KR20130007221U - Anti-Rolling Tank - Google Patents

Abstract

A transverse vibration damping tank which is provided in a predetermined position of a ship or an offshore structure in a width direction of a ship to damp the rolling motion caused by a wave. The vibration damping tank is installed inside the tank in the width direction of the ship, Wherein a fluid movement structure is installed at a predetermined position on both sides of the support frame,
And the fluid movement structures provided on both sides of the support frame are installed to face each other at predetermined positions on both sides of the fluid movement path formed between the support frame and the adjacent support frame.
Therefore, according to the embodiment of the present invention, the fluid dynamic structure for assisting the flow of fluid is provided inside the transverse vibration damping tank to smooth the flow of the fluid, thereby improving the damping effect of the rolling motion Thereby improving the stability of the ship and the efficiency of operation at sea.
Also, according to the present invention, since the size and position of the adhering material can be readjusted considering the manufacturing characteristics of the ship, it is possible to contribute not only to the efficiency of the tank but also to the productivity improvement of the adhering installation.

Description

Anti-Rolling Tank

The present invention relates to a transverse damping tank installed on a ship or an offshore structure, and more particularly, to a damping tank on which a transverse dynamic damping tank is installed to improve the stability of the ship and the operation efficiency The present invention relates to a transverse vibration damping tank.

In general, ships for maritime navigation or maritime work and floating marine structures are subject to fluctuations due to waves. Such fluctuations of the marine vessels not only deteriorate the passenger's and the operator's boarding sense and work performance, have. The shaking motion of the ship can be classified into two types depending on the movement of the ship: surging, which is the longitudinal movement of the ship, swaying of the width direction, heaving, which is the upward and downward movement, It is a combination of six degrees of freedom motion such as rolling, pitching, and yawing, which are rotational movements about the direction of motion. Among them, the transverse vibration often has a resonance with the sea wave period and the response at the resonance is very large. Therefore, many transverse vibration reduction devices have been proposed.

Typical transverse vibration reduction devices include bilge keels, anti-rolling tanks and fin-stabilizers. The bilge keel reduces the lateral sway response at the resonance by increasing the lateral damping force by generating a vortex in the bilge bilge by attaching a long plate to the bilge in the longitudinal direction. However, this method is the cheapest and easiest to install but the least effective.

The fin-stabilizer is equipped with a wing near the bilge bilge of the hull and measures the angle, turnover and acceleration of the wobble to actively control the angle of the wing to generate additional damping force and restoring force, This stable pin device is known to be the most effective but it is only effective when the line speed is 10-15 knots or more. It is the most expensive, has the effect of decreasing the wire speed due to the increase of resistance, and requires additional power for operation .

An anti-rolling tank has a U-shaped tube structure installed inside the hull (mainly at the center) and filled with liquid (water) in the tube structure to cause liquid flow resonance in the U-shaped tube to move the resonance point of the rolling motion And a damping force for rolling motion is generated to lower the response at the time of the rolling motion resonance. This device has a problem that the efficiency is not good when the space occupies a lot of space and the rolling period is short.

Korean Patent Application No. 10-2009-0109217 (Title of the Invention: Offshore Structure Having a Rolling Root Reduction Structure) Korean Patent Registration No. 10-0780987 (title of invention: relief water tank device)

A problem to be solved in the present invention is to provide a structure in which a separate structure is provided inside the transverse damping tank to improve the damping effect by smoothly flowing the fluid to improve the stability of the ship and the efficiency in the sea. It is an object of the present invention to provide a vibration damping tank.

The present invention proposed under the above-mentioned object is a rolling damping tank provided at a predetermined position of a ship or an offshore structure in a width direction of a ship to damp the rolling sway caused by waves, And a plurality of support frames installed at a predetermined interval in a width direction of the support frame, wherein a fluid movement structure is installed at a predetermined position on both sides of the support frame.

Wherein the fluid movement structure provided on both sides of the support frame is installed in a manner that the fluid movement structures are opposed to each other at predetermined positions on both sides of the fluid movement path formed between the support frame and the adjacent support frame. Present a damping tank.

Wherein the fluid movement structure provided on both sides of the fluid movement path formed between the support frames is in the form of a swash plate having a horizontal portion at the lower end thereof. present.

According to the embodiment of the present invention, the transverse damping tank is provided with a fluid movement structure for supporting the flow of fluid inside the transverse vibration damping tank to smooth the flow of fluid, thereby improving the damping effect of the rolling motion, Thereby improving stability and operational efficiency at sea.

Also, according to the present invention, since the size and position of the adhering material can be readjusted considering the manufacturing characteristics of the ship, it is possible to contribute not only to the efficiency of the tank but also to the productivity improvement of the adhering installation.

1 is a front view schematically illustrating a configuration of a transverse vibration damping tank according to the present invention;
Fig. 2 is a perspective view illustrating the arrangement state of the support frame and the fluid movement structure in the transverse vibration damping tank according to the present invention. Fig.
Fig. 3 is a view illustrating an operation state of the transverse damping tank according to the present invention; Fig.

Preferred embodiments of the rolling damping tank according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view schematically illustrating a configuration of a transverse vibration damping tank according to the present invention, and FIG. 2 is a perspective view illustrating an arrangement state of a support frame and a fluid movement structure in a transverse vibration damping tank according to the present invention.

The present invention relates to a rolling damping tank (10) which is provided at a predetermined position of a ship or an offshore structure in a width direction of a ship so as to attenuate rolling sway caused by waves,

And a plurality of support frames 20 installed in the tank 10 in the width direction of the ship and spaced apart at a predetermined interval. The fluid movement structure 30 is disposed at a predetermined position on both sides of the support frame 20 They are installed facing each other.

The transverse vibration damping tank 10 is provided with a U-shaped water tank in the width direction at the center of the ship when the ship is swaying to make the water move to the right when the ship is tilted to the left, (10) is provided with at least two or more support frames (11, 12) in the width direction of the hull at a predetermined interval in the interior of the transverse vibration damping tank (10) Wherein the support frames 20 reinforce the durability of the tank and a fluid transfer passage 11 is formed between the support frame and the adjacent support frame.

The fluid movement structures 30 and 40 provided on opposite sides of the support frame 20 are disposed at a predetermined position on both sides of the fluid movement passage 11 formed between the support frames 20, The fluid moving structures 30 and 40 are formed in the form of swash plates 32 and 42 having horizontal portions 31 and 41 at the lower ends thereof.

In this case, the swash plates 32 and 42 of the fluid moving structures 30 and 40 are configured such that when the fluid moves from right to left, the swash plate 42 of the fluid movement structure 40, While the swash plate 32 of the fluid movement structure 30 located on the left side pushes the fluid to the right direction when the fluid moves from the left to the right, And to assist the fluid to move quickly by increasing the moving speed of the fluid.

At this time, it is preferable that the swash plates 32 and 42 of the fluid movement structures 30 and 40 are inclined at an angle of 45 degrees. When the inclination angle is less than 45 degrees, the swash plate 32 and 42 There is a problem that the amount of movement of the fluid may be reduced due to the inability of the swash plate 32 or 42 to accommodate the inflow fluid. When the inclination angle is greater than 45 degrees, Lt; / RTI >

Fig. 3 is a diagram illustrating an operation state of the transverse damping tank according to the present invention.

As can be seen from the above drawing, when the ship tilts to the left due to waves or external factors, the water in the water tank moves to the right. On the other hand, when the water tilts to the right, the water in the water tank fluctuates .

In this case, when the fluid moves from right to left or left to right, the fluid moving structures 30 and 40 push the fluid in a predetermined direction so that the fluid can smoothly move. At this time, , When the fluid moves from right to left, the swash plate 42 of the fluid movement structure 40 located on the right side increases the moving velocity of the fluid as it pushes the fluid to the left, while conversely, When the fluid moves from left to right, the swash plate (32) of the fluid movement structure (30) positioned on the left pushes the fluid to the right side, thereby increasing the fluid's moving speed so that the fluid can be moved quickly So that the effect of the damping of the rolling motion can be greatly improved as the fluid is moved quickly.

According to the above-described embodiment of the present invention, by providing a fluid movement structure for supporting the flow of fluid inside the transverse vibration damping tank, the flow of fluid can be smoothly performed, thereby improving the damping effect of rolling motion So as to improve the stability of the ship and the operational efficiency at sea.

Also, according to the present invention, since the size and position of the adhering material can be readjusted considering the manufacturing characteristics of the ship, it is possible to contribute not only to the efficiency of the tank but also to the productivity improvement of the adhering installation.

A description has been given of the transverse damping tank according to the present invention through the embodiments. The specification and drawings are set forth to illustrate preferred embodiments of the present invention and, although specific terms are employed, they are used in a generic sense only to facilitate the understanding of the contents of the present invention and to facilitate the understanding of the present invention. It is not intended to limit the scope. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

10: transverse damping tank 11: fluid passage
20: support frame 30,40: fluid moving structure
31, 41: horizontal part 32, 42:

Claims (4)

A lateral oscillation damping tank that is provided in a width direction of the vessel at a predetermined position of the vessel or offshore structure to attenuate lateral fluctuations caused by waves. And a support frame to be installed, wherein the fluid moving structure is installed at both predetermined positions of the support frame.
The method according to claim 1,
The fluid movement structure installed on both sides of the support frame is a sideways damping tank, characterized in that it is installed in a form facing each other at both fixed positions of the fluid movement passage formed between the support frame and the adjacent support frame.
The method according to claim 1 or 2,
The fluid movement structure which is installed in the form of facing each other on both sides of the fluid movement passage formed between the support frame is a transverse shaking damping tank, characterized in that the form of the inclined plate having a horizontal portion at the bottom.
The method according to claim 3,
Wherein the swash plate of the fluid movement structure has an inclination of 45 degrees.

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