KR20120065720A - Construction and launching method of floating structure - Google Patents

Abstract

PURPOSE: A method for constructing and launching a floating structure on the sea is provided to repetitively construct and launch a floating structure by manufacturing a general module and a buoyancy module to be reused. CONSTITUTION: A method for constructing and launching a floating structure(100) on the sea is as follows. General modules(10), a buoyancy module(20), and a working module(30) are manufactured. While the general modules and at least one buoyancy module are connected each other and laminated, the top of the uppermost general module or the buoyancy module could be exposed above the water. The working module is coupled to the top of the uppermost module among the laminated modules. The floating structure is constructed on the top of the working module at a predetermined height from the water level. Buoyancy is injected into the buoyancy module in a state where the buoyancy module and the general module are disconnected so that the buoyancy module and the floating structure above thereof can be floated. The general module locating right under the buoyancy module is separated with the other general module locating right under the general module to remove. The buoyancy module is connected with the general module locating right under thereof in a state where the buoyancy is removed to put on the top of the general module locating right under thereof. The floating structure is continuously constructed so that the constructed floating structure can be located at a constant height from the water level.

Description

Construction and Launching Method of Floating Structure

The present invention relates to a marine construction and launching method of a floating structure, and to a marine construction and launching method of a floating structure capable of launching a large floating structure using buoyancy and gravity without a dock.

Floating structure means a structure floating on the sea or under the sea due to buoyancy. These floating structures are used as drilling vessels for oil drilling, or as storage facilities for storing liquefied fuels such as crude oil, LPG, and LENGG while floating on the sea, and artificially like floating islands being promoted in Seoul. It also serves as an island.

If the size of the floating structure is small, it is possible to use the method of constructing and launching the floating structure by making it onshore, moving it to the sea while loading it on the barge using a crane, and launching it again using a crane. For example, as a floating structure is enlarged, it may be difficult to manufacture it in a dock. In particular, when the draft of the floating structure is large, a very deep dock is required. There was a difficulty in providing a docking facility.

The present invention was derived to solve the problems described in the background, the problem to be solved by the present invention is to provide a marine construction and launching method of a floating structure capable of constructing and launching a large-scale floating structure without a dock at sea will be.

The present invention as a means for solving the above problems,

In the marine construction and launching method of the floating structure,

It is possible to connect and disassemble each other in up and down direction with a certain height and to be submerged in water, and a buoyancy module and floating structure that can be connected and disassembled in a vertical direction and have a buoyancy control. A module manufacturing step of manufacturing a work module which is a workbench for construction;

A stacking step of stacking the general module and at least one buoyancy module while connecting each other from a sea bottom, and stacking the uppermost general module or the upper end of the buoyancy module to be exposed on the surface of the water;

A manufacturing module installation step of coupling and installing a manufacturing module to an upper part of a module located at the top of the modules stacked in the laminating step;

A first construction step of constructing a floating structure at a predetermined height from an upper surface of the fabrication module;

After the completion of the first construction step, the floating step of floating the structure on top of the buoyancy module by injecting buoyancy to the buoyancy module in a state of disconnecting the buoyancy module and the general module located directly below;

A removal step of separating and removing the general module directly below the buoyancy module from the general module immediately below it;

A connection step of removing the buoyancy of the buoyancy module and connecting it with the general module directly under the state in which it is mounted on the upper part of the general module directly below it;

A second construction step of continuously constructing the floating structure from the water surface to a predetermined height from an upper portion of the floating structure constructed in the first construction step;

Repeated construction step of completing the construction of the structure to repeat the floating step to the second construction step; And,

After the repetitive construction step, the floating structure is separated from the general module immediately below the buoyancy module and the floating structure is separated from the manufacturing module and removed after the buoyancy module is injected and the buoyancy module is removed. It provides a maritime construction and launching method of the floating structure comprising a; launching step to launch the.

In the lamination step, the buoyancy module is preferably disposed directly below the general module coupled with the production module.

General module, buoyancy module and work module produced in the module manufacturing step is preferably all made to be reusable.

According to the present invention, it is possible to provide a marine construction and launching method of a floating structure capable of launching a floating structure at sea without a dock. In addition, in the case of the general module or buoyancy module used in the present invention, there is also an advantage that can be repeatedly constructed and launched floating structure by making it possible to reuse.

1 is a view for explaining an embodiment of a general module.
2 is a view for explaining an embodiment of the buoyancy module.
3a and 3b are views for explaining the connection between the modules.
4 to 14 are views for explaining each step of the marine construction and launching method of the floating structure according to the present invention.

Hereinafter, one embodiment of the present invention will be described with reference to the drawings to provide specific contents for carrying out the present invention.

1 is a view for explaining an embodiment of a general module, Figure 2 is a view for explaining one embodiment of a buoyancy module, Figures 3a and 3b is a view for explaining the connection between the modules, Figure 4 to 14 are views for explaining each step of the marine construction and launching method of the floating structure according to the present invention.

Marine construction and launching method of the floating structure according to this embodiment is a module manufacturing step, lamination step, manufacturing module installation step, the first construction step, floating step, removal step, connection step, second construction step, repeated construction step and Consists of the launching stage.

The module manufacturing step is to produce a general module 10, buoyancy module 20 and the work module.

The general module 10 has a constant height and can be connected to and disassembled from each other in the vertical direction and submerged in water. One example of a general module 10 is shown in FIG. 1. The first module 10 uses a steel structure that is anti-corrosion treatment to be reused.

The buoyancy module 20 has a constant height and can be connected to and disassembled in the vertical direction with the general module 10 is configured to adjust the buoyancy. 2 shows an example of the buoyancy module 20. Although the buoyancy module 20 is not shown, the reinforced concrete structure having a hollow part therein may be manufactured as a steel structure, and the seawater is injected into the hollow part using a pump to reduce the buoyancy to sink and utilize the pump in a sinking state. The buoyancy can be imparted by discharging the seawater in the hollow to the outside. Detailed descriptions related to the pump are omitted in the drawings, and it is determined that those skilled in the art to which the present invention pertains may implement the present invention only by the description. The buoyancy module 20 is also made reusable like the general module 10.

3A and 3B are views for explaining a method of combining and disassembling a general module and a general module or a general module and a buoyancy module. Insert the pointed connection part 31 of the module located at the top (general module or buoyancy module to use the term module) into the groove-shaped connection part 34 of the module located at the upper part and The pin 33 is inserted into the pinholes 32a and 32b in a state where the pinhole 32a of the module located in the module and the pinhole 32b of the module located in the lower part are aligned with each other, and the coupling is released by removing the pin 33. Done.

The work module 30 is a plate-shaped structure as a configuration used as a workbench for constructing a floating structure.

The stacking step is a step of stacking a plurality of general modules and one or more buoyancy modules connected to each other. At this time, the module located at the top is stacked to be exposed on the surface of the water.

In this embodiment, as shown in FIG. 4, one buoyancy module 20 is used. At the top, a general module is used and a buoyancy module 20 is directly stacked below it. 4 to 14 illustrate the general module 10 and the buoyancy module 20 in simplified form for convenience of illustration.

The manufacturing module installation step is a step of installing the work module 30 is coupled to the module (in this embodiment, the general module 10) at the top. Since the upper portion of the uppermost general module 10 is exposed on the surface of the water, the work module 30 may also be coupled to the general module 10 in a state of being exposed above the surface of the water to provide a work space such as land.

The first construction step is a step of constructing a floating structure 100 to a certain height from the water surface on the production module 30. 4 shows a state in which the floating structure 100 is fixed from the water surface on the fabrication module 30.

The floating step is the buoyancy by injecting buoyancy to the buoyancy module 20 in the state disconnected from the buoyancy module 20 and the general module 10 immediately below it as shown in Figure 5 after the first construction step is completed Floating module 20 and the structure above it. Here, the structure on the upper portion of the general module 10, the work module 30 and means a partially constructed floating structure 100.

The removing step is a step of separating and removing the general module 10 directly below the buoyancy module 20, that is, directly below the general module 10. 6 shows a state in which one general module is removed.

The connecting step is a step of removing the buoyancy of the buoyancy module 20 and connecting with the general module 10 directly below the buoyancy module 20 in the state in which it is mounted on top of the general module directly below it. The state mounted on this general module 10 is shown.

The second construction step is to continue to build a floating structure on top of the part of the floating structure constructed in the first construction step until the floating structure is constructed from a certain height from the surface. 8 shows a state in which the floating structure is constructed to some extent from the surface of the water.

The repeating construction step is a step of completing the construction of the structure by repeating the floating step to the second construction step. This repetition is shown in Figures 9-12, the state shown in Figure 12 is a state in which the floating structure is completed.

The launching step is to launch the floating structure, that is, to float on the sea as shown in Figure 13 floating buoyancy module 20 in the state of separating the buoyancy module 20 and the general module 10 thereunder as shown in FIG. After removing the general module 10 under the buoyancy module 10, as shown in FIG. 14, the buoyancy of the buoyancy module 20 is removed so that the buoyancy module 20 and the general module 10 directly above and work are removed. It is a step of launching the floating structure 100 by sinking the module 30 in water.

Once the launching phase is complete, the construction and launching of the floating structure at sea is complete.

Although one specific embodiment of the present invention has been described above, specific details for carrying out the present invention have been provided, but the technical idea of the present invention is not limited to the described embodiments, which do not contradict the technical idea of the present invention. It can be embodied by maritime construction and launching method of various types of floating structures within the scope.

10: general module
20: buoyancy module
30: work module
100: floating structure

Claims (3)

In the marine construction and launching method of the floating structure,
It is possible to connect and disassemble each other in up and down direction with a certain height and to be submerged in water, and a buoyancy module and floating structure that can be connected and disassembled in a vertical direction and have a buoyancy control. A module manufacturing step of manufacturing a work module which is a workbench for construction;
A stacking step of stacking the general module and at least one buoyancy module while connecting each other from a sea bottom, and stacking the uppermost general module or the upper end of the buoyancy module to be exposed on the surface of the water;
A manufacturing module installation step of coupling and installing a manufacturing module to an upper part of a module located at the top of the modules stacked in the laminating step;
A first construction step of constructing a floating structure at a predetermined height from an upper surface of the fabrication module;
After the completion of the first construction step, the floating step of floating the buoyancy module and the structure of the upper portion by injecting buoyancy to the buoyancy module in a state of disconnecting the buoyancy module and the general module located directly below;
A removal step of separating and removing the general module directly below the buoyancy module from the general module immediately below it;
A connection step of removing the buoyancy of the buoyancy module and connecting it with the general module directly under the state in which it is mounted on the upper part of the general module directly below it;
A second construction step of continuously constructing the floating structure from the water surface to a predetermined height from an upper portion of the floating structure constructed in the first construction step;
Repeated construction step of completing the construction of the structure to repeat the floating step to the second construction step; And,
After the repetitive construction step, the floating structure is separated from the general module immediately below the buoyancy module and the floating structure is separated from the manufacturing module and removed after the buoyancy module is injected and the buoyancy module is removed. Maritime construction and launching method of the floating structure comprising a; launching step to launch the. The method of claim 1,
In the lamination step, the buoyancy module is a marine construction and launching method of the floating structure, characterized in that disposed directly below the general module coupled with the production module. The method of claim 1,
The general module, buoyancy module and the work module produced in the module manufacturing step, all the marine construction and launching method of the floating structure, characterized in that to be made to be reused.

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