KR100812771B1 - The mouth of river close preventing method and apparatus - Google Patents

Abstract

The present invention prevents and eliminates the closure of the river estuary by allowing a continuous channel to be formed at a minimum cost in the sedimentary section between the river and the sea so that the river estuary is not closed by the sedimentation due to digging. The present invention relates to a method and a device for preventing the closing of an estuary in a stream, which includes a plurality of piles by digging a sedimentary sedimentary section between the river and the sea, and attaches a perforated pipe that drains in both directions to the floor. By connecting and fixing the lateral drainage of the river water flowing through the inside of the perforated pipes to form a constant flow channel due to the loss and erosion of the surrounding soil, there is an effect that can prevent various damages due to the closing of the mouth.

Rivers, estuaries, sedimentary sedimentary sections, sandbanks, pipes, piles, waterways, dampers

Description

The mouth of river close preventing method and apparatus}

1 is a schematic cross-sectional view showing the shape of a typical river estuary.

Figure 2 is a perspective view showing a state in which the flow channel is formed in the mouth of FIG.

3 is a perspective view of a river estuary to which the first embodiment of the present invention is applied;

4a to 4c are cross-sectional views sequentially showing the construction process of FIG.

5 is a sectional view showing a second embodiment of the present invention.

6 is a sectional view showing a third embodiment of the present invention.

7 is a sectional view showing a fourth embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: River 2: Sea

3: sand pit 4: soil sedimentation section

5: flowing water 10:

11: Drainage 12: square tube

13: Round tube 14: Inner pipe

20: file 30: tube fixing part

31: Clamp 32: Flange

40: damper

The present invention prevents and eliminates the closure of the river estuary by allowing a continuous channel to be formed at a minimum cost in the sedimentary section between the river and the sea so that the river estuary is not closed by the sedimentation due to digging. The present invention relates to a method and apparatus for preventing the closing of an estuary of a river.

Generally, as illustrated in FIG. 1, a sand pit 3 is formed around the mouth of the river 1 where the river flows into the sea 2 by sedimentation due to digging, thereby closing the mouth of the river 1. When the water level of the river 1 is increased by the closed estuary, there is a problem that flooding of surrounding farmland and lowland occurs.

In particular, if the seawater is mixed in the river (1) by the waves, the saltwater of the seawater mixed in the river during the flooding of the river (1) will cause fatal damage to the surrounding farmland, and in some small rivers and small secheon In the case of stagnation for a long time, not only bad smell is generated but also pollution of the surrounding environment, and thus countermeasures have been urgently needed.

To this end, a road connecting the river 1 and the sea 2, i.e., the flow path 5, is formed in the soil sedimentation section 4 forming the sand pit as shown in FIG. ), But this also has a problem in that the runoff (5) is lost due to the continuous sedimentation due to digging, and the closing phenomenon of the river mouth again occurs.

Accordingly, in recent years, the concrete structures are artificially installed in the sedimentary sedimentary section to prevent sedimentary sedimentation in river estuaries. However, due to the concrete structure, the topography of the coast is severely deformed, and enormous costs are required for its installation. There is a problem.

Therefore, the present invention was devised to solve the conventional problems as described above, and its purpose is to always keep the sedimentary section between the river and the sea at a minimum cost so that the river estuary is not closed by the sedimentary deposit due to the digging. It is to allow the formation of a flow channel so as to prevent and eliminate the closure of river estuaries.

In addition, it is an object of the present invention to remove the earth and sand introduced into the perforated pipe by the dual structure of the perforated pipe installed in the runway in order to form a constant flow channel in the soil sedimentation section between the river and the sea. have.

In addition, an object of the present invention is to prevent the re-introduction of sea water back to the river through the hole pipe installed in the flow channel in order to ensure that the regular flow path is formed in the sedimentation section between the river and the sea.

In order to achieve the object of the present invention, a plurality of piles are put into the sedimentary sedimentary section between the river and the sea, and a plurality of piles are piled up and connected to and fixed to the piles in contact with the bottom surface. Provided is a method for preventing the closing of rivers, characterized in that the lateral drainage of the river water flowing through the constant flow path by the loss and erosion of the surrounding soil can be formed.

In addition, the perforated pipe is drained in both directions; A pile that is installed on the bottom surface of the sedimentary sedimentary section between the river and the sea to be sloping; It is provided with a river mouth closure prevention device comprising a; pipe fixing portion for connecting and fixing the perforated pipe to the pile.

In addition, the perforated tube forms a rectangular cross-sectional structure, characterized in that consisting of a rectangular tube portion including a plurality of drain holes along the longitudinal direction of both sides.

In addition, the hole tube is characterized in that it consists of a double structure further comprising an inner hole tube of the same shape therein.

In addition, the perforated tube forms a circular cross-sectional structure, characterized in that consisting of a circular tubular portion formed with a plurality of drainage holes on both sides and the lower side therebetween.

In addition, the perforated pipe is characterized in that it further comprises a damper for preventing the reverse flow on the inlet side.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the method and apparatus for preventing the closing of the river estuary according to the present invention.

3 is a perspective view of a river estuary to which the first embodiment of the present invention is applied.

As is well known, sand piles 3 are formed between the river 1 and the sea 2 due to the sedimentation due to digging, so that the phenomenon of closure to the river estuaries occurs. The flow channel 5 is formed in the sedimentation section, but the flow channel 5 is repeatedly closed by the sedimentary deposit.

In the present invention, the sedimentary sedimentation section (4), by installing the drainage pipes 10 to be drained in both directions in the gradient to the surrounding sediment by the river water inside the oil pipes (10) drained in the lateral direction of the oil pipes (10) It is characterized in that it is to be lost or eroded so that the regular flow channel (5) can be formed.

Here, reference numeral 20 denotes a steel pile for fixing the perforated pipe 10, and 11 is a drain hole formed in a plurality of side portions of the perforated pipe 10.

4A to 4C are cross-sectional views sequentially illustrating the construction process of FIG. 3.

As shown in FIG. 4A, the present invention first performs a gradient trench in the sedimentary sedimentation section 4 as shown in FIG. 4A, and then, as shown in FIG. 4B, on the bottom surface of the solid rock layer and soil under the sand layer. Drive and secure multiple piles that form the shape of steel columns.

Then, as shown in Figure 4c is to be connected and fixed to the pile 20 by the tube fixing portion 30 by the tube fixing portion 30, the tube fixing portion 30 is not limited to its form As long as the hole 20 can be firmly connected and fixed to the pile 20, the hole 20 is fixed to the pile 20 in contact with the bottom surface.

To this end, the perforated pipe 10 forms a rectangular cross-sectional structure, and is formed of a rectangular pipe part 12 including a plurality of drainage holes 11 along both sides in the longitudinal direction, but this is not limited thereto, and the material thereof is also provided. It is not limited to steel and synthetic resin, and can be used in various ways according to the conditions.

The present invention is installed and installed in this way, first, the river water is introduced into the interior through the inlet of the oil hole pipe 10, the introduced river water is discharged to the sea through the outlet, wherein the river water flowing inside the oil hole pipe 10 is the oil hole pipe By draining through both sides of the drain hole (11) of 10 will cause loss and erosion of the surrounding earth and sand to be naturally formed.

On the other hand, the gradient of the oil pipe (10), that is, drainage gradient is approximately 0.5 to 2% is appropriate, the larger the water level difference between the river and the seawater flow rate of the river water through the hole pipe 10 and the loss of the surrounding soil is faster Naturally, this can increase the cross section of the loss to obtain the effect of rapidly lowering the river level.

When the diameter of the inlet and outlet of the perforated pipe 10 is different from each other, that is, when the diameter of the outlet is smaller than the inlet, the water pressure of the outflow through the outlet of the perforated pipe 10 can be increased, and the outflow of the surrounding soil is discharged. It may also have the advantage of promoting it.

In addition, as a means for preventing the inflow of sand from the upstream side and the river, the inlet side of the perforated pipe 10 may be manufactured so that there is no drain hole.

5 is a cross-sectional view showing a second embodiment of the present invention.

As shown in the present invention, the present invention is characterized in that it is formed in a double structure including the inner hole tube 14 of the same shape in the inside of the hole tube 10, of the hole tube 10 and the inner hole tube 14 Connection and support is known in the usual support means, that is, one side is fixed to the outer surface of the inner perforated tube 14 and the other side is formed on the inner surface of the perforated tube 10 by forming a connecting rod or support rod, etc. The inner perforated pipe 14 inside the perforated pipe 10 without blocking the flowing water is to be connected and supported.
This double structure causes the loss and erosion of the sedimentary soil introduced into the oil hole pipe 10 by the river water drained in both directions of the inner oil hole pipe 14 through the drain hole 11, and thus the sedimentary soil inside the oil hole pipe 10. It has the advantage of removing yarn.

6 is a cross-sectional view showing a third embodiment of the present invention.

Here, the characteristic is to open the outlet of the perforated pipe 10 by the stream water flowing down through the perforated pipe 10 to the outlet side of the perforated pipe 10 toward the sea, the sea water acts in the opposite direction or the external force is If it does not work, the damper 40 which functions as a kind of check valve which closes the exit is provided.

7 is a sectional view showing a fourth embodiment of the present invention.

As shown in the present invention, the present invention has the same configuration as the first embodiment of the present invention, except that the hollow tube 10 is formed of a circular tubular portion 13 having a circular cross-sectional structure. The tubular part 13 does not need to be buried in contact with the bottom surface of the trench, as in the first embodiment of the present invention, since the drainage of the river water through the drain hole 11 is made not only in both directions but also in the lower side thereof. In addition, not only the periphery of both sides of the perforated pipe 10 but also the periphery of the periphery of the lower side of the perforated pipe 10 has the advantage of causing the loss of soil and erosion according to the river water drainage.

Meanwhile, the circular tubular portion 13 is connected to and fixed to the pile 20 by the tube fixing portion 30, and the tube fixing portion 30 has a clamp 31 having an approximately square shape with one side open. It is fixed by coupling the flange (32) to the pile (20), but this can also be variously changed without being limited thereto, but may be sufficient to perform the function.

As described above, the present invention embeds a perforated pipe that drains in both directions in the sedimentation section between the river and the sea, and is caused by the loss and erosion of the surrounding soil by the lateral drainage of the stream water flowing out to the sea through the perforated pipe. By preventing and eliminating the closure of river estuaries, various problems caused by the closure of river estuaries, damage to surrounding farmland and lowland areas due to the rise of river levels, and the occurrence of odor and environmental pollution caused by the congestion of river sewers As a result, it is possible to minimize enormous cost waste and deformation of coastal topography due to the installation of concrete structures.

In addition, the present invention also has the effect of making the action of the hole tube more smoothly by forming a double structure having an inner hole tube therein to remove the soil sediment introduced into the hole tube.

In addition, the present invention has the advantage that it is possible to prevent the re-introduction of seawater back to the river through the hole pipe by installing a damper having a reverse flow prevention function on the outlet side of the hole pipe.

Claims (6)

Lateral drainage of river water flowing through the interior of the perforated pipes by connecting and fixing the perforated pipes in the sedimentary sedimentary section between the river and the sea, and connecting and fixing the perforated pipes draining in both directions to the floor. Method for preventing the closing of the estuary of the river, characterized in that by the loss and erosion of the surrounding soil is formed at all times. Perforated pipe 10 is drained in both directions; Piles 20 which are installed on the bottom surface of which the soil sedimentation section 4 between the river 1 and the sea 2 is sloped to the slope; Estuary closure prevention device of the river, characterized in that consisting of; pipe fixing portion 30 for connecting and fixing the perforated pipe (10) to the pile (20). The method of claim 2, The perforated pipe 10 forms a rectangular cross-sectional structure, the estuary closure prevention device of the river, characterized in that consisting of a rectangular pipe portion 12 including a plurality of drain holes 11 along the longitudinal direction of both sides. The method of claim 2, The hole tube 10 further includes an inner hole tube 14 having the same shape therein, and the inner hole tube 14 is configured to be connected and supported inside the hole tube 10 by a general supporting means. An estuary closure device in a river. The method of claim 2, The perforated pipe 10 has a circular cross-sectional structure, both sides and the lower portion of the river estuary closure preventing device, characterized in that consisting of a circular pipe portion 13 formed with a plurality of drain holes (11). The method according to any one of claims 2 to 5, The hole pipe 10 is the mouth of the river closing device further comprises a damper (40) for preventing the reverse flow at the inlet side.

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