SU667631A1 - Hydraulic engineering structure weir - Google Patents

Description

(54) WATER DISCHARGE OF HYDROTECHNICAL STRUCTURE

one

This invention relates to siphon type discharge.

A hydraulic engineering spillway is known, including a siphon with an air intake device and a spillway head with a charging device fl.

However, in a known spillway, a sharp increase in discharge costs is observed during siphon charging. This disadvantage can be reduced by increasing the flow rate discharged in the overflow mode. The obstacle to this is the low efficiency of the siphon weir tip in the spillway mode.

The purpose of the invention is to increase efficiency by increasing costs in the overflow mode.

This is achieved by the fact that the spillway head of the proposed spillway is made in the form of a ledge at the end of which a practical profile weir is installed.

The drawing shows the siphon spillway, a longitudinal section.

The spillway siphon consists of a hood 1 with an air duct w, it has a device in the form of an aperture 2 and a drain tip. Cap

has a guide plate 3, parallel to the front wall of the bonnet, a horizontal pad 4, a weir 5 located at the end of pad 4, and a springboard 6. The dotted line 7 shows the variant without a guide plate 3 and pad 4.

The proposed spillway works as follows.

At low flow rates, the air inlet 2 is not submerged, and the spillway operates in the overflow mode. The platform 4 before the weir 5 provides sufficient depth for obtaining a large consumption coefficient at the approach to the weir. The absence of such a platform in the prototype brings the spillway closer to the type of spillway with a wide threshold, at which the spillway discharge coefficient is 0.35-0.36. Spillway 5, if delineated by the coordinates of the vacuum spillway, can have a discharge coefficient of 0.57, i.e., its throughput increases, compared with existing spillways, by more than 50%. This increase in spillway flow helps preserve the natural flow regime in the downstream.