SU908999A1 - Mine-type spillway - Google Patents

Description

(5) MINE WATER DISTRIBUTION

FIELD OF THE INVENTION The invention relates to hydraulic construction, in particular to mine spillways. A mine spillway is known, including a spillway and a vertical Cl3 shaft. A mine spillway including a spillway with a cylindrical shield installed in the well and a vertical shaft t2j is also known. A disadvantage of the known devices is that the overflow water is completely discharged and not accumulated in the reservoir for further use. The purpose of the invention is accumulated in the flood water reservoir. This goal is achieved by the fact that along the perimeter of the funnel additional wells are made with drainage pipes and step-shaped water inlets, and the cylindrical shield has counterweights placed in additional wells. Figure 1 shows the mine spillway in the plan; figure 2 is the same, a longitudinal section; on fig.Z - water hole additional wells. Mine spillway includes overflow funnel 1 with a cylindrical shield 2, located in the well 3 and the vertical shaft i. Along the perimeter of the funnel 1, additional wells 5 are made, equipped with drainage pipes 6, receiving ports 7, having a stepped shape. In additional wells 5, counterweights 8 are placed, connected to a cylindrical shield 2 by cable E moving along pulleys 10 mounted on support beams 11. The water intake openings 7 are equipped with trash rails 12, and the cylindrical shield is sealed.

The ridge mark of the cylindrical shield 2 is equal to the mark of the maximum water level in the reservoir, and the mark of the lower stage of the hole 7 is lower than the maximum level. The total weight of the counterweights 8 is greater than the weight of the cylindrical shield 2. With all the water levels in the reservoir equal to or lower than the mark of the lower step of the hole 7 shield 2 zykryt. The mark of the hole 7 of the lower stage is below the mark of the maximum water level. When the water level in the reservoir rises above the level of the lower step of the hole 7, water begins to flow into the additional well 5. If the amount of water entering the well is equal to the capacity of the pipe 6, the water in well 5 does not accumulate. As this amount increases, water accumulates in well 5, and the water level gradually rises, flooding the counterweights 8, which lose weight in accordance with their volumes. Owing to this, the weight of the shield 2 becomes greater than the weight of the counterweight 8, and it gradually descends, passing the flood waters into the reservoir through the mine spillway into the lower reach. When the amount of water discharged from the reservoir and flowing into it is the same, the shield 2 stops at a certain position. With a further increase in the amount of incoming water in the reservoir, the water level in the well 5 also increases, which leads to raising the counterweights 8 and lowering the shield 2. With the maximum water level in the reservoir, the shield 2 is completely lowered and the throughput of the mine spillway

equals the estimated consumption. When the amount of water entering the reservoir decreases, the water level in wells 5 decreases, and the counterweights 8 gradually lower and the shield 2 rises. When the water level in the reservoir is equal to the mark of the lower stage of the hole 7, the shield 2 is in the closed position and the discharge of water from the reservoir to the lower pool stops. At the same time, the volume of water in the reservoir is conserved. The smooth raising and lowering of the counterweights 8, as well as the shield 2, is facilitated by the presence of a stepped threshold of the water intake hole. 7. Accumulation of flood water in the reservoir allows irrigation of additional land.

Claims (2)

1. USSR author's certificate №, cl. E 02 B 8/02, 1977. 2.Moje I.N. Mine spillways, M., 1980, p. 11-17.