KR101062728B1 - Beach nourishment using the filter layer and the swell control structure and it's construction technique - Google Patents

Abstract

The present invention forms a filter layer under a sandy beach, a control structure is formed on the front surface of a coastal structure (retaining wall, etc.), and a solid solid layer is formed at the end of an inclined slope, so that the moisture wave acts and then returns to the sea. The purpose of the present invention is to provide a coastal vacant bin and its construction method using a filter layer and a shoulder control structure to reduce the number of waves and reduce the erosion of sand.
The coastal yangbin using the filter layer and the bed layer according to the present invention for achieving the above object is a filter layer formed by laying gravel to a certain thickness on the ground; A fibrous layer formed by laying geotextiles on the filter layer; A sand layer formed by laying sand with a predetermined thickness on the fiber layer; A solid solid layer formed by stacking a resin network filled with gravel at the end of the empty slope of the sand layer; Characterized in that it consists of a shoulder control structure formed by stacking a resin network filled with gravel in front of the upper coastal structure of the sand layer.
In addition, the coastal vacancy construction method using the filter layer and the shoulder control structure according to the present invention for achieving the above object comprises the steps of forming a filter layer by laying gravel to a certain thickness on the ground; Laying a geotextile on the filter layer to form a fiber layer; Depositing sand with a predetermined thickness on the fiber layer to form a sand layer; Stacking a resin network filled with gravel at the end of the total slope of the sand layer to form a solid solid layer; Stacking a resin network filled with gravel in front of the upper coastal structure of the sand layer is characterized in that consisting of a step control structure.

Description

Beach nourishment using the filter layer and the swell control structure and it's construction technique}

The present invention relates to a coastal bin and a construction method using the filter layer and the shoulder control structure, both sides of the bin forms a filter layer under the Yangbin sand layer, and has a near-solid layer at the end of the inclined slope, the front sand of the coastal structure (retaining wall, etc.) It is to put the structure to relax the boss.

The general coastal erosion and sedimentation is a natural phenomenon in which erosion and sedimentation are repeated by the action of the waves coming from the sea side and the flows generated by the coastal and algae, currents, winds, and streams converted by the waves hitting the coast. With this balance of erosion and sedimentation, the coastline has been in its shape for a long time.

However, in recent years, as artificial structures such as breakwaters, anchorages, and coastal roads have been constructed, the construction of the waves alters the strength and direction of the overlapping waves and coastal streams, resulting in unexpected coastal erosion and deposition.

In order to prevent the above-mentioned coastal erosion phenomenon, many countries and many people have developed and installed structures such as languages and dolce and submerged.

However, such a structure is installed in a state that does not properly understand the cause of the coastal erosion, and according to the researchers of the present invention, the wave and the topographical characteristics of many examples of coastal erosion and envelopment of our country is determined by Occasionally, when the coastal width parameter (ls / L) is less than or equal to 0.1 and less than 0.5, even when there is a retaining wall, convenience facilities, or coastal forest on the coastal sand under such conditions, erosion occurs during tsunami waves such as long period waves. Over-envelopment occurs, does not recover, and ultimately leads to erosion, which causes the problem of expanding and accelerating coastal erosion.

Thus, in order to solve the problems as described above, a water-permeable structure and its construction method for Sabine coastal maintenance and Yangbin facility has been proposed.

The water-saving structure for the Sabine coastal conservation and yangbin facility is a space 20 is formed with a trench in a constant width and depth on the sandy beach; A bottom member 30 on which rubble, gravel or concrete is installed over the bottom and side surfaces of the space 20; A permeable block 40 installed on the bottom member 30 and formed in a predetermined cross-sectional shape and formed of a plastic or concrete material; One side is connected to the bottom surface of the bottom member, the other side is connected to the coast, located at a constant depth from the surface of the sandy beach and consists of a water catching layer 50 composed of rubble or gabion 52.

Conventional Sabine Coastal Conservation and Yangbin facility permeable structure composed of the above-described structure is a heavy concrete structure of the permeable block itself is not suitable to the surrounding environment of the coast and is recognized as a dangerous structure for people enjoying sea bathing It is true.

Accordingly, the present invention has been made to solve the problems described above, to form a filter layer under the sand, to form a control structure on the front surface of the coastal structure (retaining wall, etc.), the solid solid layer at the end of the empty slope The purpose of this invention is to provide a coastal vacant farm using a filter layer and a shoulder control structure to reduce the erosion of sand while reducing the quantity of water when the moisture waves are returned to the sea. have.

Coastal yangbin using the filter layer and the shoulder control structure according to the present invention for achieving the above object is a filter layer formed by laying gravel to a certain thickness on the ground; A fibrous layer formed by laying geotextiles on the filter layer; A sand layer formed by laying sand with a predetermined thickness on the fiber layer; A solid solid layer formed by stacking a resin network filled with gravel on an end slope of the sand layer; The upper coastal structure of the sand layer is characterized by consisting of a shoulder control structure formed by stacking a resin network filled with gravel.

In addition, the coastal vacancy construction method using the filter layer and the shoulder control structure according to the present invention for achieving the above object comprises the steps of forming a filter layer by laying gravel to a certain thickness on the ground; Laying a geotextile on the filter layer to form a fiber layer; Depositing sand with a predetermined thickness on the fiber layer to form a sand layer; Stacking a resin network filled with gravel at an end slope of the sand layer to form a solid solid layer; Stacking a resin network filled with gravel in front of the upper coastal structure of the sand layer is characterized in that consisting of a step control structure.

As described above, the coastal Yangbin and its construction method using the filter layer and the shoulder control structure according to the present invention has the following effects.

First, the present invention has the effect of restoring the sandy beach of lost and damaged beach (yang Bin).

Second, the present invention has the advantage that can create a new beach (artificial Yang Bin).

Third, the present invention has an advantage that the use of the coast is improved, the disaster is reduced, the ecosystem is restored by the less empty sand, less maintenance method as an environmentally friendly method.

Figure 1 is an exemplary view showing a water-permeable structure for a conventional Sabin coast maintenance and Yang Bin facility,
Figure 2 is a cross-sectional view showing a coastal Yangbin using a filter layer and a balance control structure according to the present invention,
Figure 3 is a plan view showing a coastal Yangbin using a filter layer and a balance control structure according to the present invention.

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

Figure 2 is a cross-sectional view showing the coastal yangbin using the filter layer and the shoulder control structure according to the present invention, Figure 3 is a plan view showing the coastal yangbin using the filter layer and the shoulder control structure according to the present invention.

As shown in these drawings, the coastal yangbin (S) using the filter layer and the shoulder control structure according to the present invention is a filter layer (10) formed by laying gravel with a predetermined thickness on the ground (G); A fibrous layer 20 formed by laying geotextiles on the filter layer 10; A sand layer 30 formed by laying sand with a predetermined thickness on the fiber layer 20; A solid solid layer 50 formed by stacking a resin network 40 filled with gravel at an end slope of the sand layer 30; It is composed of a shoulder control structure 60 formed by stacking a resin network 40 filled with gravel in front of the upper shore structure of the sand layer 30.

In other words, the coastal Yangbin (S) using the filter layer and the shoulder control structure according to the present invention is because the sand loss or erosion of the coastal sand due to the narrow width of the coast, because the moisture resistance wave does not sufficiently reduce the forces such coastal repair Considering the mechanical mechanism, the erosion is reduced when the wave of up-rush and down-rush reduces the amount of erosion. To form a filter layer 10 made of gravel, and when a long cycle of waves such as a river is pushed to the shore, if the shore width is wide enough, the forces are weakened here, but structures such as retaining walls have been installed for use of the shore. In this case, the wave overlaps (dual wave) and the return wave is reinforced to carry the sand at the bottom, thus preventing or reducing the erosion. When the control unit 60 is formed on the front surface of a sculpture (such as a retaining wall) to control the shoulder, and by using the same, the quantity of waves pushed to the filter layer 10 is used, and when the quantity of waves is pushed or returned. As a countermeasure against this, a solid solid layer 50 is installed as a countermeasure. Thus, the solid solid layer 50 prevents sand from being lost due to the amount of water permeated through the filter layer 10, and partly sand. It is mixed with and serves to prevent loss.

Here, the gravel control structure 60, the solid layer 50, the gravel of the filter layer 10 should have a large permeability coefficient and size to withstand the action of the waves, the degree of gravel (mondol) for the use of beach use.

Also, in order to prevent the gravel from scattering in the working wave, the resin network 400 is used to prevent this by using a resin network (scattering prevention net, net width of 5 cm or less, length of 1m to 2m, mesh diameter of 0.3m to 0.5m). Put it in and install it.

Hereinafter, the construction of the coastal Yangbin using the filter layer and the shoulder control structure according to the present invention having the configuration as described above will be described.

As shown in Figures 2 and 3, the method for constructing a coastal shore using a filter layer and a shoulder control structure according to the present invention comprises the steps of: laying gravel with a predetermined thickness on the ground (G) to form a filter layer (10); Laying a geotextile on the filter layer (10) to form a fiber layer (20); Depositing sand with a predetermined thickness on the fiber layer 20 to form a sand layer 30; Stacking a resin network 40 filled with gravel at the end of the entire slope of the sand layer 30 to form a solid solid layer 50; Stacking the resin network 40 filled with gravel in front of the upper coastal structure of the sand layer 30 is formed to form a shoulder control structure (50).

That is, in the coastal Yangbin construction method using the filter layer and the shoulder control structure according to the present invention to form a filter layer (10) by laying gravel to a certain thickness on the ground (G), the geotextile on the filter layer (10) To form a fibrous layer 20, sand is formed in a predetermined thickness on the fibrous layer 20 to form a sand layer 30, and at the end of the empty slope of the sand layer 30, a resin network 40 filled with gravel is formed. By stacking to form a solid solid layer 50, in front of the upper coastal structure of the sand layer 30 by laminating a resin network 40 filled with gravel to form a shoulder control structure 50, the moisture resistance by the filter layer 10 When the wave is up-rushed and then down-rushed, the wave reduces the quantity and the erosion is reduced, and the erosion control is prevented or reduced by the balance control structure 60. The filter layer 10 is formed by the solid layer 50. Sand is prevented from being lost by the amount of water permeated through, and some are mixed with sand and have a function of preventing a loss function.

10: filter layer 20: fiber layer
30: sand layer 40: resin network
50: solid layer 60: scale control structure
G: Ground R: Retaining Wall
S: Coastal Yangbin using Filter Layer and Balance Control Structure

Claims (2)

A filter layer 10 formed by laying gravel with a predetermined thickness on the ground G;
A fibrous layer 20 formed by laying geotextiles on the filter layer 10;
A sand layer 30 formed by laying sand with a predetermined thickness on the fiber layer 20;
A dry solid layer 50 formed by laminating a gravel filled end of the sand layer 30 with a resin network 40 having a mesh width of 5 cm or less and a length of 1 m to 2 m and a mesh diameter of 0.3 m to 0.5 m;
Gravel is filled in front of the upper coastal structure of the sand layer 30, the mesh control structure 60 formed by laminating a resin network 40 consisting of a mesh width of less than 5cm 1m ~ 2m, mesh diameter 0.3m ~ 0.5m Coastal Yangbin using a filter layer and a shoulder control structure. Forming a filter layer (10) by laying gravel with a predetermined thickness on the ground (G);
Laying a geotextile on the filter layer (10) to form a fiber layer (20);
Depositing sand with a predetermined thickness on the fiber layer 20 to form a sand layer 30;
At the end of the empty slope surface of the sand layer 30 is gravel filled, laminating a resin network 40 consisting of a mesh width of less than 5cm 1m to 2m, mesh diameter 0.3m to 0.5m to form a solid solid layer 50;
Peel is filled in front of the upper coastal structure of the sand layer 30, laminating the resin network 40 consisting of a mesh width of less than 5cm in length 1m ~ 2m, mesh diameter 0.3m ~ 0.5m to form the shoulder control structure 50 Coastal Yangbin construction method using a filter layer and the shoulder control structure, characterized in that consisting of.

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