KR101709908B1 - Multipurpose Dam For Eco Friendly - Google Patents

Abstract

The present invention is characterized in that the main dam 3 and the auxiliary dam 4 are disposed to be spaced apart from each other and the discharge port 6 is provided below the dam 3 and a plurality of It is possible to prevent the occurrence of water pollution, deep water pollution, and green algae by forming a drainage port (9) so that various foreign substances and sludge (16) flowing into the river (river) , The discharge of the earth is prevented, the flood is controlled, the purified water can be taken, and the electric power generating turbines 21 and 23 can be rotated by using the falling water or the flow water to be used for power generation Friendly multipurpose dam.

Description

{Multipurpose Dam For Eco Friendly}

The present invention relates to an eco-friendly multipurpose dam that can purify water quality and prevent water pollution. More specifically, the present invention relates to an eco-friendly multi-purpose dam capable of separating a main dam and an auxiliary dam, It is possible to prevent water pollution, deep water pollution, and green tide from being formed by providing a plurality of drainage holes at the lower part of the auxiliary dam so that various foreign substances or sludge that flow into the river can be discharged immediately without precipitating or accumulating on the bottom , The discharge of sediment is prevented, the flood is controlled, the purified water can be taken, and it can be used for power generation.

Generally, the dam is designed to prevent water, soil leakage, water intake, flood or collapse by crossing mountain valleys or rivers and to secure various kinds of water such as hydroelectric power generation or water supply, agricultural water, Most of the inflow of water is free, and it is difficult to discharge and it is a form to confine water.

These dams are designed to prevent natural water flow by artificially obstructing the water flow, and they are designed to overflow only the surface waters, not only in the gates and floodgates, but also in the channel, It is not easy to see that the deep water is eutrophication phenomenon (eutrophication phenomenon), and the deep water is eutrophication phenomenon, As a result, not only water (drinking water) but also agricultural water and industrial water are inadequate and human health is threatened.

In addition, due to the nature and structure of the dam, there is no way to fundamentally solve the water pollution of the low-water source, and the consideration of environmental preservation such as water quality preservation and ecosystem conservation is not considered. And the like.

Korean Patent Laid-Open Publication No. 10-2013-0053120 (entitled "Small Hydropower Generator Using Positive Water and Method Thereof" Korean Patent Registration No. 10-1384971 (entitled "Greenhouse Dictionary Detection, Prediction and Removal Apparatus and Method therefor", Apr. 16, 2014) Korea Registered Utility Model No. 20-0462598 (Name of Design: Reduced Soil Leakage Controlled by Freshwater, 2012. 09. 27. Announcement of Utility Model Application)

An object of the present invention is to provide an environmentally friendly multipurpose dam in which water pollution is prevented.

Another object of the present invention is to prevent the contamination of deep water by discharging the primary pollutants by the double dam structure of the main dam and the auxiliary dam and to prevent water pollution such as intake, , And a multi-purpose dam that can be used for bridges and other eco-friendly multi-purpose dams.

The present invention is characterized in that a main dam 3 and an auxiliary dam 4 that are spaced across a river and a drainage path 5 formed between the main dam 3 and the auxiliary dam 4, A plurality of connection beams 8 and first, second, third and fourth discharge portions 10, 11, 12 and 13 formed on the upper portion of the main dam 3; And may include a drain hole 9.

The present invention may further include a discharge pipe (7) having a discharge port (6) of a predetermined size installed in a lower portion of the dam (3).

The present invention is characterized by having a first outlet portion 10 having a predetermined width w1 formed in the upper center portion of the dam 3 and a predetermined width w2 formed on both sides of the first outlet portion 10, a third discharge portion 12 having a predetermined width w3 and a predetermined height h5 formed on both sides of the second discharge portion 11 and the second discharge portion 11 of the first discharge portion 12 and the third discharge portion 12 The upper end portion 14 of the dam 3 formed on both sides of the fourth discharge portion 13 and the fourth discharge portion 13 having the predetermined width w3 and the predetermined height h5 respectively formed on both sides of the first discharge portion 13 .

The present invention may further include a lock door (7a) installed at the inlet of the discharge pipe (7) and opened / closed by the opening / closing means.

The present invention may further comprise an impact means (18) in which a large amount of negative ions are generated while the discharged water (15a) collides with the drop.

The collision means 18 includes a column 19 connected to the lower portion of the collision means 18, a base portion 19a connected to the lower portion of the column 19 and embedded in the ground downstream of the dam 3, And a plurality of embossings 18a formed on the upper surface of the substrate.

The present invention relates to an electric power generation turbine (21) installed on the outside of a main dam (3) to which effluent water (15a) falls, an electric power generation turbine (23) installed in a predetermined position of a water discharge passage (5) And an inclined guide plate installed under the lower plate 23.

The double dam structure of the present main dam 3 and the auxiliary dam 4 prevents the contamination of the deep water and prevents the green algae from being purified or generated while the pollutant is first discharged. Sedimentation is prevented, and there is an effect that it can be used for multipurpose such as water intake, reservoir, flood control, soil leakage prevention, hydroelectric power generation, and bridge.

The present invention is advantageous in that various foreign matter or sludge (16) introduced into the river (river) is discharged first by the discharge port (6) installed at the lower center of the dam (3) .

The present invention is characterized in that collision means (18) is provided at a part where the effluent (15a) falls and collides with the falling water (15a) falling down to break water molecules to purify the water quality and a large amount of anions 20) is generated.

A column 19 is connected to the lower portion of the collision means 18 and a base portion 19a buried in the ground downstream of the dam 3 is connected to the lower portion of the column 19. A plurality of protrusions or embossed 18a are formed, a greater amount of the negative ions 20 is generated by the drop discharge water 15a and the impact discharge water 15b.

The present invention has an effect that the electric power generating turbines 21 and 23 can be rotated by the falling water or the flow water to be used for electric power generation.

The present invention is a very useful invention having an effect of providing a lock gate (7a) opened and closed by an opening / closing means at a discharge port (6) and controlling a flow rate to a river.

1 is a cross-sectional view illustrating an example of the present invention.
2 is a plan view showing an example of the present invention.
Fig. 3 is a front view of the dam shown in Fig.
Fig. 4 is a front view of the auxiliary dam shown in Fig.
Fig. 5 is a sectional view of the use state shown as an example of the present invention. Fig.
6 is a cross-sectional view of another embodiment of the present invention.
Fig. 7: Cross section of the use state shown in another example of the present invention.
8 is a cross-sectional view of the use state shown in another example of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the embodiments of the present invention, the same components as in the drawings are denoted by the same reference numerals as possible, and detailed descriptions of known configurations and functions are omitted so as not to obscure the gist of the present invention. May be different from what is actually implemented with the schematized drawings in order to easily describe the embodiments of the present invention.

1 is a cross-sectional view of an eco-friendly multi-purpose dam 1 shown as an example of the present invention. A main dam 3 and an auxiliary dam 4 are installed in a double direction across a river (river).

Fresh water and uncoloured water 15 are naturally discharged through the first, second, third, and fourth multi-stage discharge units 10, 11, 12, and 13 formed on the top of the dam 3, The water 15 to be discharged is upwardly discharged through a plurality of drain holes 9 formed in the lower portion of the auxiliary dam 4.

Various kinds of foreign substances or sludge that flow into the river (river) are discharged first through the discharge pipe 7 having the discharge port 6 of a predetermined size formed in the lower part of the main dam 3, The green tide is not purified or generated and the uncontaminated water 15 can be taken through the clean water intake pipe 25 and the flood can be controlled and the soil discharge can be prevented, It is possible to use it as a multipurpose, such as installing a bridge and contributing to traffic.

The water 15 flowing into the river flows into the drainage path 5 between the dam 3 and the auxiliary dam 4 through the drainage port 9 provided at the lower part of the auxiliary dam 4, (11), (12) and (13) of at least one of the first, second, third and fourth discharge units (10), (11) (3) is discharged downstream. The first, second, third and fourth discharge units 10, 11, 12 and 13 are formed lower than the uppermost end of the auxiliary dam 4 and the water 15 flowing into the river flows through the drain 9 And then discharged to the downstream side of the dam 3 through the first, second, third and fourth discharge portions 10, 11, 12,

The spout 10a protruding outwardly of the dam 3 is formed in the first discharge portion 10 where water is firstly discharged in order to prevent the discharge water 15a from colliding with the outer wall of the dam 3 when the discharge water 15a falls So that damage to the outer wall of the dam 3 is prevented in the long term.

The main dam 3 and the auxiliary dam 4 are installed parallel to each other at a predetermined distance L and the main dam 3 is designed and installed so as to be able to withstand the large pressure exerted from the fresh water 15, A plurality of drainage openings 9 are formed in the lower part of the drainage pipe 4 so that the water 15 discharged to the dam 3 is moved to the lower part near the river bottom 2 to be discharged.

Although the separation distance L differs depending on the size (size) of the dam 3 and the auxiliary dam 4, it is natural that the operator or the work tool naturally works for the purpose of removing large foreign substances flowing into the drainage channel 5, It is preferable that the size is about 1 ~ 10m.

The dam 3 and the auxiliary dam 4 are connected by a plurality of connecting beams 8 and are supported in parallel. The connecting beam 8 is arranged at predetermined intervals so as not to interfere with the flow of the water stream so that the dam 3 and the auxiliary dam 4 are held in parallel with each other and the connection between the main dam 3 and the auxiliary dam 4 A drainage passage 5 having a predetermined width, for example, a separation distance L of about 1 to 10 m, is formed.

At least one ladder 17 that can be used by the operator is vertically attached to the main dam 3 or the auxiliary dam 4 to be usefully used for cleaning, repairing, or dredging the drainage 5.

In the present invention, a bridge can be constructed on the top of the dam 3 and the auxiliary dam 4 so that the vehicle or the pedestrian can be moved. The bridge may be installed on the basis of the upper part of the main dam 3 and the auxiliary dam 4 or in a fatigue structure based on the main dam 3 or the auxiliary dam 4. [

In the present invention, illumination means (illumination device) can be installed around the dam 3, or around the dam 3, the dam 3 and the auxiliary dam 4, . In addition, an illuminating means for illuminating falling water 15a can be provided so that the falling water of the discharged water can be beautifully displayed or boasted.

In the present invention, the water 15 (which is introduced into the dam or the river) that is despooled by the plurality of drainage holes 9 formed at the bottom of the auxiliary dam 4 is discharged to the first, second, third, (10), (11), (12) and (13).

The bases 3a and 4a of the main dam 3 and the auxiliary dam 4 are buried in the bottom 2 of the river and the sides of the main dam 3 and the auxiliary dam 4 are pierced into a double- And is installed to be supported therein.

3 is a front view of the main dam 3. The lowest first discharge portion 10 having a predetermined width w1 is formed at the middle portion of the upper portion of the main dam 3, And a second outlet 11 having a predetermined width w2 and a predetermined height h5 are formed on both sides of the second outlet 11. The third outlet 11 has a predetermined width w3 and a predetermined height h5, A fourth outlet portion 13 having a predetermined width w3 and a predetermined height h5 is formed on both sides of the third outlet portion 12, The upper end of the first, second, third and fourth discharge units 10, 11, 12 and 13 is connected to the upper end 14 of the auxiliary dam 4, Lt; / RTI >

A discharge pipe 7 having a discharge port 6 of a predetermined size d is provided at a lower center of the main dam 3 so that various foreign substances or sludge 16 introduced into the river are discharged first, Water pollution is prevented.

The height h2 of the discharge pipe 7 is preferably such that various foreign matter or the sludge 16a flowing into the river are discharged first and then the sediment is prevented from being discharged or deposited on the bottom of the river. The discharge pipe 7 may be made of a non-oxidizing metal pipe, a non-metal pipe, a concrete pipe, or the like.

1, there is provided a gate 7a which is opened and closed by an opening / closing means as shown in FIG. 1, and the outlet 6 is closed or closed by a method of closing the outlet 6 when the amount of water flowing into the river is small. The size d of the outlet 6 can be reduced and the size d of the outlet 6 can be enlarged by opening the outlet 6 when the amount of the water flowing into the river is large or various foreign matter or the amount of inflow of the sludge 16 is large. .

The present invention prevents water contamination of the water 15 stored in the main dam 3 and water in a clean state such as no green tide is stored and drained in the main dam 3, The clean water 15 that has not been contaminated can be taken out and used as various kinds of water such as water (drinking water), agricultural water, industrial water, and the like.

The base portion 3a of the main dam 3 is embedded at a predetermined depth h1 and a sufficient supporting force is maintained and the height h2 + h3 of the first outlet portion 10 is equal to the total height h2 of the main dam 3 so that the water level of the water 15 stored and dewatered upstream of the dam 3 is maintained at a height of about 80% of the height of the dam 3 Fresh water (reservoir) and natural discharge are achieved and drainage (9) does not need to be controlled during floods.

3 (h4) is the height from the first discharge portion 10 to the upper end portion 14 of the dam 3, and is about 20% of the height (h2 + h3 + h4) of the entire dam 3.

The water level of the water 15 is increased and the predetermined width w1 through the first outlet portion 10 or the first outlet portion w1 through the first outlet portion 10 is increased when the water flowing into the dam or the river A predetermined width w1 + w2 + w2 through the first outlet portion 10 and the second outlet portion 11 or a predetermined width w1 through the first outlet portion 10 and the second outlet portion 11 and the third outlet portion 12, (w1 + w2 + w2 + w3 + w3) through the first outlet portion 10 and the second outlet portion 11, the third outlet portion 12 and the fourth outlet portion 13, ).

In the present invention, the first outlet portion 10, the second outlet portion 11, the third outlet portion 12, and the fourth outlet portion 13 may be configured so that uncontaminated water 15 flows over, It is needless to say that it is possible to arrange so that the fresh water amount can be controlled.

4 is a front view of the auxiliary dam 4. A plurality of drainage holes 9 having a predetermined height h6 and a predetermined width w5 are formed in the lower part of the auxiliary dam 4 to collect water 15 and 15 are lowered to pass through the drainage port 9 and then rise again along the drainage path 5 and are then moved to the first, second, third, and fourth levels, respectively, lower than the uppermost level of the auxiliary dam 4, The sludge 16 and the like that are naturally discharged through the discharge units 10, 11, 12 and 13 and are not settled or deposited on the river bottom 2, (6) of the dam (3) passing through the dam (3), thereby preventing water pollution, deep water pollution and green algae pollution caused by sediments and sediments, preventing soil runoff, controlling floods, The water is taken out through the water intake 24 and the water intake pipe 25, and then the water is supplied to the water (drinking water), agricultural water, So that it can be used in various kinds of water.

The size of the drain hole 9 is set to a sufficient size and number in accordance with the scale (size) and discharge amount of the dam 3 and the auxiliary dam 4.

FIG. 6 is a cross-sectional view of another embodiment of the present invention, in which a collision means 18 is provided at a part where the discharged water 15a falls, so that the discharged water 15a falls and collides with the water molecules so that a large amount of anions 20 .

A column 19 is connected to the lower portion of the collision means 18 and a base portion 19a buried in the ground downstream of the dam 3 is connected to the lower portion of the column 19. A plurality of protrusions or embossed 18a are formed, a larger amount of the negative ions 20 is generated by the drop discharge water 15a and the impact discharge water 15b. The anion 20 not only cleanses the surrounding water, but also has a beneficial effect on the surroundings and the human body. (15c) is discharged water located downstream of the dam (3) after the collision.

7 and 8 are sectional views of another embodiment of the present invention. As shown in FIG. 7, an electric power generation turbine 21 is installed on the outer side of the dam 3 and the electric power generation turbine 21 is driven by the discharge water 15a. FIG. 8 is a view showing a state in which the electric power generating turbine 23 is installed at a predetermined position of the water drainage passage 5 and the water is raised and discharged along the water drainage passage 5 And the electric power generating turbine 23 is rotated in one direction by the water flow to drive the generator to produce electric power.

8, an inclined induction plate is provided below the electric power generating turbine 23 installed in the drainage passage 5 and the discharged water flowing along the drainage passage 5 through the drainage port 9 is supplied to the electric power generating turbine 23 ) In the direction of rotation.

The present invention relates to a method and apparatus for recovering various kinds of wastewater such as primary pollutants, contaminated deep-seated water purification, and water (drinking water) industrial water while being naturally discharged by the double dam structure of the main (main) dam 3 and auxiliary (auxiliary) It can be used for multipurpose purposes such as water intake, reservoir, flood control, soil leaking prevention, hydropower generation, and bridges.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is 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.

(1) - Eco-friendly multipurpose dam (2) - River floor
(3) - main dam (3a) (4a) - foundation
(4) - Auxiliary (5) - Drainage
(6) - Outlet (7) - Outlet
(8) - connecting beam (9) - drain
(10) (11) (12) (13) - Discharge section (14) - Upper part of the dam
(15) - Upstream of Bon Dam (17) - Ladder
(24) - withdrawal port (25) - withdrawal port
(L) - separation distance (h1) - depth
(w2) (w2) (w3) (w4) (w5) - width (h2)

Claims (7)

A main dam (3) and an auxiliary dam (4) spaced across the river;
A drainage passage (5) formed between the main dam (3) and the auxiliary dam (4);
A plurality of connecting beams 8 connecting the main dam 3 and the auxiliary dam 4;
A plurality of drain holes (9) formed at a predetermined height and a predetermined width below the auxiliary dam (4);
First, second, third, and fourth discharge units 10, 11, 12, and 13 formed above the dam 3 and lower than the top of the auxiliary dam 4;
Environmentally-friendly multipurpose dam. The method of claim 1,
A discharge pipe (7) having a discharge port (6) of a predetermined size installed under the dam (3);
A lock 7a provided at the inlet of the discharge pipe 7 and opened / closed by the opening / closing means;
And further includes an eco-friendly multi-purpose dam. The method according to claim 1 or 2,
A first discharge portion 10 having a predetermined width w1 formed in a central portion of the upper portion of the dam 3;
A second discharge portion 11 having a predetermined width w2 and a predetermined height h5 formed on both sides of the first discharge portion 10;
A third discharge portion 12 having a predetermined width w3 and a predetermined height h5 formed on both sides of the second discharge portion 11;
A fourth discharge portion 13 having a predetermined width w3 and a predetermined height h5 formed on both sides of the third discharge portion 12;
An upper end portion 14 of the dam 3 formed on both sides of the fourth discharge portion 13;
Further comprising an eco-friendly multi-purpose dam. delete The method according to claim 1 or 2,
A collision means (18) in which a large amount of negative ions are generated while the discharged water (15a) collides with a drop;
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The collision means (18)
A column 19 connected to the lower portion of the collision means 18;
A foundation 19a connected to the lower portion of the column 19 and embedded in the ground downstream of the dam 3;
A plurality of embossings (18a) formed on an upper surface of the collision means (18);
Friendly multi-purpose dam. delete The method according to claim 1 or 2,
An electric power generating turbine 21 installed on the outer side of the main dam 3;
An electric power generating turbine 23 installed at a predetermined position of the drainage passage 5;
An inclined guide plate installed below the electric power generating turbine (23);
And further includes an eco-friendly multi-purpose dam.

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