KR100712199B1 - A structure for sand capture - Google Patents

Abstract

The present invention relates to a sand collecting structure, and more particularly, to an erosion prevention structure according to the flow of a swell, and relates to a structure made of a unit weight body filled with gravel, sand, etc. on a fiber mesh or sack, and a method of installing the same. By installing the sand collecting structure of the present invention on the shore, it is possible to control the coastal surface radiation according to the direction of the coastal stream.

Sand capture, anti-erosion

Description

Sand collection structure and its installation method {A STRUCTURE FOR SAND CAPTURE}

1 is a side cross-sectional view of a structure filled with gravel in a fibrous mesh.

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3 is a view showing a state of connection through the ring filled with fibrous sand.

4, 5, and 6 illustrate simple construction of various types of structures tailored to an area.

Schematic diagram.

7 and 8 are structural diagrams of the incident angle of the shoulder.

<Short description of drawing symbols>

100 sand collecting structure 110 fibrous mesh

120: gravel 130: unit weight

140: sand filled fibrous rod 150: linkage

                                     170: fibrous net

200: High tide coastline 201: Average coastline

202: wave's limit line

In Korea, coastal erosion is severe due to indiscriminate breakwater construction and coastal activities. In particular, erosion countermeasures, such as the construction of breakwaters and the installation of straight groynes to prevent erosion, have been pointed out as another erosion factor, causing coastal environmental damage and budget waste. The construction of artificial structures such as breakwaters and spinning agents, which are prevalent in Korea, is being carried out by a linear method, which greatly undermines the aesthetics of the coastline, and the construction of spinning agents (languages and stones) to reinforce these shortcomings makes the erosion more serious. have.

In order to prevent coastal erosion caused by indiscriminate breakwater construction, there must be sufficient preliminary review considering the terrain before the construction of the breakwater, and the monitoring of environmental changes in coastal areas such as earth and sand movement after the installation of environmentally friendly sand collection structures should be carried out continuously.

In the South, East and West seas, the average incident angles of the coasts of the sea and the coasts of the sea are different. Therefore, the sand collection effect is remarkably different depending on the method of construction and installation of sand collection structure. Disregarding this construction, the loss of sand dunes collected hard and the structure are damaged. Moreover, ecological balance is undermined by increasing coastal activities, such as increasing coastal structures and reclamation projects.

The present invention solves the problems of conventional simple erosion prevention and straight-line structure construction that does not comply with the local environment to eliminate landscape imbalances with natural materials and structures, and to prevent shoreline restoration and sand loss and its installation method Is to provide.

The structure of the present invention for achieving the above object is to fill the gravel or shell shell or sand, such as natural fibrous stem, natural fibrous mantle obtained from plants, or fiber stone (fiber stone; To a unit weight, and the unit weight is formed by stacking two or more layers in several layers. However, this structure forms a stable structure such as a pyramid so as not to be damaged by heavy sea wind or wind by placing many unit weights below the structure rather than stacking it to form a single face like when stacking walls. In addition, the sand collecting structure of the present invention is to be opposed to the average running direction of the shell, it is installed so as to form an angle of about 50 ° to 130 ° with the average running direction of the shoulder, most preferably perpendicular to the average rolling direction of the To be In addition, the sand collection structure is characterized in that the sea side incidence angle is gentle when viewed from the side, the land side inclination angle is larger than the sea side incident angle.

The natural fibrous hemp or mesh can be made of, for example, coconut fiber, water hyacinth fiber, or the like. In this way, the unit weight forms an environment-friendly structure by using a thing derived from a natural product, and even after the purpose of collecting sand does not need to be removed.

In addition, one sand collection structure made of a unit weight is configured so that the total weight is about 3 to 9 tons so that it is not easily destroyed by eroded blue waves and is stably maintained.

Coastal streams and lans play a very important role in the movement of sediment, such as sand on the coast, and are easily observed on the coastline around us. As the waves propagate into shallow shallow water, the amplitude gradually increases and the waves break when the waves can no longer maintain their amplitude. This phenomenon is called breaking. After the wave breaks, the water particles are no longer in a circular motion but are driven from the coast. The flow parallel to the shore is called coastal flow, and the water particles form a stream from the coast to the sea. This flow is called language. In general, erosion and sedimentation are balanced, but when erosion wave occurs, coastal and languae become active, and the buffered sand is pushed to the distant sea. In order to prevent this erosion phenomenon, conventionally, a lancular agent and a stone were installed as a spinning agent. Conventional continuous straight breakwater or scavenger has not only prevented these ecological effects by blocking such coastal streams and languages, but has also exacerbated the erosion by preventing the movement of sand toward the shore.

In order to improve this phenomenon, the sand collecting structure of the present invention is constructed in succession of individual independent structures, not a structure connected in a straight line parallel to the shoreline.

Hereinafter, with reference to the drawings will be described in detail the configuration of the present invention. However, it is apparent to those skilled in the art that the scope of the present invention is not limited only to the illustrated drawings.

1 is a side cross-sectional view of a sand collecting structure formed by stacking unit weights. The inclination angle of the structure is formed so that the sea side incidence angle (b) is gentler than the land side inclination angle (a) so that the waves are less obstructed when moving towards the shore so that sand can move well toward the shore, and conversely, the flow outwards from the land side towards the sea Prevents sand from escaping into the sea. The sea side incidence angle is preferably 15 ° to 45 °, and the land side inclination angle is about 30 ° to 70 °. In addition, the sand trapping structure can be added to the fixing by laying the bottom of the sand slope rather than protruding a lot over the sand slope.

The height of the sand collection structure should be 50 to 120 centimeters, the highest part projecting on the sand, to maximize the effect of sand collection, while avoiding blockage of the natural landscape.

The sand collecting structure of the present invention connects a plurality of unit weights by binding the connecting link at the end of the mesh or the stem as shown in FIG. The sand collecting structure is formed by stacking the unit weights connected by the linkage in two or more layers, and additionally, the unit weights forming the bottom layer of the sand collecting structure are made of a natural fiber mesh or mat such as coir fiber. By tightly binding as shown in Figure 1 to prevent the ground off phenomenon in the soft ground can be stabilized sand collecting structure. More specifically, place the net or mat at the bottom of the bottom connected interconnects and press the ends of the net or mat with the unit weight of the upper layer, or tie the ends of the net or mat to the fibrous band or fibrous mesh. There is also a way to bind.

The unit weights filled with sand, shellfish shells or gravel of FIG. 3 integrate independent weights as one weight body in a ring connection manner. In addition to the ring connection method, it is also possible to integrate several unit weights by using a thick string to penetrate the filled natural fiber sacks, or to pile deeply into the sand at the bottom through several natural fiber sacks from the top. Is also applicable. As such, there is no particular limitation on the connection method of the unit weights.

When viewed from above, the structure as a whole eyebrow shape (Fig. 4), curved "ㅗ" type, "ㅅ" type 120, "M" type, double-shaped type (Fig. 6), straight, ∽ type, T type, Y It can be installed in a shape such as a mold. The structure is preferably installed so as to face at right angles to the direction of the wave and wind along the coast, but can be installed to form an angle of 50 ° to 130 ° with respect to the direction of the wave and wind depending on the topography and coastal flow even if not right angle. have. In addition, the sand collecting structures are arranged discontinuously at regular intervals along the shoreline. This is because the continuous spinning or breakwater in the form of a straight line interrupts the natural flow of coastal streams and lanyards, resulting in the loss of sand and intensification of erosion. The discontinuous placement of the sand collecting structure does not block the flow of waves and winds, so that the structure is not damaged, and the sand collection becomes more effective.

The installation range of the sand collecting structure is installed between the coastline 200 and the limit line 202 where the waves are at high tide, but the height of the highest point of the sand collecting structure is not lower than the boundary line of the wave so that the structure is not submerged in the water. It must be installed at the location. At this time, the concept of "limit line of wave" means the line that can be formed by eroded wave formed in an emergency such as typhoon or tsunami. It means good. The sand collecting structure of the present invention is installed by selecting a position where the structure is not locked, and when the sand collecting is completed, the structure is additionally installed or collected by using a vegetation mat or vegetation rolls that adhere to a salt plant or a salt adaptation plant. Sand sand loss can be prevented.

In the case of the west coast, the coastal stream forms from the top to the bottom due to the characteristics of the west sea, and the northwest wind, which is the sea breeze, blows the structure a little to the northwest, or installs the projecting part after finishing the anti-soil discharge construction. It is desirable to enable additional sand capture (Fig. 5).

In the installation of the sand collecting structure of the present invention, it is important to install a discontinuous connection structure with a gap between the structure and the structure. When installed in a straight continuous structure, the sand collecting effect is almost no, but rather, the sand collecting structure is used to solve problems such as eutrophication or landscape damage caused by deviation of unit weight due to the accumulation of floating materials on the shore. To be placed independently and discontinuously.

Most importantly, conduct a local environmental survey to install structures for more efficient sand capture and restoration of broken shorelines, depending on the ecological characteristics of the local environment along the coast, such as the direction of coastal streams, the intensity of languages, the direction of sea winds and waves, etc. will be.

When the swells (eroded blue) pushed to the shore contact the sand collecting structure of the present invention, the flow range and the offset section of the coastal stream are broadly formed so that the energy of the swell is attenuated efficiently, and sand flowing back to the sea by lans By trapping in the sand collecting structure can maximize the sand collecting effect, thereby enabling the advantage of the sedimentation action over the coastal erosion action, and works excellently in the formation of sand dunes.

Claims (7)

Two or more layers of unit weights selected from the group consisting of natural fibrous mesh filled with gravel or shellfish shells, natural fibrous bales filled with sand, and fiberstone are connected with each other, Stacked to form a structure, the structure is to face the average direction of the shoulder, the sea side angle of incidence is formed smoothly, the land side slope angle is larger than the sea side angle of incidence, and is installed between the coastline and the limit line of the wave at high tide Sand collection structure, characterized in that. delete The method of claim 1, The incident angle is 15 ° to 45 °, land-side inclination angle is 30 ° to 70 ° sand collection structure, characterized in that. The method of claim 1, The structure is a sand collection structure, characterized in that installed in the shape of eyebrows, curved "굽" type, "ㅅ" type, "M" type, double U-shaped, straight, shaped, T-type, Y-shaped . The method of claim 1, The structure is a sand collection structure, characterized in that the unit weights of the bottom layer is bound using a natural fiber network. The method of installing sand collection structures, characterized in that the sand collection structures of any one of claims 1, 3 to 5 are arranged discontinuously at intervals along the shoreline. delete

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