SU129358A1 - Water meter regulator for irrigation canals - Google Patents

Description

Significant disadvantages of the known water meters regulating irrigation systems are significant vertical sizes,

structures that require a great deepening of the base relative to the canal bottom and leading to a large amount of earthworks and concrete work during the installation of regulators, as well as high intensity and complexity of their design.

The proposed controller is free from these drawbacks and increases the reliability of the system. This is achieved by the use of a compensating counterweight mechanism, which transmits the force of its weight to the float or to the sylphus by means of a cable or lever and has a cylindrical cavity or variable section inside, which communicates with the upstream flexible hose. This bellows regulator maintains a predetermined constant flow regardless of the level fluctuations in the upstream.

The design of the proposed controller is given in FIG. 1, 2 and 3.

It consists of three main nodes: a bellows /, located in the upstream of the outlet structure above port 2, leading into the downstream; a float floating on the surface of the water upstream and connected to the discharge ring 4 of the bellows; compensating mechanism 5 with filler counterweight 6.

The bellows / is a corrugated cylinder with annular folds located in planes perpendicular to the axis of the cylinder. Structurally, the bellows can be made of separate rings, each of which is bonded to one of the adjacent rings at the outer edge, and with the other at the inner edge. These rings are made from any elastic sheet material: rubber, plastic, canvas, etc.

To create the necessary radial rigidity, the bellows is reinforced with metal rings 7 (Fig. 2). The top ring of the sylphus is attached to the drain ring 4. And the bottom ring is attached to the support ring 8,

No. 129358-2 -

crepe dsdg zy | ruzheniyu of the outlet over the hole leading to the lower pool. The outer ring is connected to a hollow float 5 with two O р rstyyy Doe which is closed by a valve or Crane: fill it in., O; aSh1 Not 9 and drain 10. When you open the filling hole vbda from the upstream comes into the float, when opening slyvoyo No. 18 §Ir (st - flows from the float along the flexible hose L to the downstream; the COMTOURSE mechanism consists of a cable 12 attached to the float, support rollers 13 and a fill counterweight 6. The compensating mechanism can be performed by using a lever that holds the cable with supporting rollers .

A variant of the compensating mechanism with the lever 14 is shown in FIG. 3

The inlet counterweight to the flexible hose 15 is connected to the upstream, due to which the water in the counterweight is equal to the level of the upstream. The installation for installing a bellows “compensator: a vacuum regulator” has a chamber 16 with an L-shaped partition 17, in which there is an opening 2 leading to the lower reach. To protect the regulator from being damaged by floating objects, the structure has a retaining wall 18. To one of the walls of the priming chamber is a well 19, in which a filling counterweight is placed.

The operation of the water meter-regulator is as follows.

Water, overflowing through the edge of the SLUVNY ring, which is buried under the level of the upper reach, enters the bellows and leaves from there. Into the lower reach through the hole in the structure. The drain ring of the bellows is attached to the float 3 floating in the upstream, and is kept below the level at a predetermined depth. By virtue of the elasticity of the sylphia, the float can move in a vertical plane, following fluctuations in the level of the upstream. The water meter-controller can maintain a predetermined flow rate by maintaining a predetermined value of the overflowing water layer, which uniquely determines the value of the flow rate passed. The change in the flow target occurs by filling the hollow float with water from the upstream by filling or draining valves or taps. When the float is filled to the maximum, it gets the maximum immersion and the shutter opens to skip the maximum flow, with full flooding, it floats to the extreme upper position relative to the level and the shutter closes.

Subject invention

Claims (2)

1. A regulating water meter for irrigation canals, comprising a cylindrical bellows located in the upper reach of a water outlet structure above an opening leading to the lower reach and a float float freely floating on the surface of the upstream and supporting the bellows, characterized in order to compensate The variable force acting on the float from the side of the bellows, changing when the level of the upstream level fluctuates, a compensating mechanism is used in the controller. 2. The device according to claim 1, characterized in that, as a compensating Mechanism, a filling counterweight is applied, transmitting the force of its weight to the float or bellows using a cable or lever and having a cylindrical cavity or cavity of alternating cross section, filled with water from the upstream, with which the counterweight is connected by a flexible hose.