KR20200126824A - Spudcan for jack-up rig leg - Google Patents

Abstract

The present invention provides a spudcan for a jack-up rig leg, which can fundamentally prevent seawater or soil from being introduced into the spudcan while having high bearing power by second penetration into the seabed ground while a plurality of suction piles radially arranged on the bottom of the spudcan are stably lifted after the spudcan firstly penetrates into the seabed ground. To this end, the spudcan for a jack-up rig leg includes: each guide formed in a shape of radially penetrating and extending into the spudcan from the bottom at the bottom of the spudcan; each suction pile connected to suction lines in the guides and penetrating into the seabed ground by protruding while the soil and seawater at the seabed ground are suctioned in case of suction; and sealing members interposed between the guides and the suction piles to prevent the seawater or the soil from being introduced into the spudcan. Accordingly, the spudcan for a jack-up rig leg can maximize the bearing and fixing power of the spudcan to safely and stably anchor onto the sea and secure high reliability.

Description

Spudcan for jack-up rig leg

The present invention relates to a spud can provided on a leg of a jack-up rig provided in an offshore structure, and more specifically, a plurality of suction piles arranged in a radial form at the bottom of the spud can after primary penetration of the spud can into the sea floor It relates to a spud can for a jack-up league leg that can fundamentally block the inflow of seawater or soil into the spud can while having a high support power by secondary penetration into the seabed while the (suction pile) is stably elevated and lowered.

In general, the seabed of the ocean is not in a stable state, but as the work of erecting the structure itself is quite difficult, a ship or an offshore structure capable of providing a stable working environment such as the ground for workers is required.

Accordingly, special ships or offshore structures in which legs supported on the sea floor are mounted so as to be elevated so as to be fixed to the sea have been developed and used.

Such special ships or offshore structures are maintained in a state where the legs are raised from the sea floor and inserted into the hull during normal times, such as when moving, and then descend to the sea bed and supported on the sea floor when it is necessary to fix the position of the hull for work. At this time, a spudcan is provided at the bottom of the leg so that it can be supported according to the topography of various sea floors.

Special ships equipped with such spud cans are also called rig ships, and both legs and spud cans are called jack up rigs.

The conventional spud can of the jack-up league is a support structure having a relatively large area to sufficiently support the leg by contacting the sea floor, and is mounted on the hull together with three or more legs for stable support of the hull or offshore structure.

Accordingly, it is an important technical task that the spudcan is intrusively fixed to the seabed to have a high fixing force.

As described above, in the prior art related to the spudcan provided in the leg of the jack-up league and penetrated into the seabed, a punch-through occurs as published in Korean Patent Publication No. 10-1422232 (hereinafter referred to as'prior art document 1'). In order to increase the posture stability of the floating structure, there is a technology such as a spudcan of a floating structure including a sliding plate that can protrude in the lateral direction of the body and a driving means having a mechanical structure for sliding the sliding plate. It has been proposed.

In addition, as published in Korean Patent Publication No. 10-1864746 (hereinafter referred to as'prior technical document 2'), it is provided so as to be able to move up and down along the circumference of the housing to reduce eccentric load due to the inclination angle with the sea floor. A technique such as an offshore structure having a plurality of skirt plates and a spud can including a soil suction and discharge unit that sucks soil from the upper region of the seabed into the housing and discharges the soil sucked into the lower region has also been proposed. .

In addition, as published in Korean Patent Publication No. 10-1933971 (hereinafter referred to as'prior technical document 3'), by distributing the pressure of the seabed on the side of the spud can, the fixing force of the spud can is secured and the bending moment of the leg is reduced. In order to reduce the amount, technologies such as an offshore structure including valves and pumps and a discharge part including an inlet and discharge section for suctioning and discharging the soil and discharging it to the outside by sucking the soil from the seabed into the spud can have also been proposed. have.

Korean Patent Publication No. 10-1422232 Korean Registered Patent Publication No. 10-1864746 Korean Patent Publication No. 10-1933971

However, Prior Art Document 1 has a disadvantage in that mechanical components are quite complex and it is difficult to penetrate the slide plate drawn out from the side of the spud can to the ground of the seabed.

Prior Art Documents 2 to 3 show that the technical configuration of inhaling and discharging soil from the seabed is complicated, as well as the disadvantage that the suction line and the discharge line in the spud can are frequently blocked by the sucked soil. The pressure generated in the vertical direction due to digging or the like has a weak disadvantage, such as being easily released.

A specific technical solution of the present invention for solving the conventional problems as described above is that a plurality of suction piles arranged radially at the bottom of the spud can after first infiltrating the spud can into the sea floor It is to provide a spud can for a jack-up league leg that can fundamentally block the inflow of seawater or soil into the spud can while stably elevating and having high support by secondary penetration into the sea floor.

Another specific technical problem of the present invention is to have a high support force for pressure generated in the horizontal direction as well as in the vertical direction.

Another specific technical problem of the present invention is to prevent deformation of the guide means according to the lifting of the suction pile.

A specific technical solution of the present invention for solving the above technical problems is a spud can provided at the lower leg of the jack-up league, which extends radially from the bottom of the spud can to the inside of the spud can. Each guide formed of; Each suction pile connected to the suction line inside the guide and protruding while suctioning the soil and seawater from the seabed during suction to penetrate into the seabed; And an airtight member interposed between the guide and the suction pile to prevent seawater or soil from flowing into the inside of the spud can.

In the suction pile, the tip of the bottom of the seabed is open, and the other side and the end connected to the suction line are in the form of a closed tube.

The bottom of the spud can is formed as a cone-shaped inclined surface upward from the center of the bottom surface, and each guide and each suction pile are formed to be orthogonal from the inclined surface, so that each suction pile is obliquely penetrated into the sea floor. do.

A reinforcing member for preventing deformation of the guide is provided between the outer surface of the guide and the inner inclined surface of the spud can.

The reinforcing member is any one of a bracket, a reinforcing rib, and a welding bead.

In the present invention, after first infiltrating the spud can into the sea floor, a plurality of suction piles arranged in a radial form from the bottom of the spud can are stably raised and lowered, thereby providing high bearing capacity by secondary penetration into the sea floor. By allowing the inflow of seawater or soil into the spud can, while having it, it maximizes the support and fixing power of the spud can to ensure a safe and stable anchoring at sea, as well as the effect of securing high reliability. Have.

In addition, by making it possible to have a high support force for pressure generated in the horizontal direction as well as in the vertical direction, it has the effect that the anchoring can be made more safely and stably at sea.

In addition, by preventing the guide means from being deformed according to the lifting of the suction pile, the lifting of the suction pile can be performed stably and smoothly, and the effect of securing a long use period.

1 is a cross-sectional view for explaining the concept of the present invention,
2 is a partially enlarged cross-sectional view according to FIG. 1;
Figure 3 is a bottom view according to Figure 2,
Figure 4 is a partial enlarged cross-sectional view for explaining the state of use of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, and the present invention is not limited or limited by the embodiments.

1 is a cross-sectional view for explaining the concept of the present invention, FIG. 2 is a partially enlarged cross-sectional view according to FIG. 1, FIG. 3 is a bottom view according to FIG. 2, and FIG. 4 is a part for explaining a use state of the present invention It is an enlarged cross-sectional view.

As shown, the conventional spud can 100 is provided at the lower end of the leg R of the jack-up league and serves to penetrate and fix the sea floor.

In other words, the spud can 100 is a support structure having a large area so that it can be supported at the bottom of the leg R according to the topography of various sea floors, that is, to sufficiently support the leg by contacting the sea floor, the hull or It is mounted on the hull with three or more legs for stable support of offshore structures.

Accordingly, it is an important technical task that the spudcan is intrusively fixed to the seabed to have a high fixing force.

In the present invention, after first infiltrating the spud can into the sea floor, a plurality of suction piles arranged in a radial form from the bottom of the spud can are stably raised and lowered, thereby providing high bearing capacity by secondary penetration into the sea floor. It is to be able to fundamentally block the inflow of seawater or soil into the spud can while having it.

Each guide 10 formed in a form extending radially from the bottom surface 102 of the spud can 100 to the inside of the spud can 100 according to the present invention; Each suction pile 20 which is connected to the suction line L connected to the conventional suction means inside the guide 10 and protrudes while suctioning the soil and seawater from the seabed during suction to penetrate into the seabed ground; And an airtight member 30, such as a conventional O-ring, interposed between the guide 10 and the suction pile 20 to prevent seawater or soil from flowing into the inside of the spud can 100.

The guide 10 is in the form of a tube having a predetermined length inward from the bottom surface 102 of the spud can 100, and serves to stably guide the suction pile 20 when the suction pile 20 is elevated. The guide may be formed to have a length shorter than, equal to or longer than the length of the suction pile.

In the suction pile 20, the front end of the bottom of the sea is open, and the other side and the end connected to the suction line L are in the form of a closed tube.

Accordingly, when the suction power is given by the suction line, the suction pile is lowered by the suction pressure while inhaling the soil and seawater on the seafloor where the suction pile is located and protrudes toward the seafloor and is penetrated and fixed.

Accordingly, after being primarily supported by the spud can on the sea floor, the spud can is fixed to have a high supporting force on the sea floor as it has a secondary support force by the suction pile.

In addition, when separating the suction pile from the seabed, air is injected through the suction line, so that the suction pile that has penetrated into the seabed rises while being removed from the seabed by the injection pressure of the air, into the guide before penetration into the seabed. It rises.

The airtight member 30 is made of synthetic resin such as rubber or urethane, which is a conventional airtight material, and is interposed between the guide 10 and the suction pile 20, so that soil or seawater spurs when the suction pile is elevated or when It prevents inflow into the interior of the can.

In the above, it is preferable that the airtight member 30 is interposed by forming a conventional groove on the inner surface of the guide 10 so that the airtight member 30 can be stably supported. This allows the airtight member to be stably supported during the process of lifting the suction pile.

And the bottom surface 102 of the spud can 100 is formed as a cone-shaped inclined surface upward with respect to the center of the bottom surface, and each of the guides 10 and each suction pile 20 is formed to be orthogonal from the inclined surface. It is preferable that each of the suction piles 20 is configured to be obliquely penetrated into the sea floor.

In other words, when the stone slab pile penetrates the sea floor only vertically as in the prior art, it has a weak disadvantage against the pressure generated in the vertical direction due to wave height or the like.

On the other hand, the suction pile of the present invention is disposed radially on the bottom of the spud can, and in particular, by being inclined to the bottom of the sea, that is, intruding in an oblique shape, the pressure generated in the vertical direction as well as the pressure generated in the left and right directions due to ocean current Also, it has a condition that can maintain high support.

Accordingly, by having a more stable and high bearing capacity of the spud can to the sea floor, a more stable anchoring can be achieved at sea.

Further, a reinforcing member 10A for preventing deformation of the guide 10 may be provided between the outer surface of the guide 10 and the inner inclined surface of the spud can 100.

That is, the guide serves to guide the suction pile to be stably lifted in the process of ascending and descending, and to prevent this as the lift of the suction pile is not smoothly made when deformation occurs due to the lift of the suction pile or external impact, etc. It is desirable to provide a reinforcing member.

Here, the reinforcing member 10A is one of a conventional bracket fixed between the outer surface of the guide and the inner inclined surface of the spud can through conventional welding or the like, forming a reinforcing rib or a direct welding bead.

In the above, it is preferable to form a plurality of brackets, reinforcing ribs, or welding beads as reinforcing members at equal intervals so as to have high support.

Accordingly, since the guide is supported by the reinforcing member, it is prevented from being deformed by the lifting of the suction pile or external impact, so that the lifting of the suction pile can be stably and smoothly performed.

10: guide 10A: reinforcing member
20: suction file 30: airtight member
100: spud can 102: bottom

Claims (5)

As a spud can provided at the bottom of the leg of the Jackup League,
Each guide formed in a shape extending radially from the bottom surface of the spud can to the inside of the spud can;
Each suction pile which is connected to the suction line inside the guide and protrudes while suctioning the soil and seawater from the seabed during suction to penetrate into the seabed; And
A spud can for a jack-up league leg including a sealing member interposed between the guide and the suction pile to prevent seawater or soil from flowing into the spud can. In claim 1,
The suction pile is a spud can for a jack-up league leg in which the tip of the bottom of the sea is open and the other side and the end connected to the suction line are blocked. In claim 1,
The bottom of the spud can is formed as a cone-shaped inclined surface upward from the center of the bottom surface, and each guide and each suction pile are formed to be orthogonal from the inclined surface, so that each suction pile is obliquely penetrated into the sea floor. Spud cans for Jackup League legs. In paragraph 3,
A spud can for a jack-up league leg further comprising a reinforcing member provided between an outer surface of the guide and an inner inclined surface of the spud can to prevent deformation of the guide. In claim 4,
The reinforcing member is any one of a bracket, a reinforcing rib, and a welding bead, a spud can for a jack-up league leg.

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