KR20060000366A - Method and apparatus for regulating flow rate and flow rate of fish - Google Patents

Abstract

The present invention relates to a method and a device for adjusting the flow rate and flow rate of the esophagus, and more particularly, to an upstream side of the esophagus to adjust the flow rate and the flow rate in the esophagus corresponding to the fluctuation of the water level in the river A method and apparatus for adjusting the flow rate and flow rate of an estuary by installing a plurality of gates at different intervals at regular intervals, and installing a plurality of gates in an upstream side and a plurality of gates in a descending order in the downstream side. It is about.

To this end, the present invention is to install a culvert having a width equal to the esophagus, the height is higher than the flood level in the estuary inlet, and the one or a plurality of different heights of the lower than the culvert is installed inside the culvert.

When the water level in the river rises, close all of the floodgates so that the inflow of water flows through the floodgates in order to flow down. The inflow water flows under the water gate to the water gate, and overflows to the closed water gate with low height on the downstream side, and when the normal water level is reached, all the gates are opened to flow below the water gate to control the flow rate and flow rate.

Hydroponics, Culverts, Sluice, Underwater Beams, Geared Motors

Description

Method and apparatus for regulating flow rate and flow rate in fish

Figure 1. Sectional view of a hydrofoil

Figure 2. Cross-sectional view of the channel type fishery when the river level is H1 to H2

Figure 3. Cross-sectional view of waterway type fishes when river level is H2 ~ H3

Figure 4. Cross-sectional view of the channel type fishery when the water level is H3 to H4

Figure 5. Cross-sectional view of waterway type fishery when river level is less than H4 (plain level)

Figure 6. Floor plan of a hydrographic esophagus installed upstream

Figure 7. Detailed view of the sluice's hole and reservoir wall

<Part description of main parts of drawing>

10. Channel type 20. Culvert 30. Underwater beam 40, 41, 42. water gate

50,51,52. Geared Motor 60,16,62. Spindle 70,71,72. hole

80,81,82. Reservoir wall

The present invention relates to a method and a device for adjusting the flow rate and flow rate of the fish to be installed in the river, and more particularly, to the extent that a variety of fish can be easily incinerated in response to changes in the water level of the river In order to maintain the flow rate and flow rate in the upstream of the fishery, install culverts that are the same as the fish and have a height higher than the flood level, and install hydrographs of different heights inside the river, which may cause the river water to overflow the watergate according to the water level. The present invention relates to a method and an apparatus for adjusting the flow rate and flow rate of an esophagus by flowing under a water gate.

Since the estuary of the river is designed and constructed in consideration of the flow rate and flow rate of the river, there is no problem in fish stocks when the normal flow rate and flow rate are maintained, but as the river level increases, the flow rate in the estuary increases and the flow rate increases. Is faster, making it more difficult to fish.

In order to solve this problem, a flat type of waterway, a flat type, a wall type, and a stepped type of fish have been developed as a way to reduce the flow rate of the fish.However, if the water level rises due to the change of upstream area, the location, width, length, height and gradient of the fish Irrespective of the fact that the water level of the fish is also increased at the same time, the flow velocity is increased, and thus, small injuries are difficult for a certain period of time, and the fish is not functioning properly.

In order to solve the above problems, the present invention is designed to be constructed and constructed on the basis of the water level and flow rate and flow rate of the river, even if the water level and flow rate of the river is rapidly increased due to the influence of the upstream region, It is intended to provide a method and apparatus for passing water at normal flow rates and flow rates that are reflected and constructed.

To this end, the present invention is to install a culvert with a width equal to the esophagus and the height is higher than the heung water level, and the height of the culvert is less than 1/2 of the height of the culvert, the difference between each height is less than 0.5m Alternatively, a plurality of sluice gates are placed from the upstream side to the downstream side, starting from the high side to the low side in order of height, and varying the length of the esophagus in the length of the culvert according to the fluctuation of water level, and raising the height of the underwater beam. It can also help to control the flow rate and flow rate of the fish.

The present invention is installed inside the culvert installed in the inlet of the esophagus, the height is different, one or a plurality of sluice gates are installed at regular intervals in the order from the upstream side to the height, when the water level rises to close all of the sluice river water corresponding to the water level If the water gate overflows, it forms a pool between the water gates, creating an effect of extending the waterway, and when the water level gradually decreases to prevent water from flowing into the water due to the highest water gate, the water gate Only open the water to flow under the water gate, and the rest of the water gate is closed, and the water gate is opened one by one from the upstream side in order to adjust the flow rate and flow rate of the esophagus. Maintain the flow rate. And each of the gates is opened and closed in conjunction with each geared motor and each flowless switch mounted on the culvert. For fish species such as eel, a plurality of holes are drilled in the sluice, and a reservoir wall is installed in front of it.

If a water channel and a hydrology are installed in a culvert and installed upstream of the underwater beam, many fish can be injured because the effect of attracting the fish by acting as a attractant in position increases.

Hereinafter, described in detail by the accompanying drawings as follows.

As shown in Figure 1, the width of the upstream inlet of the waterway type fishery 10 is equal to the width of the fishery 10, the height of the culvert 20 is installed higher than the flood level, and the inside of the culvert height is less than 1/2, respectively If one or more sluice gates 40, 41, 42 with a difference in height of 0.5 m or less are laid at regular intervals starting from the upstream side to the downstream side in the order of height to the lower side, the same conditions as those of the channel This is further formulated.

The geared motors 50, 51, 52 and the sluices 40, 41, and 42 mounted on the culvert 20 are connected to the spindles 60, 61, 62, It can be opened and closed and operated by FLOATLESS SWITCH which adapts to each fluctuation level H1-H2, H2-H3, H3-H4.

For fish species such as eel, holes 70, 71, and 72 of appropriate size and number are drilled into each of the sluice gates 40, 41, and 42, and the respective storage walls ( 80), (81) and (82) are laid.

Unexplained symbol 30 is an underwater beam.

Due to the culvert 20 installed in the upstream inlet of the channel 10, the water that is passed through the island is separated from the river water that flows into the underwater beam 30 once.

When the water level is increased and the water level is H1 to H2 as shown in Figs. 1 and 2, all of the water flowing down to the waterway is closed by closing all of the water gates 40, 41, and 42.

Then, the depth of water flowing over the underwater beam 30 is H1 to H5 as if it is a waterfall, but the water flow through the inside of the waterway 10 is only H1 to H2, so it flows at the same flow rate. Furthermore, between a plurality of overflowing sluices 40 and 41, between 41 and 42, a pool forms a pool to maintain a leap distance and depth to allow fish to upstream. It may also produce an effect that extends.

When the water level drops and the water level is H2 to H3 as shown in Figs. 1 and 3, the water gate 40 is opened and water at the H2 to H3 level is dropped under the water gate, and the water gates 41 and 42 are closed. Overflow with.

When the water level is further lowered and the water level is H3 to H4 as shown in Figs. 1 and 4, the water gate 41 is further opened to drop the water of the water levels H3 to H4 below the water gates 40 and 41, (42) to overflow in a closed state.

When the river water falls further and falls below H4, which is a level water level as shown in FIGS. 1 and 5, the water gate 42 is also opened to flow water below the water level H4 below the water gate.

Through such a plurality of hydrologic manipulations, the flow rate and flow rate delivered to the fish can be adjusted at all times as in the normal water level.

For fish species such as eel as shown in Fig. 7, holes 70, 71, and 72 were drilled in the sluices 40, 41, and 42, respectively, to allow small injuries through these holes. Reservoir walls 80, 81 and 82 were placed in front of each hole so that they could be reduced.

As shown in FIG. 6, the channel 10 and the water gates 40, 41, and 42 may be installed inside the culvert 20, and may be installed upstream of the underwater beam 30.

As described above, the present invention, by separating the water flowing into the waterway type 10 in the river and the water flowing down into the water beam once, the water gate in the culvert under the same water level acts as a kind of variable underwater beam water flow And the flow rate can be adjusted, and also a plurality of sluice also variable in response to the water level can be extended to the length of the esophagus 10 by the length of the culvert 20 has the effect of improving the function of the esophagus.

In addition, since the holes 70, 71, and 72 were drilled in the sluices 40, 41, and 42, fish such as eel can be injured through this hole, and all fish species can be injured. There is also.

In addition, if the culvert with a channel and a water gate is installed upstream of the underwater beam, the entrance increases the role of attracting water for attracting small fish, which makes it easier to find more fish.

Claims (3)

In the channel type fishery (10), the inlet portion of the fishery (10) is provided with a culvert (20) whose width is the same as the fishery (10) and the height is higher than the flood level. One or more gates 40, 41, and 42 each having a height difference of 0.5 m or less, starting from the upstream side to the downstream side, starting from the high side to the lower side, are laid at regular intervals in the order of height, A method and apparatus for regulating the flow rate and flow rate of an esophagus by causing the river water to be opened and closed one by one, thereby causing the river water to flow over the water gate, and to flow below the water gate. The method and apparatus of claim 1, wherein holes of appropriate size and quantity are drilled in one or a plurality of gates, and a storage wall higher than each gate is installed in front of the gate to allow the fish to be burned with the drilled holes. The waterway system according to claim 1, wherein the waterway type fisheries (10), the water gates (40), (41), and (42) are installed inside the culvert 20, and are installed upstream of the underwater beams 30.

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