KR20140028325A - Shut-off sloshing structure in moon-pool - Google Patents

Abstract

A moon-pool disclosed in the present disclosure includes a shut-off part which is formed on both ends at the bottom surface of the moon-pool whereby the shut-off part is perpendicular to wall of the head of a moon-pool in order for shutting-off flow introduced to the inside of the moon-pool, and a recessed part wherein some portion of the bottom surface to form wall surface at the head portion of the moon-pool are pulled-in towards the upper side of the hull and which includes a flow separation portion, a flow balance portion, and a flow introduction portion, so that direction of flow introduced through the flow introduction portion is distributed in both directions by a dividing portion installed at the center placed between the flow separation portion and the flow balance portion, and an inclined part in which a lower portion of a wall located at stern is formed downwardly inclined towards the stern. The present disclosure has an effect on the reduction of a flow introduced through the recessed part flowing into the moon-pool by installing a shut-off screen on each of both ends of the moon-pool. Also the present disclosure has an effect on rapid pass-through of the moon-pool because the flow velocity for the flow heading towards the moon-pool may be increased by way of changing the shape of a recess. Furthermore, the present disclosure has an effect on reduction of hull resistance caused by the flow because the flow rapidly passes through the moon-pool at an increased velocity of flow as a result of the recess having a changed shape.

Description

Shut-off sloshing structure in moon-pool}

The present invention relates to a door pool internal flow blocking structure, and more particularly, to a door pool internal flow blocking structure to reduce the flow of the flow through the recess into the door pool through the shape change of the door pool.

In general, when looking at the structure of the drillship, in order to send the pipe for drilling work down to the sea floor, a moon-pool that vertically penetrates the hull is formed.

However, there is a free surface of the same height as the draft draft inside the door pool, the phenomenon occurs that the vertical flow with a certain period in addition to the flow occurs inside the door pool during the operation of the vessel.

In addition, above a certain speed, Moonpool's free water surface develops into blue, and even breaking waves occur. The blue waves inside the door pool hit the rear end wall of the door pool, which is a kind of additional resistance, which has a problem of increasing the resistance in the purified water on the hull itself.

To this end, conventionally, in order to improve the resistance performance degradation caused by the flow in the door pool, by installing the inclined protrusion protruding obliquely in the seabed direction at the edge of the bow portion to control the vortex generated at the end of the inclined protrusion, It was intended to control the peeling angle of the external flow through the door pool.

Prior art related to the present invention is Republic of Korea Patent Publication No. 10-2009-0058187 (published: 2009. 06. 09), the prior art describes a technique for the flow-reduction structure of the door pool structure of the drilling vessel.

An object of the present invention is to provide a flow blocking structure inside the door pool that can reduce the flow of the flow through the recess into the interior of the door pool by providing a blocking film on both sides of the door pool.

The door pool inner flow blocking structure according to the present invention is formed at both ends to form a right angle with the bow side wall surface at the bottom of the door pool, the blocking portion provided to block the flow of the flow into the inside of the door pool and the bow side wall surface of the door pool A portion of the bottom surface of the block to be formed is drawn into the upper part of the hull, and is composed of a flow separation part, a flow balance part and a flow inlet part, and a separator is installed in the center on the flow separation part and the flow balance part and introduced through the flow inlet part. It characterized in that it comprises a recess formed to disperse the direction of the flow to both sides and the inclined portion formed by processing the lower end of the stern side wall surface of the door pool inclined downward toward the stern side.

Here, the inner flow blocking structure of the door pool to form a structure of the recess so that the separator is provided in the center of the flow separation unit to increase the speed of the flow entering through the flow inlet, the direction of the flow to face both sides of the door pool Disperses and reduces the flow into the door pool through the barrier.

In addition, the flow peeling part is processed so that the lower end of the bow wall side of the door pool inclined upward toward the bow side, and is formed to control the generation of the streamline and vortex flowing into the door pool.

In addition, the flow balance portion is formed on the bow side wall surface of the flow stripping portion to be parallel to the upper surface of the vessel, and controls the pressure gradient or the velocity gradient generated in the flow entering through the flow inlet.

In addition, the flow inlet is formed to be inclined downward from the bow side wall surface of the flow balance, so that the flow flowing from the bow along the bottom to the flow inlet without flow separation or recirculation.

The present invention has the effect of providing a barrier film at both ends of the door pool to reduce the flow of the flow through the recess into the door pool.

In addition, since the present invention can increase the speed of the flow toward the door pool through the shape change of the recess, the flow has an effect of quickly passing through the door pool.

In addition, the present invention has the effect of reducing the resistance of the hull due to the flow because the change in the shape of the recess to increase the speed of the flow through the recess to flow quickly through the door pool.

1 is a side cross-sectional view of a door pool inner flow blocking structure according to the present invention.
Figure 2 is a rear cross-sectional view of the inner door flow blocking structure according to the present invention.
3 is a plan cross-sectional view of a recess of the inner door flow blocking structure according to the present invention.

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

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving it will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

It should be understood, however, that the present invention is not limited to the embodiments disclosed herein but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Figure 1 is a side cross-sectional view of the door pool inner flow blocking structure according to the present invention, Figure 2 is a rear cross-sectional view of the door pool inner flow blocking structure according to the present invention.

1 and 2, the door pool internal flow blocking structure includes a blocking part 100, a recess 200 and a slope 300.

First, the blocking part 100 is formed at both ends of the door pool 10 so as to be perpendicular to the bow side wall surface at the bottom of the door pool 10.

In addition, the blocking unit 100 is provided to block the flow of the flow into the door pool (10).

Here, the blocking part 100 is protruded from the bottom of the hull in the downward direction is formed on both ends of the door pool 10.

In addition, the blocking unit 100 extends to the lower portion of the inclined portion 300 to be described later as well as the lower portion of the door pool 10.

Therefore, in the door pool internal flow blocking structure, the blocking part 100 is installed at both ends of the door pool 10 so that the flow passing through the recess 200 to be described later is introduced into the door pool 10. Can be reduced.

On the other hand, the recess 200 is a portion of the bottom surface of the block forming the bow side wall surface of the door pool 10 is drawn into the upper portion of the hull.

In addition, the recess 200 includes a flow separation part 210, a flow balance part 220, and a flow inflow part 230.

Here, the flow peeling part 210 is processed such that the lower end of the bow side wall surface is inclined upward toward the bow side.

In addition, the flow peeling part 210 is formed to control the generation of the streamline and the vortex flowing into the door pool 10.

In addition, a flow balance part 220 to be described later is formed on one side of the flow peeling part 210.

That is, the flow balance part 220 is formed on the bow side wall surface of the flow separation part 210 to be parallel to the upper surface of the vessel.

The flow balance unit 220 controls a pressure gradient or a velocity gradient generated in the flow introduced through the flow inlet 230 to be described later.

Here, the flow inlet 230 is formed to be inclined downward from the bow side wall surface of the flow balance unit 220.

In addition, the flow inlet 230 allows the flow flowing along the ship bottom from the bow to flow into the flow inlet 230 without flow separation or recirculation.

Here, the separator 240 is installed on the flow separation unit 210 and the flow balance unit 220 to distribute the direction of the flow flowing through the flow inlet 230 in two directions.

Thus, the door pool inner flow blocking structure is provided by installing the separator in the center of the flow balance portion 220 and the flow separation unit 210 formed to exit the flow introduced through the flow inlet 230, the flow It is possible to increase the speed of the door pool 10 can reduce the inflow of the flow into the inside.

On the other hand, the inclined portion 300 is formed by processing the lower end of the stern side wall surface of the door pool 10 to be inclined downward toward the stern side.

That is, the inclined portion 300 is formed at the lower end of the stern side wall surface of the door pool 10 so that the flow formed by the recess 200 flows into the interior of the door pool 10 through the stern side wall surface. Reduce.

In more detail, the inclined portion 300 is configured by processing the lower end portion of the stern side wall surface inclined downward toward the stern side, and when seawater flow strikes the inclined portion 300, the seawater is pooled. It is induced to flow toward the stern without being introduced into the interior of (10).

Therefore, the inner flow blocking structure of the door pool blocks the flow of seawater flowing into the inside of the door pool 10 through the recess 200 and the inclination part 300 to maintain a relatively stable free surface in the door pool 10. You can keep it.

As a result, as shown in FIGS. 1 and 2, the flow blocking structure inside the door pool disperses the direction of flow at the same time as installing the blocking part 100 at both ends of the door pool 10, and the recess part 200. By installing the separator 240 together on the recess 200 to increase the speed of the flow passing through the), it is possible to easily reduce the flow of the flow into the door pool (10).

3 is a plan sectional view of a recess of the inner door flow blocking structure according to the present invention.

As shown in FIG. 3, the door pool inner flow blocking structure includes a separator 240 on the flow separation part 210 and the flow balance part 220.

First, the door pool internal flow blocking structure is formed to be wider from the flow inlet 230 through which the flow flows to the flow separation part 210 through which the flow exits on the recess 200.

In this case, the recess 200 is provided with a separator 240 on the flow separation unit 210 and the flow balance unit 220 to increase the speed of the flow flowing through the flow inlet 230. do.

Accordingly, the door pool internal flow blocking structure may install the separator 240 on the recess 200 so that the flow flowing through the flow inlet 230 exits the flow separating part 210. When you can increase the speed.

That is, the door pool inner flow blocking structure is formed by narrowing the width of the flow separation unit 210 through the installation of the separator 240 to escape the flow introduced through the flow inlet 230, the li The speed of the flow exiting the set portion 200 may be increased.

As a result, the inner flow blocking structure of the door pool increases the speed of the flow due to the installation of the separator 240 so as to exit the flow separation unit 210, thereby reducing the flow rate of the flow flowing into the door pool 10. You can.

As a result, the present invention has the effect of providing a blocking film at both ends of the door pool, to reduce the flow of the flow through the recess into the interior of the door pool.

In addition, since the present invention can increase the speed of the flow toward the door pool through the shape change of the recess, the flow has an effect of quickly passing through the door pool.

In addition, the present invention has the effect of reducing the resistance of the hull due to the flow because the change in the shape of the recess to increase the speed of the flow through the recess to flow quickly through the door pool.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many modifications may be made thereto, It will be understood that all or some of the elements (s) may be optionally constructed in combination. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: door pool 100: blocking unit
200 recessed part 210 flow separation part
220: flow balance 230: flow inlet
240: separator 300: inclined portion

Claims (5)

A blocking portion formed at both ends to form a right angle with the bow side wall at the bottom of the door pool, and provided to block the flow of the door into the door;
A portion of the bottom surface of the block forming the bow side wall of the door pool is drawn into the upper portion of the hull, and is composed of a flow separation part, a flow balance part and a flow inlet part, and a separator is installed at the center on the flow separation part and the flow balance part. A recess formed to disperse the direction of the flow introduced through the flow inlet to both sides; And
And an inclined portion formed by processing the lower end of the stern side wall surface of the moon pool downwardly inclined toward the stern side.
The method of claim 1,
The door pool internal flow blocking structure,
Forming the structure of the recess portion so that the separator is provided in the center of the flow separation unit to increase the speed of the flow entering through the flow inlet, dispersing the direction of flow toward both sides of the door pool, through the blocking unit A flow blocking structure inside the door pool, characterized in that to reduce the flow into the door pool.
The method of claim 1,
The flow peeling unit,
The lower end of the bow wall side of the door pool is processed to be inclined upward toward the bow side, and the flow of the door pool internal flow blocking structure, characterized in that it is formed to control the generation of the stream and vortex flowing into the door pool.
The method of claim 1,
The flow balance portion,
It is formed in the bow side wall surface of the flow separation portion to be parallel to the upper surface of the vessel, the flow block structure inside the door pool characterized in that for controlling the pressure gradient or the velocity gradient generated in the flow entering through the flow inlet.
The method of claim 1,
The flow inlet,
It is formed so as to be inclined downward from the bow side wall surface of the flow balance portion, the flow block structure inside the door pool door, characterized in that the flow flowing from the bow to the bottom of the flow through the flow inlet without separation or recirculation.

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