SU1353517A1 - Cascade=type splash-plate spray nozzle - Google Patents

Abstract

The invention relates to devices for spraying water, process liquids and liquid fuels for irrigation in agriculture and various industries. The goal is to increase the uniformity of filling the torch while expanding its borders. To do this, in a cascade percussion jet nozzle, each reflective element is made of quadrilateral plates inclined to the nozzle axis, connected at an angle to each other along edges of alternating length with the formation of a star-like reflection surface. The holes on the distribution pipe are located opposite the long ribs, and the short ribs are deflected from the vertical by an angle smaller than the long ones. Plates can be made of elastic material. The angle of conicity of each subsequent, its element along the fluid flow is chosen smaller than the previous one. 2 h. item f-ly, 2 ill. sl sl sl oo cl

Description

The invention relates to devices for spraying water, process fluids and liquid fuels for agricultural irrigation and various industries.

The purpose of the invention is to increase the uniform filling of the plume while expanding its borders.

FIG. 1 shows the nozzle, a general view; in fig. 2 is a section A-A in FIG. one.

The cascade shock jet nozzle contains a distribution pipe 1 with several rows of symmetrically arranged holes 2 and tapered reflective elements mounted opposite the holes 2, consisting of quadrangular plates 3 inclined to the axis of the nozzle 1. The plates 3 are interconnected ribs 4 and 5 of alternating length and form a corrugated cone with a star-shaped cross-section. Holes 2 on nozzle 1 are located opposite the long side ribs 4, and short ribs 5 are inclined from the vertical by an angle smaller than long ones. 1a the end of the nozzle 1 is installed hydraulically {) (), the gun 6.

The reflective elements 3 of the nozzle are made of an elastic material, and the angle of taper of each subsequent along the liquid of the reflective element 3 is chosen than to prevent it.

Cascade shock jet nozzle works as follows.

The fluid is supplied under pressure from the nozzle 1 through the holes 2 and as a result of the impact it spreads over the plates 3 of the reflective element. The direction of flow is double: the flow from the angle from the long edge 4 to the short edges 5 in two directions and the flow downward due to the inclination of the plates. During cutting: the liquid spreads in a thin film along the plate m 3, moving down to the sides of the long edge -4 at an angle to the vertical. Breaking off the edges of the plates, the liquid film disintegrates into droplets, the streams of which from each two adjacent plates connected by short ribs intersect to form a conical hollow core. thickness so that the boundaries of the torch

from each reflective element is expanded and the possibility of

The limited number of elements to create a uniformly filled torch.

With this shape of the reflective element and this arrangement of holes, each particle of the liquid travels approximately the same way along the plates: particles that fall from the hole directly move along the long edge downwards, and particles moving along the plate go to the short edges. Therefore, all particles are slowed down in approximately the same way, which causes the same rate of breakdown from the edges of the plates and, therefore, the same dispersion.

The edges of the plates 3 due to the elasticity of the material from which they are made, under the action of the pressure of the liquid, expand the boundary of the torch.

The downward deflection angle of the plates 3 from the vertical causes the filling of the paraxial zone of the torch. For this purpose, hydraulic nozzle 6 is intended.

Claims (3)

1. A cascade impact jet nozzle containing a distribution nozzle with several rows of symmetrically arranged holes and tapered reflective elements fixed opposite the holes, characterized in that. that, with the aim of equalizing the torch filling with simultaneous expansion of its borders, each reflective element is made of quadrilateral plates inclined to the nozzle axis connected at an angle to each other along edges of alternating length with the formation of a corrugated star-shaped reflection surface below the aperture on the nozzle are located opposite the long edges, and short edges are inclined from the vertical by an angle smaller than the long ones. 2. The injector according to claim 1, characterized in that the plates are made of an elastic material. 3. The injector according to claim 1, characterized in that the taper angle of each subsequent along the fluid reflective element is chosen smaller than the previous one. Phi2.1 FIG g