KR20200051230A - Apparatus for reducing flow resistance in moonpool and a ship having the same - Google Patents

Abstract

Disclosed are an apparatus for reducing resistance in a moon pool and a ship having the same. The apparatus for reducing resistance in a moon pool of the present invention includes: a flow suppressing unit provided on the moon pool to suppress the flow introduced into the moon pool; and a support unit having a post plate coupled to a wall portion of the moon pool, a base plate provided on an end portion of the post plate, and a coupling unit which is provided on the base plate and to which the flow suppressing part is rotationally coupled, wherein the support unit further includes a reinforcing part provided on an upper portion of the coupling part to reinforce the coupling unit.

Description

Moon pull resistance reduction device and ship equipped with it {APPARATUS FOR REDUCING FLOW RESISTANCE IN MOONPOOL AND A SHIP HAVING THE SAME}

The present invention relates to a moonpool resistance reduction device and a ship having the same, and more particularly, to improve the hinge structure of an existing moonpool resistance reduction device and to minimize the lateral reaction force, the moonpool resistance reduction device and the same are provided. It's about ships.

With the development of submarine mining technology, drilling vessels with drilling facilities suitable for the development of small marginal fields or deep sea fields have been developed.

In conventional subsea drilling, a rig ship or a fixed platform exclusively for subsea drilling, which is capable of sailing only by other tugboats and performs subsea drilling while anchored at a point on the sea using a mooring device, was mainly used, but recently The so-called drillship, which is manufactured in the same form as a general ship, has been developed and used for subsea drilling, so that advanced drilling equipment is mounted on it and it can sail with its own power. Depending on the working conditions that require frequent relocation of small oilfields, these drillships are designed to navigate with their own power without tugboats.

On the other hand, such a drill ship (drill ship), a drill rig (drill rig), and the like, a moonpool is installed in various structures for drilling work to pass through. Moonpool is a hollow rectangular parallelepiped or cylindrical structure formed to penetrate vertically between the upper deck and the bottom of the offshore structure.

As the size of the offshore structure increases, the size of the moonpool also increases, and in the case of a cuboid type moonpool, the width (length in the width direction of the offshore structure) is 12 to 13m, and the length (length in the front and rear direction of the offshore structure) reaches 14 to 25m. A large moon pool is used. Such a moon pull is an indispensable structure in terms of the use of a drilling ship, but is very unfavorable in terms of ship anchoring and sailing stability or sailing performance.

In particular, due to the sloshing phenomenon caused by the flow relative to the seawater flowing through the moonpool and the seawater outside the hull, the resistance increases, the speed decreases, the horsepower required increases, the fuel consumption increases, the damage to the hull, etc. This may occur, and overflow may occur in the hull due to the flow of fluid inside the moonpool, which may act as a factor that may deteriorate worker safety and work efficiency. Therefore, in order to reduce the resistance caused by the moonpool, a current flow attenuation structure is installed on the wall of the moonpool to reduce the flow of the current flowing into the moonpool.

The device for reducing the resistance of a moonpool of a marine structure according to the prior art, when the current flows into the moonpool, causes the flow energy of the current to be dispersed due to the action of the current flow attenuation structure to attenuate the resistance caused by the current flowing into the moonpool. To do.

However, the conventional current flow attenuation structure has a hinge structure, and an excessive stress is concentrated on the hinge structure by a lateral load, so that the load can not bear the load and the hinge structure is damaged. Therefore, improvement measures are required.

The above-described technical configuration is a background technique for helping the understanding of the present invention, and does not mean a conventional technique well known in the art.

Korea Patent Publication No. 2016-0022536 (Daewoo Shipbuilding & Marine Engineering Co., Ltd.) 2016. 03. 02.

Therefore, the technical problem to be achieved by the present invention is to improve the hinge structure of the existing moonpool resistance reduction device to provide a moonpool resistance reduction device and a ship having the same, which can minimize lateral reaction force.

According to an aspect of the present invention, provided in the moon pool flow suppression unit for inhibiting the flow entering the interior of the moon pool; And a support unit provided with a post plate coupled to the wall portion of the moonpool, a base plate provided at an end of the post plate, and a coupling portion provided on the base plate and rotatably coupled to the flow suppression unit, Silver is provided on the upper portion of the coupling portion may be provided with a moon pool resistance reduction device further comprising a reinforcing portion for reinforcing the coupling portion.

The reinforcement portion, one side portion is coupled to the post plate, the other side is a base reinforcement plate coupled to the base plate; And a cover plate coupled to the base reinforcement plate to cover the coupling portion.

The cover plate may be provided in a plate shape extending in the transverse direction.

The cover plate may be vertically coupled to the reinforcement plate.

A plurality of reinforcing blocks provided on at least one of the post plate and the base plate may be further included.

One side portion may further include a plurality of reinforcing pieces coupled to the post plate and the other side coupled to the wall portion of the moonpool.

A plurality of supporters coupled to the plurality of reinforcing pieces to support the plurality of reinforcing pieces may be further included.

The flow suppression unit may be provided with a plurality of flat plate members and a plurality of inclined plate members.

In addition, according to another aspect of the invention, the moon pool provided on the hull; A flow suppression unit provided in the moonpool to suppress flow entering the interior of the moonpool; And a support unit provided with a post plate coupled to the wall portion of the moonpool, a base plate provided at an end of the post plate, and a coupling portion provided on the base plate and rotatably coupled to the flow suppression unit, Silver may be provided on the vessel provided on the upper portion of the coupling portion further includes a reinforcement portion for reinforcing the coupling portion.

In embodiments of the present invention, a reinforcing portion for reinforcing a coupling portion is provided in a supporting unit rotatably supporting a flow suppressing portion that suppresses the flow of the moonpool, thereby minimizing lateral reaction force provided in the supporting unit.

1 is a side view schematically showing a support unit of a moonpool resistance reduction device according to the prior art.
Figure 2 is a perspective view schematically showing a support unit of the moon pool resistance reduction device according to the present invention.
3 is a side view of FIG. 2.
4 is a view schematically showing that the support unit shown in FIG. 2 is coupled to the wall portion of the moonpool to support the end of the flow suppression unit.
5 is a view schematically showing that a pair of flow suppression units of the moon pool storage reduction device according to the present invention is provided.
Figure 6 is a view showing the stress generated in the munpul resistance reduction device, and compares the results when the support unit according to the prior art is applied (before reinforcement) and when the support unit according to the present invention is applied (after reinforcement). .

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the contents described in the accompanying drawings, which illustrate preferred embodiments of the present invention.

The vessel to which the present embodiment is applied includes a vessel equipped with a moonpool, for example, a drillship, a semi-submersible rig, and the like.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing denote the same members.

Figure 2 is a perspective view schematically showing the support unit of the moon pool resistance reduction device according to the present invention, Figure 3 is a side view of Figure 2, Figure 4 is the support unit shown in Figure 2 is coupled to the wall of the moon pool to suppress flow It is a diagram schematically showing supporting the end of the portion, and FIG. 5 is a diagram schematically showing the flow suppression portion of the moon pool storage reduction device according to the present invention.

As shown in these drawings, the door pool resistance reduction device according to this embodiment includes a support unit 100 coupled to a wall portion of the door pool 10 and a flow suppression in which the end is rotatably coupled to the support unit 100. The unit 200 is provided. The support unit 100 is coupled to the wall portion of the moon pool 10 to rotatably support the end of the flow suppression unit 200.

In this embodiment, the support unit 100, as shown in Figures 2 to 4, the post plate 110 coupled to the wall portion of the door pool 10, and one end is connected to the post plate 110 base plate (120), provided on the base plate 120, the flow suppression unit 200 is rotatably coupled to the coupling portion 130 and the coupling portion 130 is provided on top of the reinforcement to reinforce the coupling portion 130 A portion 140, a plurality of reinforcing blocks 150 provided on at least one of the post plate 110 and the base plate 120, and one side is coupled to the post plate 110 and the other side of the moon pull 10 It includes a plurality of reinforcement pieces 160 coupled to the wall portion, and a plurality of supports 170 coupled to the plurality of reinforcement pieces 160 to support the plurality of reinforcement pieces 160.

Post plate 110 may be welded to the wall portion of the door pool (10). The post plate 110 may be disposed in the height direction of the moon pool 10.

The base plate 120 may be provided perpendicular to the post plate 110 and provided as a coupling place of the coupling portion 130. The base plate 120 may be provided integrally with the post plate 110, or may be separately provided to be welded or bolted to the base plate 120.

The coupling portion 130 is provided on the upper surface of the base plate 120 to rotatably support the end of the flow suppression portion 200.

In this embodiment, the coupling portion 130 includes a base body 131 provided on an upper surface of the base plate 120 and a cover body 132 detachably coupled to the upper portion of the base body 131. .

The base body 131 may be welded to the base plate 120, and the cover body 132 may be detachably coupled to the base body 131 by bolts and nuts.

In addition, a lower groove having a semi-circular shape recessed downward may be provided at a central portion of the base body 131, and an upper groove may be provided at a central portion of the cover body 132 in an upward direction. The lower groove of the base body 131 may be combined with the upper groove provided in the cover body 132 to form a circle.

The reinforcement part 140 is provided on the upper portion of the coupling part 130 to reinforce the lateral load by structurally reinforcing the post plate 110 and the base plate 120.

In this embodiment, the reinforcing portion 140, the upper portion is coupled to the post plate 110, the lower portion is coupled to the base reinforcing plate 141 coupled to the base plate 120 and the base reinforcing plate 141 It includes a cover plate 142 covering the portion 130.

The base reinforcement plate 141 may be welded to the post plate 110 and the base plate 120, respectively.

The cover plate 142 may be welded to the upper surface of the base plate 120 and may be vertically coupled to the reinforcement plate 141. In addition, the cover plate 142 may be provided in a plate shape extending in the lateral direction to reinforce the lateral load.

The reinforcement block 150 is coupled to the post plate 110, the base plate 120, and the cover body 132, respectively, and serves to structurally reinforce each configuration.

The reinforcing block 150 may be welded to the post plate 110, the base plate 120, and the cover plate 142, respectively. In addition, the reinforcing block 150 is provided in a hexahedral shape to minimize the effect of the lateral load on the present embodiment.

The reinforcing pieces 160 are provided on the post plate 110, the base plate 120, the reinforcing block 150, and the base body 131, respectively, to structurally reinforce each configuration.

The reinforcing piece 160 may be welded to the post plate 110, the base plate 120, the reinforcing block 150, and the base body 131, respectively, and is provided so as to extend in a horizontal direction so that a lateral load is applied. The effect on this embodiment can be minimized.

The support 170 may support the post plate 110, the base plate 120, and a plurality of reinforcing pieces 160 provided to be spaced apart from the reinforcing blocks 150, respectively. The plurality of supports 170 may be welded to each reinforcement piece 160.

The flow suppression unit 200 is rotatably coupled to the end of the support unit 100 described above, and serves to suppress the flow of fluid in the interior of the moonpool 10.

As shown in FIG. 5, the flow suppression unit 200 may be provided so that a pair is spaced apart, and an end of each flow suppression unit 200 may be rotated to the coupling unit 130 of the support unit 100 Can be combined.

The flow suppression unit 200 may be provided by combining the plurality of plate members 210 and the plurality of inclined plate members 220 with each other, and may have a lattice structure shape. The flow suppression unit 200 may be rotatably coupled to the support unit 100 by a coupling shaft or pin.

As described above, the present embodiment can minimize the lateral reaction force provided in the support unit by providing a reinforcement unit for reinforcing the coupling portion to the support unit rotatably supporting the flow suppression unit that suppresses the flow of the moonpool.

6 is a view showing the stress generated in the munpul resistance reduction device, and compares the results when the support unit according to the prior art is applied (before reinforcement) and when the support unit according to the present invention is applied (after reinforcement). .

Referring to FIG. 6, when applying the support unit 100 according to the present invention (after reinforcing), compared with the case where the supporting unit according to the prior art (see FIG. 1) is applied (before reinforcing), the door pool resistance reduction device It can be seen that the stress generated at is significantly reduced.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and modifications can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

1: Moonpool resistance reduction device
100: support unit 110: post plate
120: base plate 130: engaging portion
131: base body 132: cover body
140: reinforcement 141: base reinforcement plate
142: cover plate 150: reinforcement block
160: reinforcement piece 170: support
200: flow suppression unit 210: flat plate member
220: Inclined plate member 10: Moon pull

Claims (9)

A flow suppression unit provided in the moon pool to suppress flow entering the interior of the moon pool; And
A post plate coupled to the wall portion of the moonpool, a base plate provided at an end of the post plate, and a support unit provided on the base plate and provided with a coupling portion rotatably coupled to the flow suppression unit,
The support unit is provided on the upper portion of the coupling unit further comprising a reinforcing portion for reinforcing the coupling portion resistance reduction device. The method according to claim 1,
The reinforcement portion,
One side portion is coupled to the post plate and the other side is a base reinforcement plate coupled to the base plate; And
A door pool resistance reduction device comprising a cover plate coupled to the base reinforcement plate to cover the coupling portion. The method according to claim 2,
The cover plate is a door pool resistance reduction device, characterized in that provided in the form of a plate extending in the lateral direction. The method according to claim 2,
Moon cover resistance reduction device, characterized in that the cover plate is vertically coupled to the reinforcing plate. The method according to claim 1,
Moon post resistance reduction device further comprises a plurality of reinforcing blocks provided on at least one of the post plate and the base plate. The method according to claim 1,
One side portion is coupled to the post plate and the other side is further comprising a plurality of reinforcing pieces coupled to the wall portion of the moon pool Moon pool resistance reduction device. The method according to claim 6,
Moonpool resistance reduction device further comprises a plurality of supports coupled to the plurality of reinforcing pieces to support the plurality of reinforcing pieces. The method according to claim 1,
Moon flow resistance reduction device, characterized in that the flow suppression unit is provided with a plurality of plate members and a plurality of inclined plate members. Moonpool provided on the hull;
A flow suppression unit provided in the moonpool to suppress flow entering the interior of the moonpool; And
A post plate coupled to the wall portion of the moonpool, a base plate provided at an end of the post plate, and a support unit provided on the base plate and provided with a coupling portion rotatably coupled to the flow suppression unit,
The support unit is provided on the upper portion of the coupling portion further includes a reinforcing portion for reinforcing the coupling portion.

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