KR20090056401A - Energy absorbing system for floating breakwater - Google Patents

Abstract

An energy absorbing system for floating breakwater is provided to maximize the function of breakwater by absorbing the energy of wave regardless of direction through a vibration reducing device composed of a spring and a damper. An energy absorbing system for floating breakwater comprises a fixing device(300) installed on the seafloor, a floating body(100) floating on the sea, a cable(200) one end of which is connected to the fixing device and other is connected to the floating body, and a vibration reducing unit(400) composed of a spring(410) and a damper(420) inserted in the cable.

Description

Energy-saving structure of floating breakwaters {ENERGY ABSORBING SYSTEM FOR FLOATING BREAKWATER}

The present invention relates to an energy reduction structure of a floating breakwater, and more particularly, to a structure of a floating breakwater to reduce energy transmitted by waves of a specific cycle so as to function as a more efficient breakwater.

Recently, there have been increasing cases of using floating bodies as marine structures in the sea.

These floating structures are used as offshore plants, container terminals, oil storage facilities, or offshore parks, and their size is also gradually increasing.

In addition, the fixed breakwaters have been mainly installed until now, but the application of floating breakwaters is often attempted in terms of economic and environmental aspects.

Floating breakwater is a harbor facility that maintains the stability of a ship anchored in a port by blocking the impact energy caused by waves by setting up a hollow hollow concrete block on the sea surface while floating it on the sea surface. to be.

Such conventional floating breakwaters are shown in FIGS. 1A and 1B.

That is, the floating breakwater is composed of a floater 10 floating on the sea surface 1 and a mooring system for restricting the movement of the floater 10. The mooring system of the floating breakwater is generally seabed as shown in FIG. It is composed of a fixing device 12 and a cable 11 for connecting the floating body 10 and the fixing device 12 installed in each other, to limit the movement of the floating body (10).

Also, as shown in FIG. 1B, two or more cables 11 and a fixing device 12 may be installed in order to restrict the movement of the floating body 10 in both directions.

In general, as a structure for limiting movement or vibration of an object, a vibration reducing device 30 including a spring 31 and a damper 32 is used as shown in FIGS. 2A to 2C.

That is, when a force is applied to a certain mass 20, the elastic force of the spring 31 and the damping force of the damper 32 absorb energy and limit the movement or vibration of the mass 20. The specification and the combination of the dampers 32 are determined according to the characteristics (intrinsic frequency) of the mass 20 and the vibration characteristics (period) of the applied force.

In FIG. 2A, the vibration reduction device 30 may be configured by the parallel combination of the spring 31 and the damper 32, and the combination of the spring 31 and the damper 32 may be configured in FIG. 2B. 2c shows that the vibration reduction device 30 may be configured by a series / parallel combination of the spring 31 and the damper 32.

This vibration reduction device 30 is used as a device for reducing the vibration of the building 50 by the earthquake or the like as shown in Figure 2d.

That is, when an earthquake occurs and the building 50 vibrates, vibration energy is absorbed by the vibration reduction device 30 installed between the building 50 and the anchor block 60 to minimize damage to the building 50. .

However, in the case of floating breakwater, when the force is transmitted to the float by the wave, the direction of the force transmitted by the wave is not constant, and the float is circular or elliptical based on the cross section including the vertical direction and the horizontal direction. While reacting, this results in the floating body 100 moving in an arbitrary direction, there is a problem that the vibration direction is not constant.

In addition, unlike the case in which the vibration reduction device 30 is installed in the building 50, the floating breakwater has a problem in that the vibration reduction device 30 is not easily installed in that it is in a floating state on the sea surface, and therefore, There is a need to develop a technology for a floating breakwater structure that can absorb energy by appropriately reducing vibration.

The present invention is to solve the above problems,

An object of the present invention is to provide an energy reduction structure of a floating breakwater that can maximize the function as a breakwater by absorbing the energy delivered to the floating breakwater by a wave of a specific period without limiting the direction.

Another object of the present invention is to provide an energy reduction structure of a floating breakwater that can be simply and easily applied to existing floating breakwater.

The present invention, in order to achieve the above technical problem, in the floating breakwater consisting of a fixing device, a cable and a floating body,

A fixing device installed on the sea bottom, a floating body floating on the sea surface, a cable connected to one end of the fixing device and the other end to the floating device and inserted into the middle of the cable, vibration damping device consisting of a spring and a damper It was to include, so as to absorb the energy transmitted to the floating breakwater by the waves regardless of the direction.

In addition, the present invention is to include a plurality of vibration reducing device consisting of a spring and a damper having different characteristics to absorb the energy delivered to the floating breakwater by waves having various periods.

According to the present invention, the vibration reduction device composed of a spring and a damper can increase the energy absorbing ability of the wave regardless of the direction, thereby improving the ability of the floating breakwater, and it is possible to use a smaller floating breakwater. Very economical.

In addition, the present invention can be easily and easily installed in the existing floating breakwater vibration reduction device that can increase the energy absorption capacity by the waves it is possible to increase the efficiency of the existing floating breakwater.

BRIEF DESCRIPTION OF DRAWINGS To describe the present invention more clearly and easily, the following describes the best embodiments of the present invention in detail with reference to the accompanying drawings, and embodiments according to the present invention may be modified in various other forms, and thus the scope of the present invention. Is not limited to the embodiments described below.

Figure 3 shows a conceptual diagram of the energy reduction structure of the floating breakwater to which the vibration reducing device of the present invention is applied.

First, the floating body 100 constituting the floating breakwater is a kind of floating structure is usually made of a concrete block formed with a hollow inside, it may be made of steel.

Force, that is, energy is transmitted to the floating body 100 by waves, where the waves have various periods.

The cable 200 is connected to the lower portion of the floating body 100, the cable 200 is to limit the movement of the floating body (100).

That is, since the cable 200 is a member that bears only tensile stress, the force in one direction is transmitted to the cable 200 regardless of the moving direction of the floating body 100, and the cable 200 is the floating body 100. It is possible to limit the movement of the.

The cable 200 is usually made of steel wire or chain, one end is connected to the fixing device 300, the other end is connected to the floating body (100).

The fixing device 300 is installed on the sea bottom 2, and is made of a pile or anchor block inserted into the sea bottom, and the force transmitted to the cable 200 by the floating body 100 is eventually fixed. It is delivered to the sea bottom through the device 300.

In the middle of the cable 100 is inserted into the vibration reducing device 400 consisting of a spring 410 and a damper 420 is installed to absorb the energy by the waves, there is a technical feature of the present invention.

The vibration reducing device 400 is a mechanical device consisting of a combination of the spring 410 and the damper 420 is not a ready-made standardized, according to the characteristics of the target structure to reduce the vibration and the characteristics of the vibration to be reduced Is designed.

Looking more closely,

According to the energy reduction structure of the floating breakwater according to the present invention, when a force is transmitted to the floating body 100 by waves, the force in the longitudinal direction is transmitted to the cable 200 as a component force regardless of the direction of the wave. In addition, the movement of the floating body 100 is expressed as a movement (displacement) in the longitudinal direction of the cable 200 irrespective of the direction, wherein the floating body with respect to the displacement of the floating body 100 in the longitudinal direction of the cable 200 The inertial force 100 to be in the original position, the restoring force by the spring 410 and the damping force by the damper 420 act as a force to resist in the opposite direction.

Here, the inertial force of the floating body 100 is proportional to the acceleration, the restoring force of the spring 410 is proportional to the displacement, and the damping force of the damper 420 is proportional to the speed.

This relationship is expressed as the following equation.

here,

x: displacement (response) of the floating body 100 in the longitudinal direction of the cable 200

m: mass of the float (100)

c: damping coefficient of the damper 420

k: elastic modulus of the spring 410

F: force acting on the floating body 100 in the longitudinal direction of the cable 200

At this time, since the force acting on the floating body 100 by the wave has a specific period, the force acting in the longitudinal direction of the cable 200 on the floating body 100 has a magnitude and direction depending on the degree of inclination of the cable 200. It is different and the cycle becomes the same force.

The response of the floating body 100 in the longitudinal direction of the cable 200 converges to a larger or smaller value depending on the characteristics of the floating body 100, the spring 410, and the damper 420.

That is, the floating breakwater according to the present invention including the floating body 100, the spring 410, and the damper 420 has a specific natural frequency, and when a force of a specific cycle is transmitted to the floating breakwater by waves. Since the floating body 100 is vibrating more and more largely to cause a very dangerous situation, the floating breakwater should be manufactured to have a greater rigidity against it.

Thus, the floating breakwater of the present invention in installing the vibration damping device 400 including the spring 410 and the damper 420, inherent in the floating breakwater against the most dangerous period waves expected in the design of the floating breakwater By adjusting the characteristics of the spring 410 and the damper 420 so that the frequency does not match,

The vibration of the floating body 100 can be reduced, and the energy transmitted by the waves can be attenuated without restriction in direction, so that the capacity as a breakwater can be improved, and a smaller scale breakwater can be used.

In addition, since the vibration reducing device 400 of the present invention can be inserted and installed in the middle of a cable even in the existing floating breakwater that is not equipped with the vibration reducing device, the vibration of the existing floating breakwater is reduced, and energy transmitted by the waves is reduced. It can be attenuated without limiting the direction.

4 illustrates an energy reduction structure of a floating breakwater provided by connecting vibration reduction devices 401 and 402 having different characteristics, respectively.

That is, when designing a floating breakwater, it is possible to expect a large number of waves of dangerous period, so that two vibration reducing devices 401,402 composed of springs 411, 412 and dampers 421, 422 each having different characteristics are provided in the middle of the cable 200. Or it is inserted and installed in series or more so that the energy reduction structure of the floating breakwater according to the present invention can attenuate the energy transmitted by the waves having various periods.

5 and 6 show a conceptual diagram of the energy reduction structure of the floating breakwater mounted directly on the floating body vibration reduction device of the present invention.

When the vibration reduction device 400 of the present invention is installed in the middle of the cable 200, the vibration reduction device 400 flows in a direction perpendicular to the longitudinal direction of the cable 200, and thus may be damaged. It is to stably install the vibration reducing device 400 of the present invention.

That is, by mounting the vibration reducing device 400 consisting of a spring 410 and a damper 420 on the lower surface of the floating body 100, so that the cable 200 is connected to the lower end of the vibration reducing device 400 It was able to absorb the energy caused by the waves.

The vibration reducing device 400 may be installed to be embedded in the lower surface of the floating body 100, but the vibration reducing device 400 to accommodate the displacement in the longitudinal direction of the cable 200 is constantly changing Reduction device 400 should not be constrained to rotate on the lower surface of the float (100).

Accordingly, as in the case in which the vibration reducing device 400 is inserted and installed in the middle of the cable 200 as shown in FIG. 3, when the vibration reducing device 400 of the present invention is mounted on the lower surface of the floating body 100 as shown in FIG. 4. In addition, when the force is transmitted to the floating body 100 by the wave, the force is transmitted to the vibration reducing device 400 in the longitudinal direction as a component force regardless of the direction of the wave, the movement of the floating body 100 in this direction Regardless of the vibration reduction device 400 is represented by the movement in the longitudinal direction (displacement),

The vibration reducing device 400 can reduce the vibration of the floating body 100 without limiting the direction of vibration of the floating body 100 due to the wave, and can attenuate the energy transmitted by the wave, thereby providing a capability as a breakwater. This improves and makes it possible to use a smaller scale breakwater.

FIG. 6 illustrates an energy reduction structure of a floating breakwater in which vibration reduction devices 403, 404, and 405 having different characteristics are mounted side by side on the lower surface of the floating body 100, respectively.

That is, a plurality of vibration reducing devices (403, 404, 405) consisting of springs (413, 414, 415) and dampers (423, 424, 425) having different characteristics, respectively, are mounted on the lower surface of the floating body 100 so that rotation is not constrained, and the vibration reducing devices (403, 404, 405) are provided. In order to restrict the movement of the floating body 100 by connecting the other end of the cable (203, 204, 205), one end is connected to the fixing device (303, 304, 305), respectively,

By designing a floating breakwater in anticipation of a number of waves having a dangerous period, the energy reduction structure of the floating breakwater according to the present invention is provided by vibration reducing devices (403,404,405) composed of springs (413, 414, 415) and dampers (423, 424, 425). The energy transmitted by the waves having various periods can be attenuated without limit in the direction.

1A and 1B show a conventional floating breakwater.

2A, 2B, 2C, and 2D illustrate a general vibration reducing device for limiting conventional vibration.

Figure 3 shows an embodiment of the energy reduction structure of the floating breakwater according to the present invention.

4, 5 and 6 show another embodiment of the energy reduction structure of the floating breakwater according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: floating fluid 200: cable

300: fixing device 400: vibration reducing device

410: spring 420: damper

Claims (5)

In the floating breakwater consisting of a fixing device, a cable and a floating body, A fixing device installed on the sea bottom; Floats floating on sea level; A cable having one end connected to the fixing device and the other end connected to the floating body; And inserted into the middle of the cable is installed, the energy reduction structure of the floating breakwater, characterized in that it comprises a vibration reducing device consisting of a spring and a damper. The method of claim 1, The energy reduction structure of the floating breakwater, characterized in that two or more vibration reduction device consisting of a spring and a damper each having a different characteristic in the middle of the cable is inserted in series. In the floating breakwater consisting of a fixing device, a cable and a floating body, A fixing device installed on the sea bottom; Floats floating on sea level; A vibration reduction device mounted on the lower surface of the floating body and configured of a spring and a damper; And a cable having one end connected to the fixing device and the other end connected to the vibration reducing device. The method of claim 3, wherein The vibration reducing device is energy-saving structure of the floating breakwater, characterized in that the rotation is not constrained in the lower surface of the floating body. The method according to claim 3 or 4, Energy saving structure of the floating breakwater, characterized in that the lower surface of the floating body is equipped with a plurality of vibration reducing device consisting of a spring and a damper each having different characteristics.

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