SU819255A1 - Tubular water outlet - Google Patents

Description

The invention relates to the field of irrigation and drainage construction.

Tubular structures are known in which stationary curved walls 5 are arranged to increase the roughness [1].

A significant drawback of these devices is the inability to control the degree of roughness, which is necessary for a temporary change in the hydraulic resistance of the flow part of the structure and, consequently, changes in throughput.

A device is also known that connects the upper and lower heads of a hydraulic structure, comprising a flexible cover forming an air cavity and an air supply pipe connected to it [2], which allows changing the capacity of the structure. twenty

A disadvantage of the known device is the inability to automatically control bandwidth.

The aim of the invention is to automatically control the throughput of a building.

This goal is achieved by the fact that in the known device the cover is made of double-walled and put on a mesh frame, and in the upper part of the inner cavity 30 of the cover is connected to an air supply tube perforated at the inlet and connected to the upper pool, and the lower part of the cover has an air outlet. The perforated portion of the air supply tube may be mounted in an annular float.

The drawing shows a longitudinal section of a tubular outlet.

A cylindrical mesh frame 2 is located in the pipe 1, on which a double-walled polyethylene cover 3 is put on, forming an air cavity and roughness projections 4 between the pipe wall 1 and the frame 2. at the entrance. The lower part of the cover has an air outlet 7.

The perforated part of the air supply tube 6 can be installed in the annular float 8.

The device operates as follows.

When passing the calculated flow through the tubular outlet, the level of the upstream 5 is at the nominal mark and the perforated part of the air supply tube 6 is under water. When lowering the level of the upper pool 5, which leads to a decrease in the flow rate through the tubular water outlet, the inlet of the air supply pipe 6 opens and air begins to be sucked into the cover 3, as a result of which protrusions of roughness 4 are formed, which reduce the throughput of the structure. Moreover, the amount of intake air will be the greater, the lower the level of the upstream 5 relative to the nominal, and therefore, the greater part of the perforated portion of the air supply tube 6 is open for air passage. The magnitude of the protrusions of the roughness 4 will depend on the difference between the air pressure inside the cover 3 and low (vacuum) pressure in the pipe 1, due to a decrease in the level of the upstream

5. As the height of the projections of the roughness 4 increases, the throughput of the tubular outlet will decrease, as a result of which a further decrease in the level of the upper pool 5 will stop and the pressure conditions of the tubular outlet will be created.

In the case of an increase in the level of the upstream pool 5 and an increase in the flow rate through the tubular water outlet, the air supply to the cover 3 first decreases and then completely stops, the pressure in the pipe 1 rises, the protrusions of the roughness 4 decrease, as a result of which the throughput of the structure increases. An annular float 8 protects the perforated part of the air supply tube 6 from clogging with floating objects.

The proposed device allows you to automatically adjust the throughput capacity of the hydraulic structure, thereby ensuring the operation of the tubular water outlet in full cross section with the presence of a single-phase flow.

Claims (2)

1. A tubular water outlet connecting the upper and lower heads of the hydraulic structure, containing a flexible cover, 15 forming an air cavity, an air supply tube connected to it, characterized in that, for the purpose of automatically controlling the throughput, the cover is double-walled and is worn on a cylindrical mesh frame, and in the upper part the internal cavity of the cover is connected to an air supply tube perforated at the inlet and connected with the upper pool, and the lower part of the cover has an air outlet. 2. Water outlet by π. 1, characterized in that the perforated part of the air supply tube is installed in the annular float.