KR100665013B1 - The seashore protective equipment - Google Patents

Abstract

A seashore protection system is provided to prevent the flood damage caused by wave overtopping around the seashore by preventing wave overtopping using a protection wing effectively, guiding a round current and reducing wave energy and to prevent the overflow of seawater effectively by extending the length of a protection wing using an expandable auxiliary wing. A seashore protection system comprises: a hollow caisson(10) constructed in the water along the shoreline where the sea and the land merge into each other and provided with mortar injection holes(100) to fill up mortar(15) inward and many fastening anchors(A) to fix a protection wing; a protection wing(20) fixed on the caisson, projected at the appointed curvature toward the sea to prevent the overflow of seawater toward the land and provided with a guide(22) folded inward and fixed with an auxiliary wing(30) to be regulable according to wave height of the sea; and a float(40) installed along the bottom of the auxiliary wing to expand and contract the auxiliary wing against the protection wing according to the height of the surface of seawater.

Description

Coastal Protective Equipment

1 is an exploded perspective view showing the overall configuration of the coastal protection facility according to the present invention.

Figure 2 is a cross-sectional view showing a construction state of the coastal protection facility according to the present invention.

Figure 3 is a perspective view showing a construction state of the construction of the coastal protection facility according to the present invention.

<Description of Signs of Major Parts of Drawings>

10: caisson

15: mortar

20: protective wing

30: auxiliary wing

40: buoyant body

The present invention relates to a coastal protection facility, and more particularly, to a coastal protection facility that is constructed along the shoreline where the sea and land contact each other to prevent seawater flooding due to typhoons or tsunamis, and thus to prevent flood damage of facilities around the coast. It is about.

The dike is constructed adjacent to beaches, rivers, and rivers, and is a protective facility to prevent flooding of nearby facilities such as houses and farmland by preventing the overflow of seawater or rivers and rivers that are suddenly blown up by natural disasters such as typhoons and bad weather. It is a kind of.

In particular, in the case of the embankment which is installed on the shore where the land and the sea are in contact with each other and prevents the inflow of seawater, a simple concrete block body, for example, caisson is conventionally used.

However, when constructing a levee using a conventional concrete block body, for example, caissons, there is a functional limitation only to block the inflow of seawater. Therefore, in the case of the conventional protection facilities, when the wave height is increased due to the typhoon or tsunami, facilities such as farmland or houses around the embankment due to the moon wave is inevitably exposed to flood damage.

The present invention is to solve the above-mentioned problems, to provide a coastal protection facility that can effectively prevent oversea waves to prevent inundation near the coast even when the wave height is high due to the typhoon or tsunami. There is this.

In order to achieve the above object, the present invention comprises a hollow caisson formed on the bottom surface of the shore smoothly through rubble and grounded along the shoreline on the bottom foundation; And a plurality of fastening anchors protruding from the caisson upper surface and fastened and fixed on the caisson through the fastening anchors, while one side thereof includes at least one protective wing projecting at a certain curvature toward the sea. A coastal protection facility is provided which is configured to fill the mortar with a weight.

According to an embodiment of the present invention, the protective wing may be further provided from the protective wing to be able to stretch from the protective wing so as to vary the length of the wing according to the sea wave height.

In this case, it is preferable to install a buoyancy body along the lower longitudinal direction of the auxiliary wing so that the expansion and contraction length of the auxiliary wing for the protective wing can be varied according to the sea level.

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

1 is an exploded perspective view showing the overall configuration of the coastal protection facility according to the present invention, Figure 2 and Figure 3 is a cross-sectional view showing a construction state of the coastal protection facility according to the present invention, respectively.

1 to 3, the coastal protection facility is to prevent the inundation of facilities close to the shore due to the wave, the hollow caisson 10 is installed in the water along the coastline where the sea and land contact, While being fixed on the caisson 10, one side of the protection at least has a curvature toward the sea is composed of a protective wing (20) to prevent the sea water from overflowing to the land side due to high waves.

Looking at the present invention in more detail, the caisson 10 is seated on the bottom foundation (not shown) to form a smooth bottom surface through rubble on the shore underwater surface of the coast. The upper side of the caisson 10 has a mortar injection hole 100 is communicated from the outside to the inside. Therefore, when the mortar 15 is filled in the caisson 10 through the mortar injection hole 100 while the caisson 10 is positioned on the floor foundation formed through rubble, for example, using a crane. The weight of the caisson 10 itself is imparted so that the caisson 10 does not deviate even in the external force.

Meanwhile, a plurality of fastening anchors A protrude from the upper surface of the caisson 10. Therefore, the protective blade 20 to be described later through the fastening anchor (A) can be fastened and fixed on the caisson (10).

As shown in the drawing, the protective wing 20 is protruded to have one side at least upward curvature toward the sea. As a result, the waves coming from the sea are prevented from being blocked by the protective wing 20 and flooded to the land side. At the same time, the waves hit the protective wing 20 is naturally circulated back to the marine side by the protective wing 20 concave round when viewed from the sea side while the kinetic energy is attenuated. In other words, the protective wing 20 serves to reduce the impact energy caused by the wave by preventing the sea water from overflowing to the land side while at the same time inducing the flow of the sea water (回流) to cancel the wave.

According to a preferred embodiment of the present invention, the protective wing 20 is provided with an auxiliary wing 30 is elastically provided with respect to the protective wing 20 to vary the length of the wing according to the wave height (wave height) of the sea. Specifically, the auxiliary wing 30 may be installed in a flexible manner on the inner peripheral surface of the protective wing 20 protrudes concave to the sea side. For example, as shown in the drawings, the guide blades 22 inwardly bent are formed on both end surfaces of the protective blade 20, and both ends of the auxiliary blades 30 are inserted into the guide sphere 22 to be supported. Combined, the auxiliary wing 30 can be made flexible to the protective wing 20 in a simple configuration.

Preferably, according to the embodiment of the present invention, a buoyancy body 40 may be further installed along the lower longitudinal direction of the auxiliary wing 40. In this case, even if the auxiliary wing 30 is not arbitrarily adjusted, the extension length of the auxiliary wing is actively adjusted according to the sea level. Thus, no manpower or other power is consumed. As a result, since the protective wing 20 and the auxiliary auxiliary wing 30, which is stretchable with respect to the protective wing 20, are actively changed according to the sea level, the immersion damage can be prevented more effectively. At this time, the buoyancy body 40 may be a general styrofoam or hollow tube that is relatively lighter than water, or a general drum can be used.

According to the embodiment of the present invention as described above, a protection facility including a protective wing 20 is installed along the shoreline where the sea and land contact with each other to prevent flooding by flooding to the land side by the waves during a typhoon or tsunami damage and flood damage. To prevent. In particular, the auxiliary wing 30 is elastically installed in the protective wing 20 for preventing sea invasion, the auxiliary wing 30 is actively protected according to the height of the sea surface by the buoyancy body (40). It is stretched from the wing 20. Accordingly, even if the sea level is raised to some extent, the length of the protective blade can be extended without any manipulation, thereby preventing the flooding of the seawater more effectively.

As described above, according to the coastal protection facility of the present invention, by the protective wing installed on the caisson upper wave (effective wave) can be effectively prevented and at the same time the flow is induced to reduce or cancel the wave force. Accordingly, it is possible to effectively prevent the flooding damage caused by the moon wave near the coast.

In addition, the protective wing for the defense of seawater intrusion is provided with an auxiliary wing is stretchable, this auxiliary wing is a variable length by the buoyant body active expansion and contraction, so that even if the sea level is raised to some extent The length of the protective blade can be extended without the need for manipulation, so that flooding of seawater can be effectively prevented.

What has been described above is only one embodiment for implementing the coastal protection facility according to the present invention, the present invention is not limited to the above embodiment, the subject matter of the present invention as claimed in the following claims Without departing from the scope of the present invention, any person having ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (3)

Hollow caissons that form a smooth ground foundation through rubble on the shore's underwater bottom and are laid along the coastline on the bottom foundation, and a plurality of fastening anchors protrude from the caisson upper surface. While the auxiliary wings are elastically fixed so as to be able to vary the length of the wing according to the crest of the sea, the one side includes a protective wing having a certain curvature and at least protruding toward the sea, the hollow In the coastal protection facility is configured to provide a sense of weight by filling the mortar inside the caisson, A buoyancy body is further installed along the lower longitudinal direction of the auxiliary wing, wherein the length of expansion and contraction of the auxiliary wing relative to the protective wing is configured to be actively changed according to the sea level. delete delete

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