see FIG. 4) may be provided on the front side of the body part 210.

By fixing the towing line 420 to the connection part 310 and being towed by the tug boat 410 (see FIG. 4), the plate-shaped spud can 200 can be quickly moved within a short time. That is, as the tug boat 410 pulls the plate-type spud can 200 using the towing line 420 and the thruster 230 provides a driving force, the plate-type spud can 200 can be moved quickly. there is.

The driving of the plate-shaped spud can 200, such as the operation of the thruster 230 and the adjustment of the position of the extension part 320, is preset to be controlled by the main body 110 and/or the tug boat 410 in a wired or wireless communication method. It can be.

Hereinafter, a process of fixing the position of a floating structure using a plate-shaped spud can 200 will be briefly described with reference to FIG. 4 .

First, as illustrated in (a) of FIG. 4, after the plate-shaped spud can 200 is loaded on the main body 110 or a separate carrier and moved to the sea near the fixed position of the floating structure, the tug boat 410 It is fastened with a towing line 420 and put into the sea, and the floating structure is seated on the sea floor to be fixed by towing of the tug boat 410 using the towing line 420 and driving the thruster 230.

At this time, it is natural that the plate-shaped spud can 200 can be adjusted to an appropriate inclination for stable support of the floating structure when it is seated on the sea floor. When the sea floor is soft ground, the tilt adjustment of the plate-shaped spud can 200 can be performed without much difficulty.

Of course, from a point far from the fixed position of the floating structure, the plate-shaped spud can 200 is submerged while being fastened with the tug boat 410 and the towing line 420, and the tug boat 410 using the towing line 420 After the floating structure is moved to a position to be fixed by the towing and driving of the thruster 230, it may be seated on the sea floor.

Subsequently, as illustrated in (b) of FIG. 4, the floating structure is moved to the sea at a position to be fixed.

Subsequently, as illustrated in (c) of FIG. 4, the floating structure is inserted and seated in the docking groove formed in the corresponding docking pillar portion 220 of the plate-shaped spud can 200 located on the sea floor to fix the position. Move each leg 120 down until

Then, as illustrated in (d) of FIG. 4, when each leg 120 is inserted and seated in the corresponding docking groove, the body 110 rises along the leg 120 and lifts to the top of the sea level. lose

In order for the leg 120 to be accurately inserted and seated in the docking groove, the main body 110 and the plate-shaped spud can 200 may be connected to each other with, for example, a guide wire. At this time, the connection of the guide wire may be performed by an underwater fastening method using a Remotely Operated Vehicle (ROV), for example.

In addition, in order for the leg 120 to be accurately inserted and seated in the docking groove, the towing and thruster of the tug boat 410 using the towing line 420 at the time when the leg 120 is inserted into the docking groove ( 230), the seating position and posture of the plate-shaped spud can 200 may be finely adjusted.

As described above, the plate-shaped spud can 200 of the floating structure according to the present embodiment does not need to penetrate the subsea soil to stably support the floating structure, and even when the subsea soil is soft ground. It has the advantage of stably securing the ground bearing capacity. In addition, since the length of the leg for supporting the floating structure can be formed relatively short, the cargo load of the main body 110 is minimized, and navigation safety is secured when moving to the installation position.

Although the above has been described with reference to the embodiments of the present invention, those skilled in the art will variously modify the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. And it will be understood that it can be changed.

110: body 120: leg
125: spud can 127: seabed soil
130: jack-up house 200: plate-type spud can
210: body part 220: docking pillar part
230: thruster 310: connection
320: extension 330: connection bar
410: tug boat 420: towing line

Claims (5)

A body portion formed in a flat bottom surface shape with a lower surface flat; and
It is disposed on the upper surface of the body at a predetermined height and includes a plurality of docking pillars in which docking grooves are formed,
In order to support the floating structure from the bottom, a plurality of legs of the floating structure are inserted into and seated in corresponding docking grooves in a state where the body is seated on the sea floor. According to claim 1,
A plate-shaped spud can, wherein at least one thruster is mounted on the body to provide a driving force for movement of the body in the water. According to claim 1,
A plate-shaped spud can in which a connection portion to which a towing line is fixed for towing by a tug boat located on the sea is fixed to the body portion. According to claim 1,
An expansion part is coupled to the body part via a connecting bar,
The plate-shaped spud can, in which the distance between the extension part and the body part is adjusted by retracting or withdrawing the connecting bar so that the outer range of the area in contact with the sea floor is increased or decreased to support the floating structure from the bottom. According to claim 1,
Tubular spud can, wherein each corner of the body is formed in a spherical or curved shape.

Images