KR102461346B1 - Turret apparatus - Google Patents

Abstract

A turret device is disclosed. The turret device includes a bearing part installed between a moon pool and a turret, a support part protruding from the inner wall surface of the moon pool in the direction of the bearing part, and a plurality of parts connected to each other on the upper side of the support part. It includes a pad portion supported in contact with the bearing portion, and a filler filled between the support portion and the pad portion.

Description

turret device {TURRET APPARATUS}

The present invention relates to a turret device that stably supports the horizontal load of the turret and easily maintains roundness.

A turret is installed to assist in drilling in a drill ship or a floating oil production offloading and storage facility (LNG-FPSO) that drills gas or crude oil in the seabed.

The turret is mounted on a vertical opening or a moon pool provided at one end or fore end of the ship, and is fixed to a subsea well platform of the sea by a chain or the like to moor the ship.

Such a turret may be installed by an upper bearing and a lower bearing inside the moonpool.

Here, it is important for the lower bearing (LOWER BEARING) to maintain the circularity of the circular shape so that the relatively rotating turret and the cylindrical structure of the moonpool contact and rotate. In addition, it is required that the turret and the moonpool be spaced apart from each other by an appropriate distance.

In order to match this, mechanical work is performed to maintain roundness and proper spacing over two rounds.

Moonpool is a large cylindrical structure with a circumference of 20m or more, and it is difficult to maintain accurate roundness because it is manufactured by rolling thick steel plates into a round shape and attaching them by welding.

Therefore, in order to maintain the roundness and maintain a constant distance between the moonpool and the turret, the inner diameter of the moonpool is uniformly adjusted to maintain the roundness through the machining operation.

In Moonfull, on the steel plate on which the machining operation has been completed, the work of applying INCONEL, which has corrosion resistance and abrasion resistance, is applied on the steel plate by welding.

In the process of welding Inconel, the welded surface is frequently formed unevenly and not uniformly due to the nature of the welding, so secondary machining is performed to make the welded surface a uniform surface and to match the final required inner diameter.

However, since the roundness of the moonpool structure is adjusted using machining, there is a problem in that the cost of raw materials is increased by applying a steel plate that is much thicker than the thickness of the steel plate required for strength.

In addition, additional structures such as a roundness check device, workbench or safety device are additionally required for the machining work to maintain the roundness of the moonpool structure. Dangerous.

Registered Patent Publication No. 10-1259616

An embodiment of the present invention is to provide a turret device that reduces the cost required in the process of maintaining the roundness of the moonpool and prevents a safety accident from occurring.

An embodiment of the present invention includes a bearing part installed between a moon pool and a turret, a support part protruding from the inner wall surface of the moon pool in the direction of the bearing part, and a plurality of connected to each other on the upper side of the support part It includes a pad part attached to the bearing part and supported in contact with the bearing part, and a filler filled between the support part and the pad part.

The support part may include an inclined protrusion that protrudes obliquely along the periphery of the inner wall surface of the moonpool, and a seating part that is shaped on the protruding surface of the inclined protrusion to seat the filler.

The pad part may have an insertion groove formed on one side and an insertion protrusion inserted into the insertion groove on the other side, so that a plurality of pads may be attached to the surface of the filler in a state in which they are connected to each other.

It may further include a guide support for fixing the side of the filler and the side of the pad.

The guide support part may include a support protrusion having one side fixed to the support part and a side surface supported in contact with the filler and the pad part, and a locking protrusion bent at the end of the support protrusion part to be caught and fixed to the surface of the pad part.

According to an embodiment of the present invention, it is possible to stably support the horizontal load of the turret by stably installing the pad part in a state in which the roundness is adjusted by the guide support part in response to the shape of the turret.

According to an embodiment of the present invention, since the plurality of pad parts are installed in a state in which the roundness is adjusted by the guide support part inside the moonpool, it is possible to shorten the construction work time for maintaining the roundness and effectively reduce the labor cost.

According to an embodiment of the present invention, an additional structure such as a roundness checking device for maintaining the internal roundness of the moonpool is not required, so that it is possible to reduce the cost of work.

According to an embodiment of the present invention, since the maintenance of the internal roundness of the moonpool is performed by the guide support part, it is possible to prevent a safety accident that occurs in the process of performing the circularity maintenance work by the conventional operator.

1 is a cross-sectional perspective view schematically illustrating a state in which a turret device is installed on a hull according to an embodiment of the present invention.
FIG. 2 is a main part view schematically illustrating a state in which the support part and the pad part are installed with the filler of the turret device of FIG. 1 interposed therebetween.
3 is a cross-sectional view schematically illustrating a state in which a filler is installed between the support part and the pad part of FIG. 2 .
4 is a cross-sectional view schematically illustrating a state in which a guide support unit is installed according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

1 is a cross-sectional perspective view schematically illustrating a state in which a turret device according to an embodiment of the present invention is installed on a hull, and FIG. 3 is a cross-sectional view schematically illustrating a state in which a filler is installed between the support part and the pad part of FIG. It is a cross-sectional view of the main part shown as .

1 to 4, in the turret device 100 according to an embodiment of the present invention, a bearing part 10 installed between a moon pool 11 and a turret 13. And, a support part 20 protruding from the inner wall surface of the moonpool 11 in the direction of the bearing part 10, a filler 30 attached to the surface of the protrusion support part 20, and a plurality of fillers 30 on the surface of the and a pad part 40 attached to each other in a state of being connected to each other to contact and support the bearing part 10 .

The turret device to be described below may be installed inside the vertical opening installed through the hull 12 of the ship. The vertical opening may be provided by a moonpool formed to lower a drilling pipe or the like down to the seabed.

The turret 13 may be rotatably installed in such a moonpool.

The turret 13 is installed on the vessel so that the vessel can rotate relative to the turret as a central axis, and provides a stable and continuous transport path for the transport of gas or crude oil from the mining platform to the vessel during drilling. can be installed.

That is, the turret 13 allows the ship to freely rotate around the fixed turret as a central axis even when the ship on the sea flows by wind, waves or currents while gas or crude oil is being transported. Regardless, it is possible to stably transport gas or crude oil through a tube inside the fixed turret.

A bearing unit 10 may be installed between the turret 13 and the moonpool 11 . Here, the bearing part 10 refers to a lower bearing installed to support the turret 13 in the lower part of the moonpool 11 .

The bearing part 10 may be installed to be rotatable by sliding contact with the inner wall of the moonpool 11 in a state of being installed on the outside of the turret 13 .

The support part 20 may be formed in a protruding state on the inner wall surface of the moonpool 11 at a position facing the bearing part 10 .

That is, the support part 20 protrudes from a position facing the bearing part 10 from the inner wall surface of the moonpool 11 , and is horizontally generated when the turret 13 rotates and slides at a position in contact with the bearing part 10 . It may be formed to protrude to stably support the load.

More specifically, the support unit 20 includes an inclined protrusion 21 that protrudes obliquely along the periphery of the inner wall surface of the moonpool 11, and a seating portion ( 23) may be included.

The inclined protrusion 21 protrudes obliquely from the inner wall surface of the moonpool 11 to a position facing the side surface of the bearing unit 10, and is formed to stably support the load generated during the rotational sliding process of the turret 13. can

A seating portion 23 may be formed at the protruding end of the inclined protrusion 21 .

The seating part 23 is formed at the protruding end of the inclined protrusion part 21 , and may be formed as a flat surface at a position facing the bearing part 10 . A filler 30 may be attached to the seating portion 23 .

The filler 30 may be filled so that one side is in contact with the surface of the seating unit 21 and the other side is in contact with the pad unit 40 to be described later.

The filler 30 is positioned between the seating part 23 and the pad part 40 , and may be formed of an elastic material to stably support the horizontal load transmitted from the turret 13 .

The filler 30 may be converted into a solid state in a state in which it is filled in a liquid phase between the seating part 23 and the pad part 40 .

Here, the filler 30 may be formed by being converted into a solid state in a state of being filled in a paste form between the first seating part 23 and the pad part 40 . The filler 30 is illustratively described as being formed in a paste shape in this embodiment, but is not necessarily limited thereto, and may be filled in a solid shape having initial elasticity.

As such, since the filler 30 is filled between the seating part 23 and the pad part 40, it is possible to stably support the horizontal load transmitted from the turret 13 by a buffering action, so that the turret 13 is stable rotational operation of the

The pad part 40 may be attached to the upper side of the support part 20 with the filler 30 interposed therebetween.

A plurality of pad parts 40 may be disposed on the protruding upper side of the support part 20 to contact and support the side surface of the bearing part 10 .

A plurality of pad parts 40 may be disposed adjacent to each other and positioned above the filler 30 while being connected to each other.

More specifically, the pad part 40 may have an insertion groove 41 formed on one side and an insertion protrusion 43 inserted into the insertion groove 41 may protrude from the other side.

Accordingly, when the plurality of pad portions 40 are inserted into one insertion protrusion 43 between each other and the other insertion groove 41 is inserted, the plurality of pad portions 40 may be stably connected to each other.

The insertion protrusion 43 protrudes one side of the pad unit 40 and is inserted into the insertion groove 41 to exemplarily explain that the pad units 40 are connected to each other. However, the insertion protrusion 43 protrudes from the side surface of the pad unit 40 in plurality to be inserted and fixed in the insertion groove 41 , and may be appropriately changed and applied.

The pad part 40 is formed of a synthetic fiber material, and in the process of supporting the horizontal load on the side of the bearing part 10, it minimizes the occurrence of surface damage due to contact while stably supporting the horizontal load. It is possible.

The pad part 40 and the filler 30 may be stably fixed in a state of being installed by the guide support part 50 .

The guide support part 50, one side is fixed to the support part 20 and the side is bent at the end of the support protrusion 51 and the support protrusion 51 that are supported in contact with the filler 30 and the pad part 40, It may include a locking protrusion 53 that is hooked and fixed to the surface of the pad part 40 .

One side of the support protrusion 51 is fixed in a state of being in contact with the surface of the seating part 23 of the support part 20, and the side is installed in a state of being supported in contact with each of the filler 30 and the pad part 40 together. can

The support protrusion 51 can be fixed in contact with the surface of the seating part 23 by an adhesive or the like. Of course, the support protrusion 51 is not necessarily limited to being adhesively fixed to the surface of the seating part 23, and a part of the support protrusion 51 is fixed in a state inserted into the surface of the seating part 23. It is also possible to be

At the end of the support protrusion 51 , the locking protrusion 53 may be formed in a bent state.

The locking protrusion 53 may be bent at the end of the support protrusion 51 , and may be bent so that the curved surface is in contact with the surface of the pad part 40 .

As such, it is possible for the guide support part 50 to be installed by appropriately adjusting the position where the pad part 40 is installed on the upper side of the support part 20 .

That is, the locking protrusion 53 of the guide support part 50 is latched and fixed to the pad part 40 , and the pad part 40 is the upper side of the seating part 23 according to the appropriate length selection of the support protrusion 51 . It is possible to adjust the installed state.

Accordingly, it is possible to stably install the pad part 40 in a state in which the roundness is adjusted in response to the shape of the outer surface of the turret 13 in a state in which a plurality of pad parts 40 are connected to each other.

As described above, the filler 30 may be filled between the pad part 40 and the seating part 23 in a state in which the roundness of the pad part 40 is adjusted by the guide support part 50 .

Accordingly, the filler 30 is formed by solidifying the space between the pad part 40 and the seating part 23 in a state of being filled in a liquid state, such as paste, into a solid state, and the roundness of the pad part 40 is adjusted. It may be formed to enable effective support.

Although the guide support part 50 is exemplarily described as being installed as one to support the side surfaces of the support part 20 and the pad part 40 in this embodiment, it is not necessarily limited thereto and is installed in a plurality spaced apart from each other. It is also possible to be appropriately changed and applied to fix the installed state of the pad part 40 .

As described above, in the turret device 100 of this embodiment, the pad part 40 is stably installed in a state in which the roundness is adjusted by the guide support part 50 in response to the shape of the turret, so that the horizontal load of the turret 13 is carried out. It is possible to stably support

In this way, since the plurality of pad parts are installed in a state in which the roundness is adjusted in a state in which they are connected to each other, it is possible to shorten the construction work time and effectively reduce the labor cost.

In addition, an additional structure such as a roundness checking device for maintaining the inner roundness of the moonpool is not required, so it is possible to reduce the cost of work.

And, since the maintenance of the internal roundness of the moonpool is made by the guide support unit 50, it is possible to prevent a safety accident occurring in the process of the conventional worker performing the roundness maintenance work.

Although preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and variations are possible within the scope of the claims, the detailed description of the invention, and the accompanying drawings, and this is also the present invention It is natural to fall within the scope of

10...Bearing part 11...Moonful
12...hull 13...turret
20...Support 21...Slope projection
23...Filling part 30...Filler
40...Pad part 41...Insert groove
43... Insertion projection 50... Guide support part
51...Support protrusion 53... Locking protrusion

Claims (5)

a bearing part installed between the moon pool and the turret;
a support portion protruding in the direction of the bearing portion from the inner wall surface of the moonpool;
a pad part attached to an upper side of the support part while being connected to each other and being supported in contact with the bearing part; and
a filler filled between the support part and the pad part;
including,
The support part,
an inclined protrusion protruding obliquely along the periphery of the inner wall surface of the moonpool; and
a seating portion formed on the protruding surface of the inclined protrusion to receive the filler;
including,
The filler is a turret device in which the space between the pad part and the seating part is filled in a liquid state and solidified in a solid state. delete According to claim 1,
The pad part,
An insertion groove is formed on one side and an insertion protrusion inserted into the insertion groove is formed on the other side, and a plurality of turret devices are attached to the surface of the filler in a state of being connected to each other. According to claim 1,
The turret device further comprising a guide support for fixing the side surface of the filler and the side surface of the pad unit. 5. The method of claim 4,
The guide support unit,
a support protrusion having one side fixed to the support part and a side surface supported in contact with the filler and the pad part; and
A locking protrusion bent at the end of the support protrusion to be hooked and fixed to the surface of the pad part
A turret device comprising a.

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