RU1808264C - Dripper - Google Patents

Abstract

Usage: in irrigation systems of agricultural crops by the drip method. SUMMARY OF THE INVENTION: To reduce operating costs, increase the reliability of self-flushing and self-regulate water flow, the dropper contains a housing 1 with upper 2 and lower 3 covers and end caps of an elastic membrane fixed between them, inside of which a cowl 5 with longitudinal grooves 3 is placed. Between the housing and the membrane a locking cavity a is formed, which is connected by communication channels to the inlet fitting of cover 2. With increasing pressure, the membrane is pressed against the cowling and, deforming, throttles grooves b, providing wa regulation of water flow. 2 ill.

Description

The invention relates to agriculture and can be used on drip irrigation systems, especially in areas with difficult terrain and large slopes.

The purpose of the invention is to reduce operating costs, increase the reliability of self-flushing and self-regulation of flow over a wide range of variation of nariopa in a pipeline network.

In FIG. 1 shows a putative dropper: FIG. 2 is a view along arrow A in FIG. 1.

The dropper contains a housing 1 with a top 2 cover with an inlet fitting and a bottom 3 cover with a drain hole. A membrane 4 is installed between the housing and the covers, which forms a locking cavity a with the housing. A cowl 5 with longitudinal grooves 6 is placed inside the membrane, made integral with the bottom cover 3 due to the ribs 7. These ribs, as well as ribs 8, made together with the top cover 2 improve the working conditions of the membrane during irrigation, unloading it and preserving its elastic properties. The inlet fitting has communication channels 9 with a locking cavity a.

A dropper works as follows.

When pressure is applied to the piping network, water through the inlet fitting of the upper cover 2 passes through the working chamber (cavity) b of the dropper and is poured out through the drain hole in the lower cover 3. At the same time, pressure is supplied through the communication channels 9 to the shut-off cavity a. At a certain pressure, the membrane is in its initial state since the forces of water pressure on the membrane are balanced by the elastic forces of the membrane material.

With a further increase in pressure in the piping network, the flow through the cavity b also increases. With the passage of the flow, the pressure in the cavity b will always be less than the pressure in the cavity a. pressure is drawn there from the inlet fitting to itself.

Under the influence of this overpressure, the membrane, being drawn, is pressed against the cowling, and the dropper enters the operating mode. Water begins to pass through the working sections of the grooves, reducing the passage sections. Self-regulation of flow occurs. Ribs 7 and 8 serve to improve the operating conditions of the membrane during irrigation. When the non-working surface of the membrane is planted on the ribs,

its discharge, whereby the elastic properties of the membrane material are maintained.

To perform a flushing, the pressure in the piping network is reduced to the limit at which the membrane is subjected to

resilience is opened from the fairing, returning to its original state. The dropper begins to work with a full section of the cavity b. Flushing occurs. Next, the cycle repeats,

Claims (1)

Formula of the shade A dropper comprising a housing with a top with an inlet fitting and a bottom with a drain hole and caps between them an elastic membrane fixed with end edges and forming a locking cavity with the housing, characterized in that, in order to reduce operating costs, increase the reliability of self-flushing and self-regulation of flow over a wide range of pressure changes, it is equipped with a fairing, which is located in the cavity of the housing and has trapezoidal longitudinal grooves, and the membrane is made in the form of a single-cavity rotation hyperboloid and placed with the possibility of interaction with the fairing, the diameter of the latter being m nshe inner diameter membranes. 0ue.Z