KR101313548B1 - Mega block construction - Google Patents

Abstract

The megablock method is disclosed. Megablock method according to an embodiment of the present invention comprises the steps of (a) assembling the first megablock and the second megablock in multiple stages in the assembly shop; (b) mounting the first and second megablocks in a dry dock; And (c) assembling the mounted first megablock and the second megablock.

Description

Mega Block Method {MEGA BLOCK CONSTRUCTION}

The present invention relates to a megablock process.

Recently, the block method is used to improve the productivity of shipbuilding. Typically, the block method divides the hull into dozens or hundreds of blocks, assembles the divided blocks first on the ground, then sequentially assembles the blocks back into the dock (dry dock, floating dock) or pants . At this time, the unit blocks produced in the shipyard hull factory is assembled into a mega block or giga block in the PE (Pre-Erection) workshop through the preceding design and the preceding painting work.

The above-mentioned megablock used in the megablock method has a weight of 1000 to 3200 tons, and has a length of about 30m. Due to the heavy weight, these megablocks cannot be transported into the dock by most land vehicles, and are usually transported by sea cranes.

1 illustrates a conventional megablock method.

As shown in FIG. 1, first, each unit block 12 and 14 is manufactured in a hull factory of a shipyard (S11).

Next, for each of the unit blocks 12 and 14, the preceding design and the preceding painting work is performed (S21).

Next, the unit blocks 12 and 14 are moved to the corresponding PE workshops 20 and 30 and assembled into mega blocks 22 and 32 (S31). At this time, the first mega block 22 composed of the first unit blocks 12 in the first PE workshop 20 is assembled, and the second mega block composed of the second unit blocks 14 in the second PE workshop 30. 32 is assembled.

Next, the first megablock 22 and the second megablock 32 are mounted on the (dry) dock 40 by using a transportation means such as a crane (S41).

However, in the conventional megablock method, since the PE workshops 20 and 30 are allocated and used for each megablock 22 and 32, the PE workshops 20 and 30 are insufficient as the ship construction number increases. There is a problem that the manufacturing turnover of the.

Further, for example, in the case where the above-described first megablock 22 and the second megablock 32 are engine room megablocks with many design items (eg, piping, wires, ladders, etc.), each of the mega blocks in the dock 40 may be used. In the process of mounting the blocks 22 and 32, excessive interference occurs between the equipment of each of the mega blocks 22 and 32, thereby damaging each of the mega blocks 22 and 32, or dismantling a part of the equipment in the mounting process. Additional work may occur.

Embodiment of the present invention is to provide a megablock method for increasing the utilization of the PE workshop to increase the manufacturing turnover of the vessel.

In addition, it is to provide a megablock method that makes the megablocks more effectively mounted in the dock by high-preceding the interference factor between the megablocks stacked in multiple stages in the PE workshop.

According to an aspect of the invention (a) assembling the first megablock and the second megablock in multiple stages in the assembly shop; (b) mounting the first megablock and the second megablock in a dry dock; And (c) assembling the mounted first megablock and the second megablock.

The step (a) is a step of manufacturing each of the unit blocks constituting the first mega block and the second mega block in the hull factory, and the step of performing the preceding design and pre-painting for the unit blocks, respectively; Assembling the first mega block by moving the first unit blocks of the unit blocks to the assembly site, and moving the second unit blocks of the unit blocks to the upper part of the first mega block. It may include the step of assembling the megablock.

In the process of assembling the second mega block by moving the second unit blocks on the first mega block, the first mega block or the elements of the second unit blocks that interfere with each other are originally installed by dismantling means. It may be dismantled from its location and temporarily installed in another location.

In the process of assembling the mounted first megablock and the second megablock, the element temporarily installed in the other place may be reinstalled in its original installation position.

When the first megablock is a lower structure of the second megablock, the second megablock may be lifted from the first megablock and temporarily mounted in the floating dock before the step (b).

When the second megablock is lifted from the first megablock, the second megablock may be shaken to damage one or more of the first megablock and the second megablock due to interference with the first megablock. In order not to occur, one or more guide members may be provided at the periphery of the first megablock.

The step (b) may include mounting the first megablock on the dry dock, and placing the second megablock temporarily placed on the floating dock above the first megablock.

Mega block method according to an embodiment of the present invention can increase the utilization of the PE workshop can increase the manufacturing turnover of the vessel.

In addition, the interference factor between the megablocks stacked in a multi-stage PE workshop in advance, and then, the megablocks can be more effectively mounted on the dock to increase the efficiency of ship manufacturing.

Also, in the process of mounting the megablocks stacked in multiple stages in the PE workshop as a dock, a guide member is provided around the lower megablock so that the lifting upper megablock is not shaken to cause interference with the equipment installed in the lower megablock. Therefore, more efficient megablock transportation can be achieved in multi-stacked megablock environments.

1 illustrates a conventional megablock method.
2 and 3 illustrate a megablock method according to an embodiment of the present invention.

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

2 and 3 illustrate a megablock method according to an embodiment of the present invention.

As shown in Figure 2 and 3, the ship can be assembled using the mega block method according to an embodiment of the present invention. At this time, in the embodiment of the present invention will be described taking the engine room (E / R) of the structure constituting the vessel to help understanding. The engine room may be formed of a combination of megablocks of the lower structure and the upper structure, respectively. In this case, it is assumed that the first megablock 22 to be described later is a lower structure of the second megablock 32.

Referring to FIG. 2, first, the unit blocks 12 and 14 constituting the first mega block 22 and the second mega block 32, which will be described later, are manufactured at the hull factory of the shipyard (S101).

Next, the preceding design and the preceding painting work is performed on the manufactured unit blocks (12, 14).

Next, the unit blocks 12 and 14 are moved to an assembly site (eg, PE (Pre-Erection) workshop 20) to assemble the megablocks 22 and 32 (PE blocks) in multiple stages (S121). . At this time, the first unit blocks 12 moved to the PE workshop 20 is assembled to complete the first mega block 22. Then, the second unit block 14 is moved to the upper part of the first mega block 22 and assembled into the second mega block 32.

That is, the first mega block 22 is first assembled in one PE workshop 20, and the second mega block 32 is assembled on the first mega block 22, so that the second mega blocks 22, 32) is completed. As such, the megablocks 22 and 32 may be stacked in multiple stages in one PE workshop 20, so that the other PE blocks 30 may be assembled to other megablocks (not shown). It is possible to increase the manufacturing turnover of the vessel.

In this case, when the plurality of second unit blocks 14 are assembled to move on the upper part of the first mega block 22, the elements of the first mega block 22 or the second unit block 14, which generate interference with each other, It can be fixed in advance. For example, the first megablock 22 or the second unit in which excessive interference occurs in the process of assembling the second unit block 14 to the second megablock 32 by moving the upper portion of the first megablock 22. The equipment (e.g., pipes, wires, ladders, etc.) of the block 14 may be dismantled from the original installation position by dismantling means and temporarily installed (stored) in another adjacent place. This is to increase the efficiency of the assembly work when the assembly is made between the mega blocks 22 and 32 mounted on the dock 40 in step S151 to be described later.

Next, a plurality of guide members 23 are installed in the periphery of the first mega block 22 (S123). The guide member 23 is shaken by the second mega block 32 when lifting the second mega block 32 on the first mega block 22 and the first mega block 22 and the second mega block. It may be installed in the periphery of the first mega block 22 so that damage does not occur due to the interference between the (32). In this case, the guide member 23 may be fixed to the periphery of the first mega block 22 by welding or the like.

Next, referring to FIG. 3, the second megablock 32 is lifted from the top of the first megablock 22 and temporarily mounted in the floating dock 50 (S131). This is to mount the first megablock 22, which is a lower structure of the second megablock 32, to the dock 40 first. Here, the floating dock 50 is a marine structure including a ballast tank therein, and when the water is injected into the ballast tank, the floating dock 50 sinks into water, and when the water is discharged from the ballast tank, it floats on the sea. It may have a form. However, the present invention is not limited to the floating dock 50, and may be a place where the second megablock 32 may be temporarily mounted.

Next, the first megablock 22 is mounted in the (dry) dock 40 (S141).

Next, the second mega block 32 temporarily mounted in the floating dock 50 is placed on the upper portion of the first mega block 22, and the first mega block 22 and the second mega block 32 are mutually stacked. Assemble (S151). Here, the second megablock 32 may be more safely and effectively deposited on the upper part of the first megablock 22 by the guide member 23. In addition, the above-described highly thinned element may be reinstalled at the original installation position again during the assembly of the first megablock 22 and the second megablock 32. The guide member 23 may be removed after the assembly process or after the assembly is completed.

The above-mentioned assembly of the mega blocks 22 and 32 may be performed by welding. Welding may be a full pass or one-pass welding method. In the full pass welding method, for example, a metal plate having a thickness of 15 mm is welded to the 15 mm thickness by performing welding several times with a welding apparatus. One-pass welding method is a metal plate formed with a thickness of 15mm is a method of welding once with a welding device to weld to a thickness of about 3mm.

In addition, the unit blocks 12 and 14 and the mega blocks 22 and 32 described above may be moved by a vehicle such as a crane, a crane, a transporter, a conveyor, or the like.

The foregoing has shown and described specific embodiments. However, the present invention is not limited to the above embodiments, and those skilled in the art may make various changes without departing from the spirit of the technical idea of the invention as set forth in the claims below. .

12,14: unit block
22,32 Megablock
23: guide member
40: (dry) dock
50: floating dock

Claims (7)

(A) assembling the first megablock and the second megablock in multiple stages in the assembly site;
(b) mounting the first megablock and the second megablock in a dry dock; And
(c) assembling the mounted first megablock and the second megablock;
When the first megablock is a lower structure of the second megablock, the second megablock is lifted from the first megablock before the step (b), so that the first megablock is located in a space other than the position where the first megablock is to be mounted. When temporarily mounted and the second megablock is lifted from the first megablock, the second megablock is shaken to cause one of the first megablock and the second megablock due to interference with the first megablock. The megablock method, characterized in that at least one guide member is provided in the periphery of the first megablock so that damage does not occur in the above. The method of claim 1,
The step (a)
Manufacturing each of the unit blocks constituting the first megablock and the second megablock in a hull factory;
Performing the preceding design and the preceding painting operations on the unit blocks, respectively;
Assembling the first mega block by moving first unit blocks of the unit blocks to the assembly site;
Megablock method comprising the step of assembling the second megablock by moving the second unit blocks of the unit blocks above the first megablock. 3. The method of claim 2,
In the process of assembling the second mega block by moving the second unit blocks on the first mega block, the first mega block or the design of the second unit blocks that interfere with each other are originally installed by dismantling means. Megablock method, characterized in that the dismantling from the location is temporarily installed in another place. The method of claim 3,
In the process of assembling the mounted first mega block and the second mega block, the design article temporarily installed in the other place is reinstalled in the original installation position. The method of claim 1,
The mega block method of claim 2, wherein the space in which the second mega block is temporarily mounted is a floating dock. delete The method of claim 5,
The step (b)
Mounting the first megablock on the dry dock;
And depositing the second megablock temporarily placed in the floating dock on an upper portion of the first megablock.

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