SU1653848A1 - Method for liquid atomization - Google Patents

Abstract

The invention relates to a method of spraying liquid media and can be used in the chemical industry, agriculture and other branches of the national economy using aerosols. The goal is to increase the efficiency of the process by reducing the possibility of trapping the coarse fraction. To do this, in the method of spraying liquid by crushing it with hollow disk nozzles in the incoming air flow, capturing droplets of the fine fraction of the spray gun and feeding them into the cavity of the sprayer for secondary use is performed by acting on the spray tips directed toward the cavity of the sprayer at an acute angle to its axis annular air flow of adjustable intensity Velocity vectors in any of the longitudinal sections of the annular air flow intersect at one point placed a spray axis and within its cavity provided thus increasing the efficiency by increasing the reliability of the conveying and delivery of selected droplets in the plume spray zone cavity, i.e. Reliability of reducing liquid overhead. 1 з п. Ф-лы, 1 Il.

Description

The invention relates to the spraying of liquid media and can be used in the chemical industry, agriculture and other folk industries that use aerosols.

The purpose of the invention is to increase the efficiency of the process by reducing the possibility of trapping the coarse fraction.

The drawing shows a device for carrying out a method for spraying a liquid.

The device contains installed in the incoming air flow drive sprayer 1 with disks 2 and cavity 3

receiving chamber, annular manifold 4 and nozzles 5.

Each of the nozzles 5 is installed at an angle to the axis of the atomizer 1 with the intersection of the axes of the nozzles 5 on the axis of the atomizer 1 in the zone of cavity 3. A pressure regulator 6 is installed at the inlet to the manifold.

The device works as follows.

Fluid is supplied to cavity 3 and, distributed as the atomizer rotates over disks 2, it is crushed last, forming a spray jet due to the incident air flow. In the latter there are small and large drops carried

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air flow towards the collector 4, into which compressed air is fed under pressure from the collector through the nozzles 5.

Capturing droplets of the fine fraction of the spray cone and feeding them into the cavity 3 of the sprayer 1 for secondary use is performed by subjecting the spray cone to the cavity 3 of the sprayer 1 at an acute angle to its axis by an annular air flow of adjustable intensity. The angle of the air flow is determined by the angle of installation of the nozzles 5. The velocity vectors in any of the longitudinal sections of the annular air flow intersect at one point located on the axis of the sprayer 1 and within its cavity 3.

The pressure regulator measures the speed of compressed air in the annular air flow, which ensures the selection of droplets moving in the spray jet and transporting them into the cavity 3 of the nebulizer 1, where they merge with the fluid moving along the walls of the cavity. (The trajectory of movement of the selected droplets is shown by thin lines mi). It is obvious that large drops, having a greater energy reserve, are less exposed to the annular flow than small ones, and by adjusting the velocity of the latter, the size of the drops to be taken can be adjusted. In this case, the acceleration of the merged drops with the liquid is facilitated by the cumulative effect on them of both the annular air flow and the discharges created in the cavity 3 during rotation. Thus, small drops

(the particular amount of droplets to be taken out is controlled by the speed of the annular air flow) are removed from the spray cone and used again, and the remaining

in a torch, large droplets follow in the direction of the object being processed, which provides a dramatic increase in efficiency both due to a decrease in unproductive expenditures of the sprayed liquid due to

reducing beveling and evaporation, and due to the secondary use of small droplets previously released into the air.

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Claims (2)

1. Method of spraying a liquid by crushing it with a hollow disk sprayer in the incoming air flow, catching droplets of the fine fraction spray gun and feed them into the cavity of the sprayer for reuse, characterized in that, in order to increase the efficiency of the process by reducing the possibility of trapping the coarse fraction, capturing drops and feeding them into the cavity of the atomizer is performed by subjecting the spray torch to the atomizer cavity at an acute angle to its axis annular air flow of adjustable intensity. 2. A method according to claim 1, characterized in that the velocity vectors in any of the longitudinal sections of the annular air the flux intersects at one point located on the axis of the nebulizer and within its cavity.