KR950002117B1 - Dam combined with siphon type water outflow apparatus - Google Patents

Abstract

The dam has a draining system for making the sediment flow downstream out of the dam. The dam included syphon flow tubes (1,1',1") for connecting the upstream with the bottom of the downstream; valves (4,5,6) on the tubes connected with water-supply pump (8); venturi tubes (2,3) mounted on both sides of the syphon tube, enclosed by a protection filter net (7), which is placed in clean water zone (14) having an ozone supply device (13). The venturi tube (2) is positioned farther a pstream than the syphon flow tubes (1).

Description

Dams with outflow devices to discharge sediments downstream

1 is a perspective view of the present invention.

2 is a rear perspective view of the present invention.

3 is a side view of the present invention.

4 is a perspective view showing a state in which a water purification zone is constructed upstream of the intake venturi tube of the present invention.

5 is a plan view showing a state in which a water purification zone is constructed upstream of the intake venturi tube of the present invention.

6 is a plan view showing an embodiment in which the purification zone is installed upstream of the intake venturi tube of the present invention.

7 is a rear perspective view showing the channel of the present invention.

8 is a view of the sedimentary formation around the underwater beam of the Hangang River.

* Explanation of symbols for main parts of the drawings

1, 1 ', 1 ＂: Outflow pipe 2, 3: Venturi pipe

4, 5, 6: valve 7: protective filtration network

8: feed water pump 12: lower sluice

13: ozone supply 14: water purification zone

15: holding 17: waterway

18: reservoir 19: pump

The present invention relates to a dam provided with an outflow device capable of discharging downstream the sediment blocked by the dam.

Conventionally, the water flowing from the upstream to the downstream hits the dam and flows back and forth to the rivers on the right and left sides of the dam to form a vortex, and the floating sediment that flows down also sinks to form sedimentary layers on both sides of the dam.

Therefore, the damage of the large dams could only be increased, and the Aswan Dam of the Nile, Egypt, blocked sedimentary sediments, which are nutrients for farmland and fish. The flood control function is also weakening. Underwater pollution may occur due to the decay of excessive sediment, and harmful water plants may overgrow, causing red tide. The water flowing without sediment is light and forms rapids. There is a risk of collapse, and the formation of an empty swamp causes various pests, causing the destruction of the ecosystem and the loss of a considerable amount of land on the Mediterranean side of the downstream, resulting in environmental damage caused by the construction of Aswan Dam. As you can see, the upstream Jamsil underwater mediation Situation, which conducted a large-scale dredging by these symptoms occur for the protection of drinking water conservation and aquatic organisms and is the situation that is taking a heavy economic burden therefrom.

In order to solve this problem, the present invention communicates venturi tubes on both sides of the siphon outlet pipe connected from the bottom of the dam upstream to the bottom of the dam, and below the proper water level upstream of the dam and below the water surface of the dam downstream and between the top of the dam. The valves are installed in the outlet pipes respectively, and the upper part of the multiple outlet pipes installed to surround the protection filtration network in the intake venturi pipe is connected to the water supply pump. When the water stored in the dam is discharged, the valves upstream and downstream of the dam Lock and open the valve at the top of the dam to supply water to the space above the outlet pipe with a pump. Fill the outlet pipe between the upstream and downstream valves to fill the water, and then the outlet pipes will work together to make the water mixed with the sediment at the bottom of the dam. A side-filled siphon outlet pipe is discharged downstream of the dam, and gravel or large sediment is trapped in a protective filtration network and introduced into the outlet pipe. When the water stored in the dam is discharged, it forms a channel that discharges water from the lower layer where sediments are mixed when the water stored in the dam is discharged, and then accumulates in the upper part of the dam. When the damage is eliminated and described in detail according to the drawings as follows.

Install a siphon outlet pipe connecting the upstream and downstream of the dam, and install valves (4, 5, 6) in the siphon outlet pipe at the top of the dam, respectively, and connect the upper part of the outlet pipe (1) with the feed water pump (8). In the known art, siphon outlet pipes (1, 1 ', 1 ＂) are installed at the center and the encounter side of the dam and connected from the upstream bottom to the bottom of the dam. 3) respectively installed and extending the upstream side of the siphon outlet pipe (1 ', 1') so that the venturi pipe (2) is installed upstream than the central siphon outlet pipe (1), the venturi pipe ( 2) is to be surrounded by a protective filtration network (7).

According to the present invention, the upper part of the siphon outlet tube 1 is vacuumed by the pressure difference acting on the siphon outlet tube 1, and the water stored in the dam is discharged through the siphon outlet tube 1. To do this, the valves 4 and 5 of the upstream and the flow of the dam are closed, and the valve 6 of the dam is opened, and the water stored in the water supply pump 8 is supplied to the vacuum portion above the outlet pipe 1 to supply the valves 4 and 5. After the outlet pipe (1,1 ', 1 ＂) is filled with water, close the valve (6) and open the valve upstream and the lower valve (4,5) at the same time. According to the law, the lower layer of the dam with increased flow velocity is the siphon outlet pipe (1,1) by the mutual synergy of the siphon outlet pipes (1,1 ', 1 ＂) and the venturi pipes (2,3) ', 1 ＂) to form an alternating channel that continues to be discharged downstream of the dam.

At this time, in the present invention, the water flowing from the upstream to the downstream hits a barrier such as a dam, and flows to the left and right rivers while causing a backflow and vortex phenomenon. ', 1') is installed in the best position to inflow into the riverbed on both sides of the dam, so the siphon is created by the synergy between the siphon outlets (1,1 ', 1') and the venturi pipes (2,3). It is to form a water channel discharged downstream of the dam through the outlet pipe (1, 1 ', 1 ＂). As a result, sediments do not accumulate in the rivers on both sides of the dam, and thus various wastes caused by the accumulation of sediment upstream of the dam can be eliminated.

In addition, in the present invention, the venturi tube 3 allows the water of the siphon outlet tube 1 to flow out of the downstream, so that the gravel or bulky sediment obstacle 9 surrounds the intake tube 2. It is not caught in the siphon outlet pipe 1 caught by the filter net 7 and is deposited in the valley 10 upstream of the dam, and if it is accumulated to some extent, the crane can be easily discharged.

The lower sluice gate 12 having a small size may be installed in the lower portion of the dam 11 having the above-described outflow device, and used to discharge water mixed with sediment of the lower layer of the dam.

In addition, when removing the accumulated sediment and the sediment generated in the underwater construction site (16) in the far distance upstream, the movable barrier 14 is formed between the 14 and the 14 so as not to be disturbed. It flows into the membrane and flows out through the venturi pipes (2,3) and the outflow pipes (1,1 ', 1 ＂). At this time, the sediment accumulated in the river bed is hard to be injured by its own force, and instead of the compressed air, the ozone generator (13) By doing this, ozone can be injected into and out of the place, and the odor that occurs when the rotten sediment is injured is also removed and purified.

In addition, when the dam back is gently inclined to form a channel (17) to supply the stored water of the reservoir to the pump (19), the downstream fish moves upstream. Form (18) is to allow the weak fish, etc. to move and rest. Therefore, the dam can prevent the problem of damaging the state by damaging the movement of the fish.

In this way, the present invention can not only protect the water supply and ecosystem by sweeping the damage caused by the sediment accumulated on both sides of the dam. In particular, repeated dredging is not necessary to remove sediment, so that it is possible to achieve settlement gains, and it is possible to increase the effect of the dam by maintaining a constant amount of water in the dam. The higher the environmental damage, the more harmful the present invention, but on the contrary, the greater the number of dams, the better and the better the result.

Claims (2)

Install a siphon outlet pipe connecting the upstream and downstream of the dam, and install valves (4, 5, 6) in the siphon outlet pipe at the top of the dam, respectively, and connect the upper part of the outlet pipe (1) with the feed water pump (8). In the known art, siphon outlet pipes (1, 1 ', 1') are provided at the center and left and right sides of the dam and connected from the upstream bottom to the bottom of the dam. 3) respectively, and the siphon outlet pipes (1 ', 1 ＂) are extended to the place where the upstream sediment accumulated, so that the venturi pipe (2) is installed upstream than the central siphon outlet pipe (1) And a dam installed in the venturi tube (2) so as to surround the protective filtration network (7). 2. The sediment according to claim 1, wherein the venturi pipe 2 is connected to the water purification zone 14 around the work place 16, and the ozone supply 13 is installed in the water purification zone 14 to discharge the sediment downstream. Dams with outflow devices.