KR20110009763U - siphon spillway - Google Patents

Abstract

The present invention relates to a siphon channel that prevents the formation of air pockets at the inlet of the siphon body when water is introduced into the siphon body so that smooth discharge can be achieved. The siphon channel according to the present invention, from the reservoir to the floor of the bank A siphon body having an inclined inflow portion extending upwardly inclined, an extended portion extending from the inclined inflow portion over the embankment, and an inclined outflow portion extending downward along the slope of the embankment from the extension portion; It is installed at the inlet of the inlet portion of the siphon body, and provides a siphon channel configured to include a ring-shaped inlet guide member having an expanded shape as the diameter increases toward the outside from the portion connected to the inlet.

Description

Siphon spillway with air pocket prevention structure

The present invention relates to a siphon filtration channel that automatically discharges water and adjusts the water level when the reservoir or dam level is above the set level. More specifically, when the reservoir or dam level is above the set level, A siphon filtration channel that automatically discharges water stored in the downstream by adjusting the water level, and prevents an air pocket generated by the inflow of water from the inlet side so that the water can be discharged smoothly. It is about.

Multi-purpose dams are being constructed to secure stable agricultural water in Korea and prevent flooding. However, this is a large-scale construction project that requires a huge budget and a long period of time. The application is difficult. In addition, about 70% of agricultural reservoirs in Korea are very old, and they are almost unprotected by sudden natural disasters such as typhoons and heavy rains in the rainy season. Moreover, global warming has made typhoons more frequent and stronger than ever before, and the frequency of localized torrential rains has increased so that even heavy rains exceed the imagination.

Accordingly, various economic and efficient measures for proper level control of small dams, reservoirs or local rivers for agricultural related waters have been attempted. As one of these methods, there is no driving device, no power is required, and thus no manpower is required. A siphon channel using the siphon principle, which is inexpensive and easy to install and operate, has been proposed.

As shown in FIG. 1 of the accompanying siphon filtration channel, a siphon main body 10 having a circular pipe structure extending from the reservoir W to the bank D and downstream of the reservoir W; It includes a bypass pipe 20 connected to the middle portion of the siphon body 10, and a deflector 40 formed to protrude in the siphon body 10. The bypass tube 20 is connected to a portion inclined to the outside of the siphon body 10 through the bank in the reservoir (W).

When the water level of the dam or the reservoir reaches or above the level in which the bypass pipe 20 is installed, the siphon flow channel configured as described above flows into the siphon main body 10 through the bypass pipe 20. In addition, the water introduced into the siphon main body 13 is water immersed in the deflector 40 and flows downward to cause a cascade action. By this waterfall effect, the air in the siphon main body 10 is discharged to the outside together with the water to siphon the inside of the siphon. Vacuum pressure is formed at 10. Accordingly, the water in the reservoir W flows through the inlet of the siphon body 10 and flows out of the siphon body 10 to be discharged to the outside.

However, when water is introduced through the inlet of the siphon main body 10 in the process of discharging the water of the dam or the reservoir to the outside using the conventional siphon channel as described above, the water around the inlet is sucked in the inner periphery of the inlet. An air pocket A is formed. The air pocket (A) results in narrowing the inlet of the siphon body (10), thereby reducing the inflow rate, causing a problem that smooth discharge is not achieved.

The present invention is to solve the conventional problems as described above, the purpose of the present invention is to prevent the air pocket to prevent the air pocket is generated at the inlet of the siphon body when water is introduced into the siphon main body to prevent the air pockets to be made smooth discharge It is to provide a siphon channel having a structure.

The present invention for achieving the above object, the inclined inlet portion extending inclined upwardly from the reservoir to the floor of the embankment, the extension portion extending from the inclined inlet portion over the dike, and the slope surface of the embankment in the extension portion A siphon body having an inclined outlet extending downward; It is installed at the inlet of the inclined inlet of the siphon body, and provides a siphon channel having an air pocket preventing structure including a ring-shaped inlet guide member having an expanded shape as the diameter increases toward the outside from the portion connected to the inlet. .

According to the present invention, an induction guide member having a tip portion extended radially outward is connected to an inlet of the siphon body, and water is introduced into the siphon body through the induction guide member. Therefore, the water flowing into the periphery of the induction guide member flows smoothly along the inner circumferential surface of the induction guide member so that no air pocket is formed at the inlet side of the siphon body, and thus the water flows smoothly through the siphon body and discharged. There is this.

BRIEF DESCRIPTION OF THE DRAWINGS It is sectional drawing of the principal part which shows an example of the structure of the conventional siphon channel.
2 is a sectional view showing the main parts of a siphon channel according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing the main portion of the induction guide member to the siphon channel according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the siphon channel having an air pocket preventing structure according to the present invention in detail.

Figure 2 shows a first embodiment of the siphon channel according to the present invention, the siphon channel of this embodiment of the circular pipe structure extending from the reservoir (W) to the downstream of the reservoir (W) to extend beyond the reservoir (W) The siphon main body 10, the bypass pipe 20 connected to the middle portion of the siphon main body 10, and the inflow guide member 100 having a ring shape installed at the inlet 11a of the siphon main body 10. It is configured to include.

The siphon body 10 has an inclined inlet portion 11 extending upwardly inclined from the reservoir W to the floor of the dike D, and an extension portion extending from the inclined inlet portion 11 to ride over the dike D. And an inclined outflow part 13 extending downward along the outer slope of the embankment D from the extension part 12. The deflector 40 is installed at predetermined intervals inside the inclined outflow part 13. The deflector 40 generates a waterfall action that flows downward while the water flowing initially into the siphon body 10 collides, and by the waterfall effect, the air in the siphon body 1 is excluded and the inside of the siphon body 1 is removed. Is in a vacuum state to have a full siphon effect.

One end of the bypass pipe 20 is located in the reservoir W, and the other end of the bypass pipe 20 horizontally penetrates the bank D so as to communicate with the inclined inlet portion 11 of the siphon body 10. The bypass pipe 20 is installed at a predetermined height in the reservoir W, and functions to pre-discharge the water in the reservoir W before the water level in the reservoir W reaches the full water level. The bypass pipe 20 is provided with an on-off valve 21 for controlling the flow of the water in the reservoir (W) to the inclined inlet portion 11 through the bypass pipe (20).

The induction guide member 100 is welded and fixed to the inlet port 11a of the inclined inlet section 11 of the siphon body 10, and has an enlarged shape as the diameter increases toward the outside from the portion connected to the inlet port 11a. Has In this embodiment, the induction guide member 100 is made of a curved surface curved radially outward toward the outside from the portion connected to the inlet (11a), as shown in another embodiment in Figure 3, the induction guide member 100 may be formed in a form linearly extended outward from the portion connected to the inlet (11a).

Since the inflow guide member 100 has an expanded shape as the diameter increases toward the tip portion as described above, air flows into the inner circumference by the inflow guide member 100 when water flows into the siphon body 10. The pocket A (see FIG. 1) is not formed and water can flow smoothly.

The siphon filter of the present invention configured as described above operates as follows.

When the water level of the dam or the reservoir reaches or exceeds the level in which the bypass pipe 20 is installed, the water in the reservoir W flows into the siphon body 10 through the bypass pipe 20, and the siphon body 10. The water introduced into the water) is immersed in the deflector 40 and flows downward to cause a waterfall action. By such a waterfall effect, the air in the siphon body 10 is discharged to the outside together with the water, so that the vacuum pressure in the siphon 10 is reduced. Is formed.

Accordingly, the water in the reservoir W is introduced through the induction guide member 100 connected to the inlet 11a of the siphon body 10, and then flows into the siphon body 10 to be discharged to the outside. At this time, the induction guide member 100 is the tip end portion is extended in the radially outward direction is substantially coincided with the stream line (stream line) of water flowing from the periphery of the inlet (11a), the induction guide member 100 Water flowing into the periphery of the smoothly flows along the inner circumferential surface of the induction guide member 100, even if the air pocket (A) (see Fig. 1) is not formed at all at the inlet (11a) side of the siphon body 10, It is formed small.

Therefore, since the inflow of water into the siphon body 10 is made smoothly, it is possible to discharge quickly.

On the other hand, in the state where the on-off valve 21 of the bypass pipe 20 is closed, the discharge through the siphon body 10 is made even if the water level of the dam or the reservoir reaches more than the level of the bypass pipe 20 is installed. If the water level of the reservoir W reaches a full water level and water starts to flow through the extension part 12 of the siphon main body 10, the discharge will proceed. That is, when the water level of the reservoir W reaches the full water level, water begins to flow through the extension part 12 of the siphon body 10, and the water introduced into the siphon body 10 is deflector 40 as described above. The water in the siphon body 10 is discharged to the outside along with water as it is water-dropping on the siphon body 10. Accordingly, while the pressure of the siphon inner portion 10 is significantly lowered, water is sucked through the siphon body 10 as a whole so that rapid discharge is achieved.

Of course, even in this case, since the air pocket A (see FIG. 1) is hardly formed at the inlet port 11a of the siphon body 10 by the induction guide member 100, smooth and rapid discharge can be ensured.

The embodiment of the siphon channel according to the present invention described above is presented for illustrative purposes only to help understanding of the present invention, and the present invention is not limited thereto. Various modifications and changes can be made without departing from the spirit of the technical idea set forth in the claims for new registration.

10: siphon main body 11: inclined inlet
12: extension portion 13: inclined outflow portion
20: bypass pipe 21: on-off valve
100: inflow guide member

Claims (3)

A siphon body having an inclined inlet extending upwardly inclined from the reservoir to the floor of the dike, an extension extending from the inclined inlet and over the dike;
And a siphon filtration channel having an air pocket preventing structure formed at an inlet of the inclined inlet of the siphon body and including a ring-shaped induction guide having an expanded shape as the diameter increases toward the outside from the portion connected to the inlet. According to claim 1, The induction guide member siphon water passage having an air pocket prevention structure, characterized in that consisting of a curved surface radially outward toward the outside from the portion connected to the inlet. According to claim 1, The induction guide member siphon water passage having an air pocket prevention structure, characterized in that it has a form linearly extended outward from the portion connected to the inlet.

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