SU1775182A1 - Multistage impact-jet sprayer - Google Patents

Description

The invention relates to techniques for sawing liquids and can be used when irrigating crops by sprinkling.

Known cascading shock-jet nozzle containing a nozzle connected to the pressure pipe and mounted in front of it on the guide working disks with central holes, equipped with an annular confuser, inside which working disks with annular slots are installed.

. The main disadvantage of this design is the relative complexity of manufacturing and poor performance upon receipt of heavily contaminated water, since there is the possibility of driving slots on working surfaces.

Known nozzle containing the exhaust nozzle and sequentially mounted coaxially to it. with the possibility of adjustable axial movement, under spring-loaded reflectors, the first of which is made with a hole for supplying liquid to the second reflector, which has the shape of a plate with the edges facing the first reflector.

The disadvantage of this device is the relative complexity of the design and low operational reliability.

The purpose of the invention is to increase operational reliability.

This goal is achieved by the fact that the nozzle is equipped with rods, each of which is rigidly connected with both reflectors along their edges and is installed with the possibility of interaction with the means of spring-loaded reflectors, and the regulator of axial movement of the reflectors is made in the form of screws, and each rod is connected with one of them. and the second reflector is made in the form of a parabolic bowl.

Due to the reciprocating movements of the reflectors. under the action of

1775182 A1 of the water flow, the liquid film flowing from their surface is turbulized, which contributes to a more intense decay into droplets, and the implementation of the second reflector in the form of a parabolic cup reduces the friction energy loss and, therefore, increases the film collision force, which increases the sawing efficiency .

The drawing shows a section of the device.

The nozzle contains a nozzle 2 connected to the pressure pipe 1 and reflectors 4,6; the first reflector 4 is made with a central hole 5, and the second reflector 6 is in the form of a parabolic bowl, and the rods 3 are spring-loaded with a spring 7 with a locking screw 8 (Fig; 1).

The nozzle works as follows. Water through the nozzle 2 enters the deflector plate 4, where part of the incoming water is converted into a fan-shaped film, and the other part through the central hole 5 enters the lower reflector 6, made in the form of a parabolic bowl, where it is converted into a fan film.

At a certain distance from the reflectors, the films collide, and the spring 7 with the locking screws 8 provide the possibility of oscillating movements in the vertical plane, which additionally turbulizes the liquid films, and the smooth shape of the second reflector reduces friction losses, which ensures a stronger interaction of the films. All this ultimately provides high quality spray.

The use of the invention for spraying liquid will simplify the design of the nozzle and accordingly increase its operational reliability (in particular, the stability of operation on contaminated water) while maintaining high quality sawing.

Claims (2)

Claim 1. A cascade shock-jet nozzle comprising an outlet nozzle connected to a pressure pipe, spring-loaded reflectors installed in series coaxially with it with the possibility of axial movement, the first of which has an opening for the passage of fluid to the second reflector, made in the form of a bowl with the edges facing the first reflector, and a regulator of axial movement of reflectors, characterized in that, in order to increase operational reliability, it is equipped with rods, each of which is rigidly connected with both reflectors at the edges and installed with the possibility of interaction with the means of spring-loaded reflectors, and the regulator of axial movement of the reflectors is made in the form of screws, and each rod is connected with one of them. 2. The nozzle according to claim 1, characterized in that the cup of the second reflector is made parabolic.