KR101689031B1 - Turret barge for floating over and quay load out method thereby - Google Patents

Abstract

A turret barge for floatover and a quay wall load-out method are disclosed. A turret barge for floatover according to an embodiment of the present invention includes: a hull; A turret unit provided on the upper deck of the hull so as to be rotated in response to a load-out of the block from the seawall, the turret unit being disposed so as to be able to be mounted along with the load-out of the block; And a rotation driving unit provided on the upper deck to rotate the turret unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a turret barge for floatover,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a turret barge for floatover and a method for loading and unloading a sidewall by the turret barge for floatover.

Recently, in the construction method of ships and marine structures due to the block size enlargement, block enlargement means that large block is assembled from a small block, and the block size is enlarged by mounting several ordinary blocks assembled at the hull production factory.

Very large terrestrial or marine cranes are used to carry out the assembly process by mounting several large blocks in one dock.

For example, a fixed platform with a marine crane and a super large mega-block are mounted on a barge by moving a fixed platform to a barge by a moving car, moving the barge to a place where the barge is fixed, This is carried out by a block mounting method in which the platform is mounted on a mounting place.

The block loading method using the floating crane depends on the lifting capacity of the floating crane. Since the lifting capacity of the floating crane is not generally large, the load of the fixed platform is reduced for the lifting You can then proceed with the installation.

The block mounting method using such conventional floating crane can delay the air for the block method of the ship or the sea structure because the block is required to be appropriately built or the weight of the block is to be adjusted to the limit of the lifting capacity of the floating crane In addition, the risks can also increase in terms of cost.

Therefore, when the block on the quay wall is mounted by barge, the barge is floated properly at the height of the quay without using the floating crane with the limitation of the lifting capacity, and the block is mounted on the barge along the rail connected to the barge It also uses the method.

When blocks mounted on the barge are mounted on the barge by the rail, they are influenced by the difference in the tide interval due to the characteristics of the seashore adjacent to the sea. And this effect is a limitation in the wall mounting.

In order to smoothly move the block to the side of the barge when the block wall is mounted, the level of the barge line must be the same as the level of the sidewall. However, due to the variation of the water level due to the difference in the tide interval and the instability of the barge line, The task was difficult to perform.

Also, in order to smoothly mount the block wall due to the difference in tide distance, it is necessary to select the timing of the tide interval so as to match the level of the barge and the wall, and to appropriately adjust the height of the tile wall ballasting and deballasting capacity of the barges are required to be selected. However, it is difficult to select the barge line and the high-altitude period suitable for the weight of the block when the block is installed on the wall.

Furthermore, since the load-out direction of the block is determined in accordance with the float over direction, defects due to excessive reinforcement are generated in the quay walls and barges. In addition, because there are not many quay walls for installing four skid lines corresponding to rails, there are restrictions on the operation of quay walls such as yards.

Korean Patent Application No. 10-2009-0120386

An embodiment of the present invention provides a float-over turret barge that can load-out a block to a barge in any direction without being restricted by a bare line of a barge against a quay or a quay wall load-out method do.

According to an aspect of the present invention, there is provided a hull comprising: a hull, A turret unit provided on the upper deck of the hull so as to be rotated in response to a load-out of the block from the seawall, the turret unit being disposed so as to be able to be mounted along with the load-out of the block; And a turret drive unit provided on the upper deck so as to rotate the turret unit.

The turret unit comprising: a turret unit coupled to rotate to the upper deck; And a bearing portion provided on the upper deck to rotate and support the turret portion.

The rotation drive unit includes: a reduction gear unit gear-coupled to the turret unit; And a rotation driving unit connected to the reduction gear unit to drive the reduction gear unit.

Wherein the rotation driving unit includes: a winch module having a rotation shaft connected to the reduction gear unit; And an electric motor for driving the winch module.

A skidline unit may be disposed in the sidewall and the turret unit, wherein the pair of rails are disposed on both sides so that the block module can be moved.

According to another aspect of the present invention, there is provided a method of manufacturing a barbed wire for a barbed wire, the barbed wire having a rotatable turret unit provided on an upper deck, Aligning the rail on the turret unit with the rail on the turret unit by rotating the turret unit so that the block module can be moved from the sidewall to the turret unit or vice versa; And moving a block on the rail unit of the quay wall onto the turret unit along the rail unit or vice versa.

In the above-described sidewall load-out method, the turret unit may include: a turret unit coupled to rotate on the upper deck; And a bearing portion disposed on the upper deck so as to be rotatably supported by the turret portion when the block module is carried from the turret portion to the turret portion or when the block module is taken out from the turret portion to the septum, So that the turret portion supported by the block module can be rotated to correspond to the moving direction of the block module.

In the above-described sidewall load-out method, the rotation drive unit may include: a reduction gear portion that is gear-coupled to the turret portion; And a rotation driving unit connected to the reduction gear unit to drive the reduction gear unit.

The above-described quay wall load-out method may further comprise the step of adjusting an upper deck of the barge to a height of the quay wall.

According to an embodiment of the present invention, there is provided a float-over turret barge capable of loading out a block to a barge line in any direction without being restricted by a bare line of the barge line against a quay wall, can do.

FIG. 1 is a state in which a turret unit is rotated corresponding to a load-out direction of a block according to a sidewall load-out method using a turret barge for floatover according to an embodiment of the present invention.
2 is a conceptual view of a turret barge for floatover according to an embodiment of the present invention.
Fig. 3 is a concept of the turret unit of Fig. 2 and a rotation operation unit for rotating the turret unit.
4 is an enlarged view of the rotational operation unit of Fig.

Various embodiments of the present invention will now be described by way of specific embodiments shown in the accompanying drawings. The differences between the embodiments of the present invention described below are to be understood as mutually exclusive. That is, the specific shapes, structures, and characteristics described may be embodied in other embodiments in accordance with one embodiment without departing from the spirit and scope of the present invention, It is to be understood that the arrangements may be altered, where like reference numerals refer to like or similar features throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

1 and 2, a turret barge for floatover according to an embodiment of the present invention includes a hull 110 provided to load blocks from a stern 100 to an upper deck 115, A turret unit 120 provided on an upper deck of the hull 110 so as to be rotated in response to a load-out of the block from the hull 100, And a rotation driving unit 130 provided on the upper deck 115 to allow the upper deck 115 to rotate.

The turret barge for floatover according to the present embodiment can be installed in the upper deck 115 of the hull 110 in any direction without being restricted by the condition of the ridge of the barge line to the ridge 100 or the condition of the ridge 100, Can be loaded out.

That is, in the upper deck 115 of the turret barge for floatover according to the present embodiment, the turret unit 120 to be rotated is mounted. This turret unit 120 can be rotated in response to the load-out of the block to be loaded out from the seawall 100.

That is, if the block 110 can be loaded out, the block 110 can be allowed to load-out by rotating the turret unit 120 by 90 degrees and leaning the hull 110 toward the stern side.

The turret unit 120 is configured to allow the block to enter the hull 110 in response to the block load-out regardless of the arrangement of the blocks or the layout of the hull 110 according to the environment of the hull 100. [ Can be rotated.

Hereinafter, the components according to the present embodiment will be described in detail with reference to FIGS. 2 to 4. FIG.

The turret unit 120 according to the present embodiment includes a turret part 125 coupled to rotate on the upper deck 115 and a bearing part 125 provided on the upper deck 115 to be rotatably supported by the turret part 125 127).

The turret part 125 according to the present embodiment is rotated in response to the load-out so that the block can be substantially loaded out and mounted so that a part of the mounting area of the upper deck 115 of the hull 110 can be rotated It is possible.

The bearing portion 127 is disposed in an annular shape capable of supporting the bottom portion of the turret portion 125 such as a thrust bearing and allowing the rotation of the turret portion 125 to withstand the axial load of the turret portion 125 Bearing.

The rotation drive unit 130 according to the present embodiment includes a reduction gear portion 132 that is gear-engaged with the turret portion 125 and a rotation driving portion 132 that is connected to the reduction gear portion 132 to drive the reduction gear portion 132. [ (Not shown).

The reduction gear portion 132 can rotate the turret portion 125 by increasing the torque according to the driving force of the rotation driving portion 135. The reduction gear portion 132 may be provided with rotation gears having different diameters. The rotation driving unit 135 provides a rotational force as described later and can transmit the rotational force to the turret unit 125 through the reduction gear unit 132. [

The rotation drive unit 135 may include a winch module 137 to which a rotation shaft is connected to the reduction gear unit 132 and an electric motor 138 to drive the winch module 137. The winch module 137 can be rotated by the electric motor 138 to wind or unwind the wire as the rotating body in which the wire is wound and rotate the turret part 125. Namely, the turret part 125 can be rotated by the wire. At this time, the reduction gear portion 132 may be disposed between the electric motor 138 and the winch module 137.

In the meantime, a skid line unit may be disposed in the inner wall 100 and the turret unit 120 according to the present embodiment, in which a pair of rails 140 are disposed on both sides so that the block module can be moved.

That is, the block can be moved to the seawall 100 by the skidline unit, and the turret unit 120 is rotated in response to the load-out of the block, so that the skidline unit of the hull 110 moves to the skid line 100 of the seam 100, And may then be loaded out onto the hull 110.

As shown in FIGS. 1 to 4, the method of loading a quay 100 according to the present embodiment using the turret barge for floatover according to an embodiment of the present invention includes a rotatable turret unit 120, A barge provided on the upper deck 115 to the quay wall 100 and rotating the turret unit 120 so that the block module can be moved from the quay wall 100 to the turret unit 120 or vice versa Aligning the rails 140 on the turret unit 120 with the rails 140 on the fur wall 100 and aligning the blocks on the rails 140 unit of the fur wall 100 along the rails 140 unit, (120). ≪ / RTI >

The turret unit 120 includes a turret part 125 coupled to be rotatably coupled to the upper deck 115 and a turret part 125 coupled to the upper deck 115 to rotate and support the turret part 125. [ When the block module is taken out from the turret portion 125 to the septum 100 when the block is mounted on the turret portion 125 from the septum 100 or when the block module is taken out from the turret portion 125, Can be rotated to correspond to the moving direction of the block module.

The rotation drive unit 130 includes a reduction gear portion 132 that is gear-coupled to the turret portion 125 and a reduction gear portion 132 that drives the reduction gear portion 132, (Not shown). Accordingly, the rotational force by the rotational driving unit 135 can be transmitted to the turret unit 125 through the reduction gear unit 132, and the turret unit 125 can be sufficiently rotated.

The method of the present invention may further include adjusting the height of the upper deck 115 of the barge to the height of the seam 100. [ The height of the upper deck 115 of the hull 110 may be adjusted to correspond to the height of the block's load-out after the hull 110 is ridden to the hull 100, , The ballast water can be discharged to float the hull 110. In the opposite case, the ballast water can be further stored and the hull 110 can be lowered.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Deletion, addition or the like of the present invention may be variously modified and changed within the scope of the present invention.

100: quay 110: hull
115: upper deck 120: turret unit
125: turret part 127: bearing part
130: rotation drive unit 132: reduction gear unit
135: rotation driving part 137: winch module
138: Electric motor 140: Rail

Claims (9)

A hull which is provided so that the block is loaded on the upper deck from the seawall;
A turret unit provided on the upper deck of the hull so as to be rotated in response to a load-out of the block from the seawall, the turret unit being disposed so as to be able to be mounted along with the load-out of the block; And
And a rotation driving unit provided on the upper deck so as to rotate the turret unit,
The rotation drive unit includes:
A reduction gear unit gear-coupled to the turret unit; And
And a rotation driving unit connected to the reduction gear unit to drive the reduction gear unit,
The rotation drive unit
A winch module having a rotation shaft connected to the reduction gear portion; And
And an electric motor for driving the winch module. The method according to claim 1,
The turret unit comprising: a turret unit coupled to rotate to the upper deck; And
And a bearing portion provided on the upper deck for supporting the turret portion and rotating the turret portion. delete delete The method according to claim 1,
The turret unit is provided with a pair of skid-line units arranged on both sides of the pair of rails so that the blocks can be moved. The barge being rotatable on the upper deck;
Aligning the rails on the turret unit with the rails on the turret unit by rotating the turret unit with the rotary drive unit such that the block module can be moved from the sidewall to the turret unit or vice versa; And
Moving the block onto the turret unit or vice versa,
The turret unit includes:
A turret unit coupled to the rotary deck by driving the rotary drive unit to rotate; And
And a bearing portion disposed on the upper deck so that the turret portion is supported and rotated,
When the block module is carried out from the turret portion to the sidewall when the block is loaded from the sidewall to the turret portion or vice versa, the turret portion supported by the bearing portion is rotated to correspond to the moving direction of the block module,
The rotation drive unit includes:
A reduction gear portion that is gear-coupled to the turret portion; And
And a rotation driving unit connected to the reduction gear unit to drive the reduction gear unit. delete delete The method according to claim 6,
And adjusting the upper deck of the barge to a height of the quay wall.

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