KR20140022999A - Installation method for azimuth thruster of semi-submersible drilling unit - Google Patents

Abstract

The present invention relates to an azimuth thruster installing method of a semi-submersible drilling unit, which is provided to easily perform the installation work of an azimuth thruster and reduce costs and time which are necessary for works by reducing work limitation conditions including a water level and weather. The azimuth thruster installing method according to the present invention comprises: a step (S110) for closing the lower end part of a thruster room which is formed to penetrate a pontoon structure in an up and down direction; a step (S120) for building an azimuth thruster in the thruster room temporarily after the step (S110); a step (S130) for installing a bucket which provides a space for the installation work of the azimuth thruster right under the thruster room after the step (S120); a step (S140) for discharging water in the bucket and opening the lower end part of the thruster room after the step (S130); a step (S150) for fixing the azimuth thruster built in the thruster room on the pontoon structure after moving the azimuth thruster to an installation position after the step (S140); and a step (S160) for removing the bucket after the step (S150). [Reference numerals] (AA) Welding; (BB) S150 step

Description

Installation method for azimuth thruster of semi-submersible drilling unit

The present invention relates to a method for installing an azimuth thruster of a semi-submersible drilling unit, and in particular, a bucket is installed directly under a pontoon structure in which an azimuth thruster is to be installed. A method for installing azimuth thrusters of semi-submersible drilling units.

Semi-submersible drilling units are offshore structures with drilling functions for the development of resources such as oil and gas on the seabed. Since the semi-submersible drilling unit has a smaller area of contact with water than general vessels, and thus is less affected by waves, drilling is possible even in severe waters.

1 shows an exemplary view showing the structure of a semi-submersible drilling unit.

The semi-submersible drilling unit includes a pontoon structure 10 and an upper structure 20 on which drilling equipment is mounted. The pontoon structure 10 and the upper structure 20 are formed by a plurality of columns 30. It is connected structure.

Meanwhile, the pontoon structure is disposed at the bottom of the semi-submersible drilling unit to generate buoyancy. The pontoon structure includes a plurality of pontoon structures. The pontoon structure provides a propulsion force for the movement of the semi-submersible drilling unit at the bottom of each pontoon structure. A number of Azimuth thrusters 40 are installed which allow the semi-submersible drilling unit to maintain the drilling position.

Since the azimuth thruster provided in the pontoon structure has a structure protruding from the bottom of the pontoon structure by a considerable length, installation work in the dock is impossible, so that the azimuth thruster is installed after launching the semi-submersible drilling unit. Work is going on separately.

On the other hand, the underwater installation work of the azimuth thruster is performed after moving to the sea area with sufficient depth for the installation work due to the depth limit of the quay wall. That is, about 18 ~ 30m of water depth is required to precisely align and install the position and posture of the azimuth thruster underwater. However, since there is no inner wall with this depth, it is sufficient for installation work of the azimuth thruster. They had to move to the deep waters.

As such, in the conventional art, a seawater having a suitable depth for underwater installation of azimuth thruster has to be found and moved, and the work is very cumbersome. It is frequently occurring, and there is a high risk of accident occurrence during underwater work.

The present invention has been made in consideration of the above problems, and an object of the present invention is to reduce the working conditions such as water depth and weather to facilitate the installation work of the azimuth thruster, the cost and time required for the work It is to provide a method of installing azimuth thruster of the semi-submersible drilling unit to reduce the number of.

Another object of the present invention is to perform the welding work for the installation of the azimuth thruster in the bucket, the azimuth thruster of the semi-submersible drilling unit that can improve the convenience and quality of welding work by excluding the underwater welding work Is to provide a method for installing the tester.

Still another object of the present invention is to provide an azimuth thruster installation method of a semi-submersible drilling unit that can reduce the risk of an accident by minimizing underwater operation.

Azimuth thruster installation method of the semi-submersible drilling unit of the present invention to achieve the object as described above and to perform the problem to eliminate the conventional drawback closed the lower part of the thruster room formed to penetrate the pontoon structure up and down Step (S110); After step S110, hypothesizing azimuth thrusters in the thruster room (S120); After the step S120, the step of installing a bucket that provides a space for the installation operation of the azimuth thruster directly below the thruster room (S130); After the step S130, discharging the water in the bucket, opening the lower end of the thruster room (S140); After step S140, after moving the azimuth thruster hypothesized in the thruster room to the installation position, and fixing to the pontoon structure (S150); And after the step S150, removing the bucket (S160).

Meanwhile, in the step S130, it is preferable to assemble the bucket to the pontoon structure using bolts.

Meanwhile, after fixing the propeller part of the azimuth thruster to the pontoon structure through the steps S120 to S150, it is preferable to install the motor part of the azimuth thruster in the propeller part in step S160.

According to the present invention having the above characteristics, it is possible to install the azimuth thruster at a lower depth than in the prior art, and because it is less affected by the weather, the cost and duration required for the installation work of the azimuth thruster There is an effect to reduce.

It also has the effect of minimizing underwater work to prevent safety accidents.

1 is an exemplary view showing the structure of a semi-submersible drilling unit,
Figure 2 is a perspective view showing the structure of the pontoon (portal side) structure,
3 to 8 is a state diagram showing each step of the azimuth thruster installation method according to the invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Figure 2 is a perspective view showing the structure of the pontoon structure, Figures 3 to 8 show a state diagram showing each step of the azimuth thruster installation method according to the present invention.

Azimuth thruster installation method of the semi-submersible drilling unit of the present invention by installing a separate bucket 110 in the pontoon structure 10 to install the azimuth thruster 40 in the bucket 110, not underwater In order to be carried out in the step, closing the lower end of the thruster room 11 formed to penetrate the pontoon structure 10 up and down (S110); After the step S110, placing the azimuth thruster 40 in the thruster room 11 (S120); After the step S120, the step of installing the bucket 110 to provide a space for the installation work of the azimuth thruster 40 directly below the thruster room (11) (S130); After the step S130, draining the water in the bucket 110, opening the lower end of the thruster room (11) (S140); After the step S140, the azimuth thruster 40 installed in the thruster room 11 is transported to the lower portion of the pontoon structure 10 to weld and fix the azimuth thruster 40 to the pontoon structure 10. Step S150; And after step 150, removing the bucket 110 (S160).

The step S110 is to close the lower end of the thruster room 11 formed in the pontoon structure 10 for the installation work of the azimuth thruster 40 to prevent the inflow of seawater into the interior of the thruster room (11) Step.

The thruster room 11 is formed to penetrate the top and bottom of the pontoon structure 10, and by installing a separate cover plate 12 at the lower end of the thruster room 11, It will close the bottom.

In closing the lower end of the thruster room 11 using the cover plate 12 as described above, it is preferable to fix the cover plate 12 to the lower end of the thruster room 11 by welding. The cover plate 12 may be installed at the lower end of the thruster room 11 using fastening means such as bolts.

The step S120 is a step of arranging the azimuth thruster 40 in the thruster room 11, so that the azimuth thruster 40 can be easily moved to a required position.

This step S120 can be used in a variety of known ways without particular limitation if it can hypothesize the azimuth thruster 40 in the thruster room 11 in the required posture and position. For example, the lifting device (F) such as a crane or a chain block is provided on the pontoon structure 10 or the upper structure to lift the azimuth thruster 40 in a required posture and position, or the azimuth thruster 40. This can be achieved by directly engaging the structural members that form the lifting lugs and the thruster rooms 11 with wires or chains by installing lifting lugs.

Steps S110 and S120 as described above are performed in a dock or a quay wall.

The step S130 is a step of securing a work space for installing the azimuth thruster 40 by installing the bucket 110 directly under the thruster room 11 formed in the pontoon structure 10.

Meanwhile, the bucket 110 is a container having a structure capable of accommodating the azimuth thruster 40, and has an open top structure, and a flange 111 for coupling with the pontoon structure 10 around the top end. ) Is formed.

The bucket 110 is lifted to the lower portion of the pontoon structure 10, is assembled to be located directly below the thruster room 11, can be assembled by welding, but the bolt to increase the convenience of disassembly and underwater work It is preferable to assemble to the pontoon structure 10 by using the 112, although not shown, a sealing material for watertightness is installed between the flange 111 and the pontoon structure 10.

The installation of the bucket 110 is performed in the water as in the conventional installation of the azimuth thruster, but the bucket 110 is not required precise installation and lightweight compared to the azimuth thruster (40) low depth You can easily and quickly work.

In step S140, after the assembly of the bucket 110 is completed, the cover plate 12 installed to close the lower end of the thruster room 11 is removed to open the lower end of the thruster room 11.

Meanwhile, prior to the removal of the cover plate 12, a drainage operation of discharging the water filled in the bucket 110 to the outside is performed. The removal of the cover plate 12 may be performed through a cutting operation. The cover plate 12 removed from the thruster room 11 is stored in the bucket 110.

The step S150 is a step of lowering the azimuth thruster 40 hypothesized in the thruster room 11 to move to the installation position, and then welding and fixing the azimuth thruster 40 to the pontoon structure 10. .

Since the welding operation for fixing the azimuth thruster 40 to the pontoon structure 10 is performed in the bucket 110 rather than underwater, it is possible to increase safety and workability as well as to improve welding quality. There is an advantage to that.

Meanwhile, when the work required in the bucket 110 is completed, the bucket 110 is released from the bucket 110 through a manhole (not shown) provided in the pontoon structure 10.

The step S160 is a step of removing the bucket 110 assembled at the lower end of the thruster room 11, after disassembling the bolt fastened to fix the bucket 110 to the pontoon structure 10, the bucket 110 By lifting over the surface of the water.

In installing the azimuth thruster 40 through the steps S110 to S160 as described above, in order to facilitate the handling of the azimuth thruster 40 that is heavy, the azimuth thruster through the steps S120 to S150. After installing the propeller portion 41 of the 40 to the pontoon structure 10, it is preferable to assemble the motor portion 42 of the azimuth thruster 40 to the propeller portion 41 in the step S160.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
(10): Pontoon Structures (11): Thruster Room
12: cover plate 20: superstructure
30: column 40: azimuth thruster
41: propeller portion 42: motor portion
110: bucket

Claims (3)

Closing the lower end of the thruster room formed to penetrate the pontoon structure up and down (S110);
After step S110, hypothesizing azimuth thrusters in the thruster room (S120);
After the step S120, the step of installing a bucket that provides a space for the installation work of the azimuth thruster directly below the thruster room (S130);
After the step S130, discharging the water in the bucket, opening the lower end of the thruster room (S140);
After step S140, after moving the azimuth thruster hypothesized in the thruster room to the installation position, and fixing to the pontoon structure (S150); And
After the step S150, the azimuth thruster installation method of a semi-submersible drilling unit, characterized in that the step of removing the bucket (S160). The method according to claim 1,
The step S130 is azimuth thruster installation method of a semi-submersible drilling unit, characterized in that assembling the bucket to the pontoon structure using a bolt. The method according to claim 1,
After fixing the propeller portion of the azimuth thruster to the pontoon structure through the step S120 to S150, the azimuth of the semi-submersible drilling unit, characterized in that to install the motor portion of the azimuth thruster in the propeller in step S160 How to install thruster.

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