KR101094520B1 - Floating breakwater - Google Patents

Abstract

The present invention relates to a floating breakwater, and more particularly to a floating breakwater that can efficiently dissipate the wave energy delivered to the floating body by providing a resistance plate at the bottom of the floating body.

The problem to be solved by the present invention is to provide a floating breakwater that can dissipate the wave energy efficiently while having a simpler structure.

The present invention, a buoyancy structure having a hollow portion provided therein so that it can float on the sea; A mooring device for limiting movement of the buoyancy structure; A plate-shaped resistance plate provided on the sea bottom side of the buoyancy structure to resist shanghai movement of the buoyancy structure; It provides a floating breakwater comprising a connecting member for connecting the resistance plate with the buoyancy structure.

According to the present invention, it is possible to provide a floating breakwater that can effectively dissipate wave energy while taking a simple structure by providing a resistance plate under the buoyancy body.

Floating breakwater, breakwater, float

Description

Floating breakwater

The present invention relates to a floating breakwater, and more particularly to a floating breakwater that can efficiently dissipate the wave energy delivered to the floating body by providing a resistance plate at the bottom of the floating body.

A breakwater is a port structure that maintains the calmness of the sea level in the port by blocking the ingress of blue waves coming in from the open sea so that the safety of the ships anchored in the facilities and the harbor can be maintained. Considering the construction location of the breakwater, the maximum wave size, the ground conditions and the construction method, the appropriate breakwater is selected for a specific port.

Breakwaters can be divided into two types: gravity (fixed) breakwaters and floating breakwaters. Gravity breakwaters are formed by dialysis concrete structures or rocks on the sea to build embankments from the sea floor. It is a breakwater that aligns along the coast and allows floating structures to act as breakwaters.

Gravity-type breakwaters have the advantage of effectively preventing the waves from entering the sea, but when they are installed on soft grounds, they need additional work to reinforce the grounds, which has the disadvantage of long cost and air. The disadvantage is that construction is very difficult. In addition, in general, gravity breakwater has a problem of causing environmental pollution, such as high construction cost and long construction period, which is uneconomical and deteriorates the water quality of the inner port due to blocking of seawater circulation between the inner and outer ports. Moreover, due to the breakwater structure, the ship's visibility is insecure and there is a problem of blocking the view of the port.

Floating breakwaters have been introduced to overcome these shortcomings of gravity breakwaters.

1 shows an example of a floating breakwater, which is a floating breakwater disclosed in Korean Patent Laid-Open No. 10-2005-0045575. The breakwater shown in FIG. 1 is composed of a float (1) and a flexible membrane (2) provided at the bottom of the float (1), a pile (P) inserted into the ground (G), and the cable (C) and pile ( The floating body 1 is moored by the flexible membrane 2 connected to P), and the floating body 1 serves as a breakwater.

However, in case of the floating breakwater shown in FIG.

Figure 2 shows another example of a conventional floating breakwater is a floating breakwater disclosed in Korea Patent Publication No. 10-2005-0119626. The floating breakwater shown in FIG. 2 consists of a floating body (3), a flow preventing plate (5), a supporter (4), and a mooring facility (6) composed of hollow steel. Compared with this, the structure is much simpler and construction cost is reduced.

However, in the case of the floating breakwater shown in FIG. 2, the floating body 3 must support all the wave energy, but when the wave energy is large, there is a problem such as a need for a larger mooring facility 6 and there is a need for structural improvement.

3 shows another type of conventional floating breakwater, a sofa plate 8 installed on the floating body 7 and the floating body 7, a sofa hole 9 formed on the sofa plate 8, It is composed of a weight block (B) and a cable (C) is a floating breakwater effect that the effect of offsetting the blue to some extent by the sea water flows down through the sofa hole (9).

However, even in the case of the floating breakwater shown in FIG. 3, there is a problem that the sofa board 8 has to bear almost all of the energy of the blue because the effect of canceling the blue is insignificant.

The present invention was derived to solve the problems of the conventional floating breakwater described in the background art, the problem to be solved by the present invention is a floating breakwater that can efficiently dissipate wave energy while having a simpler structure To provide.

The present invention as a means for solving the above problems,

Buoyancy structure having a hollow portion provided therein so that it can float on the sea;

A mooring device for limiting movement of the buoyancy structure;

A plate-shaped resistance plate provided on the sea bottom side of the buoyancy structure to resist shanghai movement of the buoyancy structure;

It provides a floating breakwater comprising a connecting member for connecting the resistance plate with the buoyancy structure.

The resistance plate is preferably provided with a through hole in the direction of the buoyancy structure.

The resistance plate is more preferably disposed to be inclined away from the buoyancy structure in the direction of the sea wave direction.

According to the present invention by providing a resistance plate on the lower portion of the buoyancy body can provide a floating breakwater that can effectively dissipate wave energy while taking a simple structure.

Hereinafter, with reference to the drawings will be described a specific content for the practice of the present invention by describing one preferred embodiment of the present invention.

4 is a view for explaining a floating breakwater according to an embodiment of the present invention, Figure 5 is a side view of the floating breakwater shown in FIG.

Floating breakwater according to the present embodiment is installed in the sea to efficiently dissipate the energy of the blue wave to install the buoyancy structure 10, mooring device as shown in FIG. 20) and the resistance plate 30, the connection member 40.

The buoyancy structure 10 is a structure in which the hollow portion 11 is provided therein so that it can float on the sea, the inside of the hollow portion 11 may be filled with foamed styrene or the like to generate buoyancy. Of course, the hollow portion 11 may be filled only with air.

The mooring device 20 is for limiting the movement of the buoyancy structure 20, in this embodiment one end is fixed to the sea bottom and the other end is a cable is fixed to the buoyancy structure (10). The number of cables to be installed and the amount of tension each cable can support may be appropriately designed in consideration of the size of the buoyancy structure 10 and the strength of the current.

The resistance plate 30 is provided on the sea bottom side of the buoyancy structure 10 and is provided with through-holes 31 in the direction of the buoyancy structure as a plate-like configuration for resisting the vertical movement of the buoyancy structure 10. have.

The buoyancy structure direction is the same direction as the thickness direction of the resistance plate (30).

The resistance plate 30 is disposed to be inclined away from the buoyancy structure 10 toward the main direction of the sea as shown in the side view of FIG.

The connection member 40 is a cable that connects the resistance plate 30 and the buoyancy structure 10.

Hereinafter, the functions, functions, and effects of each component described will be described.

The buoyancy structure 10 is a structure that floats directly on the water to support the force of the algae.

The mooring device 20 is configured to support the buoyancy structure 10 so that excessive movement does not occur even when the buoyancy structure 10 receives a force caused by a tidal current. Some of the energy to move the tidal current is dissipated while hitting the buoyancy structure (10) and part is dissipated in the form of the mooring device 20 to limit the movement of the buoyancy structure (10).

The resistance plate 30 is configured to limit the energy of the algae by limiting the movement of the buoyancy structure 10, so that more energy is consumed to move the buoyancy structure 10 to dissipate the energy of the algae.

The through holes 31 provided in the resistance plate 30 make the movement of the resistance plate 30 more smooth, but the energy acting on the resistance plate 30 is too large to prevent the connection means 40 from being impossible. Done.

The connecting means 40 is configured to connect the resistance plate 30 and the buoyancy structure 10 to each other.

Although one specific embodiment of the present invention has been described above, specific details for the implementation of the present invention have been provided, but the technical idea of the present invention is not limited to the described embodiments and does not contradict the technical idea of the present invention. It can be embodied in various forms of floating breakwater within the scope.

1 to 3 is a view for explaining a conventional floating breakwater.

4 is a view for explaining a floating breakwater according to an embodiment of the present invention.

FIG. 5 is a side view of the floating breakwater shown in FIG. 4; FIG.

** Description of symbols for the main parts of the drawing **

10: buoyancy structure 20: mooring device

30: resistance plate 31: through hole

40: connecting member

Claims (3)

Buoyancy structure having a hollow portion provided therein so that it can float on the sea; A mooring device for limiting movement of the buoyancy structure; A plate-shaped resistance plate provided on the sea bottom side of the buoyancy structure to resist shanghai movement of the buoyancy structure; Floating breakwater, characterized in that it comprises a connecting member for connecting the resistance plate with the buoyancy structure. The method of claim 1, Floating breakwater, characterized in that the resistance plate is provided with a through hole in the direction of the buoyancy structure. The method according to claim 1 or 2, The resistance plate is a floating breakwater, characterized in that arranged inclined away from the buoyancy structure toward the direction of the sea wave.

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