SU1502126A1 - Pneumatic injector - Google Patents

Abstract

The invention relates to devices for spraying and applying liquids on the surface of products and can be used for painting products. The purpose of the invention is to improve the uniformity of the composition of the mixture by providing the ability to compensate for fluctuations in the pressure of the spraying agent. For this purpose, in the pneumatic nozzle, the means for twisting the flow of the spraying agent are made in the form of a spring located between the stops of the housing and the nozzle, which can be made many-fold. The number of spring hits is chosen not less than the number of nozzle holes. When the pressure of the spraying agent varies, the degree of compression of the spring, as well as the dimensions of the channel for passage of this agent, and the hydraulic characteristics of the channel change, which largely compensates for the pressure fluctuations of the spraying agent at the inlet to the nozzle for supplying it. 2 hp ff, 2 ill.

Description

The invention relates to devices for spraying and applying liquids to the surface of products and can be used for painting products.

The purpose of the invention is to ensure uniformity of the composition of the mixture to ensure compensation of pressure fluctuations of the spraying aienra.

FIG. I depicts a pneumatic nozzle, a general view; in fig. 2 - section A - A in FIG. I.

The pneumatic nozzle includes a housing I with a nozzle 2 for supplying a spraying agent, mounted on the outlet torp of the housing I, a sleeve 3 located in the housing I but its axes, and a pipe 4 for supplying the fluid: 1, the fluid is fixed on the outlet end of the pipe 4 of nozzles 5 with holes 6 for communicating the cavity of the pipe 4 with the chamber 7 between the conical surfaces of the sleeve 3 and the nozzle 5 and the means for twisting the flow of the spraying agent in the form of a housing located between the lugs 8 and 9 and the nozzle 5, respectively, of the spring 10.

The stop 8 of the housing I is placed on the inlet end of the housing 1 by means of the nut II. At the output end of the nozzle 5, a disk 12 is installed with provision for clearance on the output side of the sleeve 3. The spring 10 can be made multiple, the number of spring 10 can be selected 1 o not less than the number of holes 6 nozzle 5.

A pneumatic nozzle operates as follows.

Before the beginning of the operation, the nozzle 2 is connected to supply a spraying agent, for example air. A pipe 4 is attached to the fitting for pacni i-molding, for example, paint. Then, through the nozzle 2 and the channel between the case I and the pipe 4, compressed air is supplied, as a result of which, under the influence of dynamic air pressure, the spring 10 is compressed to some extent and the bolt part of the current moves between the coils of the spring 10, twists and flows through the chamber 7 and the gap between nozzle D) and BUSH 3 to disk 12.

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As a result of the shock of the disk 12 swirled on the coils of the spring 10 air flow, it takes the form of a conical torch. Then, through the internal cavity of the pipe 4 and the holes 6, the nozzle 5 supplies paint to the chamber 7, where, under the influence of a swirling air flow, the ink jet is crushed into droplets, which together with air through the annular gap between the nozzle 5 and sleeve 3 fall onto the disk 12, the paint is crushed on it, as a result of which a fine mixture of paint and air is formed, the flow of which has the form of a previously regulated flow of air. The shape of the spray can be adjusted by the end of the sleeve 3, as well as by moving the pipe 4 along the axis of the housing 1, as a result of which one or another gap size is established between the nozzle 5 and the sleeve 3.

In the pneumatic nozzle, the air pressure in the chamber 7 and the air flow through the annular gap between the nozzle 5 and the sleeve 3 are constant, which preserves the uniformity of the air-paint mixture during operation when the air pressure fluctuates at the air inlet to the pneumatic nozzle.

When using a multi-spring 10, it will practically consist of several springs 10, therefore the spacing between the turns of each spring 10 when calculating it must be increased by the number of trips of the common spring 10. In this case,

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It is possible to divide the air flow into several parts and direct each part of the flow to the area of the corresponding hole 6 of the nozzle 5, as a result of which the efficiency of mixing paint with air is increased.

Claims (3)

Invention Formula . A pneumatic nozzle comprising a housing with a nozzle for supplying a spraying agent; a sleeve mounted on the outlet end of the housing; a pipe located in the housing for supplying the spray liquid; attached to the outlet end of the nozzle pipe with openings for communicating the cavity of the pipe with the chamber between the conical surfaces. The sleeves and nozzles and the means for twisting the flow of the spraying agent are different, so that, in order to increase the uniformity of the composition of the mixture by providing a compensation for pressure fluctuations pylivayu- Sheha agent, means for twisting the flow of the spray agent is in the form rassyulozhennoy housing between stops and a spring attachment. 2. The injector according to claim 1, characterized in that the spring is made multiple. 3. The nozzle on the PP. 1 and 2, characterized in that the number of spring inputs is chosen to be not less than the number of holes of the nozzle. four i A-A. S FIG. 2