SU768876A1 - Soft regulator - Google Patents

Description

one

The invention relates to soft hydraulic structures, namely to controllers designed to automate reclamation systems.

Soft hydraulic structures are known, including a filler shell with a perforated panel 1.

Closest to the invention, the technical solution is a soft regulator, including a regulating capacitor formed by a flexible web and a rigid shield 2.

A disadvantage of the known technical solutions is the low efficiency of flux energy quenching in the downstream structure.

The aim of the invention is to increase the efficiency of quenching the energy of the flow in the downstream of the soft regulator.

The goal is achieved by the fact that the regulator is equipped with hinged curvilinear elements in the downstream, which are connected by means of cables to the crest of the shell, and the curvilinear elements can be curved with holes.

The drawing shows a soft controller in the working position.

The soft regulator has a rigid shield 1, a hinge 2 connected to a flybet 3.

The flexible sheath 4 together with the shield forms a regulating tank 5. Water enters the tank 5 through pipeline 6 with a valve 7 at the end, and leaves it through

5 pipeline 8 with a valve 9 at the end. In the downstream, a curvilinear element 10 is installed behind the valve. The outlet holes 11. The element 10 is 1/3 of its height fixed with a hinge 12 on the stationary 1, 0 support, and its other end is connected to support 15 by means of a cable 13 through block 14, installed in the upstream. The level control of the upper reach is made using a c (|) device 16, connected to a tank 5 and equipped with

15 with an air tube 17. The support 18 is intended to restrict the lowering of the element 10.

The 20 soft controller works as follows. When a transit flow is passed, the shield 1 is laid on the bottom of the channel, the cable 13 is loosened and the curvilinear element 10 is in the laid state. When the regulator is put into operation by opening the valve 7, the container 5 is filled with water and the shield 1 begins to change its position. When the shield 1 is raised, the cable 13 is tightened, which leads to a vertical pezo displacement of the curvilinear element 10.

A part of the flow is discharged through the drain holes 11 and the bottom hole, which improves the clearing of the notoka behind the curved surface of the curvilinear element 10. The presence of element 10 makes it possible to create an unsuitable height of the water well in the lower reach. With an increase in the height of the spillway, the depth of the water well increases. At high shutter heights, the curvilinear element 10 becomes vertical and, due to the curvilinearity, creates a reverse flow of water, i.e., improves the quenching of the flow energy. The presence of a curvilinear element will significantly reduce the length of the water-outlet part behind the weir of the regulator and, in general, improve the flow energy flow rate in the downstream.

Claims (2)

1. The soft regulator, including, is regulating; its capacity, formed, for example, by a flexible shell and a rigid Shity, characterized in that, in order to increase the efficiency of the energy flow, it is equipped with curvilinear elements connected in the downstream direction by means of cables With crest shell. 2. The regulator according to claim 1 is distinguished by the fact that the curvilinear element is made with holes. Sources of information taken into account in the examination 1: 5 I. Sergeev B.N. and others. Mild constructions - a new type of hydraulic structures. M., 1971, p. 18, fig. 1 to. 2. Nrospekt YuzhNNNGIMa. Soft combined mode controller with flexible 20 flutbet, Novocherkassk, 1977 - prototype.