SU1113462A1 - Arrangement for damping rolling waves of water flow - Google Patents

Abstract

A device for damping the rolling waves of water flow, including a knife ejector installed in an open channel, made in the form of a knife, characterized in that, in order to increase the efficiency of operation, a shield hinged to the ceiling of the front part of the chamber, and a flat vertical shutter installed in the rear part of the chamber with the formation of an air vent hole between the upper edge of the shutter and the ceiling chambers, with a breaker attached to the front edge of the bottom of the chamber, g (L in CO /. O5 t

Description

fpuij The invention relates to Nrote of hydrotechnics, namely to flow energy absorbers, to can be used in the super-drilled mode of water movement and the formation of a series of waves for their quenching. A super-burst energy extinguisher is known, including a grid plate and a knife-shaped breaker installed in front of it t1. The disadvantages of this device are low quenching efficiency, the inability to control the quenching time. in the open channel, the diverter, made in the form of a knife C 21. The disadvantage of this device also lies in the low efficiency of damping of the rolling waves. The purpose of the invention is to increase the efficiency This goal is achieved by the fact that the known device is equipped with a tubular chamber placed in the upper part of the channel along its axis, a check valve made in the form of a shield pivotally attached to the ceiling of the front part of the chamber, and a flat vertical shutter installed in the rear part of the chamber with forming an air vent between the top edge of the shutter and the ceiling of the chamber, the diverter attached to the front edge of the bottom of the chamber. In FIG. 1 shows a device for damping rolling waves of water flow, top view; in fig. 2 is a section A-A in FIG. one; in fig. 3 - section BB in FIG. 1, at the time of the approaching wave; in fig. 4 - the same, at the moment when the waves enter the chamber. I A tubular chamber 2 is installed in an open channel, for example, a flute channel 1 in its upper part along its axis. A shield 3, which is a check valve, is hinged to the ceiling of the front part of chamber 2. A flat vertical shutter 4 is installed in the rear part of the chamber, with an air vent 5 forming between its upper edge and the ceiling of chamber 2. At the front edge of the bottom of the chamber on the axis 6 there is a knife-cutter 7. The knife-cutter 7 and shutter 4 have screw drives 8 The device works as follows. The knife-cutter 7 is installed at some small distance from the water surface in the rapidity channel 1 in the absence of a wave (a wave somewhere on the approach to the construction), this is achieved by moving the drive screw 8. When running on the knife-cutter 7, the wave is cut off By this, the shield 3 by the shock action of the wave instantaneously moves to the uppermost position and passes the wave into chamber 2, most of the air is forced out of chamber 2 through opening 5, and part moves with the wave. After the passage of the wave into chamber 2 and the gate 3, it collapses under the influence of gravity and the reverse impact of the wave, and it is necessary that chamber volume 2 be designed for the maximum possible wave volume, taking into account mixing with air. After the passage of the PAIN into the chamber 2, it begins to be discharged from under the flat shutter 4 and back into the rapid channel 1, and its opening is set so that by the time the next wave approaches, the camera 2 (trap) is empty. With the arrival of the next wave, the whole process is repeated. The effectiveness of the proposed facility lies in the fact that its use can significantly increase the throughput capacity of fast channels with a super-boring flow regime, due to the fact that on these channels the construction height must be assigned taking into account the condition of wave formation, and the neglect of this phenomenon can dramatically reduce the throughput of the channel a rapid current, e.g. a fast channel Transit, designed from the condition of uniform motion without wave formation, at present, instead of 25, passes 18 m / s. In addition, the non-stationary flow movement makes it difficult to intake water from fast channels, and using the proposed device before a water intake structure completely eliminates the shock effect of the wave on the water intake structure, providing conditions as close to uniform as possible to this node.

311134624

This structure is less material and a tt can be constructed capaciously than the well-known and, apart from that, the time without interruption by the floor of the polo data requires reconstruction of the section to the canal.

(Reg. 2

FIG.

Idl

Claims (1)

DEVICE FOR EXTINGUISHING A ROLLING WATER FLOW WAVE, including a wave-cutter installed in an open channel, made in the form of a knife, characterized in that, with a belt to improve work efficiency, it is equipped with a tubular chamber located in the upper part of the channel along its axis, a check valve, made in the form of a shield pivotally attached to the ceiling of the front of the camera, and a flat vertical shutter installed in the rear of the camera with the formation of an air outlet between the upper edge of the shutter and the ceiling of the camera, moreover, the waveguide is attached to the front edge of the bottom of the chamber, g SU., 1113462 figure 1 "1113462