KR101613218B1 - Marine Drilling System - Google Patents

Abstract

A marine drilling facility is provided with a gate pool on the hull.
The marine drilling rig includes: a recess formed on the upper portion of the door frame; A plurality of switch grooves; And a plurality of switch plates respectively installed in the plurality of switch grooves, wherein the plurality of switch plates are lifted by the seawater flow to interfere with the seawater flow, and when there is no seawater flow, Respectively.

Description

[0001] Marine drilling system [

The present invention relates to a marine drilling facility, and more particularly, to a marine drilling facility configured to reduce seawater flow occurring in a recess.

Along with the development of submarine mining technology, drilling lines have been developed with drilling facilities suitable for marginal field or deep sea oil development. Conventional submarine drilling has been mainly used for a rig ship or a rigid platform for underwater drilling that can be sailed only by another tugboat and performs submarine drilling with anchorage at one point of the sea using a mooring device. In recent years, a drill ship, which is equipped with advanced drilling equipment and manufactured in the same form as a ship, has been developed and used for underwater drilling so that it can be sailed by its own power.

Such an ocean drilling facility includes a Moon Pool for entering and exiting various equipment for drilling, which is a rectangular parallelepiped or cylindrical space formed to penetrate vertically between the deck and the bottom of the hull. In addition, a marine drilling plant having a two-end structure has an auxiliary space for temporarily lowering drilling equipment such as BOP (Blow Out Preventer), which is called a recess.

However, in the conventional drill ship, there is a problem that the crew working on the drilling equipment or the hull installed on the top of the drum can be damaged by the seawater flow generated in the recess.

Hereinafter, referring to FIG. 1, a principle of generating a large sea water flow in the recess will be described.

1 is a partial side view of a conventional drill-in recess.

Sea waves generated by the wind are always present outside the hull 1 and seawater in the interior of the hatchery 2 receives the energy from the sea waves outside the hull 1 to generate the wave 5a.

Sea waves can be classified into deep-sea waves and deep-sea waves depending on the relationship between depth and wavelength. Sea waves in the case where the water depth is deeper than one-half of the wavelength is called deep water waves and the sea depth is shallower than one- Is called a deep sea wave.

The deep-sea waves are also called longwaves, and water particles are subjected to elliptical motion by the frictional force of the seabed since they are affected by the seabed. The propagation velocity of the shallow wave is irrelevant to the wavelength and is related only to the depth of water. Therefore, the progressive velocity of the shallow wave is slowed down as the depth becomes shallower. As the propagation speed of the deep sea wave slows down, the kinetic energy that is reduced changes to the potential energy, so that as the coastal wave approaches the coast, the wavelength becomes shorter and the wave height becomes higher.

For example, in the case of a tsunami that has a characteristic of shallow waves, if a tsunami occurs with an extremely long wavelength of 100 to 200 kilometers in the distant sea due to an earthquake, However, as the tsunami approaches the shore, the depth of the tsunami becomes shallower, slowing down the process, reducing the wavelength to several kilometers, and increasing the tsunami to tens of meters.

When the wave 5a generated in the interior space 2 has a characteristic of a deep sea wave, the depth of water in the recess 3 becomes shallow, so that the sea wave 5b in the recess 3, . The wave 5b in the recess 3 having a high crest causes a large seawater flow and the wave 5b in the recess 3 rides on the inside wall surface 2a of the interior space of the recess 3, (4) damage to crew members who are working on the hull (1).

Hereinafter, the interior wall surface 2a of the interior wall means the inner wall surface of the interior wall 2 connected to the recess 3. [

SUMMARY OF THE INVENTION It is an object of the present invention to provide a marine drilling rig that is configured to reduce the flow of seawater in a recess by providing a switch plate on the inner side wall and the recess bottom of the platform.

According to an aspect of the present invention, there is provided a marine drilling rig having a door pool formed on a hull, the marine drilling rig comprising: a recess formed on the door frame; A plurality of switch grooves; And a plurality of switch plates respectively installed in the plurality of switch grooves, wherein the plurality of switch plates are lifted by the seawater flow to interfere with the seawater flow, and when there is no seawater flow, Respectively, which are accommodated in the switch grooves.

The switch groove and the switch plate may be formed on the recess bottom surface, and the switch groove and the switch plate may be formed on the inner side wall surface of the door.

The switch groove may include a buffer member at a position where the switch plate contacts the switch groove.

The switch groove may further include a hinge coupling portion such that the switch plate is hinged to the inside of the switch groove, and the switch plate may be rotated by the sea water flow about the hinge coupling portion.

According to another aspect of the present invention, there is provided a method for manufacturing a marine drilling rig to prevent damages caused by seawater flowing in a door frame, the method comprising the steps of: ; Forming a plurality of switch grooves on the recess bottom surface; And installing a plurality of switch plates to be hingedly coupled to the plurality of switch grooves formed on the bottom surface of the recess.

The method for manufacturing a marine drilling rig includes the steps of: forming a plurality of switch grooves on the inner side wall of the door pillar; And installing a plurality of switch plates to be hingedly coupled to the plurality of switch grooves formed in the inner side wall of the door openings, respectively.

The method for manufacturing a marine drilling rig may further comprise the step of installing a buffer member at each position where a plurality of the switch plates are lifted up by the seawater flow and contact the plurality of switch plates.

According to another aspect of the present invention, there is provided a marine drilling rig having a recess in a hull, the marine drilling rig including a plurality of switch plates lifted by seawater flow in the recess, / RTI >

FIG. 1 is a side view schematically showing a drillhose formed with a recess in a door frame according to a conventional technique.
2 is a side view schematically illustrating a marine drilling rig according to a preferred embodiment of the present invention.
3 is a plan view as seen in III of Fig.
4 is a front view as seen from IV of Fig.
5 is a side view schematically showing a switch groove and a switch plate formed on a bottom surface of a recess according to the present invention.
FIG. 6 is a side view schematically showing a switch groove and a switch plate formed on the inner side wall of the door of the present invention.
7 is a side view schematically illustrating a marine drilling rig according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The marine drilling rigs of the following embodiments can be installed in all marine structures for submarine drilling where recesses are formed in a portal, such as a league line, a drill ship, and the like. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

FIG. 2 is a side view schematically showing a marine drilling facility according to a preferred embodiment of the present invention, FIG. 3 is a plan view as seen from FIG. 2, and FIG. 4 is a front view as viewed from FIG.

Referring to FIG. 2, the marine drilling rig of the present embodiment comprises a platform 2 formed on the ship 1; A recess (3) formed in the interior (2) of the drum and capable of temporarily positioning the drilling rig (4); A plurality of switch grooves (6a, 6b) formed on the recess bottom surface (3a) and the inner side wall surface (2a) of the interior of the recess; And a plurality of switch plates 7a and 7b provided inside the plurality of switch grooves 6a and 6b, respectively.

The door frame 2 is formed to penetrate the hull 1 in the vertical direction so that various drilling rigs 4 for the drilling operation at the seabed can enter and exit, and can have a rectangular parallelepiped shape or a cylindrical shape. A plurality of switch grooves 6b in which the switch plate 7b is provided are formed in the inside wall surface 2a of the embodiment of the present invention and the inside of each switch groove 6b formed in the inside wall surface 2a of the inside wall 2a A plurality of switch plates 7b lifted by the sea water flow are respectively installed.

The recess 3 is formed in the interior of the interior 2 to provide a place where the drilling rig 4 such as a BOP can be temporarily lowered and generally the recess 3 is located below the aft- , The position where the recess 3 of the present invention is formed is not limited to the position below the aft-side sea level.

2, 3, and 4, a plurality of switch grooves 6a and 6b are formed in the recess bottom surface 3a and the inner side wall surface 2a of the ink container, and a plurality of switch grooves 6a and 6b Correspondingly, a plurality of switch plates 7a and 7b are provided on the recess bottom surface 3a and the inside wall surface 2a of the interior surface of the interior wall. A plurality of switch grooves 6b may be formed on the inner side wall 2a of the back face 21 as well as on the inner side wall 2a of the first side face 22 and the second side face 23, 7b are also provided on the inner side wall face 2a of the back face 21 side as well as on the inner side wall face 2a of the first side face 22 and the second side face 23 in correspondence with the switch groove 6b .

The switch grooves 6a and 6b and the switch plates 7a and 7b of this embodiment are arranged so as to be aligned in the horizontal and vertical directions but the switch grooves 6a and 6b and the switch plates 7a and 7b are not aligned It is possible.

FIG. 5 is a side view schematically showing a switch groove and a switch plate formed on the bottom surface of the recess of the present invention, and FIG. 6 is a side view schematically showing a switch groove and a switch plate formed on the inner side wall of the interior space of the present invention .

5 and 6, the switch grooves 6a and 6b are formed in the recess bottom surface 3a and the inside wall surface 2a of the interior of the interior of the recess to provide the switch plates 7a and 7b therein. The switch plates 7a and 7b are provided so as not to interfere with placing the drilling rig 4 in the recess 3 when the switch plates 7a and 7b are not lifted because the seawater flow is not large. The switch grooves 6a and 6b are formed in accordance with the shape of the switch plates 7a and 7b so that the outer surface 71 of the switch plate 7a and 7b is positioned on a horizontal plane with the recess bottom surface 3a and the inner side wall surface 2a.

The switch grooves 6a and 6b may further include a buffer member 8 which is configured such that when the switch plates 7a and 7b are lifted by the seawater flow, the switch plates 7a and 7b and Is provided at a position where the switch grooves (6a, 6b) are in contact with each other, thereby relieving the shock caused by the seawater flow to be transmitted to the hull (1) through the switch plates (7a, 7b). The buffer member 8 prevents the switch plates 7a and 7b and the switch trenches 6a and 6b from being worn out by causing the switch plates 7a and 7b to strike the switch trenches 6a and 6b by seawater flow, .

The switch plates 7a and 7b are installed so as to be lifted up by the seawater flow to reduce seawater flow. A plurality of switch plates 7a and 7b are installed in the plurality of switch grooves 6a and 6b, respectively. The switch plates 7a and 7b are hinged to the recessed bottom surface 3a or the inside surface 2a of the interior of the switch recesses 6a and 6b. Referring to FIGS. 2 and 5, 2 and 6, the switch plate 7a provided on the inner side wall 2a of the tablet accommodating portion 3a is provided with a hinge engaging portion 9 close to the inner side wall 2a of the tablet. (7b) is provided with a hinge engaging portion (9) on the upper side.

Therefore, the switch plate 7a provided on the recessed bottom surface 3a can be raised by the seawater flow to the side of the inside wall surface 2a facing the inside wall surface 2a away from the inside wall surface 2a, , The switch plate 7b provided on the inside wall surface 2a of the interior surface of the door can be raised upward by the seawater flow to interfere with the seawater flow.

When the seawater flow in the recess 3 is not severe, the switch plates 7a and 7b are accommodated in the switch grooves 6a and 6b by their own weight so that the recess bottom surface 3a and the inside wall surface 2a The flat state can be maintained without protruding portions.

The switch plates 7a and 7b of the present embodiment are configured such that when the seawater flow is not severe, the outer surface 71, which is placed on the horizontal surface with the recess bottom surface 3a or the inner surface side 2a of the interior surface, The switch plates 7a and 7b position the drilling rig 4 in the recess 3 if they are not lifted by the seawater flow If there is a large seawater flow inside the recess 3 without being disturbed, it can have various forms for effectively reducing the seawater flow.

Although the recess bottom surface 3a is formed below the sea surface in the above embodiment, the recess bottom surface 3a may be disposed above the sea surface as shown in FIG.

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 invention. It is.

1: Hull 2:
2a: Inner side wall surface of the interior surface 21:
22: first side 23: second side
3: recess 3a: recessed bottom surface
4: Drilling equipment 5a, 5b: Sea water
6a, 6b: switch grooves 7a, 7b: switch plate
71: outer surface 72: inner surface
8: buffer member 9: hinge coupling part

Claims (9)

As a marine drilling facility in which a gate pool is formed on the hull,
A recess formed on the upper surface of the door frame;
A plurality of switch grooves installed at one or more of the bottom surface of the recess and the inner side wall of the door frame; And
And a plurality of switch plates respectively installed in the plurality of switch grooves,
Wherein the switch groove includes a hinge coupling portion such that the switch plate is hinged to the inside of the switch groove,
Wherein when the switch groove is provided on the bottom surface of the recess, the hinge connecting portion is provided in a vicinity of the inside wall surface of the inside of the switch groove, It is installed in the upper part of the inside,
The plurality of switch plates are lifted by the seawater flow with the hinge coupling part as an axis to interfere with the seawater flow. When there is no seawater flow, the switch plates are accommodated in the plurality of switch grooves by their own weight,
Wherein an upper surface of the switch plate in a state in which the switch groove is accommodated is located on the same plane as the recess bottom surface or the inside surface of the interior surface of the tabletop provided with the switch groove. delete delete The method according to claim 1,
The switch groove
And a buffer member at a position where the switch plate and the switch groove contact each other. delete delete delete delete delete

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