KR101859613B1 - Mooring apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mooring device, and more particularly, to a mooring device capable of fastly and stably fixing a driven pile on a sea floor.
The mooring device according to the present invention comprises: a housing which descends from a hull and is located on a sea floor; A driven file inserted into the first through hole formed in the housing and exiting from the bottom of the housing at the bottom of the sea, And an anchor line extending from the guide hole formed in the driven file and penetrating the bottom of the seabed to reinforce the supporting force of the driven file when the driven file is fixed on the sea floor.

Description

[0001] MOORING APPARATUS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mooring device, and more particularly, to a mooring device capable of fastly and stably fixing a driven pile on a sea floor.

Semi-submersible offshore structure is known as a kind of structure for working on the sea such as drilling in general. Semi-submergible offshore structures have relatively little fluctuation in the up-and-down direction and can be applied and operated even in extreme environments.

The semi-submergible offshore structure is moored on the mooring line so that the semi-submerged offshore structures are not moved by waves, tides, or tides. These mooring lines have the characteristic that the ocean structure located at sea level and the pile installed on the sea floor have to be connected diagonally, so that the upward and downward loads applied to the mooring line can act on the file.

When large loads are applied to the mooring line due to various marine environments and working conditions such as oceanic waves, tides, algae, and the size of offshore structures, the magnitude of the upward and downward load on the pile also increases. Such upward and downward loads may cause micro-movements in the pile member, and particularly when a high load such as a temporary impact is generated, a force exceeding the ground adhesion frictional force occurs in the up and down direction, .

A file that is once loaded on the sea floor will not be able to move down into the ground again, and will remain in that position. If such a phenomenon occurs over a long period of time, the file will lose its bearing capacity and an accident will occur.

In this case, the offshore structure is displaced from the fixed position, resulting in deterioration of the efficiency of the marine work, resulting in a serious obstacle to the operation, and excessive time and cost for re-installation of the mooring device.

Korean Patent Publication No. 10-2016-0059007 (published on May 26, 2016)

In order to solve the above-mentioned problems, the present invention provides a hull comprising: a housing which is lowered from a hull and is located on a sea floor; A driven file inserted into the first through hole formed in the housing and exiting from the bottom of the housing at the bottom of the sea, And an anchor line extending from the guide hole formed in the driven file and penetrating the bottom of the seabed to reinforce the supporting force of the driven file when the driven file is fixedly mounted on the sea floor.

Here, a plurality of anchor lines are provided, and the plurality of anchor lines extend radially through the seabed ground.

Here, the anchor line is loaded in a chamber formed in the housing, one end of the anchor line is connected to the drive file, and the other end is located in the guide hole.

Wherein the anchor lines are stacked in the chamber, one end connected to the driven file and the other end positioned in the guide hole; A drill bit installed at the other end of the chain and moving through the bottom of the seabed to move the other end of the chain to the bottom of the seam; And a drive motor for rotating the drill bit.

The anchor line further includes an anchor pack installed at the rear of the drill bit and filled with a hardening material when the drill bit is completely moved, thereby expanding its volume.

Here, a power supply unit for supplying power to the driving motor is installed in the chamber.

In addition, a storage tank for supplying a hardened material to the anchor pack is installed in the chamber.

Meanwhile, a plurality of second through holes are formed in the outer frame of the housing, and the legs are vertically moved to regulate the horizontal of the housing when the housing is located on the seabed surface.

A guide protrusion protrudes in the longitudinal direction on the outer surface of the leg, and a motor for vertically moving the guide protrusion is installed on the outer circumference of the housing.

In the meantime, an actuator is installed in the housing so as to press the upper surface of the driven file, which is installed in the upper right room of the driven file.

Here, the actuator may include: a cylinder fixedly installed in the housing; And a slider vertically lowering the cylinder to press the upper surface of the driven file.

In the mooring apparatus according to the present invention, when the housing is lowered from the hull and positioned on the sea floor, the actuator presses the driven file inserted in the housing and fixes the driven file on the sea floor.

In addition, the mooring device according to the present invention is characterized in that the anchor line is extended radially through the seabed with the anchor line connected to the driven file, and pulls the driven file tightly within the seabed so that the driven file is firmly fixed to the sea floor .

1 is a view showing the overall structure of a mooring apparatus according to the present invention.
2 is a view showing a state in which an actuator according to the present invention presses an upper surface of a driven file.
FIG. 3 is a view showing an anchor line according to the present invention spreading radially through a seabed.
4 is a view showing the structure of an anchor line according to the present invention in more detail.
5 is a sectional view showing the internal structure of a housing and a driven file according to the present invention.
6 is a view showing in more detail a state where the driven file according to the present invention is fixed to the sea floor by an anchor line.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a 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.

1 is a view showing the overall structure of a mooring apparatus according to the present invention.

1, a mooring device according to the present invention includes a housing 100, a driven pile 200, an anchor line 300, ).

The housing 100 includes a floating production storage and offloading plant (FPSO), a floating liquid natural gas facility (hereinafter, referred to as " FPSO ") that collects resources such as crude oil and natural gas, plant, etc., it descends from the hull 10 and is located on the sea floor B.

For this purpose, a gantry crane (20) is installed in the hull (10). The gantry crane 20 is connected to the housing 100 by a wire W so that when the hull 10 reaches a predetermined position, the gantry cranes 20 are released and the housing 100 is lowered to the sea floor B. The gantry crane 20 is wound around the wire W again to recover the housing 100 to the ship 10 again after the gantry crane 20 has completed the work of fixing the driven file 200 to the sea bed B . It is preferable that the gantry crane 20 is slidably coupled to a pair of rails 11 provided on the upper surface of the hull 10 so as to be horizontally movable on the upper surface of the hull 10.

The driven file 200 is inserted into the first through hole 110 formed in the housing 100. The operation of inserting the driven file 200 into the first through hole 110 may be performed after the ship 10 arrives at a position where the offshore structure is moored. That is, the driven file 200 is loaded on the hull 10, and when the hull 10 reaches the position where the offshore structure is moored, it can be lifted up by a crane or the like and inserted into the first through hole 110.

When the housing 100 is placed on the bottom surface B by the gantry crane 20 as described above, the driven file 200 is pulled out of the housing 100 and fixed to the underside surface B by being fixed thereto.

To this end, the upper surface of the driven file 200 located on the seabed surface B is pressed against the bottom surface B of the drivable file 200 by being pressed against the upper surface of the driven file 200 in the housing 100 An actuator 400 is provided.

2 is a view showing a state in which an actuator according to the present invention presses an upper surface of a driven file.

Specifically, when the wire W is loosened by the gantry crane 20 and the driven file 200 together with the housing 100 is located on the sea floor B, as shown in FIG. 2, The upper surface of the driven file 200 is vertically downwardly pressed to fix the driven file 200 to the sea bed surface B and fix it.

The actuator 400 may include a cylinder 410 fixedly installed in the housing 100 and a slider 420 vertically lowered from the cylinder 410 to press the upper surface of the driven file 200. Of course, the structure of the actuator 400 is not limited thereto, and various devices such as a hydraulic hammer can be used.

FIG. 3 is a view showing an anchor line according to the present invention spreading radially through a seabed.

3, when the driven file 200 is fixed to the bottom surface B by the actuator 400 as described above, the anchor line 300 is formed in the inside of the driven file 200 Out of the guide hole 210 (see Figs. 1 and 2), and spread radially through the bottom of the seabed. Since the anchor line 300 moves through the seabed under the condition that the anchor line 300 is connected to the driven file 200, when the movement of the anchor line 300 is completed, the driven file 200 is tightly held by the anchor line 300 So that it is fixed to the bottom surface B very firmly.

Even if the driven file 200 is embedded by the actuator 400 at a depth of several tens of meters on the sea floor B, the load of the ocean structure reaching tens of thousands of tons through the mooring line connecting the driven file 200 and the offshore structure, When the continuous force is applied to the file 200, particularly when the vertical load is continuously applied to the driven file 200 as the offshore structure is shaken by algae or the like, the driven file 200 is pulled out of the bottom surface B There is a danger of coming out. Therefore, the anchor line 300 that penetrates the bottom of the seabed and is spread radially in the state of being connected to the driven file 200 after the driven file 200 is embedded on the seabed surface B and holds the driven file 200 in the bottom of the seabed It is preferable to further prevent the accidental removal of the driven file 200 from the seabed surface B.

This anchor line 300 is preferably loaded inside the driven file 200, but since the length is at least a few tens of meters, there is a problem that the anchor line 300 is structurally difficult to be loaded inside the driven file 200. 1, the anchor line 300 is mounted on the chamber 120 formed inside the housing 100 with one end connected to the driven file 200 and the other end positioned in the guide hole 210. [

2, when the driven file 200 is stuck on the bottom surface B by the actuator 400, that is, when the driven file 200 is vertically moved from the first through hole 110 to the vertical When the lower part of the guide hole 200 descends, a part of the guide hole gradually comes out of the chamber 120 and is positioned in the first through hole 110. Further, the driven file 200 is completely fixed to the bottom surface B and fixed, The remaining portion remaining in the chamber 120 is removed from the chamber 120 when the bottom portion of the chamber 120 is unfolded.

4 is a view showing the structure of an anchor line according to the present invention in more detail.

4, the anchor line 300 is connected to the driving file 200 at one end in a state where the anchor line 300 is loaded in the chamber 120 and the other end is connected to the chain 310 And a drill bit 320 which is installed at the other end of the chain 310 and moves through the seabed ground to move the other end of the chain 310 to the sea floor depth when the driven file 200 is fixed to the sea floor B. [ And a drive motor 340 for rotating the drill bit 320. [ Here, the chain 310 is wrapped around a tube or the like so as not to be damaged during the movement. A power supply unit 121 for supplying power to the driving motor 340 is installed in the chamber 120. The power supply 121 is connected to the drive motor 340 through a power line.

5 is a sectional view showing the internal structure of a housing and a driven file according to the present invention.

In this case, as shown in FIG. 5, an anchor line 300 is provided inside the housing 100, and an anchor line 300 is provided in the housing 100. In this case, Four chambers 120 are formed and four guide holes 210 through which the respective anchor lines 300 pass are formed in the inside of the driven file 200.

6 is a view showing in more detail a state where the driven file according to the present invention is fixed to the sea floor by an anchor line.

6, when the drill bit 320 is completely moved, the chain 310 is radially expanded with one end connected to the driven file 200 to pull the driven file 200 tightly The driven file 200 is firmly fixed to the sea bed surface B. [

The anchor line 300 may be disposed behind the drill bit 320 and may include an anchor pack 330 filled with a hardened material when the drill bit 320 is completely moved.

When the anchor pack 330 is filled with a hardening material such as cement, the anchor pack 330 expands and closes the hole in the seabed ground by the drill bit 320. Accordingly, when the anchor pack 330 is filled with the hardened material in the state shown in FIG. 6, the chain 310 connected to the driven pile 200 can not escape to the outside through the hole. That is, So that the driven file 200 is more firmly fixed to the seabed surface B.

A storage tank 122 is installed in the chamber 120 to supply a hardened material to the anchor pack 330. The storage tank 122 stores the hardened material and is then inserted into the drill bit 320 The hardening material is supplied to the anchor pack 330 through the supply pipe connecting the anchor pack 330 and the storage tank 122. [

1, a plurality of second through-holes 130 are formed in the outer portion of the housing 100, and legs 500 are vertically movably installed in the second through-hole 130 .

The legs 500 move vertically along the inside of the second through hole 130 to adjust the height of the housing 100 when the housing 100 is positioned on the bottom surface B, ).

Since the pressure applied by the actuator 400 is accurately applied to the driven file 200 as described above when the level of the housing 100 is maintained at the bottom surface B by the leg 500, So that the work of clamping and fixing to the surface B can proceed more quickly and stably.

A guide protrusion 510 protrudes from the outer surface of the leg 500 and a motor M that vertically moves the guide protrusion 510 is installed on the outer circumference of the housing 100. Thus, the vertical movement of the legs 500 is performed as the motor M moves the guide protrusions 510 vertically.

As described above, the housing 100 is recovered by the gantry crane 20 to the ship 10 when the installation work of the driven file 300 on the seabed surface B is completed, (B), only the driven file 300 is placed in a state of being embedded as shown in Fig.

The supply line connecting the anchor pack 330 and the storage tank 122 and the power line connecting the drive motor 340 and the power supply unit 121 are separated from the anchor pack 330 and the drive motor 340 And is collected together with the housing 100 into the hull 10.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Hull 11: Rail
20: Gantry crane 100: Housing
110: first through hole 120: chamber
130: second through hole 200: driven file
300: anchor line 310: chain
320: Drill bit 330: Anchor pack
340: Driving motor 400: Actuator
410: cylinder 420: slider
500: leg 510: guide projection
M: Motor W: Wire

Claims (11)

A housing which descends from the hull and is located on the sea floor;
A driven file inserted into the first through hole formed in the housing and exiting from the bottom of the housing at the bottom of the sea, And,
And an anchor line extending out of the guide hole formed in the driven file and penetrating the bottom of the seabed to reinforce the supporting force of the driven file when the driven file is fixed on the sea floor,
A plurality of anchor lines are provided,
Wherein the plurality of anchor lines extend radially through the seabed ground. delete A housing which descends from the hull and is located on the sea floor;
A driven file inserted into the first through hole formed in the housing and exiting from the bottom of the housing at the bottom of the sea, And,
And an anchor line extending out of the guide hole formed in the driven file and penetrating the bottom of the seabed to reinforce the supporting force of the driven file when the driven file is fixed on the sea floor,
Wherein the anchor line is loaded in a chamber formed inside the housing,
Wherein one end of the anchor line is connected to the driven file and the other end is positioned in the guide hole. The method of claim 3,
The anchor line
A chain that is loaded in the chamber, one end connected to the driven file and the other end located in the guide hole;
A drill bit installed at the other end of the chain and moving through the bottom of the seabed to move the other end of the chain to the bottom of the seam; And,
And a drive motor for rotating the drill bit. 5. The method of claim 4,
The anchor line
And an anchor pack installed at a rear side of the drill bit and filled with a hardening material when the drill bit is completely moved, thereby expanding the volume. 5. The method of claim 4,
And a power supply unit for supplying power to the driving motor is installed in the chamber. 6. The method of claim 5,
Wherein a storage tank for supplying a hardening material to the anchor pack is installed in the chamber. A housing which descends from the hull and is located on the sea floor;
A driven file inserted into the first through hole formed in the housing and exiting from the bottom of the housing at the bottom of the sea, And,
And an anchor line extending out of the guide hole formed in the driven file and penetrating the bottom of the seabed to reinforce the supporting force of the driven file when the driven file is fixed on the sea floor,
A plurality of second through holes are formed in an outer portion of the housing,
Wherein the second through hole is provided with a leg for adjusting the level of the housing by vertically moving when the housing is located on the bottom surface. 9. The method of claim 8,
Wherein a guide protrusion is protruded in the longitudinal direction on the outer surface of the leg,
And a motor for vertically moving the guide protrusion is installed on the outer frame of the housing. The method according to claim 1,
Wherein an actuator is installed in the housing to directly press the upper surface of the driven file. 11. The method of claim 10,
Wherein the actuator comprises:
A cylinder fixedly installed inside the housing; And,
And a slider vertically lowered from the cylinder to press the upper surface of the driven file.

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