KR102122093B1 - Riser and cassion mountiong method and mounting structure thereof - Google Patents

Abstract

Disclosed are a mounting method of a riser and a caisson, a mounting structure, and a ship or offshore structure including the same. A method of mounting a riser and a caisson according to an embodiment of the present invention comprises: designing a side shell block unit which is coupled to a side wall of a hull and on which a caisson pipe and a riser pipe are disposed; Separating the pipe coupling block in which the caisson pipe and the riser pipe are disposed among the designed side shell block units from the side shell block unit so as to be recombinable; Manufacturing a side shell block unit from which the pipe coupling block is separated so that the pipe coupling block can be combined; Manufacturing a pipe coupling block; Pre-mounting a plurality of caisson pipes and riser pipes along the vertical direction from the upper end to the lower end of the pipe coupling block; Coupling the side shell block unit to the hull; And assembling a pipe coupling block in which the caisson pipe and the riser pipe are mounted on the side shell block unit.

Description

RISER AND CASSION MOUNTIONG METHOD AND MOUNTING STRUCTURE THEREOF}

The present invention relates to a mounting method of a riser and a caisson, a mounting structure, and a ship or offshore structure including the same, and more specifically, a riser provided to transport crude oil drilled in a caisson pipe and a subsea oil well in which an underwater pump can be elevated. It relates to a riser and a caisson mounting method, a mounting structure and a ship or offshore structure including the same to couple to the hull.

A caisson pipe and a riser pipe are mounted inside or outside the hull of a marine structure or ship.

In the caisson pipe, an underwater pump can be arranged to suck cold deep sea water.

The riser pipe is used as an oil and gas line for transporting crude oil and gas drilled in subsea wells.

Drilling rigs with drilling rigs in the center and storage areas for drilling rigs, such as crew accommodation, work areas, tubing drilling rigs in the form of drilling ducts, casings, liners, etc. It is also mounted on (drilling rig) vessels.

In the case of recent global ship certification or new concept ship building standards, the riser pipe corresponding to the transport pipeline such as crude oil and gas, and the caisson pipe corresponding to the intake pipeline of sea water to supply water Must be outside.

In order to meet these standards, the installation of caissons and riser pipes outside the ship or offshore structures varies in length and type of pipes, and when installed individually, the risk of work due to the height of the pipes increases and the air increases significantly.

In addition, if the pipes are directly mounted on the hull for the purpose of securing the accuracy of the hydro test and dry inspection, many supporting elements are required, and the installation and disassembly cost increases afterwards.

Therefore, the mounting operation of the existing riser and caisson pipe has a problem in terms of cost reduction and safety work.

Republic of Korea Patent Application No. 10-2012-0083601

According to an embodiment of the present invention, regardless of the length and type of the pipe, it is possible to shorten the air by reducing dangerous and difficult work, thereby ensuring safety work, and reducing excessive use of pipe support elements, thereby reducing installation and disassembly costs. It is intended to provide a method of mounting a riser and a caisson that can be reduced, a mounting structure, and a ship or offshore structure including the same.

According to an aspect of the present invention, it is coupled to the side wall of the hull, designing a side shell block unit in which a caisson pipe and a riser pipe are disposed; Separating the pipe coupling block in which the caisson pipe and the riser pipe are disposed among the designed side shell block units from the side shell block unit so as to be recombinable; Manufacturing the side shell block unit from which the pipe coupling block is separated so that the pipe coupling block can be combined; Manufacturing the pipe coupling block; Pre-mounting the caisson pipe and the riser pipe manufactured in plural along the vertical direction from the upper end to the lower end of the pipe coupling block; Coupling the side shell block unit to a hull; And assembling the pipe coupling block in which the caisson pipe and the riser pipe are previously mounted on the side shell block unit.

At least one of the steps of manufacturing the side shell block unit and the pipe coupling block may include: assembling sub-blocks; Mounting the outfitting; And coating the inner and outer walls.

The step of assembling the pipe coupling block on which the caisson pipe and the riser pipe are pre-mounted on the side shell block unit is located in an area adjacent to the side shell block unit so that the pipe coupling block can be coupled to the side shell block unit. Placing a platen; Mounting the pipe coupling block on the platen and temporarily assembling the pipe coupling block to the side shell block unit; And welding and assembling the side shell block unit to the pipe coupling block.

The side shell block unit is a cylindrical block having a rounded corner with a shape projected on the ground, and a plurality of support blocks intersecting each other so as to support the outer wall is disposed inside the cylindrical block, wherein the pipe coupling block is , Cut between one rounded edge and the other rounded edge of the rectangular cylindrical block, may be provided by cutting the support block.

A cutting surface between one rounded edge and the other rounded edge of the rectangular cylindrical block of the side shell block unit is formed to be inclined toward the support block, and a cut surface of the support block may be formed as a flat portion.

The mounting of the caisson pipe and the riser pipe to the pipe coupling block may include: installing a support element in the pipe coupling block; Assembling the caisson pipe and the riser pipe to a support element; And connecting a curved section to the lower end of the caisson pipe and the riser pipe.

After the caisson pipe and the riser pipe are previously mounted on the pipe coupling block, a step of assembling the suction pump on the caisson pipe and the riser pipe may be further included.

According to another aspect of the present invention, it is coupled to the side wall of the hull, the step of manufacturing a side shell block unit caisson pipe and riser pipe is disposed; Separating and arranging a pipe coupling block in which the caisson pipe and the riser pipe are disposed among the side shell block units from the side shell block unit; Pre-mounting the caisson pipe and the riser pipe manufactured in plural along the vertical direction from the upper end to the lower end of the pipe coupling block; Mounting the side shell block unit on a hull; And assembling the pipe coupling block in which the caisson pipe and the riser pipe are mounted on the side shell block unit.

After the step of separating and arranging the pipe coupling block on which the caisson pipe and the riser pipe are disposed from the side shell block unit, mounting a design on the side shell block unit and the pipe coupling block; And painting the inner and outer walls of the side shell block unit and the pipe coupling block.

The step of assembling the pipe coupling block on which the caisson pipe and the riser pipe are pre-mounted on the side shell block unit is located in an area adjacent to the side shell block unit so that the pipe coupling block can be coupled to the side shell block unit. Placing a platen; Mounting the pipe coupling block on the platen and temporarily assembling the pipe coupling block to the side shell block unit; And welding and assembling the side shell block unit to the pipe coupling block.

According to another aspect of the present invention, a caisson pipe and a riser pipe are assembled and provided, but a pipe coupling block is provided with a coupling portion for assembly; And a coupling portion corresponding to the coupling portion of the pipe coupling block to be coupled to the pipe coupling block, and coupled to the side wall of the hull to provide the caisson pipe and the riser pipe outside the hull. A unit, and the pipe coupling block and the side shell block unit may be provided with a mounting structure of a riser and a caisson in which each of the coupling portions are aligned and coupled to face each other.

The side shell block unit is a cylindrical block having a rounded corner with a shape projected on the ground, and a plurality of support blocks intersecting each other so as to support the outer wall is disposed inside the cylindrical block, wherein the pipe coupling block is , Between one rounded edge and the other rounded edge of the rectangular tubular block, the support block is cut so that the engaging portion can be provided.

The coupling portion between one rounded edge and the other rounded edge of the rectangular cylindrical block of the side shell block unit is formed to be inclined toward the support block, and the coupling portion of the support block is formed as a flat portion, and the side shell block The coupling portion of the unit and the coupling portion of the pipe coupling block may be welded.

According to another aspect of the present invention, a ship or offshore structure including the above-described mounting structure of the riser and caisson may be provided.

According to one embodiment of the present invention, the dangerous and difficult work is reduced, and the safety work is secured while shortening the air, and since the excessive use of the pipe support elements can be reduced, the installation of the riser and the caisson to reduce the installation and disassembly cost It is possible to provide a method, a mounting structure, and a ship or offshore structure including the same.

1 is a schematic diagram of a side shell block unit and a pipe coupling block manufactured by a method of mounting a riser and a caisson according to an embodiment of the present invention.
FIG. 2 is a plan view of FIG. 1.
3 is an assembly diagram of a side shell block unit and a pipe coupling block by a method of mounting a riser and a caisson according to an embodiment of the present invention.
4 is a plan view of FIG. 3.

Hereinafter, various embodiments of the present invention will be described by specific embodiments illustrated in the accompanying drawings. Differences in the embodiments of the present invention described below should be understood as not mutually exclusive. That is, without departing from the spirit and scope of the present invention, the specific shapes, structures, and characteristics described may be implemented in other embodiments in connection with one embodiment, and the location of individual components within each disclosed embodiment, or It should be understood that the arrangement may be changed, and similar reference numerals in the drawings refer to the same or similar functions across various aspects, and the length, area, thickness, and the like may be exaggerated for convenience.

1 to 4, the mounting method of the riser and the caisson according to an embodiment of the present invention is coupled to the side wall of the hull 100, the caisson pipe 125 and the riser pipe 125 The step of designing the side shell block unit 110 to be arranged and the side of the designed side shell block unit 110 to recombine the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are disposed. The step of separating from the shell block unit 110, and the step of manufacturing the side shell block unit 110 from which the pipe coupling block 120 is separated so that the pipe coupling block 120 can be combined, and the pipe coupling block 120 A step of manufacturing, and the step of pre-mounting the caisson pipe 125 and the riser pipe 125 manufactured in plural along the vertical direction from the upper end to the lower end of the pipe coupling block 120, and the side shell block unit 110. The riser and caisson comprising the step of assembling the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are mounted on the side shell block unit 110. The mounting method of can be provided.

The caisson pipe 125 and the riser pipe 125 are mounted along the up-down direction of the side shell block unit 110 which is arranged long along the up-down direction of the hull 100 on the side side of the hull 100.

Conventional mounting work of the caisson pipe 125 and the riser pipe 125, there is an assembly operation at a position higher than the upper deck of the hull 100, and the side shell block unit along the height direction of the hull 100 ( Since the operation of assembling the caisson pipe 125 and the riser pipe 125 along the height direction of 110) is essential, it entails a considerable risk according to the aerial work.

However, in the mounting method of the riser and the caisson according to the present embodiment, the aerial work of the caisson pipe 125 and the riser pipe 125 is significantly reduced.

According to this embodiment, the pipe coupling block 120 and the side shell block unit 110 are manufactured to be separated from each other, and the pipe coupling block 120 is preceded by the caisson pipe 125 and the riser pipe 125. By being mounted, the side shell block unit 110 is assembled to the hull 100 in the state where the pipe coupling block 120 is integrated into the side shell block unit 110, and then the caisson pipe 125 and the riser pipe 125 are assembled. ) Is omitted.

As a result, assembling the caisson pipe 125 and the riser pipe 125 to the side shell block unit 110 coupled to the hull 100, dangerous and difficult work can be reduced, thereby reducing air and ensuring safety work. Since the excessive use of the pipe support elements can be reduced, installation and disassembly costs can be reduced.

In addition, in the case of the riser pipe 125 according to the present embodiment, the curved section 128 is provided at the bottom to facilitate the flow of the fluid being moved, but when installed vertically, it is difficult to install because the three-dimensional curved section like a spiral enters. When installed to the outer side of the hull, the installation of the curved section 128 is easy.

In addition, according to the present embodiment, when the caisson pipe 125 and the riser pipe 125 are pre-mounted on the pipe coupling block 120, a case in which installation is not possible due to a position error may occur, but the support element 127 is easily , there is an advantage that can be installed by moving the location of support.

The steps of manufacturing the side shell block unit 110 and the pipe coupling block 120 according to the present embodiment include assembling the sub-blocks 130 and 131, and mounting the design 132 and the interior. And coating the outer wall.

Since the above-described side shell block unit 110 is a component in which the caisson pipe 125 and the riser pipe 125 are coupled and supported, a plurality of caisson pipes 125 and riser pipes along the vertical direction of the hull 100 It is designed and manufactured to support the load of (125).

The side shell block unit 110 may be manufactured in advance in the assembly area of the ship and mounted on the hull 100. To this end, the side shell block unit 110, a plurality of sub-blocks 130 are pre-made, the hull 100 is assembled to the sub-blocks 130 are transported to the area where the assembly can be made.

At this time, the sub-blocks 130 of the side shell block unit 110 may be blocks divided into a plurality along the vertical direction, and these sub-blocks 130 are stacked to form one side shell block unit 110 Can be combined. Necessary design items 132 may be pre-mounted in these sub-blocks 130, and a painting operation may be performed.

The pipe coupling block 120 may be separately manufactured in a design state to be coupled to the side shell block unit 110, and similarly, the sub-blocks 131 may be assembled and manufactured, and necessary design items (not shown) ) May be mounted in advance, and a painting operation may be performed.

The step of pre-mounting the caisson pipe 125 and the riser pipe 125 on the pipe coupling block 120 includes installing the support element 127 on the pipe coupling block 120 and the caisson pipe 125. The step of assembling the riser pipe 125 to the support element 127 and the step of connecting the curved section 128 to the lower end of the caisson pipe 125 and the riser pipe 125 may be included.

In addition, the step of assembling the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are mounted on the side shell block unit 110 according to the present embodiment, the pipe coupling block 120 is a side shell Placing the platen (140) in an area adjacent to the side shell block unit (110) so that it can be coupled to the block unit (110), and mounting the pipe coupling block (120) on the platen (140) and pipe coupling block (120). It may include the step of temporarily assembling and aligning the side shell block unit 110, and welding and assembling the side shell block unit 110 to the pipe coupling block 120.

The side cell block unit 110 is manufactured such that the pipe coupling block 120 can be assembled, and is assembled and coupled to the hull 100 in a state supported by the hemisphere 133. At this time, the pipe coupling block 120 assembled to the side shell block unit 110 is disposed on the surface plate 140 so as to be accurately coupled to the side shell block unit 110 and assembled to the side shell block unit 110.

At this time, the side shell block unit 110 and the pipe coupling block 120 may be coupled by fastening elements for provisional assembly in a state where they are accurately arranged using various location measurement methods such as GPS, and after provisional assembly is completed Position correction can be further performed, and can be fully combined by welding after the correct assembly arrangement is completed.

On the other hand, the side shell block unit 110 according to the above-described embodiment, the shape projected to the ground is a rectangular cylindrical block 112 with rounded corners, and the interior of the cylindrical block 112 intersects each other to support an external wall. A plurality of support blocks 114 are arranged, the pipe coupling block 120 is cut between one rounded edge 116 and the other rounded edge 117 of the rectangular tubular block 112, the support block 114 ) Can be prepared by cutting.

The structure of the side shell block unit 110 is provided so that the caisson pipe 125 and the riser pipe 125 can be stably supported, and the support block 114 is provided in the vertical direction of the side shell block unit 110. Can be arranged accordingly.

In addition, the cutting surface 118 between one rounded edge 116 and the other rounded edge 117 of the rectangular cylindrical block 112 of the side shell block unit 110 according to this embodiment is inclined toward the support block 114 side. It is formed so as to be formed, the cutting surface 118 of the support block 114 may be formed as a flat portion.

The side shell block unit 110 and the cutting surfaces 118 corresponding to each other of the pipe coupling block 120 are assembled separately, and the assembly of the pipe coupling block 120 to the side shell block unit 110 is performed. It is structured to be easier. At this time, the outer wall portion of the pipe coupling block 120 may have a coupling region in which a plurality of caisson pipes 125 and riser pipes 125 may be disposed.

After the caisson pipe 125 and the riser pipe 125 are pre-mounted on the pipe coupling block 120, the step of assembling the suction pump to the caisson pipe 125 and the riser pipe 125 may be further included.

At this time, the riser pipe 125 is a pipeline used to transport crude oil and gas, etc., extending to the seabed separately from the caisson pipe 125 used for seawater suction.

The riser pipe 125 extends to the seabed and may be arranged in a plurality of pipes (not shown) having different pipe diameters, and a suction pump (not shown) may be connected.

Again, as shown in Figures 1 to 4, the mounting method of the riser and the caisson according to another embodiment of the present invention, unlike the above-described embodiment, is coupled to the side wall of the hull 100 and the caisson pipe 125 ) And manufacturing the side shell block unit 110 in which the riser pipe 125 is disposed, and the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are disposed in the side shell block unit 110. ) Is separated from the side shell block unit 110 and disposed, and the caisson pipe 125 and the riser pipe 125 manufactured in plural along the vertical direction from the upper end to the lower end of the pipe coupling block 120 are mounted in advance. The step of mounting, the step of mounting the side shell block unit 110 to the hull 100, and the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are previously mounted on the side shell block unit 110. ).

The method of mounting the riser and the caisson according to another embodiment of the present invention is almost similar to the above-described embodiment, but the side shell block unit 110 is manufactured so that the pipe coupling block 120 is separated from the side shell block unit 110. do.

In other words, the mounting method of the riser and the caisson according to an embodiment of the present invention, the side shell block unit 110 and the pipe coupling block 120 are separated from the design stage, and separately manufactured from the time of manufacture. The mounting method of the riser and the caisson according to another embodiment is designed and manufactured by designing the side shell block unit 110 such that the pipe coupling block 120 is detachable.

Riser and caisson mounting method according to another embodiment of the present invention, after separating the pipe coupling block 120 from the side shell block unit 110 in the mounting area for the hull, caisson pipe to the case coupling block 120 Since the 125 and the riser pipe 125 can be pre-mounted, the heightening work for the caisson pipe 125 and the riser pipe 125 is reduced.

The pipe coupling block 120 can be separated from the side shell block unit 110 by releasing or cutting of the fastening elements of the side shell block unit 110 and the pipe coupling block 120 arranged at the time of design and manufacturing. Thereafter, a caisson pipe 125 and a riser pipe 125 are mounted on the pipe coupling block 120.

That is, after the step of separating and arranging the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are disposed from the side shell block unit 110, the side shell block unit 110 and the pipe coupling block ( The step of mounting the design 132 on the 120) and the step of painting the inner and outer walls of the side shell block unit 110 and the pipe coupling block 120 may proceed.

The method of mounting the riser and the caisson according to this other embodiment, unlike the above-described embodiment, the intact side shell block unit 110 is first produced, and the caisson pipe 125 and the riser pipe 125 are piped to be combined in advance. The operation of separating the block 120 from the side shell block unit 110 is performed.

Thereafter, after the caisson pipe 125 and the riser pipe 125 are pre-mounted on the separated pipe coupling block 120, the side shell block unit 110 is assembled to the hull 100, and the side shell block unit 110 ), the pipe coupling block 120 on which the caisson pipe 125 and the riser pipe 125 are previously mounted may be coupled to the side shell block unit 110.

As a result, assembling the caisson pipe 125 and the riser pipe 125 to the side shell block unit 110 coupled to the hull 100, dangerous and difficult work can be reduced, thereby reducing air and ensuring safety work. Since the excessive use of the pipe support elements can be reduced, installation and disassembly costs can be reduced.

The step of assembling the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are mounted on the side shell block unit 110 according to another embodiment of the present invention, the pipe coupling block 120 is Placing the platen 140 in an area adjacent to the side shell block unit 110 so as to be coupled to the side shell block unit 110, and mounting the pipe coupling block 120 to the platen 140 and pipe coupling block ( It may include the step of temporarily assembling 120) to the side shell block unit 110, and welding and assembling the side shell block unit 110 to the pipe coupling block 120.

1 to 3, the mounting structure of the riser and the caisson according to an embodiment of the present invention is provided with the caisson pipe 125 and the riser pipe 125 assembled, but a coupling unit for assembly is provided. The pipe coupling block 120 and the pipe coupling block 120 are coupled so that the coupling portion corresponding to the coupling portion of the pipe coupling block 120 is provided but coupled to the side wall of the hull 100 and the caisson pipe 125 The riser pipe 125 includes a side shell block unit 110 provided to be disposed on the hull 100, and the pipe coupling block 120 and the side shell block unit 110 are arranged such that the respective coupling portions face each other. Are combined.

As described above, the mounting structure of the riser and the caisson according to the present exemplary embodiment is, because the pipe coupling block 120 in which the caisson pipe 125 and the riser pipe 125 are previously mounted is coupled to the side shell block unit 110, the existing side. Compared to the structure in which the shell convex unit is fabricated as one, the height lifting operations for the hull 100 can be significantly reduced, and the dismantling cost is reduced.

The side shell block unit 110 according to this embodiment is a cylindrical block 112 having a rounded corner with a shape projected on the ground as described above, and an outer wall is supported inside the cylindrical block 112. A plurality of support blocks 114 intersecting each other is disposed, and the pipe coupling block 120 is cut between one rounded edge 116 and the other rounded edge 117 of the rectangular cylindrical block 112, and the support block is cut off. The 114 may be cut to provide a coupling portion.

In addition, as described above, the coupling portion between one rounded edge 116 and the other rounded edge 117 of the rectangular cylindrical block 112 of the side shell block unit 110 is formed to be inclined toward the support block 114, The coupling portion of the support block 114 is formed as a flat portion, and the coupling portion of the side shell block unit 110 and the coupling portion of the pipe coupling block 120 may be welded.

On the other hand, according to an embodiment of the present invention, a ship or offshore structure including the above-described mounting structure of the riser and caisson may be provided.

In this ship or offshore structure, the caisson pipe 125 and the riser pipe 125 are mounted in advance with respect to the side shell block unit 110, and the pipe coupling block 120 is prefabricated and assembled. The risk and cost increase for the aerial work of the riser pipe 125 is reduced, and safety according to the mounting work of the caisson pipe 125 and the riser pipe 125 is secured.

In addition, the dismantling cost of the caisson pipe 125, the riser pipe 125, and the side shell block unit 110 is reduced, productivity is increased, and the caisson pipe 125 and the riser pipe 125 are structurally stable. As it is mounted on the pipe coupling block 120, the reliability of the assembly of the case pipe and the pipe coupling block 120 is improved, thereby providing structurally high safety.

As described above, one embodiment of the present invention has been described, but on the basis of this, a person having ordinary skill in the art may add, change, or change components within the scope of the present invention as set forth in the claims. The present invention may be variously modified and changed by deletion or addition, and it will also be included within the scope of the present invention.

100: hull 110: side cell block unit
112: cylindrical block 114: support block
116: one rounded corner 117: the other rounded corner
118: cutting surface 120: pipe coupling block
125: caisson pipe 126: riser pipe
127: support element 128: curve section
131: sub-blocks 132: equipment
133: antagonism 140: platen

Claims (14)

Designing a side shell block unit which is coupled to the side wall of the hull and on which the caisson pipe and riser pipe are disposed;
Separating the pipe coupling block in which the caisson pipe and the riser pipe are disposed among the designed side shell block units from the side shell block unit so as to be recombinable;
Manufacturing the side shell block unit from which the pipe coupling block is separated so that the pipe coupling block can be combined;
Manufacturing the pipe coupling block;
Pre-mounting the caisson pipe and the riser pipe manufactured in plural along the vertical direction from the upper end to the lower end of the pipe coupling block;
Coupling the side shell block unit to a hull; And
And assembling the pipe coupling block in which the caisson pipe and the riser pipe are mounted on the side shell block unit.
At least one of the steps of manufacturing the side shell block unit and the pipe coupling block,
Assembling the subblocks;
Mounting the outfitting; And
And coating the inner and outer walls.
Assembling the pipe coupling block in which the caisson pipe and the riser pipe are previously mounted on the side shell block unit,
Arranging a platen in an area adjacent to the side shell block unit such that the pipe coupling block can be coupled to the side shell block unit;
Mounting the pipe coupling block on the platen and temporarily assembling the pipe coupling block to the side shell block unit; And
And welding and assembling the side shell block unit to the pipe coupling block,
Pre-mounting the caisson pipe and the riser pipe to the pipe coupling block,
Installing a support element on the pipe coupling block;
Assembling the caisson pipe and the riser pipe to a support element; And
And connecting a curved section to the lower end of the caisson pipe and the riser pipe,
And mounting the caisson pipe and the riser pipe on the pipe coupling block, and then assembling the suction pump on the caisson pipe and the riser pipe. delete delete According to claim 1,
The side shell block unit,
The shape projected on the ground is a rectangular cylindrical block with rounded corners, and a plurality of supporting blocks intersecting each other such that the outer wall is supported is disposed inside the cylindrical block.
The pipe coupling block, a method of mounting a riser and a caisson which is cut by cutting between one rounded edge and the other rounded edge of the rectangular cylindrical block. According to claim 4,
The cutting surface between the one rounded edge and the other rounded edge of the rectangular cylindrical block of the side shell block unit is formed to be inclined toward the support block, and the mounting method of the riser and caisson forming the cut surface of the support block as a flat portion. delete delete Manufacturing a side shell block unit which is coupled to the side wall of the hull and on which the caisson pipe and riser pipe are disposed;
Separating and arranging a pipe coupling block in which the caisson pipe and the riser pipe are disposed among the side shell block units from the side shell block unit;
Pre-mounting the caisson pipe and the riser pipe manufactured in plural along the vertical direction from the upper end to the lower end of the pipe coupling block;
Mounting the side shell block unit on a hull; And
And assembling the pipe coupling block in which the caisson pipe and the riser pipe are mounted on the side shell block unit.
After the step of separating and disposing the pipe coupling block in which the caisson pipe and the riser pipe are disposed from the side shell block unit,
Mounting a design on the side shell block unit and the pipe coupling block; And
And coating the inner and outer walls of the side shell block unit and the pipe coupling block,
Assembling the pipe coupling block in which the caisson pipe and the riser pipe are previously mounted on the side shell block unit,
Arranging a platen in an area adjacent to the side shell block unit such that the pipe coupling block can be coupled to the side shell block unit;
Mounting the pipe coupling block on the platen and temporarily assembling the pipe coupling block to the side shell block unit; And
And a step of welding and assembling the side shell block unit to the pipe coupling block. delete delete A pipe coupling block in which a caisson pipe and a riser pipe are assembled and provided, and a coupling portion for assembly is provided; And
A side shell block unit that is provided with a coupling portion corresponding to the coupling portion of the pipe coupling block so that the pipe coupling block is coupled, is coupled to the side wall portion of the hull and arranged to arrange the caisson pipe and the riser pipe outside the hull. It includes,
The pipe coupling block and the side shell block unit are aligned and coupled so that the respective coupling portions face each other,
The side shell block unit,
The shape projected on the ground is a rectangular cylindrical block with rounded corners, and a plurality of supporting blocks intersecting each other so that the outer wall is supported is disposed inside the cylindrical block.
The pipe coupling block is cut between one rounded edge and the other rounded edge of the rectangular cylindrical block, and the support block is cut to provide the coupling portion,
The coupling portion between one rounded edge and the other rounded edge of the rectangular cylindrical block of the side shell block unit is formed to be inclined toward the support block,
The coupling portion of the support block is formed as a flat portion,
The mounting structure of the riser and caisson to be welded to the coupling portion of the side shell block unit and the pipe coupling block. delete delete delete

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