KR100920396B1 - Oscillating water column breakwater based on floating objects - Google Patents

Abstract

The present invention relates to a marine floating structure for use in a breakwater, and more particularly, to provide a marine floating structure in which a vibration-winding breakwater is formed in which a vibration-winding breakwater is formed in which a vibration-order with an orifice is formed to reduce wave energy in the floating-sea structure. However, the present invention relates to a marine floating structure in which an oscillating water breakwater having an optimal state is provided so that the floating diatomaceous material having buoyancy of the marine floating structure and a vibration water breakwater that attenuates wave energy are optimal.

The present invention is a marine floating structure in which the vibrational breakwater in the optimal state is formed, the marine floating structure is formed in the form of a flat plate having a buoyancy; It is formed on one side of the floating structure is composed of a vibration wave breaker to attenuate the wave energy, the vibration wave breakwater is a vibration column formed with an opening so that seawater flows into the lower side, and an orifice formed on the upper side of the vibration column, and It consists of a sofa plate formed on one side of the frequency note,

Per unit (m) width (B) of the floating structure, the length (L) of the marine floating structure is 4.5 ~ 5.5B (m), the length (Lc) of the oscillation column is 0.15 ~ 0.25B (m) The area A of the orifice is 0.012 to 0.016B (m ² ), and the length Lp of the sofa board is 0.25 to 0.35B (m).

Wave energy, damping device, vibration order, orifice, marine floating structure

Description

Oscillating water column breakwater based on floating objects

The present invention relates to marine floating structures for use in breakwaters.

More specifically, the vibration floating breakwater formed with a vibration order and an orifice is installed in the marine floating structure used as a breakwater to reduce the wave energy, but the floating structure and the vibration receiving breakwater are formed so that the marine floating structure becomes a volume state. It relates to a marine floating structure that provides a size between.

In recent years, the land space we have lived for has to be developed for population growth and resource acquisition, but there is no room for further development, and it is gradually becoming insufficient. Although industrial complexes are being developed, the coastal areas need to be left for ecosystem preservation and environmental preservation. Therefore, methods for effectively utilizing the coastal space are required.

Floating structures are used to effectively develop and use the coastal space, and the floating structures installed in the ocean are moved by the force of blue, algae, and wind. It may cause damage or cause movement, which will reduce work efficiency.

The wave causes resonance or drift motion according to wave height and period, causing loss of restoring force, etc., causing the structure to overturn or deviation from the working position, and wind causes dynamic effects on the upper structure, and on the lower structure. The conduction moment is acted on.

In order to minimize the influence on the structure by the external force, various methods have been proposed.

As a method proposed to minimize the influence on the structure by the external force, the installation of the breakwater, the change in the shape of the structure, the installation of additives for damping motion is applied.

In general, the breakwater is to minimize the movement of the floating structure by reflecting the wave energy incident from the outward, it is largely divided into fixed and floating.

Fixed breakwater is a type in which the breakwater structure is installed on the front of the floating structure to the bottom of the floating structure, and it has excellent wave reduction performance, that is, the controllability of the wave. However, since the construction must be done to the bottom of the floating structure, it requires a lot of effort and cost. In addition, there is a problem of causing environmental problems in the surrounding coast of the floating structure by disturbing the circulation of seawater.

In particular, when the ground is weak, sinking or scrubbing of the foundation may occur, which results in a disadvantage in that the installation site is limited.

Floating breakwater is a breakwater installed in the form of floating body on the front of the floating structure. Since it is floating type, it has less construction cost than fixed breakwater and frees seawater circulation, so there is less environmental problem than fixed breakwater. There is a small disadvantage. In addition, there is a problem that the performance is somewhat limited because the sofa for the blue wave of a specific period region is the main purpose.

The present invention is a marine floating structure invented to solve the above problems, the oscillation column formed with an opening so that the sea water flows to the lower side to effectively attenuate the wave energy on one side of the floating structure, and the orifice formed on the upper side of the oscillation column and It is an object to provide a floating breakwater consisting of a sofa plate formed on one side of the vibration frequency.

In addition, in the case of the marine floating structure in which the oscillation breakwater is installed, it is intended to present the size of the marine floating structure to effectively attenuate and maintain the wave energy.

In order to achieve the above object, the marine floating structure of the present invention is formed in the form of a flat plate having a buoyancy; It is formed on one side of the floating structure is composed of a vibration breakwater breakwater that is a floating breakwater to attenuate the wave energy,

The vibration pump breakwater is composed of a vibration pump having an opening formed so that seawater flows into the lower side, an orifice formed of a plurality of through holes in the upper part of the vibration pump, and a sofa plate formed at one side of the vibration pump,

Per unit (m) width (B) of the floating structure, the length (L) of the marine floating structure is 4.5 ~ 5.5B (m), the length (Lc) of the oscillation column is 0.15 ~ 0.25B (m) The area A of the orifice is 0.012 to 0.016B (m ² ), and the length Lp of the sofa board is produced to 0.25 to 0.35B (m).

The marine floating structure in which the vibration breakwater, which is a floating breakwater, is formed to maintain the optimal state made as described above, has an effect that the floating structure can be stably maintained by effectively attenuating the wave energy.

 In addition, due to the vibration-breaking breakwater that is the floating breakwater, the force applied from the wave energy of the marine floating structure is reduced, thereby preventing the marine floating structure from being damaged.

In addition, it is possible to provide a more stable marine floating structure by suggesting the size of the floating structure of the marine floating structure and the vibration-breaking breakwater.

When described in detail with reference to the accompanying drawings showing a preferred embodiment of the present invention,

As shown in FIG. 1, the marine floating structure 1 according to the present invention includes a floating structure 10 having a buoyancy buoyant and a vibrational breakwater 20 which is a floating breakwater formed on one side of the floating structure.

The floating structure 10 is usually formed in the form of a plate.

The vibration pump breakwater 20 is a vibration board 21, the orifice 22 formed on the vibration pump 21, and the sofa plate formed on one side of the vibration pump 21 as shown in Figs. It consists of 23.

The shape of the cross section of the vibration column 21 is formed in a "∩" or "┏┓" shape in which the opening portion 21a is formed downward. That is, the lower side is open, and the upper side is made of a hollow pillar shape.

An orifice 22 is formed in an upper portion of the vibration column 21, the orifice 22 is formed as a through hole, and the through hole is formed in a plurality of one or more in an upper portion of the vibration column 21. Evenly distributed.

The oscillation column 21 in which the orifice 22 is formed is introduced into the opening 21a, and seawater having blue energy is introduced, and the blue energy of the introduced seawater is reduced in the oscillation column 21.

A sofa plate 23 is formed to protrude on one side of the vibration column 21, and the sofa plate 23 is installed in a direction opposite to the floating structure 10.

The floating structure 1 formed as described above is preferably formed in a fixed ratio of the floating structure 10 and the frequency-breaking breakwater 20 in order to form an optimal structure.

The present invention thus proposes the proportional size between the floating structure 10 of the marine floating structure 1 and the frequency main breakwater 20 as follows.

The size of the marine floating structure (1) is based on the width (B) of the floating structure (10), the width (B) of the floating structure 10 and the width of the oscillation breakwater 20 is the same. .

Per unit width (B) of the floating structure (10), the total length (L) of the marine floating structure (1) is 4.5 ~ 5.5B, the depth (d) the submerged structure 10 is submerged in sea level Is 0.013 to 0.017B, the distance (h) between the marine floating structure (1) and the ocean floor is 0.4 to 0.6B, and the length (Lc) of the frequency column 21 is 0.15 to 0.255B, The depth (a) of the vibration column 21 submerged in the sea surface is 0.05 ~ 0.07B, the thickness (C) of the vibration column 21 is 0.05 ~ 0.07B, the length (Lp) of the sofa plate 23 Is 0.25 ~ 0.35B, the overall area (A) of the orifice 22 formed by a plurality of through holes is 0.012 ~ 0.016B ² It is preferable that the marine floating structure (1) is formed.

That is, if presented briefly as a table below,

division Prototype division Prototype B One a 0.05 ~ 0.07B L 4.5 ~ 5.5B c 0.05 ~ 0.07B d 0.013 ~ 0.017B Lp 0.25 ~ 0.35B h 0.4 ~ 0.6B Orifice Area (A) 0.012 ~ 0.016B ² Lc 0.15 ~ 0.25B Strength of the structure (EI) 397

According to a preferred embodiment of the present invention, the marine floating structure 1 was manufactured as follows, and a stress reduction performance model test was performed.

The marine floating structure 1 has a width B of the floating structure 10 as 10 m, the total length L of the marine floating structure 1 is 50 m, and the floating structure 10 is at sea level. The depth d submerged in is 0.15 m, the length Lc of the vibration frequency 21 is 2 m, the depth a submerged in the sea level is 0.6 m, the thickness C is 0.6 m, and the length of the sofa plate 23 ( Lp) is 3m, the overall area (A) of the orifice 22 formed of a plurality of through holes is 0.13m2, and the marine floating structure (1) is installed so that the distance (h) 5m from the ocean floor surface Then, wave energy was added and tested to the sofa plate 23 side as shown in FIG. 2.

The graph below is a comparative graph of stress reduction performance of the marine floating structure (1, with OWC breakwater) and the general marine floating breakwater (without OWC breakwater) in which the oscillating water breakwater is formed.

As shown in the graph presented above, it was confirmed that the marine floating structure in which the vibrational breakwater was formed is less stressed.

1 is a perspective view of the marine floating structure is installed vibration vibration breakwater that is a floating breakwater showing a preferred embodiment of the present invention.

Figure 2 is a front sectional view of the marine floating structure is installed a vibration breakwater breakwater that is a floating breakwater showing a preferred embodiment of the present invention.

3 is a plan view of FIG.

4 is a bottom view of FIG. 2.

Figure 5 is a detailed cross-sectional view of the vibration frequency breakwater that is a floating breakwater showing a preferred embodiment of the present invention.

[Explanation of symbols on the main parts of the drawings]

1: floating structure 10: floating structure

20: vibration frequency breakwater 21: vibration frequency

22: orifice 23: sofa board

Claims (5)

In the marine floating structure formed with a vibration frequency breakwater to reduce the wave energy, The marine floating structure 1 includes a floating structure 10 having buoyancy; Is formed on one side of the floating structure (10) is composed of a vibration frequency breakwater 20 to attenuate the wave energy, The vibration pump breakwater 20 is a vibration pump 21 having an opening 21a having a “∩” or “┏┓” shape in cross section so that seawater flows into the lower side, and an orifice formed at an upper side of the vibration pump 21. 22), and the sofa plate 23 formed on one side of the vibration column 21, Per unit width (B) of the floating structure 10, The length L of the marine floating structure 1 is 5B, The length Lc of the frequency column 21 is 0.2B, The depth (a) of the vibration column 21 submerged in the sea surface is 0.06B, The area A of the orifice 22 is 0.0133B ² , The length Lp of the sofa plate 23 is an ocean-floating structure having a vibrational breakwater in an optimal state, characterized in that 0.3B. delete delete delete delete

Images