KR101378840B1 - Block type assembling structure for turret and block type assembling method for tuurret - Google Patents

Abstract

A block turret assembly structure and a block turret assembly method are disclosed. According to an aspect of the invention, the turret structure for mooring the hull; A turret block in which the turret structure is assembled to be rotatable about a vertical axis; And a hull block having a door pool corresponding to the turret block, wherein the turret structure is pre-assembled in the turret block, and the turret block in which the turret structure is assembled is seated in the door pool and assembled into the hull block. A structure is provided. According to another aspect of the invention, the step of separating the assembly of the hull block, the turret structure to the turret block; Mounting the turret block on the door pool of the hull block with the turret structure assembled to the turret block; Welding the turret block and the hull block at a position corresponding to the horizontal center line of the hull block; At least one of the upper portion and the lower portion of the welded portion, bolting the turret block and the hull block, the bolting coupling portion is formed so as to be spaced in the horizontal direction; block type turret assembly is provided comprising a.

Description

BLOCK TYPE ASSEMBLING STRUCTURE FOR TURRET AND BLOCK TYPE ASSEMBLING METHOD FOR TUURRET}

The present invention relates to an assembly structure and method of the turret used for the mooring hull, and more particularly, to a block-type turret assembly structure and a block-type turret assembly method.

Floating Production Storage and Off-loading (FPSO), Floating Storage and Re-gasification Unit (FSRU), Drilling Ship, Drillship, etc. are often required to maintain a fixed position at sea during operation.Turret system ) Is used. The turret system is a kind of mooring apparatus for maintaining the hull at a constant position against the blue light, and uses a method of mooring the hull by lowering the mooring line to the seabed in the turret structure which is formed to be rotatable with respect to the hull.

Such a turret system can be generally classified into an internal type turret system and an external type turret system. In the case of an external turret system, the turret system refers to a type in which a separate structure is formed outside the hull. In the case of a built-in turret system, the turret system refers to a type in which the turret system is integrated into the hull through a moonpool formed on the hull.

In the case of the external turret system, since the turret system is formed as a separate structure outside the hull, the turret system can be manufactured separately from the hull, and it can be applied to the pre-built hull, but in the case of the region with poor environmental conditions There is a limit to insufficient performance. Therefore, in recent years when drilling is performed under increasingly poor environmental conditions, a built-in turret system having excellent mooring performance has been preferred.

However, in the case of the built-in turret system, the turret system must be mounted together with the drying of the hull, thus reducing productivity and making the construction difficult. In particular, in the case of a built-in turret system, a door pool is formed on the hull, and the bearing turret is assembled with the turret structure in such a way so that the turret structure can be rotated. The assembly process of the turret structure is a very sophisticated work. This demand is accompanied by manufacturing difficulties, such as other work is impossible when assembling the turret structure.

Therefore, a method for facilitating the installation of the turret system as described above is continuously researched and developed in the related art. For example, Patent Publication No. 10-0785479 discloses a method and structure for installing a submerged turret loading (STL) for a ship. It has been proposed.

Patent Registration No. 10-0785479 (December 06, 2007 registration)

Embodiments of the present invention, to facilitate the assembly of the turret structure, to provide a block-type turret assembly structure and a block-type turret assembly method that can increase the productivity and assembly efficiency.

According to an aspect of the invention, the turret structure for mooring the hull; A turret block in which the turret structure is assembled to be rotatable about a vertical axis; And a hull block having a door pool corresponding to the turret block, wherein the turret structure is pre-assembled to the turret block, and the turret block in which the turret structure is assembled is seated on the door pool and the hull block. Block-type turret assembly structure to be assembled can be provided.

According to another aspect of the invention, the step of separating the assembly of the hull block, the turret structure to the turret block; Mounting the turret block on the door pool of the hull block while the turret structure is assembled to the turret block; Welding the turret block and the hull block at a position corresponding to a horizontal center line of the hull block; At least one of the upper and lower portions of the welded portion, wherein the turret block and the hull block are bolted to each other, and the bolting coupling portion is formed to be freely spaced in a horizontal direction. Can be provided.

In the block type turret assembly structure and the block type turret assembly method according to the embodiments of the present invention, the turret structure is assembled to the turret block, and the blocked turret block is assembled to the hull block. Therefore, the assembly or installation of the turret structure can be treated like the mounting and assembling of a general block, and the assemblability of the turret structure can be improved.

In addition, the block-type turret assembly structure and the block-type turret assembly method according to the embodiments of the present invention, separates the assembly of the turret structure that requires sophisticated work separately from the assembly of the hull block, the hull block when assembling the turret block Block assembly to other parts of can be performed in parallel, which can shorten assembly labor and improve productivity.

1 is a conceptual diagram illustrating a block turret assembly structure according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a block turret assembly structure according to an embodiment of the present invention.
FIG. 3 is an enlarged partial view showing portions A and B of FIG. 2 enlarged.
Figure 4 is a process flow diagram showing a block type turret assembly method according to this embodiment.

Hereinafter, a block type turret assembly structure according to an embodiment of the present invention will be described with reference to the drawings.

1 is a conceptual diagram illustrating a block turret assembly structure according to an embodiment of the present invention.

Referring to FIG. 1, the block type turret assembly structure 100 according to the present embodiment may include a turret structure 110, a turret block 120, and a hull block 130. At this time, in the block-type turret assembly structure 100 according to the present embodiment, the turret structure 110 is pre-assembled to the turret block 120, and the turret block 120 of the turret structure 110 is assembled to the hull. The block 130 is to be assembled.

That is, in the conventional general case, unlike forming a door pool (moonpool) in the hull block, and assembling the turret structure directly to the door pool as described above, the block-type turret assembly structure 100 according to the present embodiment is a turret structure ( 110 is pre-assembled in a separate turret block 120, and the blocked turret block 120 is assembled to the hull block 130. In this case, the door pool may be formed by penetrating the hull in the vertical direction, it may refer to a kind of opening that makes the hull accessible to the sea surface.

As in the conventional case, the method of installing the turret structure directly on the hull block is difficult to assemble the turret structure since installation and assembly of various auxiliary facilities for the turret structure, such as bearings and controllers, are involved. In particular, the conventional assembly method involves the installation of various bearings and controllers in the door pool for rotationally supporting the turret structure, which requires very precise work within a few millimeters of tolerance. Work (eg, assembly of other blocks, etc.) was not possible.

On the other hand, in the block type turret assembly structure 100 according to the present embodiment, the turret structure 110 is pre-assembled to the turret block 120, the block turret block 120 is mounted on the hull block 130 As such, the assembly of the turret structure 110 into the hull block 130 may be handled similarly to the assembly of a general block. That is, the turret structure 110 is not directly assembled to the hull block 130, but is pre-assembled to the turret block 120 to be assembled to the hull block 130 in a block form, the turret block 120 Even during assembly, each necessary operation can be appropriately carried out simultaneously and simultaneously without affecting other operations (for example, assembling other blocks). In other words, unlike the conventional method, the turret block 120 may be assembled with the hull block 130 as needed to form another hull block 130 without needing to be coupled to the hull where the hull blocks 130 have been assembled. It can also increase work efficiency and productivity.

In addition, in the block-type turret assembly structure 100 according to the present embodiment, since the turret block 120 and the turret structure 110 may be assembled in a separate yard, the turret structure 110 may be assembled or installed. Difficult process for can be separated from the assembly of the whole hull block 130. Therefore, the effect of the assembly of the turret structure 110 on the air of the entire hull block 130 can be minimized, and work efficiency and productivity can be increased.

Hereinafter, the assembly structure of the turret structure 110, the turret block 120, and the hull block 130 as described above will be described in more detail.

Figure 2 is a cross-sectional view showing a block turret assembly structure according to an embodiment of the present invention. FIG. 3 is an enlarged partial view showing portions A and B of FIG. 2 enlarged.

2 and 3, the block type turret assembly structure 100 according to the present embodiment may include a turret structure 110, a turret block 120, and a hull block 130, as described above. Likewise, the turret structure 110 and the turret block 120 are assembled to the hull block 130 in a state of being assembled separately from the hull block 130. 2, the turret structure 110 and the turret block 120 are mounted and assembled to the hull block 130 for convenience of description.

More specifically, the turret structure 110 is a structure for mooring the hull, a mooring line (not shown) is fastened to the bottom to maintain the position of the hull in the case of drilling, etc., the riser (inner) And other drilling facilities, such as (not shown).

The turret structure 110 as described above is to be assembled to the turret block 120. That is, the turret block 120 may be formed through the turret fastening hole 121 in the vertical direction, the turret structure 110 may be inserted into the turret fastening hole 121. In this case, the turret structure 110 may be supported by the upper bearing 111 and may be fastened to the turret block 120 to be rotatable about a vertical axis. That is, the upper bearing 111 may be provided on the upper surface of the turret block 120, and the upper portion of the turret structure 110 may be seated on the upper bearing 111 and rotatably supported. Therefore, the turret structure 110 is rotatable about the vertical axis through the upper bearing 111.

Meanwhile, the door block 131 is formed in the hull block 130, and the turret block 120 is assembled and mounted in the door pool 131 as described above. At this time, as described above, the turret block 120 is assembled to the hull block 130 in a state in which the turret structure 110 is assembled.

The door pool 131 is a passage for sending down various drilling equipment such as a riser to the sea floor, and may be formed of the first and second door pools 132 and 133. That is, in the case of the general moon pool is simply formed to penetrate the upper and lower surfaces of the hull, in the case of the block-type turret assembly structure 100 according to the embodiment bar turret block 120 is assembled in the door pool 131, the door pool 131 is formed of the first and second door pools 132 and 133 of the upper and lower parts.

The first door pool 132 refers to an opening formed at an upper portion thereof, and may be formed in a size and shape corresponding to the turret block 120 so that the turret block 120 may enter the first door pool 132. At this time, the first door pool 132 may be formed larger than the turret block 120 so that the hull block 130 and the turret block 120 can be connected to a predetermined interval when the turret block 120 is assembled. Alternatively, the turret block 120 may have a width smaller than the width of the first door pool 132 so that the side wall 120a may be spaced apart from the side wall 132a of the first door pool 132 by a predetermined distance. . In this case, the width means a horizontal length based on the bar shown in FIG. 2.

This is to prevent the external force due to the deformation of the hull is not directly transmitted to the turret block 120 and the turret structure (110). This will be described later in addition to the description of the coupling between the hull block 130 and the turret block 120 to be described later.

On the other hand, the second door pool 133 refers to the opening formed continuously in the lower portion of the first door pool 132. In this case, the second door pool 133 may be formed to have a predetermined width smaller than that of the first door pool 132. This is to allow the turret block 120 to be seated on the bottom surface 132b of the first door pool 132 by forming the first and second door pools 131 as a whole. In this case, the width means a horizontal length based on the bar shown in FIG. 2.

Meanwhile, the turret block 120 is transferred to the door pool 131 of the hull block 130 in the state where the turret structure 110 is assembled and assembled with the hull block 130. At this time, the turret block 120 may be assembled with the hull block 130 through the welding coupling and bolting coupling.

First, the turret block 120 is welded to the hull block 130, the portion corresponding to the horizontal center line (C) of the hull block 130. This is to fix the turret block 120 to the hull block 130, while the external force due to the deformation of the hull block 130 is not directly transmitted to the turret block 120 or turret structure (110).

In the case of the hull block 130, a sagging or hogging phenomenon occurs according to a wave, and thus, bending stress or deformation may occur to a certain extent along the longitudinal direction. At this time, the horizontal center line (C) portion of the hull block 130 is relatively less affected by the sagging or hogging as described above, the block-type turret assembly structure 100 according to the present embodiment is as described above By welding the center line (C) portion, it is possible to minimize the transmission of the external force due to the deformation of the hull block 130 to the turret block 120.

More specifically, referring to Figure 3 (a), the turret block 120 has a coupling flange 122 is formed at a corresponding position in consideration of the horizontal center line (C) position of the hull block 130 to be assembled. Can be. When the turret block 120 is mounted into the door pool 131, the coupling flange 122 is welded to the hull block 130 to fix the turret block 120 to the hull block 130. Alternatively, although not shown, if the coupling flange 122 as described above is formed in the hull block 130, and the turret block 120 is mounted into the door pool 131, the coupling flange 122 is turret A welded manner to block 120 may also be used.

On the other hand, the hull block 130 and the turret block 120, the upper portion and the lower portion of the welded coupling may be assembled between the hull block 130 and the turret block 120 through the bolting coupling. At this time, the bolted portion may be formed to be spaced to a predetermined extent in the horizontal direction. This is to absorb the deformation due to the hogging or sagging of the hull block 130, so that the external force due to the deformation does not directly act on the turret block 120 and the turret structure (110).

More specifically, referring to FIG. 3B, the turret block 120 may be bolted to the hull block 130 through an upper bolting coupling part 123 formed on the coupling flange 122. At this time, the upper bolting coupling portion 123 is formed on one side of the hull block 130 so as to correspond to the coupling piece 123a and the coupling piece 123a formed in the turret block 120, the horizontal hole 123b ) Is provided with a bolt fastening piece 123c, and a bolt member 123d inserted into the long hole 123b. Accordingly, the upper bolting coupling part 123 may be freely spaced in a horizontal direction by moving the bolt member 123d to a predetermined length along the long hole 123b as described above, and may be deformed due to sagging or hogging of the hull block 130. Will be absorbed.

In addition, referring to Figure 2, the lower portion of the turret block 120 may be bolted to the hull block 130 through the lower bolting coupling portion 124 formed on the lower coupling flange 122, such as the lower The bolting coupling part 124 may be formed to have a predetermined degree of play according to the bending deformation of the hull block 130 by having a long hole (not shown) in the horizontal direction as in the upper bolting coupling part 123 described above. In addition, in the present embodiment, the bolt fastening piece 123c provided with the long hole 123b is illustrated on one side of the hull block 130, but on the contrary, the bolt fastening piece having the long hole in the turret block 120, etc. Of course, the manner in which the formed bolting coupling is also considered.

On the other hand, the turret structure 110 is assembled to the hull block 130 together with the turret block 120 in a state assembled in the turret block 120. At this time, the lower portion of the turret structure 110 is inserted into the second door pool 133 formed in the hull block 130 is exposed toward the bottom of the vessel, the lower portion of the turret structure 110 as described above the lower bearing 112 It can be supported through. That is, the lower bearing 112 is interposed between the sidewall 133a of the second door pool 133 and the lower portion of the turret structure 110 to support the turret structure 110.

In this case, the lower bearing 112 may be formed in the form of a sliding pad in order to allow the turret structure 110 to be rotatable, so that deformation of the hull block 130 does not directly affect the turret structure 110. have. That is, the lower bearing 112 is formed as a sliding pad capable of elastic deformation to absorb the deformation of the hull block 130, while supporting the turret structure 110 to be rotatable. Therefore, the turret structure 110 may be rotatably supported with respect to the turret block 120 and the hull block 130 by the upper bearing 111 and the lower bearing 112 disposed in the upper and lower portions, respectively.

Hereinafter, a block type turret assembly method according to another embodiment of the present invention will be described with reference to the drawings.

Figure 4 is a process flow diagram showing a block type turret assembly method according to another embodiment of the present invention.

Referring to FIG. 4, first, the assembly of the hull block 130 divided into a plurality of blocks is performed. In addition, the assembly of the turret structure 110 and the turret block 120 is performed separately from the assembly of the hull block 130. The assembly of the turret structure 110 and the turret block 120 may include a process of assembling the turret structure 110 with the turret fastening hole 121 in the turret block 120 and installing the upper bearing 111. , If necessary, the installation of various control equipment and cables required for the operation of the turret structure 110 can be made together (S100).

When the assembly of the turret structure 110 and the turret block 120 is completed, a process of mounting the assembled turret block 120 to the door pool 131 of the hull block 130 may be performed. In this case, the hull block 130 may be assembled if the part of the door pool 131 is assembled so that the turret block 120 may be mounted, and it is not necessary that the assembly is completed. That is, in the block type turret assembly structure 100 according to the present embodiment, block assembly may be performed together with other parts of the hull block 130 in parallel with the assembly of the turret block 120 (S200).

On the other hand, the turret block 120 is to be seated in the door pool 131 with the turret structure 110, when the turret block 120 is seated, the welding coupling between the turret block 120 and the hull block 130 is performed do. At this time, as described above, in order to minimize the influence of the deformation of the hull block 130 on the turret block 120, only the portion corresponding to the horizontal center line C of the hull block 130 is welded. (S300)

In addition, when the welding coupling is completed as described above, the upper and lower portions of the welding coupling portion is bolted. That is, the bolting coupling is made between the turret block 120 and the hull block 130 by the upper bolting coupling portion 123 and the lower bolting coupling portion 124. At this time, as described above, the upper bolting coupling portion 123 and the lower bolting coupling portion 124 is formed to be spaced to a predetermined extent in the horizontal direction, thereby, the upper bolting coupling portion 123 and the lower bolting coupling portion ( 124 is to absorb the sagging or hogging deformation of the hull block 130 due to waves, etc. (S400)

On the other hand, when the turret block 120 and the hull block 130 is coupled through the welding and bolting coupling as described above, the lower bearing 112 of the sliding pad form is installed on the lower portion of the turret structure 110, turret block Assembly of the 120 and the turret structure 110 is completed (S500).

As described above, the block-type turret assembly structure 100 and the block-type turret assembly method according to the embodiments of the present invention, in the state in which the turret structure 110 is pre-assembled in the turret block 120, The turret block 120 is to be assembled to the hull block 130. Therefore, the assembly or installation of the turret structure 110 may be handled as in the mounting and assembly of a general block, and the assemblability of the turret structure 110 may be improved.

In addition, the block-type turret assembly structure 100 and the block-type turret assembly method according to the embodiments of the present invention separates the assembly of the turret structure 110 that requires sophisticated work separately from the assembly of the hull block 130 Also, when assembling the turret block 120, block assembly may be performed on other parts of the hull block 130 in parallel, thereby shortening the assembly labor and improving productivity.

Furthermore, the block-type turret assembly structure 100 and the block-type turret assembly method according to embodiments of the present invention weld only the horizontal center line C portion of the hull block 130, while the upper and lower portions are spaced in the horizontal direction. By using a bolting coupling method as much as possible, it is possible to minimize the effect of deformation due to sagging or hogging of the hull block 130 on the turret block 120. Therefore, in the case of the turret structure directly mounted and assembled in the hull block, it is inevitable to use expensive and precise bearings in consideration of the deformation of the hull, whereas the block-type turret assembly structure 100 according to the present embodiment is an upper bearing 111, etc. It can be configured as a general low-cost bearing, thereby reducing the drying cost and equipment cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, many modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

100: block type turret assembly structure 110: turret structure
120: turret block 130: hull block

Claims (9)

Turret structures for mooring hulls;
A turret block in which the turret structure is assembled to be rotatable about a vertical axis; And
The turret block is provided with a door pool, wherein the door pool includes a first door pool and the bottom of the second door pool, the second door pool width is formed to be smaller than the width of the first door pool to be multi-stepped Formed, including the hull block;
The turret structure is pre-assembled to the turret block, the turret block in the state in which the turret structure is assembled is seated on the bottom surface of the first door pool and assembled into the hull block,
The turret block, the portion corresponding to the horizontal center line of the hull block is welded to the hull block, the coupling piece is provided on one or more of the upper or lower portion of the welded portion,
The hull block, the block type turret assembly structure corresponding to the coupling piece, having a long hole is formed and bolted fastening coupled to the coupling piece through a bolt member. The method according to claim 1,
The turret structure,
Block-type turret assembly structure is inserted into the turret fastening hole formed in the turret block, the upper portion is supported by an upper bearing provided on the upper surface of the turret block. The method according to claim 1,
The turret block,
A block type turret assembly structure, wherein the width is formed smaller than the width of the door pool so that side walls can be spaced apart from the side wall of the door pool. delete delete delete The method according to claim 1,
And a lower bearing interposed between the lower portion of the turret structure and the sidewalls of the second door pool, the lower bearing supporting the lower portion of the turret structure to be rotatable. Assembling the turret structure into the turret block;
With the turret structure assembled to the turret block, the turret block is seated on the door pool of the hull block, wherein the door pool has a first door pool and a second door pool having a predetermined width smaller than that of the first door pool. It is formed to the fork, the turret block is seated on the bottom surface of the first door pool;
Welding the turret block and the hull block at a position corresponding to a horizontal center line of the hull block;
At least one of the upper portion and the lower portion of the welded portion, bolting the coupling pieces provided in the turret block and the bolt fastening pieces provided in the hull block, the coupling piece is a horizontal long hole formed in the bolt fastening pieces Block-type turret assembling method comprising the; The method of claim 8,
And a lower bearing formed of a sliding pad between the lower portion of the turret structure and the side wall of the door pool to rotatably support the lower portion of the turret structure.

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