SU1062336A1 - Water spillway structure - Google Patents

Abstract

WATER DISTRIBUTION, including a tip, made in the form of radial petals, a vertical shaft and a diverting tunnel, Distinguished by the fact that, with a chain to increase the capacity of the building, it is equipped with annular trays, installed at the end of the shaft, with holes at the bottom of which are filled with holes with the upper edge of the walls of the trays located on the same level with the upper edge of the petals.

Description

About N9

O9 M F The invention relates to hydraulic construction, in particular to the water discharge structures at dam nodes. A spillway is known, including a cap in the form of an annular weir and a vertical shaft ti). A spillway is also known, including a head made in the form of radial petals, a vertical shaft and a discharge tunnel f2 3. A disadvantage of the known devices is their low throughput. . The purpose of the invention is to increase the capacity of these facilities. This goal is achieved by the fact that the device is equipped with annular trays, installed concentrically in the shaft, in the bottom of which Mejjyjy petals are filled with holes, and the upper machine of the trays is flush with the upper edge of the petals. Figure 1 shows the spillway construction at the marks of the NHL and below the bottom of the ring trays, the plan; figure 2 - section aa in figure 1. The spillway structure includes a tip 1, made in the form of radial petals 2 with 3 intervals between them, annular trays 4 of a rectangular cross section with an opening 5, resting on the walls of the petals 6, vertical shaft 7 and outlet tunnel 8. Gaps between the walls two adjacent petals are overlapped with plates 9. Ogolovok 1 and ring trays 4 have walls, the thickness of which is 0.67 And, where H is the water pressure above the overflow with a thin wall. The dimensions of the elements, as well as the height of the tip from the surface of the earth, determine the outcome of the condition. so that npifi of the spillway construction, the speed of the ascending water flows does not exceed 1 m / s. To ensure water flow from the upstream to the annular trays 4, the heads of the spillway structure are located at a height of 3-5 m from the ground on the supporting posts 10. When the water level rises in the reservoirs Н above the NHL mark, overflow occurs to the funnel of the head 1 through its wall and side walls of annular trays 4. The implementation of additional trays 4 of rectangular cross section and annular shape in plan ensures the formation of a central layer of water with a height equal to the current head, which starts transpose water horizon to the side walls. Different distances between the spillway walls ensure a uniform flow of water along the entire spillway front. Horizontally arranged annular trays 4 do not interfere with the outflow of water in the mine funnel 7. Placing the annular trays within the petal drain funnel allows you to make a lightweight design that can increase the drainage front 3 times Thus, the capacity of the structure is increased by 3 times compared with the limestone device. Increasing the throughput capacity of the spillway structure by increasing the water front can reduce the height of the drinking water layer, which increases the water depth in the reservoir and, accordingly, its volume at the same dam height, or slightly decreases the height of the dam while simultaneously increasing the volume of concrete structures within the spillway funnel.

Claims (1)

WATER DRAINAGE STRUCTURE, including a head made in the form of radial lobes, a vertical shaft and a discharge tunnel, characterized in that, in order to increase the throughput of the structure, it is equipped with ring trays installed concentrically to the shaft, in the bottom of which holes are made between the petals, moreover, the upper edge of the walls of the trays is flush with the upper edge of the petals. SU, .1062336