KR20140040906A - Ice collision preventing structure of half-submerging drilling ship - Google Patents

Abstract

The present invention relates to an ice float collision preventing structure for a semi-submersible drillship, where two pontoons for providing buoyancy in a submerged state are placed at fixed intervals in parallel with each other, and two or more columns are installed for supporting a platform on the pontoon. A collision preventing means is installed on the outer circumference of the column for changing the route of colliding ice float or buffering the impact during a collision. The collision preventing means have multiple ice knives, which are manufactured in a plate shape, radially placed on the outer circumference of the column. The ice float collision preventing structure for a semi-submersible drillship can prevent the damage to a column unit by an ice float collision while sailing in a very cold place, can be easily installed without significantly changing the existing column structure, and can provide convenience in repair by forming a collision preventing means on the circumference of the column.

Description

Ice collision preventing structure of Half-Submerging Drilling Ship}

The present invention relates to an ice floe collision avoidance structure of a semi-submersible drill ship, and more particularly, to a collision proof means formed around a column to prevent damage to a column part due to an ice floe crash during operation in an extreme region. It relates to an ice floe collision avoidance structure.

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.

Conventional subsea drilling mainly used a rig ship or a fixed platform dedicated to subsea drilling, which can be sailed only by other tugboats and anchored at a certain position on the sea using mooring devices. Recently, a so-called drill ship, which is manufactured in the same form as a general ship so as to be equipped with advanced drilling equipment and can sail with its own power, has been developed and used for subsea drilling. Depending on the working conditions that often require shifting locations for small oil field development, these rigs are designed to navigate on their own without tugboats.

Due to the rapid development of the technology required for the exploration and mining of oil and natural gas buried at the bottom of the sea, these ships have poor working conditions such as deep seas and polar regions with more than 2,000 meters in shallow waters such as continental shelf. It is expanding to the region.

1 is a view schematically illustrating the shape of a general semi-submersible drilling line.

In the general semi-submersible drilling vessel 10 as in FIG. 1, two pontoons 12 which are submerged in water and provide buoyancy are arranged in parallel with each other at predetermined intervals.

In this case, the pontoon 12 may serve as a propellant for sailing.

Each pontoon 12 is provided with two or more columnar columns 13 supporting the platform 11.

On the platform 11 supported by the column 13 a drilling rig is generally arranged at the center, and other tubing drilling rigs, such as accommodations, work areas and risers, drilling ducts, casings and liners for the crew are stored. A storage area for drilling equipment is provided.

However, the drift ice 1 collides with the column 13 exposed on the water during the operation of the semi-submersible drilling ship in the extreme cold, damaging the column 13 and the drilling ship.

Due to this, an alternative to thickening the plate thickness of the column 13 has been proposed, but since the damage caused in the collision with large drift ice cannot be avoided, and there is a limit in navigating the drift ice, a more fundamental solution. This situation is required.

An object of the present invention devised to solve the problems of the prior art is to construct an anti-collision collision structure of a semi-submersible drilling vessel, which has a collision prevention means formed around the column to prevent damage to the column portion due to the drift ice collision during the operation of the extreme region. In providing.

According to one aspect of the present invention, two pontoons submerged in water to provide buoyancy are arranged in parallel with each other at a predetermined interval, and a column having two or more columnar columns supporting a platform on the pontoons is installed. In the submersible drilling rig,

Collision prevention means is installed around the outer diameter of the column so that the path of the drift ice to be changed or to cushion the impact during the collision,

The anti-collision means may be provided with a drift ice collision preventing structure of a semi-submersible drilling vessel, characterized in that a plurality of ice knives made in a plate shape radially arranged around the outer diameter of the column.

Here, the ice knife can be detachably coupled to the fixing bracket pre-installed around the outer diameter of the column using a fastening means.

In addition, the ice knife may be made of any one material of metal or rubber.

According to the present invention, the collision preventing means is formed around the column, thereby preventing damage to the column part due to the drift ice collision during the operation of the extreme region, and can be easily installed without greatly changing the existing column structure, and has a convenient maintenance effect. .

1 schematically illustrates the shape of a general semi-submersible drill ship;
Figure 2 is a schematic diagram showing an ice floe collision avoidance structure of a semi-submersible drilling vessel according to the present invention.
Figure 3 is a cross-sectional view showing a coupling structure of the ice knife and the fixing bracket of the anti-collision means according to the invention.
4 and 5 illustrate the arrangement of the collision avoidance means according to the present invention.

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

Figure 2 is a schematic diagram showing an anti-drift ice collision structure of a semi-submersible drilling vessel according to the present invention.

Referring to FIG. 2, in the present invention, two pontoons 120 submerged in water to provide buoyancy are disposed in parallel with each other at predetermined intervals, and have a pillar shape for supporting the platform 110 on the pontoons 120. It is related with the semi-submersible drilling ship provided with two or more columns 130 and a plurality.

The pontoon 120 may serve as a propellant so that the drilling vessel is propelled together with the buoyancy body.

Each of the pontoons 120 is provided with a plurality of columnar columns 130 supporting the platform 110.

In addition, a drilling facility is disposed on the platform 110 supported by the column 130, and for storing tubular drilling equipment such as accommodations, work areas, and risers, drilling tubes, casings, and liners for crew members. A storage area for drilling equipment is provided.

In the present invention, an anti-collision means 140 is installed around the outer diameter of the column 130.

At this time, the collision preventing means 140 to change the path of the crashed drift ice or to buffer the impact transmitted to the column 130 during the collision.

The present invention uses the structure of the ice knife 141 for such a buffer structure, which will be described in detail with reference to FIG. 3.

3 is a cross-sectional view showing a coupling structure of the ice knife and the fixing bracket of the collision preventing means according to the present invention.

Referring to FIG. 3, the collision preventing means 140 allows the plurality of ice knives 141 manufactured in a plate shape to be radially disposed around the outer diameter of the column 130, and the ice knife 141 is a column ( 130 may be detachably coupled to the fixing bracket 143 pre-installed around the outer diameter by using the fastening means 145.

At this time, the ice knife 141 may be made of a material of metal and rubber, it is made of a material that can be elastically deformed and restored during the collision of drift ice (1).

In addition, the fixing bracket 143 is pre-installed on the outer plate of the column 130 to provide a structure for coupling and supporting the ice knife 141.

The fixing bracket 143 may be manufactured in the form of a rail according to the arrangement of the ice knife 141. After the ice knife 141 is inserted between the pair of rails as shown in FIG. The means 145 may be used to penetrate through.

At this time, the fastening means 145 may be made of a bolt and a nut.

4 and 5 are views illustrating an arrangement of the collision avoidance means according to the present invention.

4 illustrates an example in which the arrangement of the collision preventing means 140, that is, the ice knife 141 according to the present invention is arranged in a straight line along the pillar direction, and FIG. 5 illustrates the ice knife 141 in the pillar direction. It shows an example arranged to form a diagonal line along the.

However, this is merely illustrative of one of many deployable embodiments and is not limited thereto.

As described above, the present invention allows the collision prevention means to be formed around the column, thereby preventing damage to the column part due to the drift ice collision during the operation of the extreme region, and can be easily installed without greatly changing the existing column structure. Has a convenient effect.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiment of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

100: Semi-Submersible Driller
110: platform
120: Pontoon
130: column
140: collision avoidance means
141: ice knife
143: fixing bracket
145: fastening means

Claims (3)

Two pontoons 120 submerged in water to provide buoyancy are disposed in parallel with each other at predetermined intervals, and two or more columnar columns 130 supporting the platform 110 on the pontoons 120 are provided in plurality. In the semi-submersible drilling ship installed in dogs,
The collision preventing means 140 is installed around the outer diameter of the column 130 so that the path of the drift ice that is collided is changed or the shock during the collision is buffered.
The anti-collision means 140 is a floating ice collision prevention structure of a semi-submersible drilling vessel, characterized in that the plurality of ice knives 141 produced in a plate shape around the outer diameter of the column 130 radially arranged. The method of claim 1,
The ice knife 141 is a semi-submersible drilling ship drift ice collision structure, characterized in that the detachable coupling to the fixing bracket 143 pre-installed around the outer diameter of the column 130 using a fastening means (145). The method of claim 1,
The ice knife 141 is a floating ice collision prevention structure of a semi-submersible drilling vessel, characterized in that made of any one of metal or rubber.

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