KR101400216B1 - Azimuth thruster installation structure of semi-submersible drilling platform and installation method using the same - Google Patents

Abstract

The present invention relates to an azimuth thruster installation structure of a semi-submersible offshore facility and an azimuth thruster installation method using the same. In the semi-submersible offshore facility for a drilling purpose to drill the bottom of seabed comprising a work platform, multiple pontoons arranged under the work platform to be submerged in the seawater, multiple columns for supporting the work platform against the multiple pontoons, and multiple azimuth thrusters arranged on the underside of the pontoons, the azimuth thruster installation structure comprises: a lower plate separated from the pontoon at a predetermined interval on the installation position of the azimuth thrusters and having a U-shaped cross section; side plates arranged between the pontoon and both ends of the lower plate; upper plates arranged between the pontoon and the top of the lower plate; and an inlet formed on at least one among the upper plates.

Description

Technical Field [0001] The present invention relates to an azimuth thruster installation structure of a semi-submergible offshore installation, and a method of installing an azimuth thruster using the same,

The present invention relates to an azimuth thruster installation structure of a semi-submergible offshore installation and a method of installing the azimuth thruster using the same, and more particularly, to an azimuth thruster installation structure The present invention relates to an azimuth thruster installation structure of semi-submergible offshore installations and a method of installing azimuth thrusters using the same.

Along with the development of submarine mining technology, various marine facilities suitable for development of marginal field or deep sea oil field of the small area are being developed.

Such offshore installations include various forms such as floating offshore installations, semi-submersible offshore installations, fixed offshore installations, offshore installations, and drilling rigs.

Among these, the semi-submersible marine facility consists of a structure in which a working platform is supported by a plurality of columns at the top of a submerged pontoon, And when the pontoon arrives at the required position, the pontoon is filled with water and totally sinks to a certain extent, thereby lowering the height above the water surface so as to be able to work stably even in rough sea conditions.

Such semi-submersible offshore installations are mainly used for drilling for the drilling of submarine resources such as gas and oil, but some are used as production facilities.

On the other hand, the azimuth thruster is installed in the semi-submersible offshore facility, drill ship, shuttle tanker or floating production storage offloading unit (FPSO) It is a propulsion unit for automatic positioning by main propulsion unit or computer and has the feature of being installed under the water surface.

Figs. 1 to 4 are step-by-step process diagrams showing a method of installing an azimuth thruster at a deep water depth, and show a method of installing an azimuth thruster 20 at the bottom of a ship 10. Fig.

First, a thruster base 70 is placed on a load-out pants, a floating dock or the like, which is floated on a sea surface 50 having a deep water depth, as shown in FIG. 1, and an azimuth thruster 20 is seated thereon And then part of the load-out pants, floating dock or similar barge 30 is submerged in water having a deep water depth as shown in FIG. 2 to form an azimuth thruster 20 have a certain distance from the bottom of the ship 10.

Thereafter, the load-out pants, the floating dock or the like barge 30 is moved to the bottom of the ship 10 on which the azimuth thruster 20 is to be installed as shown in FIG. 3, After the stools 20 have been installed, the load-out pants, floating dock or similar barge 30 is separated from the vessel 10 and then floated with the thruster platform 70, as shown in FIG. 4, The azimuth thrusters 20 can be installed on the ship without risk of loss even in deep water.

However, according to the installation method of the azimuth thrusters described above, there is a problem that it is difficult to install the azimuth thrusters at precise positions when the birds are severe due to typhoons or the like.

Korean Patent Publication No. 10-2009-0016832 (2009.02.18.)

DISCLOSURE OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems and to provide a semi-submersible marine vessel capable of safely installing Ajimus thrusters in a precise position without being restricted by the working environment on a deep sea floor, The azimuth thruster installation structure of the facility and the azimuth thruster installation method using the azimuth thruster installation structure are provided.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In order to achieve the above object, an azimuth thruster installation structure of a semi-submergible offshore installation of the present invention comprises a work platform, a plurality of pontoon submerged in seawater disposed under the work platform, A semi-submersible offshore installation for drilling an underwater floor comprising a plurality of columns supporting a plurality of pontoons and a plurality of azimuth thruster provided on the bottom of the pontoon, A lower plate spaced apart from the pontoon at an installation position of the azimuth thruster and having a cross section formed in a U shape; Side plates provided between both ends of the pontoons and the lower plate; An upper plate provided between the upper end of the pontoon and the lower plate; And an upper plate formed on at least one of the upper and lower plates; .

Further, the lower plate is characterized in that its upper end is formed so as to be disposed at the same position as the upper surface of the pontoon.

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The azimuth thruster installation structure of the semi-submergible offshore installation includes at least one sealing tube provided at a contact point between the pontoons and the side plate; .

In order to accomplish the above object, the present invention provides a method for installing an azimuth thruster using a semi-submergible offshore installation, , Moving the semi-submergible marine facility to a sea of predetermined depth; Installing an azimuth thruster installation structure of the semi-submergible offshore installation under the pontoons; Draining the seawater introduced into the installation structure of the azimuth thruster; Installing the azimuth thrusters at the bottom of the pontoons; And separating the mounting structure of the azimuth thruster from the bottom of the pontoon; .

The method of installing the azimuth thrusters of the semi-submergible offshore installation is characterized in that after the step of draining the seawater flowing into the installation structure of the azimuth thruster, the inside of the installation structure of the azimuth thruster is dried step; .

According to the present invention, it is possible to safely install Ajimus thrusters at precise positions without being restricted by the working environment in a deep sea floor even when the birds are severely affected by a typhoon or the like, thereby remarkably improving production and operation efficiency have.

FIGS. 1 to 4 are step-by-step flow charts showing a method of installing an azimuth thruster in a deep water depth region.
FIG. 5 is a side view showing a state in which an azimuth thruster installation structure is mounted on a semi-submergible offshore installation according to an embodiment of the present invention.
6 is a front view showing a state in which an azimuth thruster installation structure is mounted on a semi-submergible offshore installation according to an embodiment of the present invention.
7 is a perspective view illustrating an azimuth thruster installation structure of a semi-submergible offshore installation according to an embodiment of the present invention.
8 is a flowchart illustrating a method of installing the azimuth thrusters of a semi-submergible offshore installation according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification. 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 or scope of the inventions. Of course.

FIGS. 5 and 6 are a side view and a front view showing a state where an azimuth thruster installation structure is mounted on a semi-submergible offshore installation according to an embodiment of the present invention. FIG. Fig. 3 is a perspective view showing an azimuth thruster installation structure of an offshore facility. Fig. The azimuth thruster installation structure of the semi-submergible offshore installation will be described in detail with reference to FIGS. 5 to 7. FIG.

First, the semi-submergible offshore facility 100 is mainly used for drilling for drilling a submarine resource such as gas, oil, etc., and includes a work platform 102, a work platform 102 disposed below the work platform 102, A plurality of columns 106 for supporting the work platform 102 against the plurality of pontoons 104 and a plurality of columns 106 for supporting the work platform 102 at the bottom of the pontoons 104. [ And an azimuth thrust (108).

The height of the pontoons 104 is approximately 10 m to 12 m and the diameter of the azimuth thruster 108 is approximately 5 m to 8 m. However, since the depth of the dock wall is only 7 m to 8 m, In order to stably mount the azimuth thruster (108) on the lower part of the marine facility (100), the underwater installation should be carried out at a water depth of about 30 m.

The installation structure 200 of the present invention is required to safely mount the azimuth thruster 108 without being limited by the working environment in such a deep sea floor.

That is, the installation structure 200 is installed in the lower part of the semi-submergible offshore facility 100, and has a space for securely mounting the azimuth thruster 108 without being limited by the working environment in a deep sea floor And includes a lower plate 210, a side plate 220, an upper plate 230, and a sealing tube 240.

The lower plate 210 is spaced apart from the pontoons 104 at a position where the azimuth thruster 108 is installed, and the cross section is formed in a U-shaped plate shape.

The side plate 220 is provided between both ends of the pontoons 104 and the lower plate 210 to seal the space where the azimuth thruster 108 is installed from the seawater.

The upper plate 230 is provided between the pontoons 104 and the upper end of the lower plate 210.

The lower plate 210, the side plate 220 and the upper plate 230 are integrally formed to seal the installation space of the azimuth thruster 108.

On the other hand, at least one of the upper plates 230 has an entrance 232 formed therein. That is, the entrance 232 serves as a passage for an operator to enter the installation structure 200 in order to install the azimuth thruster 108 at the bottom of the pontoon 104.

Therefore, it is preferable that the height of the upper end of the lower plate 210 is arranged to be the same as the upper surface of the pontoon 104, so that the operator can easily enter the entrance 232.

The sealing tube 240 is provided at a contact point between the pontoon 104 and the side plate 220 so that when the seawater introduced into the installation structure 200 is discharged to the outside, So that the interior is completely sealed from the seawater so that the installation work of the Ajimus thruster 108 proceeds without limitation by seawater.

8 is a flowchart illustrating a method of installing the azimuth thrusters of a semi-submergible offshore installation according to an embodiment of the present invention. The method of installing the azimuth thrusters will be described in detail with reference to FIG.

First, in order to install the azimuth thruster 108 in the semi-submergible offshore facility 100, the semi-submersible offshore installation 100 is moved to a sea surface having a depth of about 30 m as described above (S100 ).

The installation structure 200 of the azimuth thrusters is installed below the pontoons 104 of the semi-submergible offshore facility 100 located in the sea (S200).

After the installation structure 200 is installed, the seawater introduced into the installation structure 200 is drained by using a pump or the like (S300).

After draining the seawater flowing into the installation structure 200, the inside of the installation structure 200 is dried (S400).

After the inside of the installation structure 200 is dried, the workers entering the inside of the installation structure 200 through the entrance 232 open the Ajimus thruster 108 to the bottom of the pontoon 104 (S500).

The installation structure 200 is separated from the lower part of the pontoons 104 in step S600 and the installation position of the other azimuth thruster 108 is installed The structure 200 is moved to repeat the installation work of the azimuth thrusters.

Therefore, according to the present invention, since the azimuth thruster can be safely installed at the accurate position of the bottom of the pontoon without being restricted by the working environment in the deep sea floor even if the algae are severe due to a typhoon or the like, .

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

100: semi-submersible offshore facility 102: work platform
104: pontoon 106: column
108: Ajimus Thruster 200: Installation structure
210: lower plate 220: side plate
230: upper plate 232:
240: Sealing tube

Claims (6)

A work platform, a plurality of pontoons disposed at a lower portion of the work platform and submerged in seawater, a plurality of columns supporting the work platform to the plurality of pontoons, and a plurality of columns In a semi-submersible offshore installation for drilling for drilling an undersea floor including four azimuth thrusters,
A lower plate spaced apart from the pontoon at an installation position of the azimuth thruster and having a cross section formed in a U-shape;
Side plates provided between both ends of the pontoons and the lower plate;
An upper plate provided between the upper end of the pontoon and the lower plate; And
An entrance formed in at least one of the upper plates; The azimuth thruster installation structure of semi-submersible offshore installations. The method according to claim 1,
Wherein the lower plate is formed such that the upper end thereof is disposed at the same position as the upper surface of the pontoon. delete The method according to claim 1,
At least one sealing tube provided at a point of contact between the pontoons and the side plates; The azimuth thruster installation structure of a semi-submersible offshore installation. A method of installing an azimuth thruster using an azimuth thruster installation structure of a semi-submergible offshore installation according to claim 1,
Moving the semi-submergible offshore installation to a sea of predetermined depth;
Installing an azimuth thruster installation structure of the semi-submergible offshore installation on a lower portion of the pontoon;
Draining the seawater introduced into the installation structure of the azimuth thruster;
Installing the azimuth thrusters at the bottom of the pontoons; And
Separating the mounting structure of the azimuth thruster from the bottom of the pontoon; A method of installing azimuth thrusters in a semi-submergible offshore installation. 6. The method of claim 5,
Drying the inside of the installation structure of the azimuth thruster after draining the seawater flowing into the installation structure of the azimuth thruster; Wherein the azimuth thrusters are installed in a semi-submergible offshore installation.

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