KR20150008271A - Buoyancy apparatus - Google Patents

Abstract

The present invention relates to a buoyancy apparatus floating a marine structure and disposed in a pair of pontoons which are mutually separated. The buoyancy apparatus comprises: a buoyancy tank; a plurality of horizontal fixating portions protruded toward the edges of the buoyancy tank and combined in the pair of the pontoons with a plurality of wires; and a plurality of stoppers combined on the side of the buoyancy tank and latched in the lower end of each pair of the pontoons to prevent the rising of the buoyancy tank when the buoyancy tank is lifted up. Therefore, the buoyancy apparatus is installed in the marine structure to enable to generate buoyancy required for launching and wharf work without large-scale investment in facilities like additional ocean dredging and reduce the time and cost consumed for drying the marine structure.

Description

Buoyancy device {BUOYANCY APPARATUS}

The present invention relates to a buoyancy device, and more particularly, to a buoyancy device capable of generating a buoyant force necessary for a centrifuge and quay wall work without installing a large scale facility such as a dredging on a sea floor by installing it on a sea structure, And a buoyancy device capable of reducing costs.

In general, a semi-submerged offshore structure is constructed by connecting upper decks and lower hulls with columnar columns and bracing in order to reduce the fluctuation of the structure caused by waves and the like And semi-submersible vessels engaged in drilling or production operations to develop submarine oil fields or gas fields in semi-submerged conditions. In this semi-submersible floating structure, the buoyant hull is submerged in water and only the columnar columns protrude above the water surface to support the superstructure, so that the proper motion period of the platform becomes longer than the wave period, Which greatly improves the work performance of structures even in large waves.

Korean Patent Laid-Open No. 10-2009-0045532 discloses a semi-submergible offshore structure, such as a drill ship, which can be dried directly on the sea without having to be dried onshore and then launched into the sea, Lt; RTI ID = 0.0 > submarine < / RTI > The method of sea-drying the semi-submergible offshore structure and the semi-submerged offshore structure thus dried can reduce the initial investment and maintenance costs by not using the dock while minimizing the use of auxiliary structures.

Korean Patent Laid-Open Publication No. 10-2012-0008623 discloses a semi-submerging method in which the inclined test point for determining the light weight and center position of an offshore structure is selected before the installation of the self-contained facility and the position of the inclined test is changed to the inner side wall of the yard A method of tilting an offshore structure is disclosed. The slope test method of semi-submergible offshore structure reduces the time and cost required for the slope test, thereby securing the time required for the field work, Especially, it is possible to secure the safety of the test from various risks caused by the deep water depth of the outer port and the poor environmental condition of the outer port.

Korean Patent Publication No. 10-2009-0045532 Korean Patent Publication No. 10-2012-0008623

One embodiment of the present invention is to provide a buoyancy control system and a buoyancy control system that can be installed in a marine structure and generate buoyancy required for the operation of the seawater and the seawall without investing in a large scale facility such as an underwater floor, Buoyancy device.

In a buoyancy device, which floats a marine structure and is disposed between a pair of mutually spaced pontoons, the buoyancy tank comprises a buoyancy tank, a plurality of buoyancy tanks, projecting toward each of the corners of the buoyancy tank, A plurality of horizontal securing means engageable with a pair of pontoons, and a plurality of horizontal securing means coupled to a side of the buoyancy tank and hooked to a lower end of each of the pair of pontoons when the buoyancy tank is lifted to prevent the buoyancy tank from rising And includes a plurality of stoppers.

In one embodiment, the buoyancy tanks may be fixed by connecting the pontoons in the direction of protrusion of each of the plurality of horizontal securing means through the plurality of wires. In addition, the plurality of horizontal fixing portions may each include a through hole through which the plurality of wires can be bundled, and the buoyancy tank may include a damage preventing portion formed on a side opposite to each of the pair of pontoons .

In one embodiment, the plurality of stoppers form an inclined surface toward the pair of pontoons, and may be recessed along the contact curved surface of the pair of pontoons at a portion caught by the lower end of the pontoons. The pair of pontoons and the buoyancy tank may be at least partially submerged in the sea surface to provide buoyancy to the sea structure.

The buoyancy device according to an embodiment of the present invention can be installed in a marine structure and generate buoyancy required for the operation of the launching and quay wall without investing in a large scale facility such as a separate sea floor dredging and the time and cost consumed for drying the marine structure Can be saved.

1 is a perspective view of a buoyancy device according to an embodiment of the present invention installed on a sea structure.
2 is a plan view for explaining a coupling structure of the buoyancy device shown in Fig.
3 is a perspective view illustrating the buoyancy device shown in Fig.
4 is a cross-sectional view illustrating the buoyancy device shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly explain the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification

1 is a perspective view of a buoyancy device according to an embodiment of the present invention installed on a sea structure.

Referring to FIG. 1, the buoyancy device 100 is coupled between a pair of spaced apart pontoons 10. More particularly, the buoyancy device 100 comprises a pair of pontoons 10 extending longitudinally from the bottom of the semi-submerged rescue structure and spaced apart from one another in parallel and float the semi-submerged rescue structure at least partially submerged in the sea surface In the height direction of the pair of pontoons 10 to provide additional buoyancy to the marine structure.

2 is a plan view for explaining a coupling structure of the buoyancy device shown in Fig.

Referring to FIG. 2, the buoyancy device 100 is installed at both ends of a pair of pontoons 10 extending in the longitudinal direction from the lower end of the semi-submergible resisting structure to adjust the balance of the rescue structures. Also, the buoyancy device 100 is connected and fixed to the pair of pontoons 10 through a plurality of wires, and can be prevented from shaking or moving to the left or right.

3 is a perspective view illustrating the buoyancy device shown in Fig.

Referring to FIG. 3, the buoyancy device 100 includes a buoyancy tank 310, a plurality of horizontal fixing portions 320, a plurality of stoppers 330, and a plurality of wires 340.

The buoyancy tank 310 has a shape of a rectangular parallelepiped extending in the height direction of the pair of pontoons 10, and the protrusions 120 are welded to the upper surface. Also, the buoyancy tank 110 may be formed as one buoyancy tank 110 by joining a plurality of tanks as necessary, and may generate seawater or air into the buoyancy tank 110 to generate buoyancy at a desired value.

The plurality of horizontal fixing portions 320 protrude toward each of the corners of the buoyancy tank 310 and are connected and fixed to the pair of pontoons 10 through the plurality of wires 340. More specifically, the plurality of horizontal fixing portions 320 may protrude toward the respective corners at both upper ends of the buoyancy tank 110, and may be welded to the contact surfaces abutting the buoyancy tank 110. The plurality of horizontal fixing portions 320 may form through holes 321 through which the plurality of wires 340 can be bundled. For example, the through hole 321 may be formed to have a size larger than the thickness of the plurality of wires 340.

In one embodiment, a top surface of the pair of pontoons 10 may be formed with a wire fixing portion capable of fixing a plurality of wires 340 connected to the plurality of horizontal fixing portions 320. Here, the wire fixing part may be formed symmetrically with each of the horizontal fixing parts 320, and may include a through hole through which the plurality of wires 340 can be bundled and fixed.

The plurality of stoppers 330 are coupled at opposite sides of the buoyancy tank 310 opposite to the pair of pontoons 10 and the buoyancy tank 310 is connected to the sea level A plurality of stoppers 330 are caught at the lower end of each of the pair of pontoons 10 to prevent the buoyancy tank 310 from being further elevated.

In one embodiment, the plurality of stoppers 330 form an inclined surface facing the pair of pontoons 10, and a portion of the inclined surface may be recessed. For example, the plurality of stoppers 330 may be recessed in the form of a contact surface of a pair of pontoons 10, at least a portion of which is caught at the lower end of the pontoons 10.

The plurality of wires 340 may include a plurality of horizontal fixing portions 320 protruding toward respective corners of the buoyancy tank 310 and a plurality of horizontal fixing portions 320 at the upper surface of the pair of pontoons, And the buoyancy tanks 310 can be fixed to the plurality of wire fixing portions formed in the protruding direction.

A plurality of wires 340 may be formed at both ends of the through hole 321 to form a carabiner to easily connect to the plurality of wire fixing portions and the plurality of horizontal fixing portions 320 And can be fixed.

4 is a cross-sectional view illustrating the buoyancy device shown in Fig.

4, the buoyancy tank 310 includes a damage preventing portion 410 on the side opposite to each of the pair of pontoons 10, and a plurality of the stoppers 330 includes a pair of pontoons 10, As shown in Fig.

In one embodiment, the damage-preventing portion 410 may be implemented with at least one fender that faces and is laterally joined to each of the pair of pontoons 10 of the buoyancy tank 310. For example, the damage prevention portion 410 may be used as a cork, a wood, a rope, a rubber, or a used tire. Here, at present, the buoyancy tank 310 can be prevented from being damaged by contact, which may occur when the buoyancy tank 310 is installed between the pair of pontoons 10, thereby preventing damage to each other.

In one embodiment, the adhered portion 331 is inclined toward the pair of pontoons 10 and is formed at an inclined surface that is recessed along the lower curved surface of the pair of pontoons 10, and is in close contact with at least a part of the inclined surface Member. Here, the contact member may be made of rubber and silicone which adheres to the lower end of the pontoon 10 and the stopper 330 to prevent separation due to sliding, and may be adhered and fixed to the slopes of the plurality of stoppers 330 have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the present invention as defined by the following claims It can be understood that

10: Pontoon
100: Buoyancy device
310: Buoyancy tank
320: a plurality of horizontal fixing portions
321: Through hole
330: Multiple stoppers
340: a plurality of wires
410: Damage prevention part

Claims (6)

A buoyancy device for lifting a marine structure and being disposed between a pair of mutually spaced pontoons,
Buoyancy tank;
A plurality of horizontal fixing portions protruding toward each of the corners of the buoyancy tank and engageable with the pair of pontoons through a plurality of wires; And
And a plurality of stoppers coupled to a side surface of the buoyancy tank and engaged with a lower end of each of the pair of pontoons to prevent the buoyancy tank from rising when the buoyancy tank is lifted.
The method according to claim 1,
And the buoyancy tank is fixed by connecting to the pontoon in the projecting direction of each of the plurality of horizontal fixing parts through the plurality of wires.
The apparatus of claim 1, wherein the plurality of horizontal fixtures
And a through hole through which the plurality of wires can be bundled, respectively.
The buoyancy tank according to claim 1, wherein the buoyancy tank
And a damage preventive portion formed on a side surface opposite to each of the pair of pontoons.
The apparatus of claim 1, wherein the plurality of stoppers
Wherein said inclined surface is inclined toward said pair of pontoons and is depressed along a contact surface of said pair of pontoons at a portion of said pontoon which is caught by the lower end of said pontoons.
The buoyancy tank according to claim 1, wherein the pair of pontoons and the buoyancy tank
At least a portion of which is submerged in the sea surface to provide buoyancy to the marine structure.

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