KR101934106B1 - River ecological restoration facilities considering river water level and geological characteristics of sediments, installation and utilization - Google Patents

Abstract

According to the present invention, a river ecology restoring facility comprises: a river bank installed across a river to store river water of the river; and a plurality of well-type banks installed upstream from the river bank to store the river water of the river or underground water. The river bank and the well-type banks are installed to have upper heights lower than that of the water level of the river in a normal season. The river bank and the well-type banks are installed to have lower depths on bedrock underneath sediment. If the river ecology restoring facility is used, river water can always flow at all points in the river in a rainy season and a normal season by the river bank installed by lowering the upper height thereof to the river level in the normal season to prevent ecological environmental problems such as algal bloom. The lower end of the river bank is installed on the bedrock by excavating the sediment to store the river water or underground water in the well-type banks to use the water in a drought.

Description

TECHNICAL FIELD [0001] The present invention relates to a river ecological restoration facility considering river water level and geological characteristics of a sediment layer, a method for installing the river ecological restoration facility, and a method for installing the river ecological restoration facility,

The present invention relates to a river ecological restoration facility considering river water level and geological characteristics of a sedimentary layer, and its installation and utilization.

The use of rivers is one of the representative methods of utilizing natural forces in human life. One of the typical uses of rivers is to prevent and store specific locations of rivers, to develop them using stored water, or to use them as useful water resources for the dry season

In general, for the utilization of the above-mentioned water resources, structures such as dams or beams are constructed. In the case of the dam, the dam is constructed through the construction of the river because it has the purpose of controlling the flow of the river downstream, and in the case of the river, To be stored at all times.

Fig. 4 shows a beam installed in a river of a typical Korean tributary. As shown in Fig. 4, since the height of the ordinary beams is higher than the level of the floodgate of the river, the flow of the river water stops in many sections between the beam and the beam, and when the water level becomes high, the water gate is opened and discharged. In addition, there is a disadvantage that the above-mentioned beams can not be used in the sediment layer and can not use the ground water flowing below the sediment layer.

KR 10-1745536 B1

Accordingly, it is an object of the present invention to reduce the height of the upper end of a river beam, to prevent the flow of the river from being blocked during the period of the shedding of the river and to allow flow of the river water to all the points of the river, The present invention provides a river ecological restoration facility that can utilize river water or ground water that has been dumped in the well-shaped beam at the time of drought by providing a well beam between the river beam and the beam.

It is another object of the present invention to provide a river ecological restoration facility which can prevent green tide of a river by not blocking the flow of the river.

The problem to be solved by the present invention is not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a river ecological restoration facility comprising: a river beam installed across the river so that the river water is drained; And a plurality of well-shaped beams installed on the upstream side of the river beam so that the river water or groundwater can be desiccated. The height of the upper end of the river beam and the well beam is lower than the level of the river of the river And bottom depths of the stream beam and the well beam are installed in the bedrock below the sediment layer.

In one embodiment, the well-view type includes at least one through-hole formed in a sidewall so that river water or ground water can flow into a hollow pillar shape, and a side filter installed in the through- .

In one embodiment, the height of the upper end of the stream beam is preferably 10 cm lower than the water level of the river.

In one embodiment of the present invention, it is preferable to further include a lid filter installed at the upper opening of the well beam and capable of rectifying the river water flowing into the well beam.

In one embodiment, the side filter is preferably a strainer that receives inflow of river water or ground water through the filter into the inside of the well-shaped beam, and prevents inflow of sediments of the river.

According to a preferred embodiment of the present invention, a method of installing and utilizing a river ecological restoration type facility taking into account river water level and geological characteristics of a sediment layer includes the steps of: (a) observing a river water level; (b) examining the geological characteristics of the stream sediment layer; And (c) installing a stream beam and a well beam on the stream.

With the use of the river ecological restoration facility according to the present invention, river water can be flowed at all points in the river at the time of the shed of the river, due to the river water whose upper end is lowered to the river water level of the river. And the lower end of the stream beam is installed on the bedrock by excavating the sediment layer so that the river water or the ground water can be desiccated in the well beam so that it can be utilized in case of drought.

FIG. 1 shows a river ecological restoration facility according to the present invention.
2 shows a well beam according to an embodiment of the present invention.
3 shows a well beam according to an embodiment of the present invention.
Figure 4 shows a general view.

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

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving it will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

It should be understood, however, that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the exemplary embodiments set forth herein. To fully inform the inventor of the category of invention. Further, the present invention is only defined by the scope of the claims.

Further, in the following description of the present invention, if it is determined that related arts or the like may obscure the gist of the present invention, detailed description thereof will be omitted.

A general view is a structure that is constructed across a river to attract or raise water when it is a flood. However, in case of such a beam, river water may be abundant upstream of the river, but there is a disadvantage that ecological environment problems such as green tide occur due to lack of river water as it goes down to the downstream of the river.

The object of the present invention is to lower the height of the upper end of the river beam 100 so as to prevent the flow of the river stream at the time of the shedding of the river and thus to allow river water to flow at all points of the river, A well-shaped beam 200 is provided between the stream beam 100 and the beam to provide a river ecological restoration facility that can utilize the river water or ground water dewatered in the well beam 200 in case of drought will be.

It is another object of the present invention to provide a river ecological restoration facility which can prevent green tide of a river by not blocking the flow of the river.

When the river ecological restoration facility according to the present invention is used, river water (100) whose upper end is lowered to the river water level of the flat river can always flow the river water at all points in the river at the time of the river- And the lower end of the river beam 100 is installed on the bedrock by excavating the sediment layer so that the river water or the ground water can be drained to the well beam 200, .

In the present invention, the shedding machine, the prairie machine and the rainfed machine mean when the water level of the river is high due to a large amount of precipitation, when the average is low, and when the water level is low and the river water level is low.

FIG. 1 shows a river ecological restoration facility according to the present invention.

FIG. 2 shows a well beam according to an embodiment of the present invention. FIG. 3 shows a well beam according to an embodiment of the present invention, and FIG. 4 shows a general beam.

As shown in FIG. 1, a river ecological restoration facility according to the present invention includes a river beam 100 installed across the river so that the river water is drained. And a plurality of well beams 200 installed so that the river water or the groundwater of the river can be desiccated on the upstream side of the river beam 100, And the bottom depth of the stream beam 200 and the bottom of the well beam 200 are installed on the bedrock below the sediment layer.

That is, the river ecological restoration type facility includes a river beam 100 having a lower end installed on a bedrock under a sediment layer, and a well-shaped beam 200 installed on the bedrock and capable of storing river water or groundwater .

As shown in FIGS. 1 and 4, a general view is provided at an intermediate portion of a sediment layer, and the height of the upper end of the beam is higher than the level of the shedding device for desalinating the river water. However, The height of the upper end of the river beam 100 may be higher than the level of the river of the river and lower than the level of the water level of the river. Specifically, the height of the upper end of the stream beam 200 is set 10 cm lower than the water level of the river.

The reason why the height of the upper end of the river beam 100 is set to a height similar to the level of the river water is that the river water flows not only in the case of the feng shui of the river but also in the case of the feng shui, So that it can be kept abundant.

As shown in FIG. 1, the lower end of the stream beam 100 is installed on the bedrock below the sedimentary layer.

The lower end of the stream beam 100 is installed on the bedrock below the sediment layer of the river to confine groundwater or the like flowing into the sediment layer of the river. In other words, the height of the upper end of the river beam 100 is lowered so that the surface water of the river flows downstream while the groundwater flowing to the sediment layer plays a role of a road.

The well beam 200 according to an embodiment of the present invention includes at least one through hole formed in a sidewall for allowing river water or groundwater to flow into a hollow pillar shape, And a side filter 210 for purifying the groundwater.

Like the stream beam 100, the bottom of the well beam 200 is installed on the bedrock below the sediment layer of the stream. The reason why the lower end of the well beam 200 is installed on the bedrock under the sediment layer of the river is to store the groundwater flowing into the sediment layer in the well beam 200.

The height of the upper end of the well beam 200 is lower than that of the river of the river and may be set to be equal to the water level of the water or lower than the water level by about 10 cm. The reason for limiting the height of the well beam 200 is to use the river water or the groundwater stored in the well beam 200 at the time of drought.

The stream water or the ground water stored in the well beam 200 may be pumped up through the upper opening, and the river water or the ground water may be drained by using a pump.

The well beam 200 may be in the form of a circular column and a rectangular column, and the shape thereof is not limited. In addition, the diameter of the well beam 200 may be in the range of 1 to 2 m, and may be specifically 1 m.

The material of the well beam 200 may be concrete, but it does not limit the type of the material if it does not bend or break due to the flow velocity of the stream and does not corrode by river water and groundwater.

The size and shape of the through-hole are not limited as long as the side filter 210 can be mounted. In addition, the through-hole may be provided on one side of the side wall of the well beam 200, and the position of the side wall of the well beam 200 is not limited.

The side filter 210 is not limited as long as it can prevent the inflow of sediments after analyzing the size of the sediment particles in the river where the well beam 200 is installed. And may be a strainer that flows into the well beam 200 and blocks the inflow of sediments of the river.

Here, a strainer is a filter having a metal net on a cylinder, and is a Y-shaped device installed in a pipe to prevent inflow of sand, rust, metal garbage and receive water only.

As shown in FIG. 2, the cover 230 may include a cover filter 220 installed to cover the upper opening of the well beam 200, so that the stream water can be purified. By installing the cover filter 220, purified water flowing through the upper cover filter 220 can be stored in the well beam 200, even in the case of a shoemaker or a water purifier.

The well beam 200 may further include a hinge 221 for allowing the user to open the cover filter 220 when the user dips. The hinge 221 of the cover filter 220 may be connected to the upper opening of the well beam 200.

As shown in FIG. 3, it may include a lid 230 installed to cover the upper opening of the well beam 200 to prevent contaminated river water from flowing into the lid 230, There is an advantage that the inflow can be blocked.

The well beam 200 may further include a hinge 221 for allowing the user to open the lid 230 when it is drowning. The hinge 221 of the cover filter 230 may be connected to the upper opening of the well beam 200.

The lid 230 of the well type beam 200 can prevent inflow of contaminated river water during a shunting machine or a flat water machine and the lid filter 220 installed in place of the lid 230 can be used as a windshield or a lid filter The water stream purified through the water source 220 can be introduced into the well beam 200.

The cover 230 and the cover filter 220 may be omitted in the well beam 200 according to an embodiment of the present invention.

The lid 230 and the lid 220 may be omitted, and the well 200 may be a hollow column with an open upper side.

However, when the upper side of the well beam 200 is opened as described above, water that has not been purified through the upper surface of the shoemaker or the baler flows into the inside of the well beam 200, The cover filter 220 may be attached to the opening to prevent this. Since the river water flowing through the upper opening at the time of the shunting machine or the baling machine is also purified through the lid filter 220, it is advantageous that the river water can be stored in the inside of the well beam 200.

In order to prevent the inflow of the non-purified water, a lid 230 may be installed on the upper opening instead of the cover filter 220.

A method of installing a river ecological restoration type facility according to the present invention comprises the steps of observing a river water level, examining the geological characteristics of the river sediment layer, and comparing the river water (100) and the well type beam (200) And a step of installing the apparatus.

In the method of installing the river ecological restoration type facility, the step of observing the river water level is a step of setting the height of the upper ends of the river beam 100 and the well beam 200.

As described above, the height of the upper end of the stream beam 100 is set to be slightly lower than the water level of the river, specifically, about 10 cm lower than the water level of the water level, The reason is that river water flows downstream in the case of the shogunate and pyeonggi, which can prevent the green algae and improve the water quality.

In the method of installing the river ecological restoration type facility, the step of examining the geological characteristics of the river sediment layer may include the steps of: setting the depth of the river beam 100 and the well beam 200 and the depth of the well beam 200 And a preparation step for installing the stream beam 100 and the well beam 200 in the stream.

The depth of the sediment layer and the bedrock layer and the particle size of the sediments can be confirmed by examining the lipid characteristics of the river, and the side filter 210 and the cover filter 210 of the well beam 200, (220) may be selected.

Wherein the step of installing the river beam (100) and the well beam (200) in the river comprises the step of connecting the river beam (100) and the well beam (200) It is a step to install on bedrock below.

The well beam (100) is installed on the bedrock below the sediment layer of the river so that the groundwater flowing in the sediment layer of the river is no longer flowed downstream. The well beam (200) 200) in the bedrock below the sediment layer.

As described above, by using the river ecological restoration type facility according to the present invention, river water 100 can be flown at all points to the river at the time of the shed of the river and the river because of the river beam 100 having the upper height lowered to the river water level of the river. Since the lower end of the stream beam 100 is installed on the bedrock by excavating the sediment layer, the river water or the ground water can be drained to the well beam 200, There is an advantage.

Although the embodiments of the present invention have been described with respect to the river water level and the geological characteristics of the sediment layer according to the embodiment of the present invention, the present invention is not limited thereto. It is apparent that various embodiments are possible.

Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by equivalents to the appended claims, as well as the following claims.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: River stream
200: Well type beam
210: side filter
220: Cover filter
221: Hinge
230: cover
300: Normal beam

Claims (6)

A stream beam installed across the river so that river water is drained; And
And a plurality of well-shaped beams installed so that river water or ground water of the river can be desiccated on the upstream side of the river beam,
The bottom depths of the stream beam and the well beam are installed in the bedrock below the sediment layer,
The height of the upper end of the stream beam is set 10 cm lower than the water level of the river,
The height of the upper end of the well beam is set to be lower than the water level of the river,
Wherein the well type collector includes at least one through-hole formed in a sidewall so that the river water or the ground water can flow into the hollow pillar and a side filter installed in the through-hole to purify the inflowed river water or groundwater. River ecological restoration facilities.
delete delete The method according to claim 1,
Further comprising a lid filter installed at an upper opening of the well beam to concentrate the water flowing into the inside of the well beam.
The method according to claim 1,
The side filter includes:
The water or the ground water flows into the inside of the well type beam through the filter,
And a strainer for blocking inflow of sediments of the river.
(a) observing the river water level;
(b) examining the geological characteristics of the stream sediment layer; And
(c) installing a stream beam and a well beam on the stream,
The river is installed across the river so that the river water of the river is desalinated,
And a plurality of wells are installed on the upstream side of the river beam so that the river water or the ground water can be desiccated,
The bottom depths of the stream beam and the well beam are installed in the bedrock below the sediment layer,
The height of the upper end of the stream beam is set 10 cm lower than the water level of the river,
The height of the upper end of the well beam is set to be lower than the water level of the river,
Wherein the well type collector includes at least one through-hole formed in a sidewall so that the river water or the ground water can flow into the hollow pillar and a side filter installed in the through-hole to purify the inflowed river water or groundwater. Installation and utilization of river ecological restoration facilities.

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