KR200380460Y1 - siphon spillway - Google Patents

Abstract

According to the present invention, the siphon channel which can control the drainage by the multi-level water level is extended from the inclined inlet part and the inclined inlet part which is inclined upwardly from the reservoir to the floor of the embankment. A siphon body having a downwardly extending inclined outlet portion, a water level control tube extending from the inclined inlet portion of the siphon body to penetrate the inclined outlet portion and having an on / off valve installed at an end of the inclined inlet portion; The branch pipe is installed at the end of the inclined inlet part and adjusts the water level at different heights, and the branch pipe is provided at one end close to the water tank of the inclined outflow part, and the upper end is extended and the other end is bent so as to be disposed on the extension part. Including the high and low water level discharge inlet and the opening and closing valve is installed in the middle, It is possible to increase the storage capacity of the existing reservoir to the maximum, and it is possible to increase the storage capacity and discharge capacity to the maximum in preparation for floods and heavy rains during heavy rains, so that there is no risk of bank collapse and flooding It is possible to increase the supply capacity of rural water due to the lack of water, and it is possible to reduce the maintenance cost by eliminating the need for electric power because there is no driving device. have.

Description

Siphon spillway with adjustable drainage at multiple levels

The present invention relates to a siphon channel that can control the drainage in a multi-level water level. More specifically, the water level of the reservoir can be drained so that the water level of the embankment or the reservoir can be adjusted in several stages of the highest water level, the normal water level, and the lowest water level. The present invention relates to a siphon channel which is capable of controlling drainage at a multi-level level, which enables efficient use of water and facilitates sufficient water supply and flood control.

Generally, about 17,000 reservoirs of related water in Korea depend on reservoirs for more than 50% of related waters for agricultural land, and over 50% of these reservoirs are used as fixed facilities installed 50 years ago. As a result, there is no flood control function, which is almost unprotected by natural disasters such as sudden torrential rains. In addition, recently, due to abnormal weather caused by the increase of carbon dioxide by fossil fuel, localized heavy rains, long-term droughts and typhoons are increasing exponentially compared to the past, and such natural disasters are expected to occur more frequently in the future. It's happening. In Korea, the structure of reservoirs or dams that supply most of the relevant water should be changed to meet such abnormal climate change, but the structure of the old structure cannot be changed due to excessive cost and long period of time. As the situation does not change according to abnormal weather, there is a chronic shortage of water supply in the dry season, and it is repeatedly discharged as it is during rainfall. In case of heavy rainfall, the reservoir collapses or floods and floods downstream. Is occurring. Therefore, during flooding and heavy rains, the discharge capacity is increased and during the dry season, there is a need to increase the storage capacity, but there are few reservoirs that perform these functions. Especially during flooding, the floodgates of reservoirs frequently generate floods. There is a risk that the flooding of the reservoir will not be possible due to the failure of the power supply to operate, and the disaster that will cause the reservoir to collapse will also occur, and the maintenance cost of the reservoir will be expensive because such hydrological management personnel are required for each reservoir. . Since there is no such smooth drainage structure and manpower, existing reservoirs are unable to store water up to the full water level, so they are stored at a much lower position than the full water level, so they are not properly utilizing the capacity of the original reservoir. . Recently, as the global temperature rises due to the warming of the warming, the evaporation of the river increases, so drought is indispensable and the water shortage is getting worse. Therefore, it is desired to store as much water as possible.

The purpose of the present invention is to solve these problems, and during the dry season, it is possible to increase the storage capacity of the existing reservoir to the maximum as a means of securing water resources, and during the rainy season to maximize the storage capacity and the discharge capacity in preparation for flooding and heavy rains. It is possible to increase the amount of water, so that there is no risk of dam breakdown due to flooding, and it is possible to increase the amount of water remarkably, thereby providing a siphon flow channel that can solve the shortage of rural water supply due to the lack of water.

Another object of the present invention is to provide a siphon channel, which can be used because there is no driving device, no power is required, and thus no manpower is required.

Another object of the present invention is to provide an eco-friendly siphon channel by preventing the decay of the stream and making it a living and breathing stream, since the flow of the reservoir continues to flow in a minimum amount of water at all times. .

This object of the present invention is a siphon main body having an inclined inlet portion which is inclined upward from the reservoir to the floor of the dike and an inclined inlet portion extending from the inclined inlet portion over the dike and an inclined outlet portion extending downward along the slope of the dike at the extension portion; A water level control pipe extending from the inclined inflow portion of the siphon main body through the bank to the inclined outflow portion and having an opening / closing valve installed at an end of the inclined inflow portion; A branch pipe having an opening / closing valve installed at one end thereof, and one end thereof positioned close to the water tank of the inclined outlet portion and extending upward, the other end is bent to be disposed on the extension portion, and the water level discharge valve installed at the middle thereof is installed. Providing a siphon channel that can control the drainage to the multi-level water level according to the present invention including the trigger portion Will.

With respect to the siphon filter that can control the drainage in a multi-level water level according to the present invention will be understood more clearly the features and advantages by the embodiments described in detail below with reference to the accompanying drawings.

As shown in FIG. 1, the siphon channel A capable of adjusting the drainage amount to the multi-level water level according to the first embodiment of the present invention is upward from the reservoir W to the floor D1 of the embankment D. Along the inclined inlet portion 11 and the inclined inlet portion 11 extending over the levee D and the slope 12 of the levee D from the extension portion 12. The siphon main body 1 having the downwardly extending inclined outlet portion 13 and the inclined inlet portion 11 of the siphon body 1 extends through the bank D and penetrates the inclined outlet portion 13. The water level control pipe 2 is provided with an on-off valve 21 at the end of the inlet 11, and the end of the water inlet 11 at the level of the water level control tube 2, the water level of different height One end is located close to the upper end of the diverging pipe (3) and the inlet inlet (11) of the water tank and the other end is opened to adjust Bent to be disposed in the portion and includes an on-off valve 41 is installed in the discharge water level causing part (4) in the middle.

Only one branch pipe (3) installed in the water level control pipe (2) is provided in this embodiment, but, if necessary, a plurality of branch pipes (3) may be further installed at different heights to finely adjust the water level. The deflector 15 spaced apart at regular intervals in the inclined outflow portion 13 of the siphon main body 1 has an initial flow of water and flows downward to cause a waterfall action, and excludes air in the siphon main body 1 by the waterfall effect. As a result, the siphon main body 1 becomes a vacuum state, and a complete siphon effect is exhibited.

The lower part 42 which is close to the highest water level in winter during the full water level discharge induction part 4 is spaced about 2 cm above the maximum water level in winter, and the upper part 43 communicates with the upper part of the extension part 12 of the siphon body 1. Are connected.

Siphon waterway (A) that can control the drainage in a multi-level water level according to the present invention having such a structure when it is expected that a large amount of rainfall, such as heavy rain or rainy season, it is necessary to discharge the water in the reservoir in advance In case of an emergency drainer that needs to drain the reservoir water sufficiently to prevent flooding by heavy rain or rainy season, open the on-off valve 21 installed on the water level control pipe 2 and open the other on-off valve 31 ( 41), the water on the reservoir W flows into the water level control pipe 2 and flows to the inclined outlet portion 13 of the siphon body 1, so that the inlet to the inclined outlet portion 13 in the siphon body 1 is closed. The water is immersed in the deflector 15 and flows downward to cause a cascade action, and by this waterfall effect, the water in the siphon main body 1 is excluded together with the water flowing out, so that the siphon main body 1 becomes a vacuum state within a few seconds. For several tens of seconds, the water in the reservoir W is discharged through the siphon body 1 in the vacuum state, that is, the inclined inlet 11, and is discharged through the inclined outlet 13 through the extension 12. It will be able to easily maintain the water level in the water surface of the emergency drain.

In addition, it is possible to store water up to a height close to the height of the embankment in the winter and farming seasons in November and February when supplying agricultural water for spring and the rainfall is not sufficient. The reason is that there is little rainfall during the winter season and the agricultural season, so there is no fear that the reservoir level rises rapidly, and much agricultural water is needed. The highest water level in winter, which is the highest level of the present invention, exceeds the maximum water level in winter, and when water is discharged beyond the siphon body (1), the water passing through the siphon body (1) in the state where the shut-off valve 41 is closed is the full water level. Since the lower end 42 is closed while passing through the lower end 42 of the discharge induction part 4, there is no inflow of air, and the siphon body 1 is in a vacuum state to automatically generate the above-mentioned siphon effect, so that the water is easily Even if the reservoir water level is higher than the conventional water level, if it exceeds the maximum water level in winter, the siphon effect is automatically induced and the water of the reservoir is effectively discharged, so there is no fear of collapse or flooding of the reservoir. As much as 260% or more of the water can be stored than that of the conventional water level.

 In addition, it is necessary to control the water level of the branch pipe (3) which is located in the conventional high water level because there is no need to store a lot of water in June-August, which is a rainy time. That is, when the on-off valve 31 of the branch pipe 3 is opened and the on-off valves 21 and 41 are closed at the usual water level, when the rainfall exceeds the normal water level during the rainfall, the water is connected to the branch pipe 3. Falling through the water level control pipe (2) to the siphon main body (1) of the inclined outflow portion 13, the water to the deflector (15) flows to the lower portion and falls action occurs by such a waterfall effect in the siphon body (1) Since the air is excluded together with the outflowing water, the water in the reservoir W is in a vacuum state for several seconds to several tens of seconds while the siphon body 1 is in a vacuum state, that is, the inlet 11 is inclined. As it flows out through the inclined outflow portion 13 through the extension portion 12, water exceeding the normal water level in summer is easily discharged, so that the water level of the reservoir can be maintained at the water level of the normal water level. .

Particularly, in the present invention, when the water level is above the emergency drainage level, the bottom of the downstream stream dries and the flow of water does not pass, so in order to release a certain amount of flowing water in the river to prevent the stream from decaying When the valves 41 and 21 are opened and the shutoff valve 31 is closed, the reservoir water flows through the water level control pipe 2, so that a certain amount of water is always discharged downstream so that the ecosystem of the downstream river is intact. It is possible to maintain it, and this operation is to close the on-off valve 21 and open the on-off valve 31 is to continue the flow of the flow of the downstream stream until the normal water level in the summer.

As described above, the siphon channel which can control the drainage in the multi-level water level according to the present invention extends from the inclined inlet and the inclined inlet upwardly sloped from the reservoir to the floor of the embankment and extends from the extension and the extended part over the embankment. A siphon body having an inclined outlet portion extending downward along the slope, a water level control pipe extending from the inclined inlet portion of the siphon body through the bank to the inclined outlet portion and having an on / off valve installed at an end of the inclined inlet portion; It is installed at the end of the inlet side of the control tube and adjusts the water level of different height and has a branch pipe having an opening / closing valve at one end, and one end is located close to the water tank of the inclined outlet, and the other end is extended upward. Water resources in the low water season, including the high water level discharge induction portion is bent to be disposed and installed with an on-off valve in the middle As a conservation measure, it is possible to increase the storage capacity of the existing reservoir to the maximum, and during the rainy season, it is possible to increase the storage capacity and discharge capacity to the maximum in preparation for floods and torrential rains, so that there is no risk of embankment collapse due to flooding. It is possible to significantly increase the level of energy supply, and it is possible to solve the shortage of supply of rural water due to the lack of water, and it is possible to have low maintenance cost because there is no driving device and no power is required because no manpower is required. Excellent effect.

1 is a siphon water filter that can adjust the drainage in a multi-level water level according to an embodiment of the present invention

Figure 2 is a schematic longitudinal cross-sectional view of a general reservoir compared to the reservoir amount

Explanation of symbols on the main parts of the drawings

1. siphon main body 2. water level control pipe

3. Branch pipe 4. Water level discharge

11. Inclined inlet 12. Extension

13. Inclined outlet 15. Deflector

21,31,41. Valve

Claims (3)

Inclined inlet portion 11 that is inclined upward from the reservoir (W) to the floor (D1) of the embankment (D) and the extension portion 12 and the extension that extends from the inclined inlet portion 11 over the bank (D) In the part 12, the siphon main body 1 having the inclined outflow part 13 extended downward along the slope D2 of the bank D, and the bank in the inclined inlet part 11 of the siphon main body 1 D) is a multi-level water level, characterized in that it comprises a water level control pipe (2) extending through the inclined outflow portion 13 and penetrated through the inclined inflow portion (13), the opening and closing valve 21 is installed at the end of the inclined inflow portion (11) side. Siphon filtration channel with adjustable drainage The branch pipe (3) according to claim 1, wherein one branch pipe (3) is installed at an end portion of the inlet portion (11) side of the water level control pipe (2) and adjusts the water level at different heights and has an opening / closing valve (31) at one end thereof. Multi-level water level, characterized in that the above is additionally installed siphon filtration that can adjust the drainage According to claim 1, wherein the lower end portion 42 is located close to the upper side of the water tank of the inclined inlet portion 11 is extended upwardly is bent to be disposed on the extension portion and the opening and closing valve 41 in the middle The siphon channel which can adjust the drainage to the multi-level water level, characterized in that the water level discharge induction unit 4 is installed in addition)