SU1373773A1 - Water outlet of pressure watering network - Google Patents

Abstract

This invention relates to the hydraulic engineering of irrigation systems. The purpose of the invention is to improve the operational and technological characteristics. The outlet is made in the form of a housing 1, divided by a vertical wall 2 into the inlet and outlet parts, and provided with a membrane 6, which forms with the housing cover 5; membrane cavity. The saddle membrane 6 serves as a bent edge of the wall 2 and the grille formed by the radial plates 7 installed in the output part of the housing I. When the flow activates, the membrane 6 moves away from the saddle gradually and then falls back. 2 Il. i (L

Description

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The invention relates to the hydraulic engineering of irrigation systems, in particular to irrigation technology, and can be used to supply water from pressure pipelines, a closed irrigation network to an irrigation hose or irrigator.

The purpose of the invention is to improve the operational and technological characteristics.

Figure 1 shows the outlet, the cut; figure 2 is the same, top view.

The outlet is made in the form of a housing 1, divided by a vertical wall 2 with a folded edge into two parts. The inner part is equipped with a nozzle 3 with an oporn No. 1 flange and is adjacent to the outlet nozzle 4. The housing 1 is equipped with a cover 5. A membrane 6 is fixed between the housing 1 and the cover 5. The output part of the housing is equipped with curvilinear radially diverging plates 7 that form the supporting membrane grate 6.

The membrane cavity formed by the cover 5 and the membrane 6 is connected to the inlet of the water outlet by line 8, and to the outlet nozzle A by a waste line 9 to the throttle 10.

The outlet works as follows.

In the initial position, the entrance part of the housing is filled with water. The membrane cavity is also filled with water. A part of the membrane is unloaded from a one-sided pressure of water, while the other part rests on the radial plates 7 of the grid.

Before irrigation on nozzle 4, the irrigation sleeve is put on and the choke 10 on the discharge line 9 opens. Since the flow area of the discharge line 9 is obviously longer than the flow section of line 5, the flow of water into the membrane cavity is less than the discharge, resulting in a pressure below the membrane more than above her. Due to the pressure differential, a part of the membrane, pressed to the support grid, moves away from the edge of wall 2 through a gap formed between the edge and the membrane, water begins to flow into the outlet 4. As the opening of the throttle 10 increases, water discharge from the working chamber decreases and the pressure pressing down membrane to the support grid. Due to the curvilinear edges of the edges of the lattice, the separation of the membrane occurs with a gradual increase in the flow area and, consequently, the flow rate.

To stop watering, choke 10 overlaps. The pressure in the membrane cavity increases to the pressure in the pressure pipe. In this case, the membrane first covers the peripheral parts of the lattice, and gradually spreading over its curvilinear surface, narrows the flow cross section.

Claims (1)

Invention Formula A water outlet from a pressure irrigation network, comprising a housing with inlet and outlet nozzles, a peg and membrane, which forms with the roof a membrane cavity connected by control lines with the inlet and outlet nozzles, and a support grid, characterized in that, in order to improve operational and technological characteristics, the body is divided into two parts by a blank vertical wall, the end of which is curved along a curvilinear contour, and the supporting grid is made in the form of curvilinear radial plates and overlaps the inner part orpusa adjacent to the outlet. FI.2