KR20140093040A - Structure having Y type slit for preventing erosion - Google Patents

Abstract

The present invention relates to an erosion preventing structure using a Y-shaped slit and, more specifically, to an erosion preventing structure using a Y-shaped slit is capable of easily preventing shore erosion by establishing a breakwater or an erosion prevention unit and like that by using the Y-shaped slit. The erosion preventing structure using a Y-shaped slit of the present invention comprises: a concrete pile which is constructed to be inserted into the seabed at a predetermined depth; a concrete support plate which is constructed to be integrated on the concrete piles; and multiple Y-shaped slits which are molded to have a Y-shape by using ferroconcrete and are arranged on the concrete support plate to enables wave energy to pass while reduced.

Description

{Structure having Y type slit for preventing erosion}

The present invention relates to an erosion preventive structure using a Y-shaped slit, and more particularly, to an erosion preventive structure using a Y-shaped slit that can easily reduce coast erosion by constructing an anion or a submerged structure using a Y- .

Generally, the topography created by depositing sand or gravel by the influence of wave and longshore current entering the coast is called sea hill, and the rip current is scattered almost vertically It is a narrow and fast current flowing strongly toward the sea.

In particular, the Ian is carrying the eroded sand toward the sea, and it also causes safety accidents in which people who enjoy bathing in the sea are swept away to the distant sea.

In addition to these faults, there is an increase in human property damage due to accelerating the erosion of coastal sand due to the long wave of incident waves. In order to solve this problem, attenuation of the wave intensity at a certain distance from the coastline An anion or lock is being constructed.

The ionomer has a similar function in that the upper part of the ionomer is protruded over the sea surface and the submarine is submerged below the sea surface and the coasting erosion is prevented by attenuating the holding energy of the wave.

Of course, a conventional breakwater structure for anchorage of a ship is continuously installed, and there is a problem that severe erosion is caused by reflected wave and diffraction wave caused by a breakwater structure.

Conventional sedimentation type was effective in preventing erosion by blocking the wave incident on the shore and causing sedimentation in the rear side. However, due to the problem of seawater communication and a strong return flow formed in the separation part of the anion, There was a problem of protection and secondary erosion.

As an anti-erosion preventive structure to solve such a problem, Korean Patent Registration No. 10-1178274 (Aug. 23, 2012) discloses an iron-type anti-corrosive agent applied by assembling a steel perforated plate to a support column planted on the bottom of a coast by welding Korean Patent Registration No. 10-680175 (Feb. 1, 2007) discloses a coastal release system using a pile constructed by a structure having a pile-type steel material with a reduction pipe.

However, the conventional iron type ionomer is manufactured only in the form of pile near the sea surface, so there is a question about the effect of the wave energy reduction, and sufficient verification has not been made.

In addition, the use of a steel plate, steel material, or the like in the conventional lantern may cause the massive surface to fall compared with the concrete structure, and the position of the lantern may be detached due to the large wave energy generated during the typhoon.

In addition, even if the steel porous plate or the pile-shaped steel material is subjected to the corrosion treatment, the lifetime is shortened as the wave is repeatedly exposed for a long period of time.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a Y-type slit which is made of reinforced concrete or high durable eco- The present invention provides an erosion preventing structure using a Y-shaped slit capable of smoothly attenuating its holding energy as well as waves of general strength as well as waves of a large intensity passing therethrough.

Another object of the present invention is to not only primarily attenuate energy possessed by a wave but also to form a vortex generating hole and a protruding rib in a Y-shaped slit so that a vortex phenomenon occurs when a wave passes, So that a secondary energy attenuation can be achieved.

According to an aspect of the present invention, there is provided a concrete pile comprising: a concrete pile inserted into a sea floor at a predetermined depth; A concrete support plate integrally formed on the concrete pile; A plurality of Y-shaped slits arranged in a shape of a Y-shape using reinforced concrete and arranged so as to attenuate and pass the energy of waves on the concrete support plate; Type slit, wherein the Y-type slit is formed in the shape of a slit.

In a preferred embodiment of the present invention, the Y-shaped slit is composed of a column portion and a pair of branched portions branched at 20 to 45 degrees from the rear end of the column portion, and the column portion is arranged in parallel with the wave inflow direction on the concrete receiving plate At the same time, the branching portion is arranged at 20 to 45 degrees with respect to the wave inflow direction in order to attenuate the wave energy of the wave.

In particular, the Y-shaped slits have different lengths in the length range of 20 to 40 m and are made to have the same height. The Y-shaped slits are alternately arranged in the width direction of the concrete support plate, And a slit.

Preferably, a vortex generating hole is formed in the columnar portion or the branched portion of the Y-shaped slit so as to form a vortex when the waves are introduced.

More preferably, the columnar portion or the branched portion of the Y-shaped slit is formed integrally with the protruding ribs forming a vortex at the time of inflow of the wave while having a reinforcing function.

Alternatively, a concrete upper plate integrally connected to the concrete support plate by a column is closely disposed on the upper side of the Y-shaped slit.

Further, slits or holes for positive pressure dispersion are further formed on the concrete support plate and the concrete upper plate at regular intervals along the lateral direction or longitudinal direction.

Alternatively, a reinforcing intermediate plate may be integrally formed at an intermediate portion of the Y-shaped slit.

Through the above-mentioned means for solving the problems, the present invention provides the following effects.

According to the present invention, Y-shaped slits having different lengths are alternately arranged at sea level positions spaced a certain distance from the shoreline, thereby smoothly attenuating not only general strength waves but also retaining energies when waves of a large strength pass through So that the sand and gravel of the coast can be prevented from being eroded.

Particularly, by forming the projecting rib and the vortex generating hole in the Y-shaped slit of the present invention, not only the energy when the wave firstly touches the Y-shaped slit is primarily attenuated, but also the vortex phenomenon is generated when the wave passes Secondary energy attenuation can be made to easily prevent erosion of sand and gravel on the coast.

In addition, since the Y-shaped slit of the present invention is made of reinforced concrete, it has an advantage of being applicable not only to the function of the anode and the sink, but also to the water quality improvement and bio-friendly environment formation through the sea water communication effect.

1 is a perspective view illustrating an anti-erosion structure using a Y-shaped slit according to an embodiment of the present invention;
2 is a perspective view illustrating an anti-erosion structure using a Y-shaped slit according to another embodiment of the present invention,
FIGS. 3 and 4 are perspective views showing still another embodiment of a Y-shaped slit according to the present invention;
5 is a schematic view showing a construction example of an erosion preventing structure using a Y-shaped slit according to the present invention,
6 to 8 are plan views for explaining the principle of attenuating the energy of wave in the Y-shaped slit of the present invention,
9 is a perspective view showing a state in which a reinforcing intermediate plate is formed on an erosion preventing structure using a Y-shaped slit according to the present invention.

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

The present invention is intended to provide an anion or submerged erosion preventive structure for preventing erosion of a sedimentation area including sand or gravel on the coast by attenuating energy possessed by not only waves of general strength but also waves of high intensity.

For this, a Y-shaped slit 10 for attenuating energy of a wave is made of reinforced concrete as shown in FIGS. 1 and 2.

The Y-shaped slit 10 is provided in a structure in which a straight columnar portion 11 and a pair of branched portions 12 branched at 45 degrees from the rear end of the columnar portion 11 are integrally formed.

Preferably, the Y-shaped slit 10 is formed to have a total length of 20 to 40 m by combining the pillar portion 11 and the branch portion 12, and has a length different from 20 to 40 m, The height is made up of two or more kinds.

Thus, the Y-shaped slit 10 of the present invention includes a Y-shaped slit 10a having a long length and a Y-shaped slit 10b having a short length.

At this time, the reason why the Y-shaped slit 10 is manufactured within a length range of 20 to 40 m is that the blue condition of the sea area is examined to obtain the most suitable width for the sea area and the effective width for the blue reduction.

On the other hand, the concrete pile 20 is inserted into the concrete pile 20 at a certain distance from the shoreline, that is, in the sea floor of the lint or the optimum construction site of the pile. The concrete pile 22, Is integrally constructed.

Therefore, the Y-shaped slits 10 are arranged at regular intervals along the width direction of the concrete support plate 22, and the Y-shaped slits 10a having a long length and the Y-shaped slits 10b having a short length are alternately spaced And the columns 11 of the slits 10a and 10b are arranged on the concrete support plate 22 in parallel with the inflow direction of the waves while the branch 12 is divided into 20 ~ 45 [deg.].

More specifically, the long Y-shaped slit 10a and the short Y-shaped slit 10b are alternately arranged, and the long Y-shaped slit 10a and the short Y-shaped slit 10b are alternately arranged, The slit 10b of the Y-shaped slit 10b having a shorter length than that of the slit 10a of the Y-slit 10a having a longer length is arranged rearward .

In other words, the front end portions of the Y-shaped slit 10a of the long length and the Y-shaped slit 10b of the short length are arranged in the same line, and the front end portions of the Y-type slit 10a of the long length 12 and the branching portions 12 of the short-length Y-shaped slit 10b form a zigzag arrangement.

At this time, the branched portions 12 of the Y-shaped slits 10b having a short length are arranged vertically and spaced apart from the branched portions 12 of the long Y-shaped slits 10a, and the long Y-shaped slits 10b The spacing space between the branching section 12 of the Y-shaped slit 10a and the branching section 12 of the short-length Y-shaped slit 10b becomes a passage through which the energy of the waves is attenuated and then flows toward the coast.

2, a concrete upper plate 26, which is integrally connected by a concrete support plate 22 and a column 24, is in close contact with the upper side of the Y-shaped slit 10, as shown in FIG. As the concrete upper plate 26 is further constructed, the arrangement state of the Y-shaped slits 10 can be more firmly maintained.

In the case where the concrete upper plate 26 is further constructed as compared with the case where there is no concrete upper plate 26 on which the upper side of the Y-shaped slit 10 is open, the flow of waves is transmitted to the concrete upper plate 26, Type slit 10 between the first and second slits 22.

As shown in FIG. 3, in the Y-shaped slit 10 of the present invention, a wave is applied to the columnar portion 11 and the branched portion 12 of the Y-shaped slit 10 A vortex generation hole 13 is formed so that the vortex is formed while passing through and the energy thereof is attenuated.

As another embodiment of the Y-shaped slit 10 of the present invention, a vortex generating hole 13 is formed in the columnar portion 11 of the Y-shaped slit 10 as shown in FIG. 4, A plurality of protruding ribs (14) are integrally formed in the branching section (12) to concentrate the intensity and to form a vortex when the waves come in contact with each other to attenuate the energy.

Hereinafter, the operation of attenuating the wave energy of the anti-erosion structure using the Y-shaped slit according to the present invention will be described.

6, when the Y-shaped slit 10a and the Y-shaped slit 10b having a long length are alternately arranged, the Y-shaped slit 10a and the Y- The branching portions 12 of the Y-shaped slits 10b of short length are spaced apart from each other so as to be a passage through which the energy of the wave is attenuated and then transmitted to the coast.

Therefore, after the wave first reaches the columnar section 11 of each of the Y-shaped slits 10a and 10b to attenuate its energy and to reach the branching section 12 to again attenuate the energy, Type slit 10b and the branching portion 12 of the short-length Y-shaped slit 10b through the space between the branching portion 12 of the Y-shaped slit 10a and the short-length Y-shaped slit 10b.

At this time, when the wave passes through the spacing space as described above, it flows backward into the space inside the branching portions of the slits 10a and 10b to form a vortex, and the energy of the waves can be once again attenuated.

In this way, by attenuating the energy held by the wave and passing it to the coast, it is possible to easily prevent the phenomenon that sand and gravel on the coast are eroded.

7, the long-length Y-shaped slit 10a and the short-length Y-shaped slit 10b are alternately arranged, and the vortex generating hole 13 is formed in the column 11 or the branch 12, The wave energy can be further attenuated by generating more vortices when the waves pass.

That is, the wave first touches the columnar portion 11 of each of the Y-shaped slits 10a and 10b to attenuate the energy thereof. Further, when the wave reaches the branching portion 12, energy is again attenuated, The vortex is generated while passing through the vortex generating hole 13 formed in the vortex generating hole 13, so that the energy of the wave can be further attenuated.

8, the long Y-shaped slit 10a and the short Y-shaped slit 10b are alternately arranged, and the vortex generating hole 13 is formed in the column 11, It is possible to further reduce the energy of the waves by generating more vortices when the waves pass through, even when they are arranged such that a plurality of protruding ribs 14 for generating a reinforcing function and a vortex are formed in the waveguide 12.

That is, the wave first touches the column 11 of each of the Y-shaped slits 10a and 10b to attenuate the energy thereof. Further, when the wave reaches the branching portion 12, energy is again attenuated, A vortex is generated while passing through the vortex generating hole 13 formed in the branching portion 12 and a vortex is generated at the interface with the protruding rib 14 at the moment of touching the protruding rib 14 of the branching portion 12, It can be further attenuated.

At this time, the protruding ribs 14 of the branched portion 12 also have a function of stiffness maintaining the impact energy of the waves more firmly.

3, the concrete support plate 22 and the concrete upper plate 26 are provided with positive pressure dispersion slits or holes 28 having a straight or polygonal shape along the lateral or longitudinal direction at equal intervals So that positive pressure generated by the wave can be dispersed, thereby reducing the positive pressure generated when the wave vertically clings to secure stability.

9, the reinforcing intermediate plate 30 is integrally formed at the middle portion of each of the Y-shaped slits 10a and 10b in addition to the concrete support plate 22 and the concrete upper plate 26, By further extending the concrete pile 20 above the reinforcing intermediate plate 30, the rigidity against each Y-shaped slit 10a, 10b can be more firmly secured, A positive pressure dispersion slit or hole 28 may be further formed. The positive pressure dispersion slit or hole 28 may be formed to have any one of various shapes shown in FIG.

As described above, Y-shaped slits having different lengths can be arranged at alternate positions at a certain distance from the shoreline to attenuate the energy possessed by the waves, thereby easily preventing the erosion of sand and gravel on the coast In addition, water quality can be improved through sea water communication, prevention of the rise of the sea level, and bio-friendly environment creation.

On the other hand, since the outer surface of the Y-shaped slit 10 is coated with a fragrance material having a sterilizing and disinfecting function, it acts as a sterilizing or insecticide to maintain a clean state.

The functional oil may be mixed with 95 to 97% by weight of a perfume, 3 to 5% by weight of a functional oil, 30% by weight of a perfume oil, 25% By weight, and 20% by weight of citronella.

It is preferable that the functional oil is mixed in an amount of 3 to 5% by weight based on the perfume. If the mixing ratio of the functional oil is less than 3% by weight, the effect is insignificant. If the mixing ratio of the functional oil exceeds 3 to 5% by weight, the function is not greatly improved, but the manufacturing cost is greatly increased.

Udo of functional oil belongs to Araliaceae. Chemical components include Humulene, Limonen, etc. It has excellent bactericidal and antimicrobial effect.

Five-leaf akebia (Chocolate vine) is a chemical component such as Betulin, Oumarin, and has excellent antibacterial and bactericidal effect.

Gold (Skullcap) belongs to Lamiaceae, and chemical components include Baicalein, Scutellarein, etc., and it has good effect on antibacterial and bactericidal action.

Citronella is mainly composed of citronellal and geraniol, and has excellent sterilization and insecticidal effects.

As the functional oil is coated on the outer surface of the Y-shaped slit 10, the seawater passing through the Y-shaped slit 10 is sterilized, so that a clean condition of the beach beach can be maintained and prevented.

10: Y-shaped slit
10a: long Y-shaped slit
10b: Y-shaped slit of short length
11:
12:
13: Vortex generation hole
14: protruding rib
20: Concrete file
22: Concrete base plate
24: Column
26: Concrete top plate
28: Slit or hole for positive pressure dispersion
30: Intermediate plate for reinforcement

Claims (8)

A concrete pile 20 which is inserted into the sea floor at a predetermined depth;
A concrete support plate (22) integrally formed on the concrete pile (20);
A plurality of Y-shaped slits 10 arranged in a Y-shape by using reinforced concrete, and arranged so as to attenuate and pass wave energy on the concrete support plate 22;
Type slit, wherein the Y-shaped slit is formed on the outer surface of the slit.
The method according to claim 1,
The Y-shaped slit 10 has:
And a pair of branch portions 12 branched at 20 to 45 degrees from the rear ends of the column portions 11 so that the column portions 11 are arranged on the concrete support plate 22 in the wave inflow direction , And the branch portion (12) is arranged at 20 to 45 degrees with respect to the wave inflow direction in order to attenuate energy of a wave.
The method according to claim 1 or 2,
The Y-shaped slits 10 have lengths of Y-shaped slits 10a which are different lengths within a length of 20 to 40 m and are formed at the same height and are alternately arranged along the width direction of the concrete support plate 22, And a Y-shaped slit (10b) of a short length.
The method of claim 2,
Wherein the vortex generating hole (13) is formed in the columnar section (11) or the branching section (12) of the Y-shaped slit (10) to form a vortex upon the inflow of the wave.
The method of claim 2,
The columnar section (11) or the branched section (12) of the Y-shaped slit (10) is formed integrally with the protruding ribs (14) Anti - erosion structure using slits.
The method according to claim 1,
And a concrete upper plate (26) integrally connected by a concrete support plate (22) and a column (24) is closely disposed above the Y - shaped slit (10).
The method according to claim 1 or 6,
Wherein the concrete support plate (22) and the concrete upper plate (26) are further provided with positive pressure dispersion slits or holes (28) along the lateral direction or the longitudinal direction at equal intervals.
The method according to claim 1,
And a reinforcing intermediate plate (30) is integrally formed at an intermediate portion of the Y-shaped slit (10).

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