KR20020037569A - A breakwater for dispersing impulsive wave forces - Google Patents

Abstract

PURPOSE: A wave-force dispersing caisson breakwater is provided to prevent sliding damage by dispersing wave force effectively and to have stability by increasing the self-weight of a caisson breakwater. CONSTITUTION: The wave-force dispersing caisson breakwater(10) comprises a pedestal part(11) wider than an upper plane(12) to be placed on the seabed, a front projection part(13) projected to be inclined on the center of the front and inclines(14) inclined to both sides of the front projection part(13), wherein wave force is dispersed successively by the front projection part(13) and works as downward force to the caisson breakwater(10) to increase the self-weight of the caisson breakwater(10) by a gradient of the front projection part(13) and both inclines(14).

Description

A breakwater for dispersing impulsive wave forces

FIELD OF THE INVENTION The present invention relates to breakwaters, and more particularly to caisson breakwaters of upright type.

The breakwater is an exterior facility for protecting harbor facilities and ships from the waves of the open sea. The breakwater can be largely classified into a sandstone (block) breakwater, an upright breakwater, and a hybrid breakwater. Currently, the most widely applied breakwater in the world is a sandstone breakwater coated with an artificial block such as tetrapod, and a number of upright caisson breakwaters have been constructed in Japan and the like.

The sandstone breakwater coated with tetrapod is known to have a lot of construction records, so it can be regarded as a breakwater that has been confirmed to a certain degree of safety. However, when the ground is soft or deep, the cost of construction increases sharply, leading to a loss of competitiveness. In addition, there is a problem in lack of aesthetic as a hydrophilic space after construction.

And in the case of caisson breakwater has been structured in a vertical form that is mostly affected by the wave force of the wave directly, there has been a problem that the sliding failure occurs when the breaking force of a large impact.

Accordingly, an object of the present invention is proposed to solve the above-mentioned problems, an upright caisson breakwater that can effectively distribute the wave force of the wave to prevent slip fracture and increase the orderly and stable aesthetics as a hydrophilic space after construction To provide.

1 is a perspective view showing the basic structure of the wave dispersion caisson breakwater of the present invention;

2 is a front view of the caisson breakwater of FIG. 1;

3 is a plan view of the caisson breakwater of FIG. 1;

4 is a side view of the caisson breakwater of FIG. 1;

5 is a view showing an example of installing the wave dispersion caisson breakwater of the present invention on the coast; And

6 is a view showing an example of applying the wave dispersion dispersion caisson breakwater of the present invention.

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

10: caisson breakwater 11: the left godfather

12: upper surface 13: front projection

14: inclined surface 15: upper surface protrusion area

16: handrail 20: bottom

30: Sastone Mound

According to a feature of the present invention for achieving the object of the present invention as described above, the caisson breakwater is: a seat portion formed wider than the upper surface and seated on the sea bottom, a front projection protruding inclined to the center of the front surface, and the front surface The inclined surfaces are inclined on both sides of the protrusions, and the wave forces of the waves are sequentially applied and dispersed by the front protrusions. Apply a vertical downward force to the caisson breakwater to increase.

(Example)

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

1 is a perspective view showing the basic structure of the wave dispersing caisson breakwater of the present invention. 2 to 4 show front, top and side views of the caisson breakwater of FIG. 1, respectively.

Referring to the drawings, the caisson breakwater 10 of the present invention is formed wider than the upper surface 12, the seat portion 11 seated on the sea bottom, the front projection 13 protrudes to be inclined to the front center, and the front projection The inclined surface 14 inclined on both sides of (13) is provided. The handrail 16 may be installed in the upper surface protruding region 15.

In the caisson breakwater 10 of the present invention having such a structure, the wave force of the wave is sequentially applied by the front protrusion 13 to reduce dispersion. That is, the maximum wave pressure is not yet applied to the other part including the two inclined surfaces 14 during the maximum wave pressure due to the impact of the wave on the front protrusion 13, and when the maximum wave pressure is applied to the two slopes 14, the front protrusion ( Other parts, including 13), have a small wave pressure. Therefore, the maximum wave force acting on the caisson breakwater 10 can be reduced to increase the safety against sliding failure than the conventional vertical caisson breakwater. In addition, due to the inclination of the front protrusion 13 and the two inclined surfaces 14, a vertical downward force is generated during the maximum wave action, and thus the self-weight of the caisson breakwater 10 may be increased.

5 is a view showing an example in which the wave dispersion caisson breakwater of the present invention is installed on the shore.

Referring to the drawings, the caisson breakwater 10 of the present invention, after recharging the soft seabed 20 with sand, as in the case of the conventional upright caisson breakwater, and installs a sandstone mound 30 on it. The front protrusion 13 of the caisson breakwater 10 is installed to face the external sea, and the waves pushed from the external sea are dispersed by the front protrusion 13 of the caisson breakwater 10. And since the wave force acts as a vertical downward force on the caisson breakwater 10 due to the inclination of the front projection 13 and the inclined surface 14 of the caisson breakwater 10, the weight of the caisson breakwater 10 is increased. This is improved.

In this embodiment, the front protrusion 13 is an arc, but can be configured in a suitable polygonal shape in consideration of the workability. The dispersion effect of the wave force is affected by the action time of the impact wave. The shorter the action time of the wave force, the greater the relative stability.

6 is a view showing an example of applying the wave dispersion dispersion caisson breakwater of the present invention.

Referring to the drawings, the caisson breakwater of the present invention may constitute a plurality of front protrusions in one caisson, and in the illustrated example, three protrusions 41, 42, and 43 are configured in one caisson 40. .

Since the caisson breakwater of the present invention as described above is formed with a protrusion on the front side, it can be used as a tourist resource because it has a beautiful appearance when viewed from the outside, and can be used as a resting place for residents in the vicinity.

As described above, the configuration and function of the wave dispersion caisson breakwater according to a preferred embodiment of the present invention is shown in accordance with the above description and drawings, but this is only an example and within the scope not departing from the technical spirit of the present invention. It will be understood by those skilled in the art that various changes and modifications are possible in the art.

According to the present invention as described above, since the wave force is distributed by the protrusions, it is possible to improve the safety against slipping breakage. By generating the effect of increasing the self-weight of the breakwater it is possible to provide a more stable breakwater.

Claims (2)

For caisson breakwater: It is provided with a seating portion formed wider than the upper surface and seated on the sea bottom, a front projection projecting to be tilted at the center of the front surface, and an inclined surface inclined at both sides of the front projection, The wave force of the wave is sequentially applied and dispersed by the front protrusion, and the wave force of the wave is perpendicular to the caisson breakwater to obtain an effect of increasing the self-weight of the caisson breakwater by the slope of the front protrusion and the two inclined surfaces. Wave dispersion caisson breakwater, characterized in that the downward force. The method of claim 1, Wave dispersing caisson breakwater, characterized in that the handrail is installed in the protruding region of the upper surface.