KR101494221B1 - Continuous Stream Water Intake System and Structure without Power - Google Patents

Abstract

According to the present invention, a continuous stream water intake system and structure without power comprises: an inlet (2) in which the water flows and which is formed on the upper side of a bed tank (100), and the bed tank (100) composed of a water tank structure equipped with a riprap filter (1) which is paved to prevent oil sand from flowing into the upper side of the inlet (2) and simultaneously function as a filter against a source of contamination. The bed tank (100) is embedded under the ground of the stream for the riprap filter (1) to be the bottom side of the stream, thereby abstracting water of the stream all the time.

Description

{Continuous Stream Water Intake System and Structure without Power}

The present invention relates to a non-dynamic river water continuous water intake system and a water intake structure which are capable of constantly collecting water flowing in a river without installing a dam or a dam in the river and consuming artificial power.

The most common way of taking water in the river for drinking water, agricultural water, or other various purposes is to install a beam or a dam in the river to confine the water. Korean Patent Laid-Open Publication No. 10-2010-0102762 discloses an example of a prior art in which a dam (a submerged beam) for obstructing a river to take fresh water from a river is installed and water stored in the upper stream of the dam is taken through a water intake pipe is disclosed .

However, in the prior art in which water is secured by using a dam or a beam as described above, it is disadvantageous that it is impossible to take water from the river in a state where the water level is lowered as in the case of the wet season. In addition, if a dam or beam is installed in the river to secure water, there is a problem that the ecological environment breaks as well as the physical disconnection between the upstream and downstream of the dam. Furthermore, the installation of the dam or beam will eventually cause a great change in the river flow, so that the sediment flowing along the river, that is, the sediment of the flowing sand, do.

See Korean Patent Publication No. 10-2010-0102762 (published on September 27, 2010).

The present invention has been developed in order to overcome the problems of the prior art as described above, and it is an object of the present invention to provide a water supply system capable of taking necessary water without installing a dam or a dam in a river, And to provide a technique capable of preventing environment interruption from occurring at a source.

It is another object of the present invention to provide a technique for supplying necessary water even in a low water level condition such as a wet season by allowing water to be taken without being influenced by a change in river water level.

It is still another object of the present invention to provide a technique for minimizing an artificial change to a river and securing necessary water from a river without dependence on an artificial power.

In order to achieve the above object, according to the present invention, an inlet port is formed on the upper surface of the lower water tank for allowing water to flow into the lower water tank at all times; On the upper edge of the bottom water tank, a wall-protecting fence is installed; In the space enclosed by the fence-preventing fence, a stonecutter is formed at the upper portion of the inlet so as to have the same height as the bottom surface of the stream, thereby preventing the inflow of the pseudo dust and functioning as a pollutant filter. The bottom tank has a drain pipe connected to the outside to discharge the water to the outside, and a bottom tank having an internal space for storing water is buried in the bottom of the bottom of the river. Therefore, And the water supply system for the river water is always provided.

In the continuous water intake system and the continuous water intake structure of the river water according to the present invention as described above, the bottom surface of the lower water tank may be formed to be inclined so that similarities introduced into the lower water tank may be gathered. Further, At the end of the formed incline, a concave water collecting part may be formed on the floor surface, which may be collected along the inclination.

In the stream water supply system and the water intake structure according to the present invention, the lower water tank is buried in the bottom of the river to always take necessary water, so that the physical and ecological disconnection problems of the river, There are advantages to be able to.

In addition, since the present invention has a structure in which a structure is buried in the bottom of a river, an artificial change caused in a river space can be minimized.

Furthermore, since the present invention takes the water through the bottom of the river, water can be taken without being affected by the displacement of the river level, and in particular, water is naturally introduced into the river water tank by gravity , There is a great advantage that no additional artificial power is required at the time of withdrawal.

1 is a schematic perspective view showing an embodiment in which a river water storage tank is installed on a river bed according to a river water supply system and a water intake system of the present invention.
2 is a schematic cross-sectional view in the longitudinal direction along the line AA in Fig.
3 is a schematic cross-sectional view taken along line BB in Fig.
4 is a schematic perspective view showing a bottom tank according to the present invention in a state in which a stony filter unit provided on an upper surface is omitted.
FIG. 5 is a schematic perspective view showing a bed water tank according to the present invention including a stonecutter portion provided on an upper surface thereof.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

1 is a schematic perspective view showing an embodiment in which a river water storage tank 100 is installed on a river bed in accordance with a river water supply water supply system (normally water intake structure) and a water intake structure of the present invention, (Stream flow direction) along line AA of FIG. 1, and FIG. 3 is a schematic cross-sectional view in the transverse direction along line BB of FIG. 4 is a schematic perspective view showing a bottom water storage tank 100 according to the present invention in a state in which a top filter unit 1 is omitted. 1 is a schematic perspective view showing a bottom water storage tank 100 according to the present invention.

As shown in the drawing, in the stream water supply system and the water intake structure of the present invention, the bottom water tank 100 is embedded in the bottom of the stream, that is, the bottom of the stream. The lower water tank 100 is a water tank structure for storing water and has an inlet 2 through which water is introduced into the upper surface of the water tank 100. An upper portion of the lower water tank 100 is connected to the upper portion of the inlet 2, A stony filter portion 1 that prevents the inflow of the like and also functions as a filter of a contamination source is formed.

Specifically, since the plurality of inflow openings 2 are formed on the upper surface of the lower water tank 100, when water flows into the lower water pool 100 in a state where the lower water tank 100 is buried in the lower water, The water is automatically introduced into the lower tank water storage tank 100 and filled therein. However, when water flows into the inlet 2, foreign matter or contaminants such as sludge or waste can be introduced into the lower water tank 100 through the inlet 2. In this process, the inlet 2 ) May be clogged. In order to prevent this, in the present invention, the stony filter unit 1 is installed at a predetermined height above the inlet 2 on the upper surface of the lower tank 100.

The slag filter unit 1 has a structure in which rocks such as slag or gravel or blocks made of a material such as concrete or mortar (hereinafter referred to as "installed slabs " for convenience) ), And the installed laid stone 12 thus forms part of the bottom of the river, that is, the bottom of the stream, and is maintained at the same height as the upper and lower stream beds. In other words, the installed sludge 12 located on the uppermost layer of the stony filter unit 1 exists in a state exposed on the bottom of the stream, and is a continuous plane between the downstream and the installation point of the lower water tank 100, .

In this way, the stoneware filter portion 1 installed on the upper surface of the lower-stage water storage tank 100 so as to cover the inlet 2 functions to shut off the flow of the like into the inlet 2. In the state where the installed slabs 12 are installed at a predetermined thickness and the slag filter portion 1 is provided, water can pass between the slabs 12 serving as the material of the slag filter portion 1, There is only a very narrow gap that can not pass the foreign matter such as leaves, aquatic plants and garbage. That is, the shape and size of the stones or blocks are selected so as to have a very narrow gap, and the stones and blocks are laid on the top surface of the bottom tank 100 to form the stony filter portion 1. Therefore, when water flows into the river water storage tank 100 installed at the lower part of the river, similar materials are trapped without passing through the gaps of the stones forming the stony filter part 1, It is possible to minimize the inflow of the water into the inside of the lower water tank 100.

4, in order to prevent the slag stones 12 of the stony filter section 1 from being separated from the upper surface of the lower tank 100 due to the flow generated by the flow of water due to the flow of the river, A fountain preventing fence 11 made of a wall is provided on the upper edge of the lower water tank 100 and a space surrounded by the loss preventing fence 11 is filled with a built- .

The slag filter unit 1 can be constructed by laying a large-sized slag 12 in a single layer so as to have a required height, but it can also be constructed by laying a plurality of slabs 12 having different sizes . In the case of constructing the stony filter portion 1 by laying the laying stones 12 in a multi-layered manner as described above, the gap between the laying stones is irregularly formed, and the path becomes longer, It is possible to effectively prevent the contaminants from flowing into the lower water storage tank 100 through the inlet 2 because the stuffer filter unit 1 can prevent the passage of fine contaminants in addition to the function of simply filtering out the foreign substances do.

The upper surface of the stony filter section 1 is connected to the upper surface of the lower tank 1 through the lower water tank 1 and the upper surface of the lower tank 1, 100 as a continuous plane between the upstream and downstream of the installation point.

On the other hand, the lower water tank 100 may further include an opening / closing device for opening / closing the inlet 2 as needed. The opening and closing device may be provided in the form of a sliding type opening and closing door on the ceiling surface of the lower level water storage tank 100 in which the inlet port 2 is formed in the lower level water storage tank 100. As described later, Or to close the inlet 2 to prevent water from flowing into the bottom water storage tank 100. The water in the bottom water storage tank 100 may be discharged into the water tank 100 through the inlet port 2,

The drain tank (100) is connected to a drain pipe (3) for discharging the water filled therein. Accordingly, the user can use the water contained in the lower water tank 100 through the water pipe 3 when water is needed. The drain pipe 3 may be provided with an on-off valve 31 to open or shut off the drain pipe 3 if necessary.

It is difficult to completely block the dust collector 1 even if the dust collector 1 is installed on the upper surface of the lower tank 100 so as to minimize the inflow of foreign substances or the like. The similarity can be easily collected at one side of the lower tank 100 when the similarity of the small particles is introduced into the lower tank 100. This allows the inner space of the lower tank 100 to have a constant capacity It is preferable that the bottom surface 15 of the lower tank 100 is formed to be inclined. The slope of the bottom surface 15 may have a downward slope in the longitudinal direction toward the downstream side of the stream, or may have a downward slope in the transverse direction to one side of the stream. Furthermore, downward slopes may be present in the transverse direction from the center of the bottom surface 15 to both lateral sides. Of course, the downward slope in the longitudinal direction and the downward slope in the transverse direction may also be present on the bottom surface 15 at the same time.

Particularly, when the downward inclination exists on the bottom surface 15, a recessed collecting part 150 is formed on the bottom surface 15 at the end of the downward inclination, desirable. When the collecting part 180 is formed in the bottom part of the bottom water storage tank 100, the similar water or the like introduced into the bottom water storage tank 100 is collected in the collecting part 150 along the inclination of the bottom surface 15, So that it is possible to easily remove similarities and the like collected in the collecting part 150 from the bed water storage tank 100 by approaching the suction pipe or the like. Therefore, even if the similarity flows into the lower tank 100, it is possible to minimize the internal space of the lower tank 100 and to maintain the internal space of the lower tank 100 above the required capacity An effect that is very facilitated is exhibited. Meanwhile, if necessary, the operator access passage 151, which allows the manager to access the inside of the bottom tank 100, may be provided in the bottom tank 100 by communicating with the inside of the bottom storage tank 100.

When the lower water tank 100 having the above-described structure is embedded in the lower part of the river, the inlet 2 through which the water flows is located lower than the bottom of the river. Therefore, irrespective of the water level of the river, 2 to the lower water tank 100 and the lower water tank 100 is filled. That is, according to the present invention, even if the water level is lowered to such an extent that the water hose can not be attached to the river due to the rising season, the lower water tank 100 is provided with water So that it is in a state of being filled. In this state, the user can receive the necessary water through the drain pipe 3 through the inside of the lower water tank 100. That is, even if the water level of the river is lowered, it is possible to take water of the river through the river water storage tank 100 whenever necessary.

Particularly, even if the water becomes completely depleted in a rainy season, the lower stage water storage tank 100 is filled with water in advance, so that the water contained in the lower water storage tank 100 can be used as the water.

As we have seen, in the case of the prior art in which beams or dams are installed in streams to ensure a level for water intake, beams or dams are effectively blocked completely or physically and ecologically There is a problem that disconnection occurs. However, according to the present invention, since the river water storage tank (100) is embedded in the bottom of the river in the water intake system and the water intake structure according to the present invention, the necessary water can be always taken in the river, Can be solved.

In addition, the prior art that obstructs the river by the Bona dam brings a very large artificial change in the river space. However, since the present invention has a structure for burying the structure on the river floor, it is possible to minimize an artificial change caused in the river space .

Furthermore, since the present invention takes the water through the bottom of the river, water can be taken without being affected by the displacement of the river level, and in particular, water is naturally introduced into the river water tank by gravity , There is a great advantage that no additional artificial power is required at the time of withdrawal.

1:
100: bed water tank

Claims (6)

A lower water tank 100 having an inner space capable of containing water is embedded in the ground at the bottom of the river so that the water in the river is always taken to the lower water tank 100;
An inlet (2) is formed in the upper surface of the lower tank (100) to allow water to flow into the lower tank (100).
A fountain preventing fence 11 made of a wall is installed on the upper edge of the lower tank water storage tank 100;
In the space enclosed by the loss prevention fence 11, the upper side of the inflow port 2 is filled up with the laying stones 12 to the same height as the bottom surface of the river, thereby preventing the inflow of the pseudo- A filter portion 1 is formed;
The drain tank (100) is connected to a drain pipe (3) for discharging the water filled therein to the outside;
The inlet (2) is provided with an opening / closing door provided on a ceiling surface in a sliding manner;
The stony filter section (1) is constructed such that a plurality of laying stones (12) of different sizes are laid out in multiple layers up to the same height as the river bottom surface;
Regardless of the water level of the river, the water of the river is always stored in the lower water tank 100 through the inlet 2;
And an operator access passage part (151) allowing the manager to access the inside of the lower water storage tank (100) is provided in communication with the inside of the lower water storage tank (100).
The method according to claim 1,
Wherein the bottom surface (15) of the bottom water storage tank (100) is formed to be inclined so that the similar water collected into the bottom water storage tank (100) can be collected.
3. The method of claim 2,
Wherein the bottom surface (15) is formed with a concave collecting part (150) on the bottom surface (15) at the end of the inclination formed on the bottom surface (15).
A bottom water storage tank 100 having an internal space capable of storing water is embedded in the ground at the bottom of the stream so that the water in the stream is always taken to the bottom water storage tank 100,
An inlet (2) is formed in the upper surface of the lower tank (100) to allow water to flow into the lower tank (100).
A waterproofing fence 11 made of a wall is installed on the upper edge of the lower tank water storage tank 100;
In the space enclosed by the loss prevention fence 11, the upper side of the inflow port 2 is filled up with the laying stones 12 to the same height as the bottom surface of the river, thereby preventing the inflow of the pseudo- A filter portion 1 is formed;
A drain pipe (3) for discharging the water filled in the inside is connected to the bottom water storage tank (100);
The inlet (2) is provided with an opening / closing door installed on a ceiling surface in a sliding manner;
The stony filter section (1) is constructed such that a plurality of laying stones (12) of different sizes are laid out in multiple layers up to the same height as the river bottom surface;
Regardless of the water level of the river, the water of the river is always stored in the lower water tank 100 through the inlet 2;
And an operator access passage part (151) allowing the manager to access the inside of the lower water tank (100) is provided in communication with the inside of the lower water tank (100).
5. The method of claim 4,
Wherein the bottom surface (15) of the bottom water storage tank (100) is formed to be inclined so as to collect the poured water into the bottom water storage tank (100).
6. The method of claim 5,
Wherein the bottom surface (15) is formed with a concave collecting part (150) on the bottom surface (15) at the end of the inclination formed on the bottom surface (15).

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