KR20080105560A - Foundation system for marine structure using buoyancy - Google Patents

Abstract

A foundation structure of a marine structure using buoyancy is provided to restrain the consolidation settlement of the soft ground and to keep high bearing capacity against wave load. A foundation structure of a marine structure using buoyancy for forming the foundation of a marine structure on the soft ground(50) of the bottom of the sea comprises a buoyancy body(20) provided to the inside of a foundation member to reduce deadweight and to support the vertical load of a breakwater, and at least one reinforcement member(30) installed to the bottom of the foundation member to reinforce horizontal bearing capacity, wherein the reinforcement member is composed of a concrete pile(32) to be unified to each corner of the bottom of the foundation member.

Description

FOUNDATION SYSTEM FOR MARINE STRUCTURE USING BUOYANCY}

1 is a view showing the basic structure of the offshore structure using buoyancy according to the first embodiment of the present invention,

2 is a view showing the basic structure of the offshore structure using buoyancy according to a second embodiment of the present invention, and

3 is a view showing the basic structure of the offshore structure using buoyancy according to a third embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

10, 12: base member 20: buoyancy body

30: reinforcing member 40: breakwater

50: soft ground 52: solid ground

The present invention relates to the basic structure of the marine structure using buoyancy, and more particularly, when the marine structure such as breakwater or quay wall is installed on the soft ground of the seabed, it suppresses the consolidation settlement of the soft ground and maintains a solid supporting force from the wave load. The present invention relates to a basic structure of an offshore structure using buoyancy.

In general, ground improvement is essential to install marine structures such as breakwaters and quaywalls on the soft ground of the seabed. An example of such ground improvement is the construction of a foundation mound by laying large amounts of sandstone horizontally on the soft ground of the seabed. Then, the foundations for offshore structures, such as breakwater and quay, are needed.

However, the basic formation structure using a large amount of sandstone in the improvement of soft ground due to the installation of offshore structures such as breakwaters and quay walls makes it difficult to obtain high quality sandstones due to the depletion of sandstone resources or environmental damage. There is a problem in construction due to the increase in construction cost and air delay due to the limitation of the dead time of divers.

The present invention has been made to solve the problems of the prior art as described above, the technical problem of the present invention is to support the vertical load of the structure when the installation of offshore structures, such as breakwater or quay wall to suppress the consolidation settlement of the soft ground, It is to provide the basic structure of offshore structure using buoyancy to maintain strong bearing capacity against wave load.

The present invention for solving the above technical problem,

In forming the foundation of the marine structure on the soft ground of the seabed, the base member for installing the marine structure is buried in the soft ground, but the buoyancy to reduce the self-weight and to support the vertical load of the breakwater inside the base member A sieve is provided, and the bottom surface of the base member provides a basic structure of the marine structure using buoyancy, characterized in that at least one reinforcing member is installed to reinforce the lateral bearing force.

At this time, the reinforcing member is characterized in that made of concrete piles.

In addition, the reinforcing member may be made of a steel pipe pile.

In addition, the reinforcing member may be made of a suction pile.

Hereinafter, with reference to the accompanying drawings for the basic structure of the marine structure using buoyancy according to each preferred embodiment of the present invention will be described in detail.

The marine structure can be applied to all marine structures installed on the sea floor, such as a breakwater or a quay wall, hereinafter will be described by using a breakwater as an example.

1 shows a basic structure of an offshore structure using buoyancy according to a first embodiment of the present invention.

Referring to Figure 1, the basic structure of the marine structure using buoyancy according to the first embodiment of the present invention, the base member 10, the foundation embedded in the soft ground 50 of the seabed so that the breakwater 40 is installed Buoyancy body 20 provided in the interior of the member 10, and at least one reinforcing member 30 is provided on the bottom surface of the base member 10.

The base member 10 is formed in a predetermined shape through concrete or the like so as to install the breakwater 40 on the upper surface. The buoyancy body 20 is provided inside the base member 10 to support the upper load, that is, the vertical load of the breakwater 40. The buoyancy body 20 is made of a material that receives the floating force in the water with a lower specific gravity than the water without absorbing water, the upper load of the base member 10, that is, the breakwater 40 as a material of the buoyancy body 20 All conventional materials having buoyancy to support the vertical lowering of the can be, for example, various synthetic resins including various foamed resins, natural or synthetic rubber, silicone, waterproof wood and the like can be used.

The buoyancy body 20 can reduce the self-weight of the base member 10 buried in the soft ground through the buoyancy, and can suppress the long-term consolidation settlement of the soft ground (50) by supporting the vertical load of the breakwater (40). Will be.

At least one reinforcing member 30 is provided on the bottom of the base member 10 to secure the lateral support force. The reinforcing member 30 in the present embodiment consists of a concrete pile 32 and is installed to be integrated at each corner of the bottom surface of the base member 10. And the reinforcing member 30 is introduced into the soft ground 50 by the base member 10 to maintain a solid support force of the base member 10 so that the breakwater 40 can secure the lateral support force against the wave load do.

Referring to the operation of the basic structure of the marine structure using buoyancy according to the first embodiment of the present invention configured as described above are as follows.

When the base of the breakwater is to be formed on the soft ground of the sea bed through the basic structure of the marine structure using buoyancy according to the first embodiment of the present invention, the base member 10 having the buoyancy body 20 therein is soft Buried in the ground (50). At this time, the reinforcing member 30 is introduced into the soft ground 50 by the base member 10. After the foundation member 10 is completely buried, it is installed to integrate the breakwater 40 on the upper surface of the base member 10 to suppress consolidation settlement due to the vertical load of the breakwater 40 and to be firm against wave loads. You can maintain your support.

That is, the base member 10 can suppress the long-term consolidation settlement of the soft ground 50 by reducing the self-weight through the buoyancy of the buoyancy body 20 provided therein and supporting the vertical load of the breakwater 40 will be.

And at least one reinforcing member 30, that is, concrete pile 32 is installed on the bottom surface of the base member 10 embedded in the soft ground 50, the base member 10 is a soft ground through the reinforcing member 30 By maintaining a strong bearing force against the breakwater 40 is to ensure a lateral bearing force against the wave load.

On the other hand, Figure 2 shows the basic structure of the offshore structure using buoyancy according to a second embodiment of the present invention.

Referring to FIG. 2, in the basic structure of the marine structure using buoyancy according to the second exemplary embodiment of the present invention, the steel pipe pile 34 includes at least one reinforcing member 30 installed on the bottom of the base member 10. It is the same as the first embodiment except that it is made of.

Steel pipe pile 34 is formed to be a constant length is installed to be integrated in each corner of the bottom surface of the base member (10).

The marine structure foundation structure using buoyancy according to the second preferred embodiment of the present invention configured as described above has a constant length when the foundation member 10 is embedded in the soft ground 50 of the sea bed as in the first preferred embodiment of the present invention. By reinforcing member 30 having a reinforcement member, that is, the steel pipe 34 to the depth of the soft ground, the base member 10 will be able to maintain a more solid support force for the soft ground (50).

3 shows a basic structure of an offshore structure using buoyancy according to a third embodiment of the present invention.

Referring to FIG. 3, in the basic structure of the marine structure using buoyancy according to the third exemplary embodiment of the present invention, the suction pile 36 includes at least one reinforcing member 30 installed on the bottom of the base member 10. It is the same as the first embodiment except that it is made of.

The suction pile 36 is formed to have a predetermined length and is installed to be integrated with the bottom surface of the base member 10.

The basic structure of the marine structure using buoyancy according to the third preferred embodiment of the present invention configured as described above, unlike the first and second preferred embodiments of the present invention, installs the breakwater 40 in the soft ground 50 of the seabed. In order to embed the base member 10 in order to bury the reinforcing member 30, that is, the lower portion of the suction pile 36 passes through the soft ground 50 into the solid ground 52, the base member 10 is a reinforcing member ( 30) it will be able to maintain a stronger support.

As described above, the basic structure of the marine structure using buoyancy according to the present invention is provided with a buoyant body in the foundation member when buried the foundation of the breakwater in the soft ground of the seabed embedded in the soft ground and embedded in the soft ground To reduce the self-weight of the foundation member and support the vertical load of the breakwater to suppress the long-term consolidation settlement of the soft ground, and maintain the solid supporting force of the foundation member to maintain the lateral bearing capacity of the breakwater against wave load. There is an effect that can be secured.

In addition, by embedding a base member provided with a buoyancy body and a reinforcing member on the soft ground of the seabed to form the basis of the breakwater, it is possible to reduce the construction cost and shorten the air due to the simplification of the work.

The present invention has been described above by the embodiments, but the present invention is not limited to the above-described embodiments, and those skilled in the art without departing from the gist of the present invention claimed in the claims. Anyone can make a variety of variations.

Claims (4)

In forming the foundation of the marine structure on the soft ground of the seabed, The base member for installing the marine structure is embedded in the soft ground, the buoyancy body is provided in the interior of the base member to support the vertical load of the weight reduction and breakwater, reinforce the lateral support force on the bottom of the base member Basic structure of the marine structure using buoyancy, characterized in that at least one reinforcing member is installed. The foundation structure of claim 1, wherein the reinforcing member is made of concrete piles. The foundation structure of claim 1, wherein the reinforcing member comprises a steel pipe pile. The foundation structure of claim 1, wherein the reinforcement member is formed of a suction pile.

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