SU1142059A1 - Water outlet - Google Patents

Abstract

WATER BOTTOM, - including a nozzle, consisting of an external and internal cylinders, a movable cylindrical glass with through, inclined to its base channels, a vertical hollow rod mounted in the center of the glass with gaps in its upper part, and a bottom located under it, having radial holes and a central conical locking protrusion, characterized in that, in order to ensure constant flow when the pressure in the pressure pipe varies, the water outlet is provided with an elastic gasket arranged under the bottom , made in a stepped shape and with a central hole, while the outer cylinder of the nozzle is installed on the bottom, and inlet holes are made in the upper part of the inner cylinder. W N; oh ate; oh

Description

The invention relates to agriculture and is intended to regulate and automatically maintain a predetermined constant water discharge flow rate in the furrows, as well as quenching the energy of the water jet coming under pressure through the pipeline during irrigation of agricultural crops by a superficial method.

A water outlet to irrigation pipelines is known, which includes a housing made with side cuts with inlet and outlet openings and a spring-loaded control valve (1) located in it.

The disadvantages of this outlet are the design complexity of this outlet, as well as the unreliability of the spring-loaded control valve.

Closest to the invention is a water outlet, which is a nozzle, fixed in a housing, welded to an irrigation pipeline, and consisting of an inner and an outer cylinder. In the nozzle, there is a movable cylindrical cup, the internal cavity of which is in communication with the annular cavity formed by the external surface of the external cylinder. Through channels inclined to the base are formed in the walls of the glass, and in the center there is a vertical hollow rod, with slots in its upper part. The inner cylinder of the nozzle has a bottom in which the radial holes and the central conical protrusion 2 are located.

However, due to the complexity of manufacturing the nozzle, the known outlet is made of two parts: an outer cylinder and an inner cylinder with a bottom. During operation, the fastening of the nozzle in the housing weakens and the outer cylinder of the nozzle acquires a certain degree of freedom relative to the inner cylinder with the bottom. As a result, the thread of the outer and inner cylinders is changed, which leads to obstructed rotation of the cylindrical cup in the nozzle. In addition, a water outlet cannot provide a constant flow of water when pressure in a pressure pipeline fluctuates.

The aim of the invention is to provide a constant discharge of the outlet when the pressure in the pressure pipe varies.

This goal is achieved by the fact that the outlet is provided with an elastic gasket arranged under the bottom, made in a stepped form and with a central opening, with the external cylinder of the nozzle installed on the bottom, and outlet openings are made in the upper part of the internal cylinder.

FIG. 1 shows a water outlet assembly, longitudinal section; in fig. 2 - pipe, longitudinal section; in fig. 3 - cylindrical glass, longitudinal section; in fig. 4 is a bottom, longitudinal section in FIG. 5 - rubber flow regulator; in fig. 6 - scheme of the water outlet.

The outlet (Fig. 1) consists of a nozzle 1, by means of a housing 2 rigidly connected to the pipeline 3. A cylindrical cup 5 is screwed into the nozzle that rests on the bottom 4. In turn, the bottom presses the elastic gasket 6 into the outlet of the pipeline. Gasket b has a stepped shape and a central hole 7.

The nozzle (Fig. 2) consists of an outer cylinder 8 and an inner cylinder 9. In the upper part of the inner cylinder, there are outlet openings 10 that open or close when unscrewing or screwing into the nozzle of a cylindrical cup 5 (Fig. 1 and 6).

In the lower part of the lateral surface, the cylindrical cup 5 (Fig. 3) has through channels 11 and inclined towards the base and a hollow vertical rod 12 located in the center of the base of the cylindrical cup 5. In the upper part, the vertical hollow rod 12 has a slot 13.

In the bottom 4 (Fig. 4) there are radial holes 14, and in the center there is a conical locking lug 15, which, when screwing a cylindrical cup 5 into the nozzle, closes the opening of the hollow vertical rod 12 (Fig. 1).

Under the action of the fluid flow on the gasket 6, it is bent, thus changing the cross-section of the hole 7 (Fig. 6), and thereby supports a certain predetermined discharge flow rate. A definite flow rate corresponds to a certain flow rate controller, which differ from one another in the parameters (thickness and diameter) of the lower and upper ring.

In the non-working state (Figs. 1 and 6), the cylindrical cup 5 is screwed into the nozzle 1 to failure. At the same time, the hollow vertical rod 12 abuts against the conical locking lug 15, and the inner cylinder 9 of the nozzle closes the inclined channels 11 of the cylindrical {(: cup 5 , as a result, water does not enter the cylindrical cup.

The outlet works as follows (Fig. 6).

When unscrewing the cylindrical cup 5 out of the socket 1, the water flow entering through the radial holes 14 in the bottom 4 is divided into 2 jets. One stream enters the vertical hollow rod 12, flows out through the slots 13, hits the wall of the cylindrical cup 5 and pours out. Upon further unscrewing the cylindrical cup from the nozzle, the inclined channels 11 of the cylindrical cup 5 and the inlets 10 of the inner cylinder 8 and the second jet through the annular cavity (formed by the outer surface of the inner cylinder and the inner surface of the outer cylinder 8 of the nozzle) are combined through the inclined channels into the cylindrical cup and flows out, rubbing a part of the kinetic energy, and having met fO with the first jet flowing out of the slots 13 of the hollow vertical rod 12, ca strict quenching of the water flow energy. By non-simultaneous opening of the inlet openings in the cylindrical cup (the entrance to the vertical hollow rod opens first, and then into the inclined cylindrical cup), a smoother control of the outlet flow rate is achieved.

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FIG. 3

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Claims (1)

INLET, including a nozzle consisting of an external and an internal cylinder, a movable cylindrical glass with through channels, inclined to its base, a vertical hollow rod mounted in the center of the glass with slots in its upper part, and a bottom located below it, having radial openings and Central conical locking protrusion, characterized in that, in order to ensure a constant flow rate when the pressure in the pressure pipe changes, the water outlet is equipped with an elastic gasket located under the bottom, stepped shape and with a central hole, while the outer cylinder of the pipe is installed on the bottom, and inlet holes are made in the upper part of the inner cylinder. FIG. 1.