SU1419734A1 - Pneumatic atomizer - Google Patents

Abstract

The invention relates to a device for spraying liquids and can be used for pneumatic spraying of liquids and coating products. The purpose of the invention is to improve the uniformity of the dispersion of the spray. For this, the insertion end of the sleeve is made protruding beyond the end of the material nozzle, and the outlet openings in the sleeve are made in the form of grooves, the axes of which are at an angle of 45-50 to the tangent to the inner surface of the sleeve. This ensures the compression of the largest area of the ink jet leaving the material nozzle. 3 il.

Description

WITH

CO 4

The invention relates to a device for spraying liquids and can be used for pneumatic dispensing of liquids and coating the product.

The aim of the invention is to improve the uniformity and dispersion of the rasp.

FIG. 1 shows a pneumatic nebulizer; in fig. 2 spray sleeve; in fig. 3 is a section A-A in FIG. 2

Pneumatic sprayer includes a housing 1 with a channel 2 of the fluid and the channels 3 of the compressed air supply. A material nozzle 4 is installed in the housing 1 with a locking needle 5. The spray head 7 is connected to the housing 1 by a cap nut 6 with discharge ports 8, an adjusting nut 9 and a sleeve 10.

The sleeve 10 is provided with six outlet openings in the form of grooves 11, the axes of which are located at an angle of 45-40 to the tangent to its inner surface. The grooves 11 are aligned with the channels 3, which ensures air compression of the largest area of the ink jet leaving the material nozzle. The angle between the longitudinal axis of the grooves and the axis of the sleeve 10 is 12-15 °.

The sleeve 10 covers the material nozzle 4 and forms with it a swirl chamber 12. The end of the sleeve 10 protrudes beyond the end of the material nozzle 4.

A fitting 13 for supplying a liquid and fittings 14 and 15 for supplying compressed air are connected to the housing. For axial movement of the locking needle 5, piston and pneumatic actuators (not shown) are used.

. The spray works as follows.

When compressed air is supplied to the pneumatic actuator through fitting 15, the piston moves the locking needle 5

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five

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The channel of the material nozzle 4 is pulled to the right and unstuck. The sprayed liquid (paint) is supplied through the nozzle 13 and the channel 2 into the material nozzle 4 and in the form of a jet enters the annular vortex chamber 12.

The inlet 14 compressed air enters through the channels 3 into the exhaust channels 8 of the spray head 7, the annular gap between the adjusting nut and the sleeve 10 and the slots 11 of the sleeve Y. In the swirl chamber 12, compressed air jets form a swirling flow that compresses and twists the outlet a paint stream from a material nozzle.

At the exit of the sleeve 10 paint stream forms a spray in the form of a hollow cone. The compressed air leaving the annular gap between the sleeve 10 and the adjusting nut 9 collides with the particles of the sprayed liquid, which leads to additional crushing of the liquid particles, increasing dispersion and uniform spraying.

Claims (1)

A pneumatic atomizer comprising a housing with fluid and compressed air supply channels, a material nozzle installed therein with a locking needle and a spray head that surrounds the nozzle with a sleeve made with outlets and forming a swirl chamber with the material nozzle, characterized in that In order to increase the uniformity and dispersion of the spray, the output end of the sleeve is protruding beyond the end of the material nozzle, and the outlet openings in the sleeve are made in the form of grooves; ryh arranged at an angle 45-50 ° to the tangent to the inner surface of the sleeve. B 11 5 FIG. 7 Chh 2 Editor M. Bandura Compiled by G. Djov Tehred L. OliynykKorrektor M. Sharoshi Order 4267/11 Circulation 634 VNIIG1I USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 fig 3 Subscription