KR20150053101A - Preventing coastal erosion blade shape type submerged breakwater - Google Patents

Abstract

The present invention relates to a sawtooth type-submerged breakwater block for preventing coastal erosion which is a coastal erosion prevention means in a new operation type. The present invention is provided to effectively and surely prevent coastal erosion caused by the movement of sea water through a complex functional effect obtained by combining a wave absorbing effect (wave dispersion effect) to disperse wave by properly dispersing and offsetting the pressure of sea current moving with a high speed and a nourishment effect to structurally prevent the loss of sand caused by the movement of sea water. The sawtooth type-submerged breakwater block includes a block body part, which includes a block tunnel part of a semi-circular section formed along the longitudinal direction, a plurality of body sawtooth protrusions with a sawtooth-shape, which protrude from the outer surface along the longitudinal direction, and sea water dispersion grooves formed between the body sawtooth protrusions, and a block bottom part having bottom supporting protrusions, which protrude from both lower sides of the block body part in order to be safely seated on the sea bottom and form a bottom supporting portion along the longitudinal direction of the block body part, wherein a plurality of sea water introducing holes pass through the sea water dispersing grooves in the lower part of the front portion of the block body part, which is directed toward the sea side in order to allow sea water, which is introduced from the sea side and pass through the holes, and a plurality of sea water discharging holes pass through the sea water dispersing grooves in the upper part of the rear portion of the block body part, which is directed toward the seashore in order to allow the sea water introduced into the block tunnel part through the sea water introducing holes to be discharged toward the seashore while offsetting the pressure of the sea water.

Description

{Preventing coastal erosion blade shape type submerged breakwater}

The present invention relates to a sawtooth type submerged block capable of effectively preventing coastal erosion by effectively preventing a sandy drainage on the shore due to the movement of ocean currents, and more particularly, to a sawtooth type submerged block capable of appropriately dispersing and canceling the pressure of a current flowing at a high speed The present invention relates to a sawtooth type submerged block for coastal erosion prevention that can effectively prevent coastal erosion through a combined effect of a soap effect and a Yangbin effect that can prevent the loss of sand caused by the movement of seawater.

Coastal erosion due to the strong movement of ocean currents is a problem in coastal areas where waves generally occur. Coastal erosion takes place as the sand is swept away by waves. Various types of submerged blocks are installed on the shore to prevent coastal erosion.

Of course, there is a method to prevent erosion of the coast by installing a bank to calm the waves separately from the submerged block, but this causes a large difference in the flow rate of the current between the area near the bank and the bank, As a result, there is a problem in that sand is deposited between the shore and the embankment while scouring and erosion of the sand occurs between the embankment and the embankment.

As a solution to this problem, a plurality of coastal erosion preventing subblocks are installed along the coast of the sea floor. For example, Japanese Patent Application No. 10-2012-0014052 (permeable submerged block having a fishbone function) and Patent Application No. 10-2011-0068430 As shown in the technical description of the fountain-type coastal submerged structure, a plurality of blocks are installed on the sea floor around the coast to prevent erosion of the surrounding sand.

However, such a submerged block is generally shaped, and it is difficult to install the submerged block according to the shape of the coastal area to be installed and the shape of the sea floor, and is mostly installed in the form of a rectangle or a square. As a result, it can not be installed in conformity with the shape of the sea floor, so that the sand between the submerged block and the bottom of the sea is easily swept away by waves.

In addition, as a function of restoring coastal resources that are becoming devastated by forming a habitat for seaweeds and seafoods, a tunnel-type artificial fish star is applied in many ways to prevent coastal erosion due to the strong movement of ocean currents, In both of these artificial fishes or submerged blocks introduced so far, the sofa effect of crushing and dispersing the strong pressure of seawater when the currents are pushed from the sea side to the coast is resolved without any great inconvenience, but when the sea currents It has been pointed out that there is almost no structural function to prevent and prevent the sand loss in the coastal area due to the movement of ocean currents.

The present invention has been developed in order to structurally solve the coastal erosion caused by the migration of strong currents, which is a problem that the artificial fishes that form the habitat space of seaweeds and fishes and shellfishes as well as the previously introduced coastal erosion prevention function block It has been developed to provide a new stabilized submerged block structure and function. It basically has a sofa effect (wave dispersion effect) that can disperse the wave by appropriately dispersing and canceling the pressure of the current flowing at a high speed, This is a new type of coastal erosion that can more reliably prevent coastal erosion due to ocean currents through the combined effect of the Yangbyn effect that can prevent the sand loss caused by the movement of seawater. The present invention has been made in view of the above problems.

The sawtooth type submerged block according to the present invention, which is developed by this necessity, comprises a block tunnel portion having an inner end face in the longitudinal direction in the longitudinal direction and a plurality of sawtooth projections in the form of a saw- A bottom supporting protrusion protruding to both sides below the block body is formed so as to be stably seated on the bottom of the sea floor, and a bottom supporting protrusion is formed on the bottom surface of the block body, Wherein the block body portion has a plurality of seawater inflow holes through which seawater is inflowed from the sea into the seawater dispersion grooves below the front portion of the sea body, The seawater dispersion grooves on the upper side of the rear surface portion of the rear surface of the block portion Is the pressure of the ocean current offset towards the shore to form a plurality of water outlet holes through the product structure to be discharged passes.

Particularly, in the block body portion, the sea water inflow hole and the sea water outflow hole are respectively formed as upper and lower layers in the upper and lower sea water dispersion grooves below the front side of the sea side and seawater dispersion grooves above the sea side rear side portion, respectively. In addition, a plurality of bottom floor holes penetrating the lower portion of the block tunnel at predetermined intervals are formed so that a stable seating state can be maintained with respect to the uneven bottom floor of the block, while a lower tunnel portion below the block tunnel faces Either one of forming a portion or forming a curved surface portion is selectively applied, and either a bottom surface supporting portion in the longitudinal direction forms a facing portion or a curved portion in all of upper and lower sides is applied. .

The sawtooth type submerged block for coastal erosion prevention of the present invention basically has a soap effect due to the wave dispersing effect capable of appropriately dispersing and canceling the pressure of the ocean current moving at a high speed, The combined effect of the Yang Bin effect that can be structurally blocked together with the loss of the seawater can more effectively and effectively prevent coastal erosion due to ocean current movement.

In addition, since the inner block tunnel part and the outer body saw blade protrusions formed in the block body part can improve the effective cross-sectional area in which seaweeds can attach and live, it is possible to improve the habitat environment of algae and adhered creatures Can be provided. Particularly, seaweeds and seafood are not covered by sand that forms the bottom of the sea, but currents can flow smoothly through the inside of the block. Therefore, plankton propagates in the block, It is expected that it will be possible to provide a variety of action effects such as providing enough nutrients.

1 is a perspective view showing the entire outer structure of a sawtooth type submerged block for coastal erosion prevention according to a basic embodiment of the present invention.
FIGS. 2A and 2B illustrate a so-called two-zone effect when the seawater is passed through the sawtooth submerged block according to the present invention, structurally canceling a strong flow of ocean currents as well as structurally restricting sand loss to the coast In this structure, the pressure of seawater passing through the sea-side flow from the sea side to the sea side is gradually increased through the seawater inflow hole at the front portion and the sea water outlet hole at the rear portion, A sofa effect is generated which is vortexed by the seawater dispersion grooves, and the coastal sand particles, which are washed away with the seawater when the current flows from the coast to the sea, are naturally clogged at the bottom of the rear portion of the block body. Which is structured to prevent sand loss.
FIG. 3A and FIG. 3B are a front structural view in the sea direction and a rear structural view in the coast direction of the sawtooth type submerged block for coastal erosion prevention according to the basic embodiment of the present invention, The pressure of the ocean current can be offset by the seawater passing over the upper part of the rear side of the rear side, and sand sandwiched with the ocean currents from the coast to the sea is naturally stacked on the lower part of the coastal side, Structure diagram.
FIGS. 4 and 5 are diagrams showing the overall external structure of a sawtooth type submerged block for coastal erosion prevention according to an embodiment of the present invention. In FIG. 4 and FIG. 5, the lower part of the tunnel of the block tunnel part, And a protruding longitudinal bottom support portion of the bottom of the block is curved in a curved shape unlike a linear shape of the basic embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

Basically, the sawtooth type submerged block for coastal erosion prevention of the present invention is basically constructed such that a block body portion 20 having a cross section of a semicircular tunnel shape is formed in the longitudinal direction in the longitudinal direction so as to appropriately disperse and cancel the pressure of the oceanic current moving at a high speed. A saw blade projection 22 in the form of a saw blade protrudes at intervals to form a concave seawater dispersion groove 28 in which pressure can be primarily dispersed while a current flows between these body saw blade projections 22 to vortex Particularly, the block body portion 20 is provided with a block tunnel portion (hereinafter referred to as a " block " And the seawater inflow hole 24 and the seawater inflow hole 26 are formed at different heights of the penetration holes so that the pressure of the ocean current can be canceled secondarily through the first through third outlets 30, Constitute a rock structure.

The pressure of the current flowing through the seawater inflow hole 24, the seawater outlet hole 26, and the seawater dispersion groove 28 penetrating through the front and rear portions of the block body 20 is structurally canceled The sea water outlet hole 26 formed on the rear portion of the block body portion 20 is structured to have a bottom portion at the front portion thereof so as to structurally prevent the loss of sand generated from the coast to the sea due to the movement of the ocean current, Unlike the seawater inflow hole 26 formed in the upper portion of the block body 20, the sand moved along with the movement of the current is naturally structurally and naturally not allowed to pass through the lower portion of the rear portion of the block body 20 The block body 20 is constructed to prevent erosion of the shore by exerting the Yang Bin effect.

That is, according to the present invention, a block tunnel portion 30 having a semicircular inner cross section is formed in the longitudinal direction while a plurality of saw-tooth saw blade protrusions 22 are protruded in the longitudinal direction, A bottom support protrusion 12 protruding from both sides of the block body 20 is formed on the bottom of the block body 20 so that the seawater dispersion groove 28 can be stably mounted on the bottom of the sea bottom The bottom support protrusion 12 comprises a block bottom 10 forming a bottom support portion 16 (18) in the longitudinal direction of the block body portion 20.

Particularly, in the block body portion 20, a large number of seawater inflow holes 24 through which seawater flows in from the sea are passed through the seawater dispersion groove 28 at the lower part of the front part of the sea side, The seawater dispersion groove 28 is provided with a plurality of seawater outflow holes 26 so that the sea water introduced into the block tunnel portion 30 through the seawater inflow hole 24 can be discharged to the coast by offsetting the pressure of the sea current. ) Form a through saw blade shape.

The block body portion 20 has a structure in which the sea water inflow hole 24 and the sea water outflow hole 26 are respectively connected to the upper and lower sea water dispersion grooves 28 below the front side of the sea side and the sea water dispersion grooves 28 above the coast side rear side portion It is preferable that seawater introduced into the sea is swirled through seawater dispersion grooves 28 formed by a plurality of sawtooth-shaped saw blade projections 22, and at the same time, The block tunnel portion 30 is formed in the block body portion 20 through the seawater inflow hole 24 so that the pressure of the current flow can be offset and reduced. And finally discharged through the seawater outlet hole 26, which is formed on the rear side of the block body 20 relatively higher than the block body portion 20, so that the pressure of the sea current is structurally reduced, and the pressure of the seawater entering the coast is more reliably Offset So it can kill.

In the meantime, the sawtooth type submerged block for coastal erosion prevention of the present invention is constructed such that the block bottom portion 10 constituting the lower structure of the block body portion 20 can be stably fixed to the underside bottom floor, The bottom support protrusions 12 are formed on the lower side of the body portion 20 so that the bottom support protrusions 12 protrude from the bottom support portions 16 and 18 in the longitudinal direction of the block body portion 20, .

The block body portion 20 includes a plurality of bottom floor holes 14 penetrating at a predetermined interval in a lower portion of the block tunnel portion 30 which is an inner space penetrating in the longitudinal direction of the block body portion 20 located at the upper side As shown in FIGS. 1 to 3B, the tunnels lower part 32 and lower tunneling part 34, which are lower parts of the block tunnel part 30, form a facing part. 5, the seawater passing through the seawater inflow hole 24 formed in the lower part of the front portion of the block body portion 20 forms the curved portion in the lower side of the curved tunnel of the block tunnel portion 30 It is structurally more vortically operated by the portion 34 and discharged to the seawater outlet hole 26 located above the rear portion of the block body portion 20 so that the pressure of the current flow can be more reliably reduced .

The block bottom 10 may also be formed so that the bottom support portions 16 and 18 in the longitudinal direction form facing portions both on the upper and lower sides as seen in the drawing of the basic embodiment of Figs. As shown in the drawing of the embodiment of the present invention, it is possible to form a curved surface portion and form an anchor effect floor structure which can be stably grounded more securely against irregular undersea floor.

10: block bottom 12: bottom support projection
14: bottom grounding hole 16,18: bottom supporting part
20: block body part 22: body saw blade projection
24: Seawater inflow ball 26: Seawater inflow ball
28: Seawater dispersion groove 30: Block tunnel part
32,34: Lower part of tunnel

Claims (3)

A plurality of sawtooth-shaped saw blade projections 22 are projected in the longitudinal direction on the outer side while a plurality of block tunnel portions 30 having an inner end surface in the longitudinal direction are formed, 28 are provided with a recessed block body portion 20,
Bottom supporting protrusions 12 protruding on both sides are formed below the block body 20 so that the bottom supporting protrusions 12 can be stably mounted on the bottom of the sea floor, (10) forming a bottom support portion (16) (18)
The block body 20 has a plurality of seawater inflow holes 24 through which seawater flows from the sea into the seawater dispersion grooves 28 at the lower part of the front part of the block body 20, A plurality of seawater outflow holes 26 are formed in the dispersion grooves 28 so that the seawater introduced into the block tunnel portion 30 through the seawater inflow hole 24 can be discharged through the off- Characterized in that the toothed submerged block for coastal erosion prevention is characterized in that The method according to claim 1,
The block body portion 20 has a structure in which the sea water inflow hole 24 and the sea water outflow hole 26 are respectively connected to the upper and lower sea water dispersion grooves 28 under the front side of the sea side and the sea water dispersion grooves 28 Wherein each of the upper and lower sub-blocks has a plurality of upper and lower layers. The method according to claim 1,
The block bottom 10 is formed with a plurality of bottom floor apertures 14 penetrating at a predetermined interval in a lower portion of the block tunnel portion 30 so that a stable seating state can be maintained with respect to a rugged bottom floor, The tunnel lower portion 32 or 34 below the tunnel portion 30 forms a facing portion or a curved portion is selectively applied and the bottom supporting portion 16 in the longitudinal direction 18) is formed by applying any one of forming a facing surface portion or forming a curved surface portion on both upper and lower sides.

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