KR20110087995A - System for preventing soil erosion - Google Patents

Abstract

PURPOSE: An erosion preventing system is provided to prevent sand loss by reducing pore water pressure on sand beach and by reducing the amount of water flowing to the sea along the surface of sand beach. CONSTITUTION: An erosion preventing system comprises a hollow transfer pipe(11) and a water collection pipe(12). One end(111) of the hollow transfer pipe is located on the seafloor and opened. The other end part of the hollow transfer pipe is sealed up on a land. One side of water collection pipe is connected in order to pass through the hollow transfer pipe. The other side of water collection pipe is sealed up. The water collection pipe comprises a filter part and transport part. The filter part filters soil excluding water.

Description

Erosion Prevention Device {System for preventing soil erosion}

The present invention relates to a device for preventing coastal erosion.

General coastal erosion and sedimentation are natural phenomena that are repeated by the action of waves coming from the sea side and coastal streams generated by angular and algae, tides, oceans, winds, and rivers that are transformed by the waves hitting the coast. The same erosion and sedimentation have been in balance for a long time. However, in recent years, as artificial structures such as breakwaters, dikes and coastal roads have been constructed, the strength and direction of waves, lanyards and coastal streams have changed, resulting in unexpected coastal erosion and deposition.

The present invention has been made to solve the coastal erosion problem that occurs in various forms due to the above causes.

In order to prevent the above-mentioned coastal erosion, various countries have developed and installed structures such as breakwaters, lanyards, stones, and latents. However, these methods do not effectively control coastal erosion.

In 'Sabine Coastal Conservation and Poor's Permeable Structure and Construction Method (10-0750883) developed in Korea, a part of the monthly wave due to the wave is collected from the permeation block installed on the floor member, and consists of rubble or gabion. It is a structure that flows to the sea side through the catchment layer. There is no clear description in the claims of the present invention, but in the specification and drawings, the permeable block is a structure that is exposed to the surface of the sabin. Problems may arise. Water collected in the pitcher block is transferred to the sea side through a catchment layer made of rubble or gabion. Generally, when a structure composed of rubble or gabion is installed at the lower part of the sabin, the sand of the sabin is filled between the stones of the rubble or gabion, The water capacity is similar to sand. Therefore, when using such rubble or gabion as a catchment layer, it is difficult to expect the effect as a pitcher layer which is the original purpose. Even if the sand of Sabine does not penetrate through the rubble or gabion, the rubble and the gabion have a small empty space compared to the total volume, so the cross-sectional area that can be passed by itself is small, and water flows between the rubble and the stone. There is a limit to the passage speed due to the long road. In addition, the water repellent layer made of rubble or gabion can have a problem in effectively transporting the collected water since water can be introduced from all parts of the surrounding sabins in addition to the connection to the permeation block. In addition, it is difficult to expect a smooth drainage from the land side to the sea side because the flow of sea water from the sea side is periodically reversed through the catchment layer.

In Japan, in the case of the `` sempty growth method '' (Japanese Patent Application Laid-Open No. 9-88034) and `` shrimp growth method '' (Japanese Patent Application Laid-Open Application No. 9-88035), a drainage channel is installed at the lower part of the boundary line between the land side and the sea side, and the groundwater level is reduced by forced drainage. In order to prevent the sand from being swept away, the reinforcing structure of the collecting pipe for coastal erosion measures (JP-A 2002-146742) provided the reinforcing structure of the collecting pipe applied to the erosion countermeasures, and the collection pipe for the coastal erosion countermeasures. 'Prevention Prevention Method (JP 2002-146743)' provides a method for preventing the exposure of the collection pipe embedded in the lower part of the sabin. Also, Japanese patent `` Corpse Erosion Countermeasures (JP-A-2002-146744) '' installs a collecting pipe below the average water surface of the coast, collects water through the collecting pipe and forcibly excludes it, making the surroundings unsaturated. . In addition, the coastal retreat method (Patent No. 2005-2737) constructs permeable structures parallel to the shoreline so that the sand carried by the waves settles before and after the structure. In `` Sabine's erosion prevention device '' (JP-A-9-95920), erosion is caused by the effect of attracting earth and sand by using pressure difference between inside and outside the water pipe by connecting the water pipe buried in the ground with the hollow structure installed in the water. Was to prevent.

These recent techniques have tried to prevent the loss of sand more directly, and although they have their own characteristics, they do not effectively prevent coastal erosion until now.

The present invention aims to provide an effective method for dissipating the temporary pore water pressure generated by the drooping wave in a large area of savior at an early stage and collecting and excluding some of the water flowing to the sea through the surface layer. In addition, the safety and efficiency of the facilities to be installed in the Sabine were increased.

In the present invention, one end is located on the sea bottom on the sea side and is open, and the other end is located on the meat side and is sealed, and at one end A hollow transfer pipe installed to be higher toward the other end and buried to a certain depth on the six side;

One side is connected to the transfer pipe so as to be able to pass water, and the other side is sealed, the filter unit which passes water and the soil particles do not pass, and the transfer unit capable of moving water. ) Is provided, and the collection pipe is buried to a certain depth in the ground so as to be horizontal or higher from one side to the other side; including,

Collecting water that has moved to the surface of the six-sided Sabine by the drooping wave is collected in the collecting pipe and quickly returned to the sea through the transfer pipe to prevent the loss of particles of the Sabine. An object of the present invention was to provide an erosion prevention device.

In addition, the transfer pipe is buried higher from the sea side to the land side, and if the angle formed by the center axis of the water collecting pipe and the feeding pipe is maintained at a right angle or an acute angle, the water collecting pipe naturally rises from one side to the other side. Will have

One end of the conveying pipe located at the bottom of the sea includes one or more bent openings, which reduces the force of the backflow when water moves from the sea side to the land side by the blue waves, The fall of the conveyance efficiency to the side can be prevented. At this time, the water transported from the land side to the sea side flows by water head difference (水頭 差), so even if the direction of the opening opening is not a big obstacle in the flow and can increase the flow efficiency by increasing the number of openings.

The break wave structure may be further added in front of one end of the transfer pipe to prevent backflow in the transfer pipe.

In addition, by providing a check valve that allows the movement of water from the land side to the sea side and blocks the movement of water from the sea side to the land side, it is possible to prevent a decrease in the transfer efficiency due to the back flow inside the transfer pipe.

The position display device made of steel or magnet is embedded together in the transfer pipe or collecting pipe, and the position of the transfer pipe can be confirmed later using a detector using the principle of magnet on the surface.

On the beach, a large amount of water is temporarily moved to Sabin by drooping waves, and as a result, water level is formed higher than sea level. Some of the water moved to Sabin moves into the sea and moves to the sea. It moves along the surface towards the sea. This phenomenon is repeated periodically, and when the sand grains of Sabine are swept towards the sea by water moving to the sea, beach erosion occurs.

To prevent this erosion, the large amount of water moved to the sabin by the drooping wave is precluded early to reduce the force of attracting sand particles as the water flows along the surface of the sabin towards the sea, and also near the surface of the savin. Instantaneous pore water pressure should minimize the buoyancy acting on the sand particles.

In the present invention, by collecting the large amount of water moved to the surface of the sine by the drooping wave through the collecting pipe, and then quickly discharged to the sea through the transfer pipe having a large area of communication, to solve the pore water pressure generated in the sine, By reducing the amount of water flowing along the surface towards the sea, the loss of sand particles can be prevented.

Erosion preventing device of the present invention will be described in detail with reference to the drawings.

1 and 2 show a preferred embodiment of the erosion prevention apparatus of the present invention, one end portion 111 is located on the sea bottom on the sea side and is open, and the other The end portion 112 is located on the flesh side and is sealed, and is installed so as to go higher from one end portion 111 toward the other end portion 112, and the hollow portion is embedded at a predetermined depth on the flesh side. The hollow conveying pipe 11 and one side 121 are connected to the conveying pipe so as to allow water to pass through, and the other side 122 is sealed, water passes through, and soil particles It is provided with a filter that does not pass and the transfer portion (移送 部) that can move the water, and includes a water collecting pipe 12 which is embedded at a predetermined depth in the ground so as to be horizontal or higher from one side 121 to the other side 122. .

The other end 112 of the transfer pipe 11, which is embedded at a certain depth in the scaveng 10, is sealed to prevent intrusion of sand, and one end 111 located on the sea bottom on the sea side is opened to allow water to escape. By forming a slope that increases from the sea side to the land side, the water on the land side can move to the sea side due to hydrocephalus.

Figure 2 is a plan view of an embodiment of the present invention, showing a collecting pipe 12 connected to the conveying pipe (11). The connection of the collecting pipe 12 and the conveying pipe 11 should allow water to flow from the collecting pipe to the conveying pipe and block the intrusion of sand at the connection part.

Such a water collecting pipe has a filter part 31 which allows water to pass and soil particles cannot pass through as shown in the cross-sectional view of FIG. It is preferably protected by an impermeable structure 33 that prevents the ingress and outflow of sand particles. Figure 3 (b) is a perspective view of another embodiment of the collecting pipe 12, the cross section is protected by the impermeable structure 36, which is a closed curve, the water passes through the 35 and the soil particles pass through It is characterized in that the through-hole 37 is provided in the impermeable structure so that the water passing through the filter unit 34 and the filter unit can flow to the transfer unit. As in the embodiment (a), when the filter unit 34 alone is difficult to support the weight of the upper sand of the filter unit, a plurality of through holes 37 are formed on the top of the solid impermeable structure 36, and the filter is formed on the through holes. By forming the part 34, it is possible to ensure structural safety.

This collection pipe 12 is also one side 121 is connected to the water pipe 11 so as to be passed through and the other side 122 is sealed to prevent intrusion of sand, etc., horizontal or higher from one side to the other side It is desirable to secure the slope so that the water collected by the head difference can flow into the transfer pipe. Connecting one side 121 of the collection pipe 12 and the transfer pipe 11 so as to allow water to flow is a branch or connection in a general pipe, and any design in which sand of the sabin does not flow into the connection part. Applicable

4 illustrates an embodiment in which the transfer pipe 11 and the collecting pipe 41 are acutely connected to each other in the embodiment of FIG. 2. Since the transfer pipe 11 has an inclination that increases from the sea side, which is one end 111, to the land side, the other end 112, the transfer pipe 11 and the collecting pipe 41 are formed as shown in FIG. 4. When the crossing angle 42 is an acute angle or a right angle smaller than the right angle, the other side 412 of the water collecting pipe naturally secures an inclination higher than that of the one side 411.

Figure 5 shows various embodiments of the structure of one end portion located on the sea side of the transfer pipe 11, by reducing the force of water that is pushed from the sea side to the land side in the direction of the arrow 50, the reverse flow in the transfer pipe To prevent the degradation of the transfer efficiency toward the sea. FIG. 5A shows one end of the transfer pipe 11 bent in an L shape, and one end of the transfer pipe is bent at about 90 ° to open in the side to upper direction. The water in the direction of the arrow 50 reduces the force to flow back in the transfer pipe. (C) is the case of an L-shaped opening or an open direction in the direction of the sea level, and (D) is an embodiment having two openings branched into two branches and bent in the side and sea level directions. Indicates. Such a T-shaped or L-shaped bending corresponds to one embodiment, and the number of bends and the number of openings at one end of the feed pipe can be variously designed. That is, one or more openings 51 a, b, c, d, e, and f bent at one end of the transfer pipe may be formed to prevent backflow. It is also possible to configure some of the openings that are divided into two or more openings, some of which are not bent.

Figure 5 (e) is an embodiment to reduce the force of the water coming from the sea by installing a conical broken wave structure 52 on the front side of the one end of the transfer pipe, the break wave structure can be formed in various shapes and one end of the transfer pipe It will reduce the force of the water flowing back into the wealth.

In addition, by installing a check valve near one end of the transfer pipe to prevent the inflow of water from the sea side to the land side, only the outflow of water from the land side to the sea side can be prevented backflow. Check valves, also called one-way valves or non-return valves, are commonly referred to as mechanical devices that allow fluid flow in only one direction. do. Fluid in the present invention is sea water (sea water) and movement from the sea side to the land side is blocked and only movement from the land side to the sea side is allowed. FIG. 5B illustrates a slit-type opening and closing structure 53 which is a special embodiment of such a check valve, which opens when water moves from the land side to the sea side and closes when water moves from the sea side to the land side. It is preferable that the installation position of the check valve is close to one end, but if it is installed in a position closer to the one end side of the transfer pipe than the collection pipe, it can play its original role.

In the case of applying the erosion prevention apparatus of the present invention as described in the above embodiment, the water pushed from the sea side to the sine on the side by the waves are collected in the collecting pipes (12, 41) to be transported to the sea side through the transfer pipe (11) In addition, the amount of water flowing along the surface of the sine is significantly reduced, and the water moves in the direction of the collecting pipe downward from the surface of the sine, thereby reducing the buoyancy generated near the surface of the sine, thereby preventing the loss of sand particles. In addition, the water collecting pipe and the conveying pipe of the present invention are 100% of the total cross-sectional area of the water can be passed through the water flow efficiency is very high and the speed of the water passing through the advantage of preventing the loss of sand particles.

Such a collecting pipe and a conveying pipe can be manufactured using a metal material, concrete, polymer concrete, and various plastic resins, and there are no particular restrictions on the material. In addition, the filter of the present invention may be of any type, such as a woven fabric, a nonwoven fabric, a mesh filter, or a sintered filter, and may exhibit its function only by passing water without passing sand particles of savior.

Although not shown in the drawings, the position indicator of steel or magnetic material may be embedded together in the transfer pipe or the collecting pipe, and later, the position of the transfer pipe may be confirmed by a detector using a magnet principle on the surface of the sabin. This location indicator can be of great help since it is difficult to pinpoint the location of the transfer or collection pipes that have been buried a considerable time after the construction of the erosion prevention device.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as they are obvious to those skilled in the art.

The present invention can effectively solve the problem of erosion of the scavenging that is becoming more serious day by day, its installation is easy, and no additional energy is applied, the operation principle is simple.

1: Cross-sectional view showing the outline of the present invention

2: Top view of the present invention

Figure 3: An embodiment of the water collecting pipe of the present invention

4: another embodiment of FIG. 2

5: various embodiments of one end of the transfer pipe

6: Schematic diagram showing the flow direction of water according to an exemplary embodiment of the present invention

******** Name of the main part of the drawing ********

10: Sabine (Sand Sand) 11: Transfer pipe

111: one end of the feed pipe 112: the other end of the feed pipe

12: water collecting pipe

121: one side of the collecting pipe 122: the other side of the collecting pipe

31 filter unit 32 transfer unit

33: impervious structure 34: filter portion

35 transfer part 36 impervious structure

37: through hole

41: water collecting pipe

411: one side of the collecting pipe 412: the other side of the collecting pipe

42: crossing angle (collecting pipe ∠ feed pipe other end side)

50: arrow indicating the direction of the wave pushing from the sea side to the land side

51 (a, b, c, d, e, f): opening of one end of the feed pipe

52: conical breakwater structure 53: slit type opening and closing structure

Claims (6)

A hollow transfer pipe whose one end is located on the sea bottom of the sea side and is open and whose other end is located on the land side and is sealed, is installed so as to go higher from one end to the other end side, and is embedded at a predetermined depth on the land side; One side is connected to the transfer pipe so that the water can be passed and the other side is sealed, the filter unit that passes the water and the soil particles do not pass, and the transfer unit is provided with a water movement, so that the horizontal or higher from one side to the other side Water collection pipes buried to a certain depth in the ground; including, Erosion-prevention apparatus characterized in that to collect the water moved to the surface of the six-sided Sabin by the drooping wave in the collecting pipe and to quickly return to the sea through the transfer pipe to prevent the loss of particles of the Sabin The method of claim 1, The collection pipe is an erosion prevention device characterized in that it is installed to form a right angle or acute angle with the other end side direction of the transfer pipe. The method according to claim 1 or 2, Erosion preventing device, characterized in that one end of the feed pipe includes one or more bent openings The method according to claim 1 or 2, Erosion prevention device, characterized in that the addition of a wave breaking structure that is installed on the front side of the end of the feed pipe to reduce the force of the wave The method according to claim 1 or 2, Erosion prevention device is characterized in that one end of the feed pipe is provided with a check valve to allow the movement of water from the land side to the sea side and to block the movement of water from the sea side to the land side The method according to claim 3 or 4 or 5, Erosion prevention device characterized in that embedded in the transfer pipe or collecting pipe with a position display device consisting of steel or magnet which can be identified by the detector using the principle of the magnet on the ground surface

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