KR20200091120A - Decompression dam with ecological flow path - Google Patents

Abstract

The present invention relates to an offset decompression type dam with an ecological flow path, which maintains an ecological environment through free movement of fish or the like in a state where a minimum water level of a river is maintained even if another special fishway is not formed in a dam of a river. A dam according to the present invention comprises: dam columns installed at regular intervals in the width direction of the river; a main ecological flow pool part opened when a minimum holding water level is abnormal at an upper region to form an ecological flow path at a center side among the dam columns; and assistant ecological flow pool parts provided at both sides of the main ecological flow pool part and opened when a water level of the river arises to form ecological flow paths at lower parts. Therefore, the present invention maintains an ecological environment through free movement of fish or the like in a state where a minimum water level of the river is maintained even if other special fishway is not formed in the dam of the river.

Description

Decompression dam with ecological flow path

The present invention relates to an offset pressure-type dam having an ecological flow path, and more particularly, in a dam, a main ecological flow path for opening an ecological flow path when the minimum holding level of the upstream of the dam holding is open above the minimum maintenance level,

It is provided on both sides of the main ecological flow complement, and is provided with an auxiliary ecological flow complement that opens when the water level rises in the river and forms an ecological flow path at the bottom.

The purpose is to maintain an ecological environment through free movement of meat and the like while maintaining a minimum water level in the river without forming a separate fishing island on the dam of the river.

Another object of the present invention is to collect the sediment discharge pipe for generating discharge inducing pressure for discharging sediments deposited on the upstream side and the sediments on the upstream side of the dam to be discharged by the negative pressure discharged by the sediment discharge pipe. A sediment discharge collecting part and a sediment discharge means for discharging sediments discharged through the sediment discharge pipe downstream are provided to discharge sediments deposited on the upstream side of the dam downstream by the river flow to prevent water degradation caused by sediments. The purpose is to maintain a pleasant ecological environment.

In general, dams prevent rivers and keep the water level of the river at a constant level so that the river water can be used for farming and living water.

As described above, dams formed in rivers have the effect of using water for farming and living water, but there was a problem of causing sediment by reducing the flow rate of rivers.

When sediments are generated in the river, the organic matter in the sediment is decayed, and the amount of residual oxygen in the river water is rapidly reduced, causing odor and fish death.

Accordingly, a riverbed dam has been developed and implemented so that the dam is opened from the riverbed so that the riverbed flows.

In the above-described river flow dam, the water gate on the river side is first opened by buoyancy or a traction device, so that the river bed flows and the sediments of the river bed are discharged smoothly.

However, the riverbed flow dam as described above has a problem in that the flow rate due to the riverbed flow is very fast, and thus fish cannot be moved from downstream to upstream.

In addition, as described above, the riverbed dam has a problem in that sediments on the upstream side close to the hydrological body are smoothly discharged, but the flow rate is very low on the upstream side away from the hydrological body so that sediments due to the riverbed flow are not discharged smoothly. .

Republic of Korea Patent Publication No. 10-2016-0131179

Accordingly, the present invention has a problem that the fish flow cannot be moved from the downstream to the upstream because the flow velocity due to the bottom flow is very fast in the bottom flow dam as described above, and the problem of having to install a separate fishing vessel and the upstream side close to the hydrological body The sediment is discharged smoothly, but it is intended to solve the problem that the sediment due to the river flow is not discharged smoothly at the upstream side, which is a certain distance from the hydroponic body.

That is, in the dam, the present invention is a main ecological flow complement that forms an ecological flow path that is open when the minimum holding water level of the upstream is higher than the dam land installed at equal intervals in the width direction of the river and the dam land, and It is characterized in that it is provided on both sides of the main ecological flow guide and is configured as an auxiliary ecological flow guide that opens when the water level rises in the river and forms an ecological flow path at the bottom.

The present invention is characterized by having a rainy season dam opening device that prevents the flow resistance of river water from being generated by opening both the main ecological flow and the secondary ecological flow during rainy season.

The present invention is a fixed decompression beam provided at least two spaced apart toward the downstream side so as to form an ecological flow path between the main ecological flow beam and the auxiliary ecological flow beam between the bottom and the beam and the beam. And a movable decompression beam spaced upstream to form a decompression filling portion between the fixed decompression beam on the upstream side of the fixed decompression beam and the floating decompression beam according to the river level to open the buoyancy between the bottom and the bottom of the movable decompression beam. It is characterized in that it consists of a buoyancy body to form an ecological flow path.

According to the present invention, the rainy season dam opening device is coupled to the main ecological flow part and the auxiliary ecological flow part by sliding operation on the dam column, and the upper and lower side parts of the beam frame are moved up and down according to the user's operation. It is characterized by having a rainy season lifting means that allows the ecological flow and auxiliary ecological flow to be fully opened to the top.

The present invention collects sediment discharge pipes for generating discharge inducing pressure for discharging sediments deposited on the upstream side according to the bed flow and sediments on the upstream side of the dam, so that sediment discharge captures the discharges by the negative pressure discharged by the sediment discharge pipes. It is characterized by having a sediment downstream discharge means on the downstream side of the sub and the sediment discharge pipe.

Therefore, the present invention is provided on both sides of the main ecological flow guide, which is open when the minimum holding water level of the upstream is above the central side of the dam holding the ecological flow path, and is provided on both sides of the main ecological flow holding portion, which is open when the water level of the river rises to the bottom. It is composed of auxiliary ecological flow guides that form an ecological flow path, thereby maintaining an ecological environment through free movement of meat and the like while maintaining a minimum water level in a river dam without forming a separate fishing path.

Figure 1 is an exemplary view showing an embodiment of the main ecological flow and auxiliary ecological flow complement of the present invention.
Figure 2 is an exemplary view showing the operation process of the main ecological flow and auxiliary ecological flow complement of the present invention.
Figure 3 is an exemplary view showing a sequential open state according to the water level of the main ecological flow guide and auxiliary ecological flow guide of the present invention.
Figure 4 is an exemplary view showing that the rainy season opening device in the practice of the present invention was carried out with a pneumatic pressure raising actuator.
Figure 5 is an exemplary view showing that the rainy season dam opening device in the practice of the present invention carried out with a lifting wheel.
6 and 7 is an exemplary view showing that the sediment discharge collecting portion for sediment discharge upstream of the dam in the practice of the present invention comprises a collecting switchboard.
8 is an exemplary view showing that the sediment discharge collecting portion for discharging the sediment upstream of the dam in the practice of the present invention is constituted by an upper side opening and closing plate.
FIG. 9 is an exemplary view showing that the upper side opening and closing plate of FIG. 8 is configured with a hinge actuator.
10 is an exemplary view showing that the upper and lower side plates of the side wall of FIG. 8 are configured with a hinge motor.
11 is an exemplary view showing that the sediment discharge collection part for discharging sediments upstream of the dam is constructed as a waterway blocking door in the practice of the present invention.
12 is an exemplary view showing that the sediment discharge collecting part for sediment discharge upstream of the dam is composed of a collecting channel plate and a collecting and closing channel in the practice of the present invention.
13 and 14 is an exemplary view showing a sediment downstream discharge means for discharging sediments upstream of the dam in the implementation of the present invention as a water retention and maintenance pipe.

Hereinafter, described in detail with reference to the accompanying drawings.

The present invention is to ensure that the ecological environment is maintained through free movement of meat and the like in a state in which the minimum water level of the river is maintained without forming a separate fishing island in the dam of the river, and the scope of the present invention is the embodiment described in the text It should not be construed as limited by. That is, since the embodiments can be variously changed and have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing technical ideas. In addition, the purpose or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such an effect, and the scope of the present invention should not be understood as being limited thereby.

That is, in the dam, the present invention is opened when the minimum holding water level of the upstream is above the central side of the dam column 100 and the dam column 100 installed at equal intervals in the width direction of the river to form an ecological flow path The main ecological flow holding section 210 is provided on both sides of the main ecological flow holding section 210, and is opened when the water level of the river rises to form an ecological flow path at the bottom. It consists of a rainy season dam opening device that prevents the flow resistance of river water from being generated by opening both the beam 210 and the auxiliary ecological flow beam 220.

In addition, the main ecological flow beam 210 and the auxiliary ecological flow beam 220 toward the downstream side to form an ecological flow path between the river bed and the decompression filling portion 234 between the beam and the beam. The separation between the fixed decompression beams 231 and the fixed decompression beams 231, which are spaced apart from two or more, is formed upstream to form a decompression filling portion 234 between the fixed decompression beams 231 and the uppermost side. The movable decompression beam 232 and the movable decompression beam 232 are made of a buoyancy body 233 to open the buoyancy depending on the river level to form an ecological flow path between the bottom of the river and the movable decompression beam 232 will be.

In addition, the rainy season dam opening device is provided with a sliding frame to the dam holding 100 on both sides of the main ecological flow beam 210 and the auxiliary ecological flow beam 220, the beam frame 310 and the beam frame 310 It is equipped with a rainy season lifting means for lifting the main ecological flow holding section 210 and the auxiliary ecological flow holding section 220 to the upper part by moving up and down according to the user's operation during the rainy season from the upper side.

The rainy lifting means can be implemented by constructing a pneumatic elevating actuator 320 that elevates the beam frame 310.

The rainy season lifting means is a hoisting cable 331 that binds the upper end of the beam frame 310, a hoisting wheel 332 that winds up and recommends the hoisting cable 331, and a hoistway condensed and rotated with the hoisting wheel 332 It can be configured and implemented by the copper motor 333.

On the other hand, according to another embodiment of the present invention, sediment discharge pipes 410 for generating discharge induction pressure for discharge of sediments deposited on the upstream side according to the bed flow and the sediment discharge pipes 410 are collected by collecting sediments on the upstream side of the dam. It can be carried out by providing a sediment discharge collection unit 420 and a sediment downstream discharge means on the downstream side of the sediment discharge pipe 410 to be discharged by the negative pressure caused by discharge.

Here, the sediment discharge collecting portion 420 is buried from the upstream to the downstream of the stream toward the downstream and is connected to the sediment discharge pipe 410 to seal the upper part of the collecting channel 421 and the collecting channel 421 to deposit sediments. It is configured as a collection channel opening and closing means for allowing the negative pressure of the discharge pipe 410 to act on the collection channel 421.

The collecting channel opening and closing means is coupled to both sides of the central portion on the upper side of the side wall of the collecting channel 421 and rotated according to the negative pressure applied to the sediment discharge pipe so that the upper portion of the collecting channel 421 is sealed and the sediment discharge pipe 410 at the bottom. It is possible to configure and implement a collection opening and closing plate 430 to form a virtual flow path.

The collecting opening/closing plate 430 is formed vertically and is formed to protrude obliquely upward from the upper end of the opening/closing plate body 431 and the opening/closing plate body 431 to be hinged to seal the upper side of the collecting channel 421. The upper sealing plate 432 and the opening/closing plate body 431 are formed to be inclined downward from the lower end to seal the lower side of the collecting channel 421 so that a continuous pipe of negative pressure of the sediment discharge pipe 410 is formed downward. It is composed of a lower hermetic plate 433.

In another embodiment of the collecting channel opening and closing means, the side wall upper opening and closing plate 441 and the side wall upper opening and closing plate 441, which are hinged to the upper side wall of the collecting channel 421, are hinged to the side of the collecting channel 421. Opening and closing guides formed on the hinge portion of the side wall upper opening and closing plate 441 to open and close the side wall upper opening and closing plate 441 by the movable hinge shaft 442a and the opening and closing pins 442b provided on the movable hinge shaft 442a. The groove 442c, the movable hinge shaft 442a and the linkage-returning shaft 442d, and the movable hinge shaft 442a and the take-up shaft, respectively, can be configured and operated as movable means to be engaged.

The movable means can be implemented by configuring the hinge actuator 443a or a wire to be a hinge motor 443b.

Another embodiment of the collecting channel opening and closing means is to form a door frame 451 at equal intervals on the upper side of the opening of the collecting channel 421, and is hinged to the door frame 451 to collect the collecting channel in a vertical state ( It can be implemented by blocking the flow path of the 421) is composed of a waterway blocking door 452 that is sequentially opened from the bottom to the top by the discharge pressure of the sediment discharge pipe (410).

Another embodiment of the collecting waterway opening and closing means is provided at equal intervals in the collecting waterway 421 and spaced apart and vertically formed to form a collecting drainage channel between the upper surface of the collecting waterway 421. ) Is hinged to the upper side of the downstream side of the collecting channel plate 461 and is inclined toward the downstream side so that the lower end is provided in contact with the lower surface of the collecting channel 421 to the upstream side of the collecting channel plate 461 by discharge pressure. It is composed of a collection opening/closing plate 430 that contacts and closes the upper portion of the collection channel 421.

And, the sediment downstream discharge means is formed to protrude the sediment discharge pipe 410 to the downstream side of the dam, the bottom of the sediment discharge pipe 410 is provided by a sediment discharge door 510 that is opened according to the user's operation It is possible.

In another embodiment of the sediment downstream discharge means, the end of the sediment discharge pipe 410 is configured to be provided on the upstream side of the dam, and sediments discharged from the sediment discharge pipe 410 are stored on the upstream side of the dam and the upstream water is stored. The storage reservoir 521 is formed deeper and deeper than the bottom so that the water state is maintained even when it is not flowing, and the discharge reservoir is formed deeper than the bottom so that the water state is maintained even when no water is flowing upstream on the downstream side of the dam. Forming (522), is disposed downstream from the upstream of the dam beyond the dam, the upstream end is immersed in the collection reservoir (521) and the downstream side is provided with a phase discharge pipe (523) submerged in the discharge reservoir (522), , It is formed in a U-shape at the upstream end and the downstream end of the phase discharge pipe 523, the phase discharge pipe 523 is provided with a water retention and maintenance pipes (524a, 524b) to maintain the filling of water by hydraulic balance It is possible.

In the upper center of the phase discharge pipe 523, a phase water supply valve 523a for initial water supply is provided.

On the other hand, the upstream side water level is lowered so that the upstream side water level is maintained at a constant water level in the upstream side filling and holding pipe 524a of the phase discharge pipe 523, and the upstream end valve 525a is provided to block drainage to the phase discharge pipe 523. It can be done.

It can be carried out by providing a downstream end valve 525b for blocking the drainage in the filling-side holding pipe 524b on the downstream side of the phase discharge pipe 523.

Hereinafter, the operation and effect according to the application room of the present invention will be described.

As described above, in the dam, the center of the dam column 100 and the dam column 100 installed at equal intervals in the width direction of the river is opened when the minimum maintenance water level of the upstream is higher, thereby forming an ecological flow path By applying the present invention, which is provided on both sides of the main ecological flow complement 210 and the main ecological flow compensator 210, is opened when the water level rises in the river and forms an ecological flow path at the bottom. If carried out, free movement of meat and the like is performed while the minimum water level of the river is maintained without forming a separate fishing island on the dam of the river.

In addition, as in another embodiment of the present invention, when the rainy season dam opening device is provided to open both the main ecological flow holding section 210 and the auxiliary ecological flow holding section 220 during the rainy season, the dam is completely opened during the rainy season and the river water Because the flow resistance does not occur, the stream flows smoothly during the rainy season.

In addition, as in another embodiment of the present invention, sediment discharge pipes 410 for generating discharge induction pressure for discharge of sediments deposited on the upstream side according to the river bed flow and the sediments on the upstream side of the dam are collected and collected in the sediment discharge pipes 410. When the sediment discharge collecting unit 420 and the sediment discharge pipe 410 are provided on the downstream side of the sediment discharge pipe 410 to be discharged by the negative pressure caused by the discharge, the sediment deposited on the upstream side of the dam is discharged. It is discharged downstream by pressure, which effectively prevents deterioration of river water quality due to sediment.

In addition, in the practice of the present invention, the end of the sediment discharge pipe 410 is configured to be provided on the upstream side of the dam, and the sediment discharged from the sediment discharge pipe 410 is stored on the upstream side of the dam. The trapped reservoir portion 521 is formed deeper than the lower bed so that the reservoir is maintained even when the upstream water does not flow, and the deeper than the lower bed is maintained so that the reservoir is maintained even when the water does not flow upstream on the downstream side of the dam. Formed discharge reservoir 522 is formed, is disposed downstream from the dam upstream beyond the dam, the upstream end is immersed in the collection reservoir 521 and the downstream side is a phase discharge pipe 523 submerged in the discharge reservoir 522 ), and is formed in a U-shape at the upstream end and the downstream end of the phase discharge pipe 523 to maintain the filling of the water discharge maintenance pipes 524a and 524b to maintain the filling of the water by hydraulic balance in the phase discharge pipe 523. When carried out, the sediment discharged through the sediment discharge pipe 410 due to the phase difference through the phase discharge pipe 523 is smoothly discharged downstream without a separate power source.

100: dam holding
210: Main Ecological Flow
220: Assisted ecological flow
231: Fixed decompression beam 232: Movable decompression beam 233: Beam holding body
234: decompression filling part
310: Boframe
320: pneumatic boosting actuator
331: lifting cable 332: lifting wheel 333: lifting driving motor
410: sediment discharge pipe
420: sediment discharge collection unit
421: catchment channel
430: collection switchboard
431: opening and closing plate body 432: upper sealing plate 433: lower sealing plate
441: upper side opening and closing plate
442a: movable hinge shaft 442b: opening and closing pin
442c: opening/closing guide groove 442d: return shaft
443a: hinge actuator 443b: hinge motor
451: Door frame 452: Waterway blocking door
461: collecting channel plate 462: collecting valve plate
510: sediment discharge door
521: collection reservoir 522: discharge reservoir
523: phase discharge pipe 523a: phase water supply valve
524a, 524b: Chungsu maintenance
525a: upstream end valve 525b: downstream end valve

Claims (3)

In the dam,
The main ecological flow guide and the main ecological flow guide which are open when the minimum holding water level of the upstream is higher than the dam holding column installed at equal intervals in the width direction of the river and above the minimum holding level on the central side are provided. Consists of an auxiliary ecological flow guide that opens when the water level rises and forms an ecological flow path at the bottom.
The present invention is a fixed decompression beam provided at least two spaced apart toward the downstream side so as to form an ecological flow path between the main ecological flow beam and the auxiliary ecological flow beam between the bottom and the beam and the beam. And the movable decompression beam spaced upstream to form a decompression filling portion between the fixed decompression beam and the fixed decompression beam on the upstream side of the fixed decompression beam, and the buoyant opening of the movable decompression beam according to the water level between the bottom of the bottom and the movable decompression beam. An offsetting dam with an ecological flow path, characterized in that it consists of a complementary force body to form an ecological flow path.
According to claim 1;
A rainy season dam opening device is provided to prevent the flow resistance of river water from being generated by opening both the main ecological flow and the secondary ecological flow.
The rainy season dam opening device is equipped with a beam frame that is slidably coupled to the dam column at both sides of the main ecological flow and auxiliary ecological flow, and the main ecological flow by moving up and down according to the user's operation in the rainy season on the upper side of the beam frame. And an ecological flow path, characterized in that it has a rainy season lifting means to allow the auxiliary ecological flow to be fully opened to the top.
According to claim 1;
A sediment discharge collecting portion for collecting sediment discharge pipes for generating discharge inducing pressure for discharging sediments deposited on the upstream side according to the riverbed flow and sediments on the upstream side of the dam to be discharged by the negative pressure of the discharge by the sediment discharge pipes, and the An offsetting type dam with an ecological flow path, characterized by comprising a sediment downstream discharge means on the downstream side of the sediment discharge pipe.

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