KR20140049208A - Semi submersible drilling rig - Google Patents

Abstract

The present invention relates to a semi-submersible drillship, including: a column; a pair of pontoons which is connected to the bottom of the column to float on the sea and includes a thruster for a direction control; and a bending plate which is prepared under the pontoons while being oriented to the thruster and is bent downward. In order to prevent the propulsion generated by the thruster from colliding to a neighboring pontoon, the course of propulsion can be changed, thereby preventing the offsetting of the propulsion and improving the efficiency of the thruster.

Description

Semi submersible Drilling Rig

The present invention relates to a semi-submersible drill ship.

With the rapid development of international industrialization and industry, the use of earth resources such as petroleum is gradually increasing, and thus the stable production and supply of oil is becoming a very important issue on a global scale.

For this reason, the development of marginal oil fields and deep-sea oil fields, which had been neglected due to economic difficulties, has become economical in recent years. Therefore, along with the development of seabed mining technology, a drilling vessel equipped with a drilling facility suitable for the development of such an oil field has been developed.

In such a drilling vessel, a moonpool is formed in the center of a drilling vessel equipped with various drilling equipments so that oil or gas existing in the basement of the seabed can be moved up and down.

Here, the riser is a device for recovering the mud, sand, gravel, etc. ejected during the drilling operation and protects the drill pipe for drilling. When the drilling operation is finished, it is transported back to the loading site by the opposite path.

In particular, the semi-submersible drilling ship of the drilling vessel includes a pontoon as a box-shaped floating body for floating in the sea water, and includes a thruster for adjusting the position of the pontoon to prevent the position is changed by the flow of sea water. It will be described below with reference to the drawings.

1 is a view showing the movement of sea water by the thruster operation of a general semi-submersible drilling vessel.

As shown in FIG. 1, the semi-submersible drill ship includes a buoyant pontoon 20 and a thruster 21 installed below the pontoon 20.

The thruster 21 generates a thrust, and the thrust generated by the thruster 21 may flow upward along the lower surface of the pontoon 20 while moving upward from the outside point of the pontoon 20. When the thrust of the thruster 21 is generated toward a neighboring pontoon (not shown), the flow of seawater collides with the neighboring pontoon, and as the thrust is canceled, there is a concern that the efficiency of the thruster is lowered.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to provide a semi-submersible drilling ship that can prevent the thrust generated in the thruster collide with the pontoon.

Semi-submersible drilling vessel according to an embodiment of the present invention, the column; A pair of pontoons connected to the lower side of the column and suspended in the ocean, the pair of pontoons including a thruster for direction adjustment; And it is provided on the lower side of the pontoon facing the thruster, characterized in that the downward slope includes a bending plate.

The semi-submersible drilling vessel according to the present invention can improve thruster efficiency by preventing the thrust from canceling by changing the movement path of the thrust to prevent the thrust generated by the thruster from colliding with the neighboring pontoons. have.

1 is a view showing the movement of sea water by the thruster operation of a general semi-submersible drilling vessel.
2 is a front view of a semi-submersible drilling vessel according to an embodiment of the present invention.
Figure 3 is a bottom view showing a semi-submersible drilling vessel according to an embodiment of the present invention.
4 is a perspective view conceptually illustrating A of FIG. 3.
5 is a view showing the movement of seawater by the thruster operation of the semi-submersible drilling vessel according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a front view of a semi-submersible drill ship according to an embodiment of the present invention, Figure 3 is a bottom view showing a semi-submersible drill ship according to an embodiment of the present invention, Figure 4 is a conceptual view of A of FIG. Figure 5 is a perspective view, Figure 5 is a view showing the movement of seawater by the thruster operation of the semi-submersible drilling ship according to an embodiment of the present invention.

As shown in Figure 2 to 5, the semi-submersible drilling vessel 100 according to an embodiment of the present invention, includes a column 110, pontoon 120 and the bending plate 130.

Column 110 is a column so that the upper floor can be installed so that the equipment such as risers (not shown), drill pipe (not shown) for drilling work can be stored and installed, the load of the equipment In order to secure rigidity to withstand the structure of the trust type (not shown) may be installed.

Here, the riser is a member that is installed in advance to the bottom of the sea floor before the drill pipe is advanced to the oil well, and prevents the drill pipe from being exposed to seawater. When the riser is installed from the column to the seabed, the drill pipe may be advanced downwardly through the seabed to the well into the riser.

The pontoon 120 is a box-shaped floating body which is manufactured such that the semi-submersible drilling vessel 100 floats in the ocean, such as a vessel, and is connected to the lower side of the column 110 in pairs. The pontoon 120 includes a thruster 121 for adjusting the direction on the lower surface.

The thruster 121 is a thrust generating device, for example, as shown in FIG. 3, in the longitudinal direction of each pontoon 120 along the virtual circular circumference B of the lower surface of the pair of pontoons 120. It is provided in pairs on each side, the pontoon 120 may be left and right rotation, left and right movement and forward and backward.

Here, the thruster 121 is a first thrust member 123 that is a pair of pontoons 120 symmetrically close to the virtual center line, and a second thruster spaced apart from the first thrust member 123. Stud member 124 may be included. The structure and shape of the first thrust member 123 and the second thrust member 124 are the same or similar. However, the installation position of the first thruster member 123 and the second thruster member 124 is different from the corner of the pontoon 120. In this embodiment, a total of eight thrusters 121 are provided.

The thruster 121 may adjust the position of the pontoon 120 floating in the ocean by converting the rotational force of the propeller into the flow force of the seawater, and receiving a control from a position sensor (not shown) (not shown) The operation can be controlled by) to allow the position of the semi-submersible drilling vessel 100 to be fixed.

In this case, each of the first thruster member 123 and the second thruster member 124 may be operated simultaneously or separately, and the rotation direction may be the same or different. In this embodiment, as shown in FIG. 3, each of the first thrust member 123 and the second thrust member 124 has a pair of pontoons 120 symmetrically toward an imaginary center line. Although shown to flow, this is only shown for understanding and convenience of the installation position of the bending plate 130, the flow of sea water by the thruster 121 is not limited thereto.

The bending plate 130 is configured to prevent the flow of seawater generated from the thruster 121 to the neighboring pontoon 120 and is provided below the pontoon 120 to face the thruster 121. For example, the bending plate 130 may be configured to prevent the thrust of the thruster 121 from being offset by the upward flow of the seawater by the thruster 121 to strike the pontoon 120. To prevent this, the shape is bent, but inclined downward. At this time, the flow of seawater prevented upward by the bending plate 130 is as shown in FIG.

Here, the bending plate 130 is provided for each of the thruster 121, the bending plate 130, the first bending plate member 131 and the second thruster facing the first thrust member 123 A second bending plate member 132 opposite to the member 124 may be included. In this case, the bending plate 130 may have a pair of pontoons 120 symmetrically and have the same length and bending angle as the configuration corresponding to the virtual center line. That is, the length and the bending angle of each of the first bending plate members 131 may be the same, and the length and the bending angle of each of the second bending plate members 132 may be the same, and the first bending plate members 131 and the first bending plate members 131 may be the same. The length and bending angle of each of the two bending plate members 132 may be different.

Here, the second thrust member 124 is spaced farther from the virtual center line than the first thrust member 123, and flows outward from the second thrust member 124 toward the virtual center line toward the outer portion of the pontoon 120. Since the flow amount of the sea water is reduced by a distance separated from the first thrust member 123, the second bending plate member 132 may have a gentler slope than the first bending plate member 131. In addition, although not shown in the drawings, the second bending plate member 132 may be shorter than the first bending plate member 131 to protrude.

On the other hand, although not shown in the drawings, the bending plate 130 has been described as being installed on the opposite side of the pair of pontoons 120, but may be installed outside the pair of pontoons 120, of course to be. In addition, the bending plate 130 may be formed in a curved surface, unlike the corner is formed at an angle.

As described above, the present embodiment changes the moving path of the thrust so that the thrust generated by the thruster 121 collides with the neighboring pontoon 120, thereby preventing the thrust from being canceled so that the thruster 121 is prevented. Can improve the efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

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 by the appended claims.

100: semi-submersible drill ship 110: column
120: pontoon 121: thruster
123: first thrust member 124: second thrust member
130: bending plate 131: first bending plate member
132: second bending plate member

Claims (3)

column;
A pair of pontoons connected to the lower side of the column and suspended in the ocean, the pair of pontoons including a thruster for direction adjustment; And
Semi-submersible drilling vessels provided on the lower side of the pontoon facing the thruster, the downward slope includes a bending plate. The method of claim 1,
The thrusters are provided in pairs on each of both sides in the longitudinal direction of each of the pontoons along a virtual circular circumference of the pair of pontoons,
The bending plate is provided for each of the thruster, semi-submersible drilling line, characterized in that the same length and bending angle for the position corresponding to each other. 3. The method of claim 2,
The thruster includes a first thruster member that symmetrically closes the pair of pontoons to a virtual centerline, and a second thruster member that is spaced apart from the outside of the first thruster member,
The bending plate may include a first bending plate member facing the first thrust member and a second bending plate member facing the second thrust member,
The second bending plate member is a semi-submersible drilling line, characterized in that the inclination is gentler than the first bending plate member.

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