KR101609825B1 - Auxiliary dam and composition structure for ecology lake using the same - Google Patents

Abstract

The center portion 301 of the sub dam 300 is formed to have a recessed structure so that the water flow can flow and at the same time the center portion 301 is protruded upward in the central portion 301, A plurality of protruding members 310 for blocking the contaminants; And a mesh member (320) formed at an edge (302) of the sub dam (300) and formed so as to automatically open toward the upper direction when the level of the river rises, and a dam member By presenting the ecological arming structure using this, it is possible to improve the blocking function of the dirt when the water level rises, to automatically collect the dirt and the garbage to prevent the loss of function of the dam dam and to secure the water quality of the ecological lake do.

Description

TECHNICAL FIELD [0001] The present invention relates to a dam structure and an ecological arc structure using the dam structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an environmental technology field, and more particularly, to a sub dam and an ecological arming structure using the same.

Various dams are installed to prevent water flow by preventing river flow or to prevent rapid increase of downstream flow due to flood.

Conventionally, only one dam is installed in one storage area. However, in recent years, attempts have been made to install a plurality of dams such as the main dam 20 and the dam 10 in a single storage area.

Here, the main dam 20 functions as a conventional general dam, and the sub dam 10 is provided on the upstream side of the main dam 20 and is formed to have a lower height than the main dam 20, And serves to form the water storage region 1.

The difference in height (water level) between the main dam 20 and the sub dam 10 is generally about 2 to 5 m.

On the other hand, the conventional sub dam 10 merely functions as a reservoir for collecting turbid water in the reservoir region 1 (Figs.

Therefore, there is no function of blocking the impurities contained in the running water, so that the function of the dam 10 is not only deteriorated due to the clogging of the dam 10 and the like. The floating area is contaminated by floats and garbage, which makes the environment unfavorable for various plants and animals.

Also, in the case of rainy weather, the water level of the river becomes higher than the height of the dam (10), and there is a great possibility that the water dam (10) floods or the river flows backward.

In addition, conventionally, there is a problem in that it is necessary to manually process garbage collection lines to remove such contaminants and garbage.

Therefore, it takes a long time to perform the maintenance work, which makes it impossible to take quick action.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to improve the blocking function of the obstruction when the water level of the river rises, to prevent the loss of function of the dam by automatically collecting the contaminants and trash, And to provide an ecological arming structure using the dam.

In order to solve the above problems, the present invention provides a sub-dam (300) installed in a river, wherein a central portion (301) of the sub-dam (300) A plurality of projecting members 310 protruding upward in the water flow direction to block the contaminants from flowing water; And a net member (320) formed on an edge (302) of the sub dam (300) and formed to automatically open toward an upper direction when a river level rises. .

It is preferable that a plurality of the protruding members 310 are formed at intervals along the width direction and the longitudinal direction of the stream.

The protruding member 310 is formed in a row along the longitudinal direction of the stream and is formed at a rear side of a space between the plurality of protruding members 310a constituting the front row, .

The membrane member 320 includes a body 321 rising on the upper part of the river when the water level rises; A plurality of members 323 are coupled by a hinge 324 so as to be spread upward by the body 321 and a body portion 322 which is overlapped in a downward direction at a normal water level, ; And a fixing portion 325 on which the lower portion of the body portion 322 is fixed to the upper portion of the sub dam 300.

As the water level of the stream rises, the body member 321 is automatically raised to the upper part of the river and the body part 322 in a state of being overlapped by the body 321 is moved upward Direction.

The membrane member 320 is preferably a wire mesh.

And a collection member 330 formed at the rear of the membrane member 320 with respect to a flow direction of the water flow so as to collect the contaminants caught in the membrane member 320.

The collection member 330 includes a plurality of drive piles 331 disposed on both sides of the rear side of the membrane member 320 and configured to rotate; A rotatable belt 332 installed outside the plurality of drive piles 331 and connected to the plurality of drive piles 331 and circulating by the rotation of the drive pile 331; And a scraper 334 protruding from the outer side of the rotatable belt 332 to collect the impurities caught in the film member 320 and provided at a plurality of spaced intervals.

The collection member 330 further includes a rotation socket 340 connected to an actuator 350 that outputs a rotational force to rotate the driving pile 331 and coupled to an upper portion of the driving pile 331 .

The rotatable belt 332 is preferably formed with a water hole 333 along the height direction so that water can be discharged.

The present invention relates to a dam (200) for preventing the flow of a river; And a dam (300) provided on an upstream side of the main dam (200) to form an ecological arc (100), the height of which is lower than that of the main dam (200). Together.

The present invention relates to a dam capable of improving the blocking function of a dirt and automatically collecting dirt and garbage to prevent the loss of function of the dam dam, securing water quality of the ecological lake, Present the structure.

1 is a sectional view of a conventional dam and a dam.
2 is a sectional view of a conventional dam;
3 to 7 illustrate an embodiment of the dam according to the present invention,
3 is a cross-sectional view of one embodiment.
4 is a plan view of one embodiment.
5 is a side view showing the operating state of the membrane member.
6 is a perspective view of one embodiment of a collection member;
7 is a sectional view showing a coupled state of the drive pile and the rotary socket.
8 is a plan view of an embodiment of an ecological arming structure using a dam according to the present invention.

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

3, the center portion 301 of the sub-dam 300 is formed in a recessed structure so that water can flow through the center portion 301, A plurality of projecting members 310 protruding upward in the water flow direction to block the contaminants from flowing water; And a mesh structure 320 formed at the edge 302 of the sub dam 300 and formed to automatically open toward the upper direction when the water level of the stream rises.

Generally, the flow rate of the flowing water is determined by the flow rate of the carrier material.

In other words, as the flow velocity of the stream increases, the particles that can be transported become larger, and when the flow rate is slowed down, the transport force becomes smaller and the particles become relatively light.

As the flow velocity of the stream is the fastest at the central part and the flow rate becomes slower toward the edge, large-sized obstacles are mainly transported to the central part of the stream, and small-sized obstacles are transported to the edge of the stream.

The central portion 301 of the sub dam 300 according to the present invention is formed in a recessed structure and the protrusion member 310 is provided in the central portion 301 because the flow velocity of the river is fast at the central portion as described above, The water flow that is opposed to the central portion 301 of the water tank 300 includes a large obstacle so as to block such a large obstacle and allow the flowing water to flow over.

Through such a structure, it is possible to effectively prevent the large particles such as splinters and the like from being moved downstream, and to prevent the sub dam 300 from being damaged or lost by the sludge force, And the structural stability can be improved.

In other words, since the conventional dam 10 merely functions as a reservoir for collecting turbid water in the reservoir region 1, there is a problem that it is difficult to maintain the ecosystem and the quality of the water is difficult to obtain because the impurities flow downstream into the reservoir 1. However, Can overcome such conventional problems through the above structure.

In addition, the boom dam 300 shown in the present invention has a structure in which a mesh member 320 having a net structure formed to be automatically spread toward the upper direction is installed on the edge 302 of the dam 300 when the water level of the river rises (Figs. 3 and 4).

As described above, since the flow velocity of the stream decreases toward the edge, the water flow opposite to the edge 302 of the sub dam 300 mainly includes small particles.

Since the edge 302 of the sub dam 300 of the present invention is formed to have a height higher than that of the central portion 301, the water flows over the central portion 301 formed in the recessed structure at the normal water level, Of the water flowing in the opposite direction, the small-sized obstruction naturally collides with the sub dam 300 to be precipitated.

On the other hand, at the time of heavy rain, the water level of the river becomes higher than the height of the protruding member 310 installed at the central portion 301, so that the sub dam 300 may be flooded or the river may flow backward.

Accordingly, in the present invention, a structure in which the film member 320 is spread toward the upper direction on the edge 302 of the sub dam 300 automatically in a rainy time is provided so that the small-sized obstruction can be effectively blocked.

Accordingly, the boom dam 300 of the present invention not only blocks large-sized obstacles and small-sized obstacles at a normal water level, but also can effectively block small-sized obstacles in response to a rise in the water level even in a rainy season.

Specifically, the membrane member 320 functions not only to block the large-sized contaminants preferentially, but also to collect the cryogenes such as gravel and coarse sand.

In addition, the membrane member 320 is formed in a net structure, and functions as a water-permeable member to smoothly discharge the water between the nets.

Accordingly, it is possible to prevent the sub dam 300 from being damaged by the crushing force, thereby improving durability and structural stability.

The structure of the sub dam 300 of the present invention will be described in more detail as follows.

First, a plurality of protruding members 310 protruding from the central portion 301 of the sub dam 300 are formed in a plurality of intervals along the width direction and the longitudinal direction of the river.

With this structure, it is possible to more effectively block the impurities and reduce the flow velocity.

Particularly, the protruding members 310 are formed in rows along the longitudinal direction of the stream, and a plurality of protruding members 310b constituting a rear column are formed behind the space between the plurality of protruding members 310a constituting the front heat (Fig. 4).

That is, the projecting members 310a and 310b of the front row and the rear row are formed to cross each other along the longitudinal direction of the river.

With this structure, it is possible to more effectively block large particles and pollutants such as impurities without obstructing the flow of the stream.

On the other hand, a structure for automatically unfolding the membrane member 320 of the present invention when the water level of the stream rises is as follows.

When the water level rises, the membrane member 320 is joined by the hinge 324 to the upper surface of the support member 321 floating on the upper portion of the stream, and the plurality of members 323 are extended by the support member 321 in the upward direction, A body portion 322 overlapped in a downward direction at a normal water level and a fixing portion 325 in which a lower portion of the body portion 322 is fixed to an upper portion of the sub dam 300 (FIG. 5) .

In other words, as the water level of the river rises, the membrane member 320 automatically floats on the upper part of the river 321 and the body part 322 in a state of being overlapped by the support body 321 moves upward .

As a result, the water level of the river rises due to rain or the like, thereby effectively preventing the sub-dam 300 from flooding or rising the water level when the river flows backward, thereby blocking the small-sized obstruction.

Further, even if small scum, trash or the like is caught in the membrane member 320, the weight of the scum and the trash can be more firmly held by the body 321. [

The membrane member 320 of the present invention may be any member that satisfies the above functions, but it is preferable from the viewpoints of functional and structural aspects to use a wire mesh.

Meanwhile, in the related art, the function of the sub dam 10 is deteriorated due to the clogging of the sub dam 10, and the water storage area is contaminated by the floats and the garbage, which is a disadvantageous environment for various plants and animals, In order to eliminate this, it had to be handled by the garbage collection line.

This is disadvantageous in that it is very cumbersome to work and takes a long time, which makes it impossible to take quick action.

In order to solve the above-described problems, the sub dam 300 of the present invention has a structure in which the collection member 330 is formed on the rear side of the membrane member 320 with respect to the flow direction of the running water, Thereby automatically collecting the trapped contaminants (Figs. 4 and 6).

There is no hassle to manually handle the obstacles and trashes caught by the membrane member 320, and the time required for the maintenance work can be shortened, so that quick measures can be taken.

These collection members 330 are disposed on both sides of the rear side of the membrane member 320 and include a plurality of driving piles 331 formed to rotate and a plurality of driving piles 331 disposed outside the plurality of driving piles 331, A rotatable belt 332 which is formed so as to mutually connect the rotating shaft 331 and circulates by the rotation of the driving pile 331 and a contaminant formed on the outer side of the rotatable belt 332 and caught in the film member 320 And a plurality of spaced apart scrapers 334 (FIG. 6).

That is, as the rotatable belt 332 is circulated by the rotation of the driving piles 331 arranged on both sides, the scrapers 334 automatically collect the obstacles caught in the film member 320.

Here, it is preferable that the driving pile 331 is connected to an actuator 350 that outputs a rotational force to rotate, and that a rotating socket 340 is coupled to an upper portion of the driving pile 331 (FIG. 7).

The actuator 350 is effective in terms of function from the use of a drive motor or a hydraulic motor.

The rotating type belt 332 preferably has a water hole 333 along the height direction so that the water can be smoothly discharged.

Thus, the rotatable belt 332 is prevented from being damaged by running water and the durability thereof is prevented from being lowered, and stable driving is enabled.

The sub dam 300 of the present invention is preferably installed in the following ecological arming structure.

That is, the dam 200 for blocking the flow of the river and the dam 300 of the present invention, which is provided on the upstream side of the dam 200 to form the ecological arc 100, (Fig. 8).

As described above, the sub-dam 300 of the present invention prevents the entry of contaminants and small particles of large particles such as impurities, large gravel, and wood into the downstream of the sub dam 300 to enhance the ecological function of the river and improve the landscape And the function of the sub dam 300 can be effectively exerted in response to a rise in the water level in the rainy season.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: conventional dam 20: conventional dam
100: Ecological history 200: Dam
300: Boat dam 301: Central part of boom dam
302: edge of the sub dam 310: projecting member
320: membrane member 321:
322: body portion 323: plural members
324: Hinges 325:
330: collection member 331: driven pile
332: Rotation type belt 333: Water supply hole
334: Scraper 350: Actuator
340: Rotating socket

Claims (11)

In a dam (300) installed in a river,
The central portion 301 of the sub dam 300 is formed to have a recessed structure so that water flow can flow and a plurality of projecting members 310 protruding upward in the central portion 301 to block the contaminants from flowing water, ;
And a mesh member 320 formed at an edge 302 of the sub dam 300 and formed to automatically open toward the upper side when the level of the river rises,
The protruding member 310
Wherein a plurality of streams are formed along the width direction and the longitudinal direction of the stream, the streams being formed along the longitudinal direction of the stream,
The plurality of projecting members 310b constituting the rear heat are positioned behind the space between the plurality of projecting members 310a constituting the front row,
The membrane member 320
When the water level rises, the main body 321 rising on the upper part of the river,
A plurality of members 323 are coupled by a hinge 324 so as to be spread upward by the body 321 and a body portion 322 which is overlapped in a downward direction at a normal water level, ,
And a fixing part (325) to which the lower part of the body part (322) is fixed to the upper part of the sub dam (300)
As the level of the river rises, the body 321 is automatically raised on the upper part of the river, and the body 322 in the overlapped state by the body 321 is spread upward. (300). delete delete delete delete The method according to claim 1,
The membrane member 320
Characterized in that it is a wire mesh. The method according to claim 1,
A collection member 330 formed on the rear side of the membrane member 320 with respect to a flow direction of the water flow so as to collect contaminants trapped in the membrane member 320;
(300). ≪ / RTI > 8. The method of claim 7,
The collection member 330
A plurality of drive piles (331) disposed on both sides of the rear side of the membrane member (320) and configured to rotate;
A rotatable belt 332 installed outside the plurality of drive piles 331 and connected to the plurality of drive piles 331 and circulating by the rotation of the drive pile 331;
A scraper 334 formed on the outer side of the rotatable belt 332 and collecting the impurities caught in the film member 320,
(300). 9. The method of claim 8,
The collection member 330
A rotating socket 340 connected to an actuator 350 for outputting rotational force to rotate the driving pile 331 and coupled to an upper portion of the driving pile 331,
(300). ≪ / RTI > 9. The method of claim 8,
The rotatable belt 332
And a water supply hole (333) is formed along the height direction so that water flows out. This dam (200) prevents the flow of the river;
The dam (300) according to any one of claims 1 to 6, which is provided on the upstream side of the main dam (200) to form the ecological arc (100) and has a lower height than the main dam (200) ;of
Wherein the ecological calligraphic structure comprises:

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