KR20190100805A - Drop structure having fish ladder usable as sediment passage - Google Patents

Abstract

The present invention relates to a drop structure arranged in a river. The drop structure comprises: a main body installed across a river and extended vertically to form a drop between an upstream portion and a downstream portion; a water receiver extended from a lower surface of the main body to a downstream side to receive water dropping downstream from the main body; a fishway waterway inclined downwards to a downstream side from the main body; an upstream protection structure extended to an upstream side from an inlet of the fishway waterway to be installed; and a downstream protection structure extended to a downstream side from an outlet of the fishway waterway to be installed. The inlet of the fishway waterway is constructed by cutting an upper surface of the main body downwards in a groove shape. A selectively opened/closed sluice is arranged on the inlet of the fishway waterway. The upper surface of the main body is formed to be inclined downwards towards the fishway waterway from both sides of the inlet of the fishway waterway. An upper surface of the upstream protection structure is formed to be continuous with a bottom surface of the inlet of the fishway waterway, and an upper surface of the downstream protection structure is formed to be continuous with a bottom surface of the outlet of the fishway waterway.

Description

Drop structure having fish ladder usable as sediment passage}

The present invention relates to a free fall hole, specifically, having an esophagus which is a passage for fish coming and going between upstream and downstream blocked by the free fall hole, and a sediment in which the esophagus flows sediments such as sand deposited upstream of the free fall hole downstream. It relates to a drop hole of a structure that can also be used as a passing channel.

Free fall hole is a structure of vertical or inclined waterway which is installed for the purpose of safely lowering the water level in rivers and reducing excess energy, and is installed for the purpose of stabilization of riverbed in rivers with steep slopes. Unlike the beams that raise the water level by confining river runoff for the purpose of securing water, the free fall hole is usually installed when there is a high possibility of scour and erosion in the natural state because of the steep slope.

In a typical stepped drop hole, a structure installed across the river blocks the flow of water, and the flow of the river flows over the drop hole and falls downstream.

Since the drop hole prevents the fish from moving up and down the drop hole like the Bona dam, it is necessary to install a fish that can move between the up and down the drop hole.

A typical fishery is a waterway with a gentle slope that allows fish to swim upstream. Even if the fish is properly prepared and the fish travels smoothly using the fishery, the inlet and outlet of the fishery are used for tidal currents. There is a problem that will become a hunting place.

In addition, since the dropping holes store the earth and sand flowing in the upstream and do not discharge the downstream, there is a problem that the soil is deposited up to the top of the dropping hole in the upstream section and the local scour occurs downstream.

Korean Patent Publication No. 10-0781134 (Document 1) discloses a rubber beam, which installs a rubber tube across a river, injects air into the rubber tube to block the river, and when it is necessary to outflow the deposited soil, Air is drawn out of the tube to allow the sediment deposited upstream to run out.

However, the rubber beam of Document 1 is suitable to function as a water trap to increase the water level, and is not suitable to function as a free fall hole, and also causes a sudden flow of water by shrinking the rubber tube for the discharge of the soil. have.

Republic of Korea Patent Publication No. 10-0781134 (Document 1) Republic of Korea Utility Model Registration No. 20-0432314 (Document 2)

The present invention is to provide a structure of a drop hole that is installed across the river.

The present invention is to provide a structure of a drop hole with a fish that can move the fish between the up and down of the drop hole, in consideration of the problem of the conventional drop hole, in the movement of the fish through the fish while having a suitable structure to move the fish The aim is to provide a structure of freefall holes, which cover the esophagus of a structure in which fish are not captured by algae.

In addition, the present invention is to solve the problem of earth and sand deposited upstream of the free fall hole in the prior art, to provide a free fall hole having a structure capable of flowing the earth and sand deposited upstream of the free fall hole downstream.

As a means for solving the above-described problems of the present invention, the inventors of the present invention to provide an airway channel, which is a passage through which fish moves up and down the drop hole, and at the same time, the channel also discharges the earth and sand deposited downstream of the drop hole upstream. A possible configuration was devised.

Drop hole according to the invention.

A body installed across the stream and extending vertically to form a drop between upstream and downstream;

A drip tray extending downstream from the bottom of the main body and receiving water falling downstream from the main body;

An airway channel inclined downward from the main body downwardly;

An upstream protection hole extending upstream from the inlet of the waterway; And

A downstream protective hole extending from the outlet of the waterway to the downstream side;

Including,

The entrance of the aqueduct is provided with the upper surface of the main body cut in the form of a groove to the lower side, the entrance of the aqueduct is provided with a water gate that is selectively opened and closed,

The upper surface of the body is formed to be inclined downward toward the esophagus canal from both sides of the inlet canal,

The upper surface of the upstream guard is formed continuously with the bottom surface of the inlet canal, and the upper surface of the downstream guard is formed continuously with the outlet bottom of the canal channel.

According to this configuration, the fish moves from the upper surface of the downstream protective hole, the outlet of the fishing channel connected to the upper surface to the inlet of the fishing channel connected to the lower surface of the upstream protective hole, and the upper surface of the upstream protective hole connected to the inlet. Is formed.

Water is stored by the main body upstream of the free fall hole, and overflows to the lowest part of the upper surface of the main body. The upper surface of the main body is inclined downward toward both sides of the estuary waterway, so the main body of the water gate and its vicinity It will flow over the top surface.

According to such a structure, even in a river with a small flow volume and a large width | variety, the water path is formed toward the waterway at least.

When the water gate is opened, water enters the inlet of the aqueduct and flows along the aqueduct to the outlet, and the fish can move between the upstream and downstream of the drophole along the aqueduct, and the sediment deposited upstream is discharged downstream through the aqueduct. do.

In particular, upstream of the free fall hole, the water flowing downstream is guided to flow toward the inlet side of the aqueduct, so that a water path is formed, so that the fish moved upstream along the aqueduct can easily move. In addition, since the waterway is selectively opened by the opening and closing of the water gate, opening the waterway at night when there is no activity of the bird reduces the catch of the bird during the movement of the fish.

In addition, by opening the water gate and opening the waterway, the earth and sand discharged downstream through the waterway can prevent the soil from being deposited upstream and raising the height of the riverbed.

As an additional feature of the invention, the upper surface of the upstream protection hole and the downstream protection hole and the bottom surface of the waterway can be configured to be attached to the sandstone. These sandstones lower the flow rate to allow for the movement of fish through the aqueduct, and may serve as a pedestal for jumping as fish go upstream from the inclined aqueduct.

In addition, as an additional feature of the present invention, the tip of the upstream protection hole or the downstream protection hole may be formed in a semicircular or elliptical planar border.

This facilitates the flow of water flowing through the upstream guards toward the inlet of the aqueduct, and smoothly at the tip of the downstream guards of the flow of water or earth and sand discharged through the aqueduct.

1 and 2 are a perspective view and a plan view showing the configuration of a drop hole according to an embodiment of the present invention, respectively.
3 is a longitudinal sectional view taken along the line AA of FIG. 2.

Hereinafter, with reference to the accompanying drawings, Figures 1 to 3 will be described an embodiment of the drop hole according to the present invention as a specific content for practicing the present invention.

The free fall hole of the present embodiment is installed across the stream, and the flow rate of the river is installed in the small and medium-sized rivers in Korea, where the flow rate of the stream is about 0.1 m3 / sec at the time of the flat bottom and the flow rate is several thousand m3 / sec at the time of the flood. It is an example.

The free fall hole is installed across the stream and extends vertically to form a free fall between upstream and downstream, and a drip tray 13 that flows downstream from the bottom of the main body 10 to fall downstream from the top of the main body. And extending upstream from the outlet of the upper waterway channel 30 extending downward from the main body 10 to the downstream side, the upstream protection hole 20 extending from the inlet of the waterway 30 upstream, and the outlet of the waterway channel 30. It consists of the downstream protection hole 40 installed, and the water gate 34 installed in the inlet of the fishing channel 30.

The main body 10 is a concrete structure that is provided vertically upwards to the bottom of the river and has a form in which the thickness thereof becomes narrower toward the upper side.

The bottom face 12 of the main body 10 extends upstream and downstream, respectively, and forms the drip tray 13 in the downstream side. The drip tray serves to protect the downstream from being eroded by the runoff falling through the drop hole.

The upper surface of the main body 10 is formed to be inclined. Although the entire upper surface of the main body 10 is shown to be inclined in the drawing, only a part of the upper surface may be formed to be inclined.

The upper surface 11 of the main body 11 is inclined downward from either side toward any one point, and a groove is formed at the point where the inclined surfaces meet each other, and this portion forms the inlet 35 of the waterway 30. In other words, the upper surface 11 of the main body is formed to be inclined downward from both sides toward the inlet 35 of the waterway to form a 'V' shape.

As a result, the inlet 35 of the waterway can be lower than the lowest portion of the inclined top surface 11 of the main body, and the water upstream of the free fall hole flows into the inlet 35 of the waterway and enters the waterway 30. Will flow.

A sluice gate 34 is provided at the entrance 35 of the canal channel. Although not specifically shown in the drawing, the water gate is conductively formed, and as shown by the dotted line in FIG. 3, the water gate is conducted toward the downstream of the waterway 30 at the time of opening so that the water upstream of the drop hole is open to the waterway. It flows into (30).

The structure of the opening of the conductive hydrograph is well known and will not be described in detail. The water gate 34 may be opened or closed by a hydraulic device, and the like, and the hydraulic device may be automatically opened or closed by a separate controller (not shown). For example, during the night time, the water gate 34 is inverted so that the inlet 35 of the waterway can be opened so that water can flow in from the upstream and flow downstream along the waterway 30 so that the fish can move and close during the day. It can be controlled to open when the flow rate of the river increases rapidly, such as during flood or rainy season.

The waterway 30 is formed by extending from the inlet 35 provided on the upper surface 11 of the main body to the upper surface 41 of the downstream protective hole 40 through which the water surface 30 can flow. The surface 31 forms a surface continuous with the upper surface 41 of the downstream protective hole 40.

The waterway channel 30 is formed of a concrete structure integral with the main body 10, and is provided with sidewalls 33 installed upwardly in both width directions of the bottom surface 31 to the side walls 33 and the bottom surface 31. The enclosed space extends from the inlet 35 provided on the main body upper surface 11 to the outlet 36 which meets the upper surface 41 of the downstream protective hole 40, through which the water enters from the upstream of the free fall hole. It flows into the 35 and flows down to the outlet 36, and the fish move through this space.

In the case of a freefall hole installed in a small river with a flow rate of about 0.1 m ³ per second, the width of the fish channel 30 is about 0.5 m, and the roughness coefficient of the mandrel has a manning roughness coefficient of about 0.035. And, if the inclination is formed to about 1/4, the water flow having a depth of 0.1 m in the waterway 30 can be formed, thereby ensuring a sufficient flow rate and depth for the fish to move.

It is preferable that the side wall 33 of the waterway is 0.3 m or more in height. The side walls maintain the water depth in the aqueduct, and in particular, when the soil is discharged, the flow of the sediment flowing out through the aqueduct is led.

The upstream protection hole 20 and the downstream protection hole 40 are formed of a concrete structure together with the main body 10.

The upstream protective hole 20 is formed at the same height as the bottom surface 31 of the upper surface 21 at the entrance 35 of the waterway, and is matched with the upper and lower elevations.

The upstream guard hole 20 is rectangular in plan view on the inlet 35 side of the waterway, but the tip of the upstream side is formed in a semicircular shape so that the flow of the stream flowing to the upstream guard hole 20 can flow uniformly. .

The downstream protection hole 40 is also formed in the same form as the upstream protection hole 20, and the height of the upper surface 41 is matched with the lower upper elevation. The tip of the downstream protective hole 40 toward the downstream is made of a semi-circular, so that the water flowing along the waterway 30 leaves the downstream protective hole 40 to form a uniform flow.

The tip of the upstream protection hole 20 and the downstream protection hole 40 may be formed in a gentle curved form that does not give a sudden change in the flow of water, such as an ellipse in addition to the semicircular.

On the other hand, dead stones 22, 32, and 42 are attached to the upper surface 21 of the upstream protective hole 20, the upper surface 41 of the downstream protective hole, and the bottom surface 31 of the airway 30. The sandstone blocks the flow of water to lower the flow rate, thereby facilitating the movement of the fish, and at the same time, acting as a pedestal to jump when the fish ascends along the channel 30 from the downstream.

Reference numeral 1, which is not described in the drawings, refers to the earth and sand deposited on the river to form the river bottom.

The operation of the free fall hole of the present embodiment having such a configuration will be described with reference to the cross-sectional view of FIG. 3.

In FIG. 3, the water level of the state in which the flow volume of a river is a flat bottom view and the water gate 34 is closed is shown.

The height of the upper end of the water gate 34 and the height of the lowest part in the upper surface 11 of the main body are matched with the surface height B upstream of the free fall hole at the time of flat water storage. In addition, the upper surface of the drip tray 12 is formed in accordance with the water level C downstream.

When the sluice gate 34 is closed, the water flowing upstream of the free fall hole flows downstream along the drip tray 12 or the bottom surface 31 of the waterway, beyond the top of the sluice gate 34 and the upper surface 11 of the body. .

As shown by the dashed-dotted line in FIG. 3, when the water gate 34 is conducted to the bottom surface 31 of the waterway and is open, water from upstream passes the entrance of the water supply 30 beyond the conducted water gate 34. It passes and flows along the bottom surface 31 of the waterway to the outlet 36 of the waterway, and flows downstream along the upper surface 41 of the downstream protective hole 40.

Small and medium sized rivers with a large difference in the flow rate between the dry season and the flood period may not have a water path suitable for fish movement because the flow rate is small in the dry season compared to the wide river bed width.

However, in the river in which the free fall hole of the present embodiment is installed, the upper surface 11 of the main body is inclined downward toward the sluice 34 to form a 'V' shape, and in any case at the time of opening or closing the sluice, that is, upstream. Since the water path is formed toward the protection hole 20, the water gate 34 is opened to facilitate the movement at the inlet of the waterway 30 when the fish moves.

In addition, since water is introduced along the upper surface 21 of the upstream protection hole and flows out along the upper surface 41 of the downstream protection hole 40, scour due to the flow of water in the upstream and downstream of the free fall hole is prevented.

When the sluice gate 34 is opened so that the upstream water flows along the waterway 34, the sedimentary soil deposited upstream flows downstream through the waterway. The earth and sand are discharged downstream through the outlet of the waterway along the upper surface of the upstream protection hole 20 installed in accordance with the upper and lower elevations, so that the soil is not deposited up to the height above the lower elevation.

In particular, during flooding, a large amount of soil is moved downstream along the flow of the river, and is deposited in the upstream of the free fall hole, which causes a high elevation of the down river in the free fall hole. In the free fall hole of the present embodiment, the floodgate 34 is opened during the flood. Soil can be discharged downstream.

As described above, according to the configuration and function of the free fall hole according to the present embodiment, the waterway 34 has a function of allowing fish to travel between the top and bottom of the free fall hole, and the earth and sand are deposited upstream of the free fall hole to increase the height of the lower sea level. Prevent it.

On the other hand, at the entrance or the exit of the estuary channel in the bore or drop hole where the estuary is provided, a bird catches fish.

However, since the freeway canal 30 of the drop hole of the present embodiment operates in accordance with the opening and closing of the waterway 34, the waterway 34 is closed during the day when birds are active so that fish do not move through the waterway, and at night, The water gate 34 is opened to allow the fish to move as water flows from the upstream to the downstream through the aqueduct 30.

The opening and closing of the water gate can be set to the time in the controller to automatically open and close.

While the configuration and operation of the drop hole of the preferred embodiment of the present invention has been described above, such an embodiment is only one example, and the present invention is not limited to this embodiment and various modifications and additions of components in the scope of the claims are made. Is possible.

10: main body 20: upstream protector
30: Fish channel 34: Sluice
40: downstream protector

Claims (5)

As a free fall ball provided in the river,
A body installed across the stream and extending vertically to form a drop between upstream and downstream;
A drip tray extending downstream from the bottom of the main body and receiving water falling downstream from the main body;
An airway channel inclined downward from the main body downwardly;
An upstream protection hole extending upstream from the inlet of the waterway; And
A downstream protective hole extending from the outlet of the waterway to the downstream side;
Including,
The entrance of the aqueduct is provided with the upper surface of the main body cut in the form of a groove to the lower side, the entrance of the aqueduct is provided with a water gate that is selectively opened and closed,
The upper surface of the body is formed to be inclined downward toward the esophagus canal from both sides of the inlet canal,
The upper surface of the upstream guard hole is formed continuously with the bottom surface of the inlet canal, the upper surface of the downstream guard hole is formed to be continuous with the bottom surface of the outlet channel. The method according to claim 1,
An upstream protector is a drop that is provided so that the upper surface is placed at the lower elevation of the upstream drop, and a downstream protector is provided so that the upper surface is placed at the lower elevation of the downstream drop. The method according to claim 1,
Dropping ball that is attached with sandstone on the upper surface of the upstream protector and the downstream protector and the bottom surface of the aqueduct The method according to claim 1,
A sluice gate is a sluice gate, which, when opened, is oriented down toward the downstream of the waterway and opens. The method according to claim 1,
The tip of an upstream protector or a downstream protector is a freefall hole in which a flat edge is formed in a semicircle or oval shape.

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