SU1699630A1 - Liquid sprayer - Google Patents

Abstract

The invention relates to agricultural machinery and can be used for work in the hip space of greenhouses. The purpose of the invention is to improve the performance of the sprayer and its reliability while maintaining spray uniformity and reducing the labor intensity of manufacture. For this purpose, the means for adjusting the diameter of the spray cone is made in the form of a flat membrane, fixed with ends along the axis of the housing between the latter and the pressure nut. Outlets are made in the membrane. The unit for bringing the deflector blades into rotation is placed at the outlet of the outlet openings of the membrane outside the housing and is made in the form of a truncated cone with screw grooves. The deflector vanes are made straight. Liquid jets falling into the screw grooves on the side of the assembly cause the rotation not only of the assembly itself, but also of the blades rigidly connected with it, breaking aerosol droplets into a finely dispersed state. When the pressure of the fluid changes, the membrane bends, which changes the diameter of the spray pattern. 2 Il.

Description

The invention relates to the field of agricultural engineering, in particular to liquid spraying devices intended for work in the hothouse space of greenhouses.

The purpose of the invention is to improve the performance of the sprayer and its reliability while maintaining spray uniformity and reducing the labor intensity of manufacture.

FIG. 1 shows a liquid sprayer, a general view; on big. 2 is a section A-A in FIG. one, .

The fluid sprayer comprises a hollow body 1, a means for adjusting the diameter of the spray jet with a pressure nut 2 and outlet openings 3, deflector vanes 4 mounted at the outlet of the outlet openings 3, and rigidly connected

with blades 4 and node 5 for bringing them into rotation under the action of a stream of sprayed liquid.

The means for adjusting the diameter of the spray cone is made in the form of a flat membrane 6 fixed at its ends along the axis of the housing 1 between the latter and the pressure nut 2, and the outlets 3 are made in the membrane 6.

An assembly 5 for rotating the deflector blades 4 is placed at the outlet of the outlet openings 3 of the membrane 6 outside the housing 1 and is made in the form of a truncated cone with helical grooves 7, and the deflector blades 4 are made linear.

Case 1 has a tapered thread for connection to the pressure pipe nozzle O О О

About CJ

about

a pipe (not shown) and a cylindrical - for a clamping nut 2.

The spray liquid works as follows.

Fluid is supplied under operating pressure through the pipeline, then through housing 1 to membrane 6 and through openings 3 in it is thrown out, while the flow rate depends on the diameter of opening 3 and the pressure of the liquid in the pipeline. When hitting the conical side surface of unit 5, continuous jets of water break up into droplets with a diameter of 150-500 microns. Liquid jets falling into the screw grooves 7 on the side surface of the node 5 bring not only the node 5 into rotational motion with it, the blades 4, breaking aerosol drops to a more finely dispersed state, which ensures their more intense evaporation. Under the influence of the pressure of the liquid, the membrane b bends, thus changing the direction of the outflow of liquid jets from the holes 3 in the membrane 6 and the angle of their meeting with the conical side surface of the node 5, as well as the gap between the membrane 6 and the node 5, resulting in the diameter of the spray pattern increases. With a decrease in pressure in the pressure pipe, the deflection of the membrane 6 decreases; with, the angle of meeting of the liquid jets with the surface decreases accordingly.

node 5, and the diameter of the spray cone decreases. In this way, a more uniform distribution of liquid aerosol in the spray volume is achieved.

Claims (1)

Invention Formula A fluid spray gun comprising a hollow body, means for adjusting the diameter of the spray nozzle with a pressure nut and outlets, deflector blades mounted at the outlet of the outlets, and a node rigidly connected to the blades to bring them to rotation under the action of a stream of sprayed liquid, characterized in that, in order to increase the performance of the sprayer and its reliability while maintaining spray uniformity and reducing the labor intensity of manufacture, the means for controlling the diameter of the sprayer a is made in the form of a flat membrane fixed with its ends along the axis of the body between the latter and the clamping nut, and the outlet openings are made in the membrane, while the assembly for driving the deflection blades into rotation is placed at the outlet of the outlet openings of the membrane outside the case and made in the form of a truncated cone with screw threads, and deflector blades are made straight-line. Aa five . FIG. 2