RU219654U1 - Sprinkler nozzle - Google Patents

Abstract

The utility model relates to sprinkler irrigation technology and can be used in mobile and stationary sprinkler systems to produce rain with droplet sizes acceptable for irrigating a wide range of cultivated crops. The utility model comprises a body, a deflector mounted on a rack and a nozzle with a central hole, the nozzle and the body are made as a single piece, while the central hole of the nozzle is associated with the body cavity and is made with a narrowing in the direction of the nozzle exit, and the deflector mounted on the rack is made in the form of a body of revolution of variable section, decreasing towards the rack, on the surface of the deflector along its axis, equidistant grooves of variable cross section are made, separated by ribs, in addition, the lower threaded part of the rack is mounted in the body cavity by means of a bracket, on the upper cut of the deflector there is a shaped recess for the size of the end of the hexagonal collar. Wedge-shaped flow dividers are rigidly mounted on the grooves of the deflector surface. The sprinkling unit nozzle provides: reduction of the dynamic impact of drops on the soil, as a result of making changes to the deflector, due to the installation of wedge-shaped flow dividers on the surface of the grooves, which leads to the fragmentation of the jet into small sleeves. The nozzle increases the flow rate, due to which the water jets are crushed into smaller drops and thereby the rain spray area is increased, as well as improving the quality of irrigation and the functional properties of the nozzle. EFFECT: improvement of the technical indicators of the artificial rain quality of the nozzle of the sprinkler unit.

Description

The utility model relates to sprinkler irrigation technology and can be used in mobile and stationary sprinkler systems to produce rain with droplet sizes acceptable for irrigating a wide range of cultivated crops.

Known nozzle containing a body with an inlet channel, a divider with two parallel channels and a nozzle, in which, in order to increase its reliability in operation and improve operating conditions, the body is made with a confuser channel located between the outlets of the parallel channels of the divider and the nozzle, and the outlet holes of the parallel channels are smoothly mated with the inlet hole of the confuser channel with the formation of undercuts, and the outlet cross-section of the nozzle is made in the form of a rectangle, the longitudinal axis of which is perpendicular to the plane passing through the axes of the divider channels; the ratio of the length of the longitudinal axis of the outlet cross-section of the nozzle to the length of its transverse axis is chosen to be 1.7-2.3, the ratio of the area of the outlet section of the nozzle to the sum of the areas of the divider channels is chosen to be 2.5-3.0, and the ratio of the length of the confuser channel to length of the longitudinal axis of the cross section of the nozzle - 0.8-1.1 (SUN 1171098, 08/07/1985).

The disadvantage of the described nozzle sprinkling unit are the complexity of the design, low reliability, increased requirements for the quality of irrigation water.

The closest in technical essence to the claimed technical solution is a sprinkling unit nozzle, containing a body, a deflector mounted on a rack and a nozzle with a central hole, characterized in that the nozzle and the body are made as a single piece, while the central hole of the nozzle is associated with the body cavity and is made with narrowing in the direction of the nozzle cut, and the deflector mounted on the rack is made in the form of a body of rotation of variable cross section, decreasing towards the rack, on the surface of the deflector along its axis, equidistant grooves of variable cross section are made, separated by ribs, in addition, the lower threaded part of the rack is mounted in housing cavity by means of a bracket. On the upper section of the deflector, a shaped recess is made to fit the size of the end face of the hexagonal knob. (RU No. 2 174 876, 20.10.2001).

The disadvantage of the described nozzle sprinkling unit is the low degree of dispersion of the water flow into finely dispersed components.

The technical problem is a low level of spray quality due to a decrease in the flow rate and an increase in the dynamic impact of drops on the soil.

EFFECT: improvement of technical indicators of the quality of artificial rain of the nozzle of the sprinkling unit.

The technical result is achieved by a nozzle of the sprinkler unit, containing a body, a deflector fixed on the rack and a nozzle with a central hole, the nozzle and the body are made as a single piece, while the central hole of the nozzle is associated with the cavity of the body and is made with a narrowing in the direction of the nozzle cut, and the deflector mounted on the rack made in the form of a body of rotation of variable cross section, decreasing towards the rack, on the surface of the deflector along its axis, equidistant grooves of variable cross section are made, separated from each other by ribs, in addition, the lower threaded part of the rack is mounted in the body cavity by means of a bracket, on the upper cut of the deflector there is a shaped a recess for the size of the end face of the hexagonal wrench, while wedge-shaped flow dividers are rigidly installed on the grooves of the deflector surface.

The utility model is illustrated by a drawing, in which the nozzle of the sprinkler unit comprises a body 1, a deflector 3 fixed on a rack 2 and a nozzle 4 with a central hole 5, the nozzle 4 and the body 1 are made as a single piece, while the central hole 5 of the nozzle 4 is associated with the cavity 6 of the body 1 and is made with a narrowing in the direction of the cut 7 of the nozzle 4, and the deflector 3 mounted on the rack 2 is made in the form of a body of revolution of variable cross section, decreasing towards the rack 2, on the surface of the deflector 3 along its axis I-I, equidistant grooves 8 of variable cross section are made, divided between ribs 9, in addition, the lower threaded part 10 of the rack 2 is mounted in the cavity 6 of the body 1 by means of the bracket 11, on the upper cut 12 of the deflector 3, a shaped recess 13 is made to fit the size of the end of the hex knob. On the grooves 8 of the surface of the deflector 3, wedge-shaped flow dividers 14 are rigidly installed.

The invention is illustrated by drawings: Fig. 1 - side view, nozzles in longitudinal section; in fig. 2 - the same, cross section A-A; in fig. 3 shows a deflector with wedge-shaped flow dividers.

An example of a specific implementation.

The proposed design of the sprinkling unit nozzle works as follows: irrigation water under operating pressure through the water supply pipeline through the nipple enters the body 1 of the nozzle. From the cavity 6 of the housing 1, the water flow under pressure first enters the tapering hole 5 of the nozzle 4 and at the cut 7, when the deflector 3 is extended from the central hole 5 by a value of 1, it is directed to the surface of the grooves. Ribs 9, grooves 8 and wedge-shaped flow dividers 14 single working flow is divided into smaller sleeves and under pressure is thrown into the air space. Water streams ejected at high speed and under operating pressure break into small raindrops in the sleeves and fall into the irrigated area in the form of artificial precipitation. The size of the drops is affected by the working pressure in the water supply pipeline and the removal of 1 of the upper end cut 12 of the deflector 3 from the cut 7 of the nozzle 4. When finely dispersed sprinkling and watering with small rates, the deflector 3 is screwed with a knob from the spare parts kit nozzle into the cavity 6 of the body 1 by the size m (cm Fig. 1). The flow of water from the nozzle 4 under the operating pressure is knocked out into the annular gap. Water particles, mutually colliding, form a water foggy cloud.

The sprinkling unit nozzle provides: reduction of the dynamic impact of drops on the soil, as a result of making changes to the deflector, due to the installation of wedge-shaped flow dividers on the surface of the grooves, which leads to the fragmentation of the jet into small sleeves. The nozzle increases the flow rate, due to which the water jets are crushed into smaller drops and thereby the rain spray area is increased, as well as improving the quality of irrigation and the functional properties of the nozzle.

Thus, the claimed design provides an improvement in the technical indicators of the artificial rain quality of the nozzle of the sprinkler unit.

Claims (1)

Nozzle of the sprinkler unit, comprising a body, a deflector fixed on the rack and a nozzle with a central hole, the nozzle and the body are made as a single part, while the central hole of the nozzle is associated with the cavity of the body and is made with a narrowing in the direction of the nozzle cut, and the deflector mounted on the rack is made in the form bodies of rotation of variable cross-section, decreasing towards the post, on the surface of the deflector along its axis, equidistant grooves of variable cross-section are made, separated by ribs, the lower threaded part of the post is mounted in the body cavity by means of a bracket, on the upper cut of the deflector there is a shaped recess for the size of the end face of the hexagonal knob , characterized in that wedge-shaped flow dividers are rigidly mounted on the grooves of the deflector surface.

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