KR101605335B1 - Installation method of suction base construction using steel guide frame and suction base construction being used therefor - Google Patents

Abstract

A method of installing a suction foundation structure using a steel guide frame and a suction foundation structure used therefor are disclosed. A method of installing a suction foundation structure using a steel guide frame according to an embodiment of the present invention is a method of installing a suction frame structure in which a bottom portion of a guide frame unit is deformed in correspondence with an inclined shape of a seabed ground, Installing on the structure; And supporting the suction foundation structure from the sea to the seabed ground with the cable hanging from the sea to the seabed soils, wherein the guide frame unit is adapted to correspond to the shape on the inclined ground when seated on the sloping ground of the seabed The bottom portion is deformed into an inclined shape.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of installing a suction foundation structure using a steel guide frame, and a suction foundation structure used therefor. [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of installing a suction foundation structure using a steel guide frame and a suction foundation structure to be used therefor, and more particularly, to a method of installing a suction foundation structure using a steel guide frame And a suction foundation structure used therefor.

Generally, a suction method is a method in which, by discharging a fluid such as water or air inside a file, the file can be installed to the support layer by its own gravity using the principle of a suction pressure in which a pressure difference occurs inside and outside the file.

The foundation of the suction file can be installed irrespective of the depth without being limited in size, and it is excellent in applicability and economical efficiency in large depth or marine conditions, and does not require improvement of soft ground or replacement of dredge, There is little pollution in the marine environment because it is possible to install regardless of the depth because there is almost no.

On the other hand, the suction foundation structure installed for the purpose of mooring the floating structure to which the suction method is applied is installed by descending only on the cable from the installation line above the sea surface to the sea floor.

However, in the case where such a suction foundation structure is installed on a sloped submarine ground, the suction foundation structure can be installed by being inclined, thereby reducing the supporting force expected from the suction foundation structure.

Korean Patent Application No. 10-2008-24254

One embodiment of the present invention relates to a method of installing a suction foundation structure using a steel guide frame which not only facilitates installation of a suction foundation structure on a sloping seabed ground but also obtains a supporting force as expected from a suction foundation structure, To provide a suction foundation structure.

According to an aspect of the present invention, there is provided a method for constructing a suction frame, comprising the steps of: installing a guide frame unit, which is configured to deform a bottom surface in accordance with an inclined shape of a seabed ground, And a step of moving the suction foundation structure from the sea to a submarine ground in a suspended state on a cable and supporting the suction foundation structure on a submarine ground, wherein the guide frame unit has a shape There is provided a method of installing a suction foundation structure using a steel guide frame in which a bottom portion is deformed into an inclined shape corresponding to the shape of the bottom portion.

In the above-described method of installing a suction foundation structure, the suction foundation structure is provided with a suction file penetrated into the seabed ground, and a guide part is coupled to the outer periphery of the suction file so as to be movable up and down. And a submarine support portion coupled to the guide portion and supported by the seabed ground.

In the above-described method of installing a suction foundation structure, a rail is provided on the outer peripheral portion of the suction pile so that the guide portion can be moved, and a slider, on which the guide portion is rotatably coupled to be movable on the rail, have.

In the above-described method for installing a suction foundation structure, a plurality of rails and the slider are provided, the guide portion is provided by a plurality of guide members corresponding to the number of the sliders, and the submarine support portion and the plurality of guide members And can be rotatably coupled to each other.

In the above-described method of installing the suction foundation structure, a negative pressure is provided inside the suction pile in a state where the suction pile is intruded into the bottom of the sea floor by its own weight, The motion file can be further intruded into the seabed ground.

In the above-described method of installing a suction foundation structure, the suction file has a jack-up function to be supported by the sea floor, and the suction file can be moved to the seabed ground by a jack-up barge on which a sea crane to which the cable is connected is installed.

According to another aspect of the present invention, there is provided a suction file, which is provided so as to close the upper portion and open the lower portion and to provide a negative pressure therein; And a guide frame unit installed in the suction file and movably coupled to an outer circumferential portion of the suction pile so that the bottom portion of the suction pile is deformed corresponding to the shape of the bottom of the seabed when the pile is supported on the bottom of the seabed. have.

A plurality of rails are provided on an outer peripheral portion of the suction file, the guide frame unit includes: a slider disposed corresponding to a plurality of rails; A guide member rotatably coupled to the slider; And a submarine support rotatably coupled to the guide member.

Wherein the sea bottom support portion is rotatably coupled to a plurality of guide members provided together with the slider arranged so as to correspond to the plurality of rails, and a plurality of link members that connect adjacent guide members of the plurality of guide members to each other .

The sea bottom support portion includes a plurality of support members rotatably coupled to either one end and the other end of the plurality of link members coupled to each other to couple the plurality of link members coupled to the guide member .

A riser may be connected to the suction file to provide a negative pressure therein.

According to another aspect of the present invention, there is provided a suction file, which is provided so as to be closed at an upper portion and open at a lower portion, and to provide a negative pressure therein; And a guide frame unit installed in the suction file and coupled to an outer circumferential portion of the suction file so that the bottom portion deforms corresponding to the shape of the bottom of the seabed when the bottom portion is supported on the bottom of the seabed, An annular folded portion coupled to an outer peripheral portion of the folded portion, And a bottom supporting portion coupled to the annular folding portion and configured to change the arrangement of the annular folding portion by folding the annular folding portion corresponding to the shape of the bottom of the sea floor.

According to an embodiment of the present invention, it is possible to provide a suction frame structure by providing a deformable guide frame unit on the bottom of the suction foundation structure to easily install the suction foundation structure on the inclined bottom floor, A method of installing a suction foundation structure using a steel guide frame and a suction foundation structure used therefor can be provided.

1 is a view showing a state in which a suction foundation structure is lowered to the sea floor by a method of installing a suction foundation structure using a steel guide frame according to an embodiment of the present invention.
FIG. 2 is a state in which a suction foundation structure is installed on a sloping seabed ground by a method of installing a suction foundation structure using a steel guide frame according to an embodiment of the present invention.
3 is a detailed view of the guide frame unit of Fig.
4 is a state in which a negative pressure is applied to a suction file by a suction method according to a method of installing a suction foundation structure using a steel guide frame according to an embodiment of the present invention.
Figure 5 is a block diagram of an embodiment of the present invention, Fig. 6 is a detailed view of the guide frame unit. Fig.

Various embodiments of the present invention will now be described by way of specific embodiments shown in the accompanying drawings. The differences between the embodiments of the present invention described below are to be understood as mutually exclusive. That is, the specific shapes, structures, and characteristics described may be embodied in other embodiments in accordance with one embodiment without departing from the spirit and scope of the present invention, It is to be understood that the arrangements may be altered, where like reference numerals refer to like or similar features throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

As shown in FIGS. 1 and 2, a method of installing a suction foundation structure using a steel guide frame according to an embodiment of the present invention includes a guide frame unit (not shown) configured to deform a bottom surface corresponding to an inclined shape of a seabed ground (120) to the floating cranes (110) of the jack-up barges (100) by means of cables (111) by installing the suction foundation structures (120) The guide frame unit 130 includes a guide frame unit 130 having a slope so as to correspond to the shape of the inclined ground when the slider is mounted on the sloped ground of the seabed, .

According to the method of installing the suction foundation structure 120 using the steel guide frame according to an embodiment of the present invention, the guide frame unit 130, which is deformable at the bottom portion of the suction foundation structure 120, Not only can the suction foundation structure 120 be easily installed in the suction foundation structure 120, but also the support force as expected from the suction foundation structure 120 can be obtained.

2 to 4, in the method of installing the suction foundation structure 120 according to the present embodiment, the suction foundation structure 120 can be provided with the suction file 121 penetrated into the seabed ground. The suction pail 121 has a structure in which the upper portion is closed and the lower portion is opened, and the riser 115 is connected to receive a negative pressure corresponding to the suction pressure.

In this suction file 121, a pressure difference between the inside and the outside is generated due to the negative pressure provided inside, and this pressure difference can be introduced into the bottom of the seabed.

At this time, the suction file 121 can be intruded into the seabed when the tube input is larger than the friction force against the seabed ground. That is, the tube input is proportional to the square of the diameter, and the frictional force is proportional to the diameter. Therefore, the larger the diameter, the larger the increase in the tube input becomes. Accordingly, as the suction file 121 has a larger diameter than the length, the tube input becomes larger than the frictional force and can be penetrated into the seabed.

According to the present embodiment, a guide portion 135 coupled to the outer circumferential portion of the suction file 121 so as to be movable up and down, and a seabed support portion 140 coupled to the guide portion 135 and supported by the seabed ground The guide frame unit 130 can be provided.

The guide frame unit 130 is deformed into an inclined shape corresponding to the shape of the inclined ground when the suction file 121 is moved to the seabed and supported on the inclined ground of the seabed. That is, the sea bottom support portion 140 can be deformed into an inclined shape by the guide portion 135.

For this purpose, according to the present embodiment, the rails 122 are provided on the outer circumferential portion of the suction pawls 121 so that the guide portions 135 can be moved, and the guide portions 135 are rotatably The slider 138 coupled to the rail 122 can be provided.

The guide portion 135 can be moved up and down along the rail 122 by the slider 138. When the sea floor support portion 140 described above is supported on the sloped ground of the seabed, The bottom support 140 can be deformed into an inclined shape by moving the slider 138 coupled to the bottom of the suction file 121 from outside.

According to the present embodiment, a plurality of rails 122 and sliders 138 are provided, and the guide portions 135 are provided as a plurality of guide members 136 corresponding to the number of sliders 138, The guide member 140 and the plurality of guide members 136 can be rotatably coupled to each other.

The plurality of guide members 136 constituting the guide portion 135 support the seabed support portion 140 at a plurality of locations, and the sea bottom support portion 140 is composed of a plurality of link members coupled with each other by a mutual link structure, Can be deformed while being refracted corresponding to the undersea-based shape when supported on the foundation.

Thereafter, negative pressure is applied to the inside of the suction file 121 while the suction file 121 is intruded into the bottom of the seabed by its own weight, It can be further penetrated into the seabed.

In the method of installing the suction foundation structure 120 according to the present embodiment, the jack-up barge 100 having the jack-up function to be supported on the seabed and equipped with the marine cranes 110 to which the cables 111 are connected, (121) to the bottom of the seabed.

The floating crane 110 can move the suction pile 121 having a large size and weight to the sea floor while hanging the cable 111 on the cable 111. In order to support the load applied to the floating crane 110 The jack-up barge 100 on which the maritime cranes 110 are mounted is provided with a leg so that it can be supported by the seabed so as to have a jack-up function.

1 to 3, according to another embodiment of the present invention, there is provided a vacuum cleaner comprising: a suction file 121, which is provided to close the upper part and open the lower part, And a guide frame unit (130) installed on the bottom surface of the bottom plate (121) and movably coupled to the outer circumferential portion of the suction file (121) so that the bottom surface portion deforms corresponding to the shape of the bottom of the seabed when being supported on the bottom of the seabed 120 may be provided.

In this suction foundation structure 120, as described above, a plurality of rails 122 are provided on the outer peripheral portion. The guide frame unit 130 includes a slider 138 disposed corresponding to the plurality of rails 122, a guide member 136 rotatably coupled to the slider 138, And a bottom supporting portion 140 coupled to the bottom portion.

The bottom support 140 is rotatably coupled to a plurality of guide members 136 provided together with a slider 138 disposed to correspond to the plurality of rails 122 and includes a plurality of guide members 136, And a plurality of link members 141 that interconnect adjacent guide members among the guide members.

According to the present embodiment, the sea bottom support portion 140 may be provided in a rectangular shape, and the guide member 136, the slide 138, and the link member 141 may be arranged in each of four directions. At this time, the link member 141 connects and joins the guide members 136, and is supported by the bottom of the seabed so that the guide member 136 can be moved up and down while being inclined according to the shape of the seabed.

In addition, a riser 115 as well as an overhead crane 110 is installed on the jack-up barge 100 having the jack-up function, and a riser 115 is connected to the suction file 121 to provide negative pressure therein .

Other structures capable of coupling the link members 141 to each other can be added to the sea bottom support portion 140 described above. That is, according to another embodiment of the present invention, the sea bottom support portion 140 includes a plurality of link members 141 coupled to each other to couple a plurality of link members 141 coupled to the guide member 136, And a plurality of support members 142 rotatably coupled to the other end portion.

The underside support portion 140 has a structure in which a support member 142 is added so that four edges of the link member 141 can be diagonally connected to each other. The support member 142 can be provided in a structure that can be broken by the weight of the suction pawl 121 so as not to interfere with the suction pawl 121 when the suction pawl 121 is inserted into the seabed ground.

5, according to another embodiment of the present invention, the guide frame unit 130 includes a ring-shaped folded portion 150 provided on an outer surface of the ring-shaped folded portion 150, And an underside support 160 coupled to the underside support 160.

The suction file 121 described above can be moved to the seabed as described above in a state where it is inserted into the annular folded portion 150. At this time, the annular folded portion 150 can be folded corresponding to the pressing force of the sea bottom support portion 160 according to the shape of the seabed ground. Accordingly, the seabed support portion 160 can be deformed or changed in its inclined structure corresponding to the sloped shape of the seabed ground, so that the suction pile 121 can be supported on the seabed.

Thereafter, as described above, the negative pressure by the riser 115 is applied to the suction file 121, so that the suction file 121 can be sufficiently penetrated to the bottom of the sea by the pressure difference between the outside and the inside.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Deletion, addition or the like of the present invention may be variously modified and changed within the scope of the present invention.

100: Jack-up barge
110: Marine crane
111: Cable
115: riser
120: Suction foundation structure
121: Suction file
122: rail
130: guide frame unit
135: guide portion
136: Guide member
138: Slider
140: Submarine support
141: Link member
142: Support member

Claims (12)

An installation step of installing a guide frame unit, which is configured to deform the bottom surface in accordance with the inclined shape of the seabed ground, to a suction foundation structure penetrated into the seabed ground by a suction method; And
A supporting step of moving the suction foundation structure from the sea to the seabed ground in the state where the suction foundation structure is suspended from the cable and supporting the suction foundation structure on the seabed ground;
A suction step of, when the suction foundation structure is seated, introducing the suction file into the seabed using the suction foundation structure;
Wherein in the installing step,
A guide part mounting step of providing a guide part on an outer circumferential part of the suction file;
A rail and a slider providing a rail and a slider on the guide portion;
Wherein the bottom portion of the steel guide frame is deformed into an inclined shape. delete delete delete The method according to claim 1,
The suction step of penetrating the suction file into the submarine ground,
A negative pressure is applied to the inside of the suction file in a state in which the suction file is intruded into the bottom sole by its own weight so that the suction file is further penetrated into the bottom sole by the pressure difference between the outside and inside of the suction file Wherein the suction structure is installed in the suction port. delete A sucker file provided with a riser for closing the upper part and opening the lower part and providing a negative pressure therein; And
A guide frame unit installed in the suction file and movably coupled to the outer circumferential portion of the suction file such that the bottom portion deforms corresponding to the shape of the bottom of the bottom when the bottom portion is supported on the bottom of the sea floor;
Wherein the suction file includes a plurality of rails on an outer circumferential portion thereof,
The guide frame including a slider disposed corresponding to a plurality of rails;
A guide member rotatably coupled to the slider; And
A plurality of guide members rotatably coupled to the guide member and rotatably coupled to a plurality of guide members provided with the slider so as to correspond to the plurality of rails, And a plurality of support members rotatably coupled to either one end and the other end of the plurality of link members coupled to each other to couple the plurality of link members coupled to the guide member to each other, A support;
Wherein the suction structure comprises: 8. The method of claim 7,
Wherein the guide frame unit comprises:
An annular folded portion coupled to an outer circumferential portion of the suction file and provided to be foldable; And
And an underside support portion coupled to the annular folded portion and having an arrangement pattern changed by folding the annular folded portion corresponding to the shape of the bottom of the seabed. delete delete delete delete

Images