RU1819681C - Atomizer - Google Patents

Abstract

Usage: spraying liquids and gases. SUMMARY OF THE INVENTION: a sprayer comprises a hollow nozzle in the form of a ball with a perforated surface mounted axially movable on a housing with a central channel for supplying sprayed liquid. The lower end of the body is made beveled and located inside the cavity of the nozzle. 2 ill.

Description

The invention relates to a technique for spraying liquids and gases, and can be used to cool the heat-generating elements of electronic equipment, as well as to everyday life, various heat exchangers and in agriculture for irrigation.

The aim of the invention is to expand technological capabilities by increasing the uniformity of mixing the liquid before spraying and by ensuring the uniformity of the pressure of the liquid in the jets when it flows through the various openings of the hollow nozzle.

In FIG. 1 schematically shows the proposed atomizer (with a cut of the end face of the housing perpendicular to the central channel); in FIG. 2 - the same, but with a beveled end of the body.

The sprayer comprises a housing 1 with a central channel 2 for supplying the sprayed material, which is connected to the nozzle 3, made in the form of a hollow perforated ball (perforation is indicated by position 4). To increase the spraying efficiency by ensuring uniform pressure in all directions inside the nozzle 3 by imparting a rotational movement of the sprayed liquid, the end face 5 of the housing 1 is made beveled. To expand the technological capabilities of the nozzle 3, it is possible to move along the housing 1, for example, by twisting or twisting it, while locking elements should be provided to prevent self-unscrewing nozzles (not shown in the drawing). In the process of twisting or twisting the nozzle 3, the spray pattern is controlled. Perforation 4 in the nozzle 3 is provided mainly in its upper part.

The sprayer operates as follows.

The sprayed material entering the housing 1 through the channel 2 enters the internal cavity of the nozzle 3, where, twisting, it exits through the openings 4 in the form of separate jets.

The ball shape of the hollow nozzle 3, dressed on the threaded tip of the housing (pipe) 1, provides a swirl of the material (for example, liquid, gas, emulsion),

iW

Yo

With

NO

Os 00

which makes it possible not only to uniformly mix it before spraying in order to achieve the same temperature, chemical and mechanical composition, but also uniform pressure of the jets in all permitted directions.

The execution of the end face 5 of the housing 1 with a bevel causes a partial displacement of the material flow from the vertical axial direction to the meridional direction, which causes additional twisting of the feed material. In this case, the characteristic of the cutting torch is defined as the resulting forces of the material moving along the spherical surface of the nozzle 3 in the axial and meridional directions.

Owing to this nozzle design, high uniformity is achieved by mixing 1 (mixing) the material in the nozzle by spraying it, the constant pressure of the series inside the nozzle, the uniform pressure of the material on the jets through the various nozzle openings and the long spraying distance of the material.

Thus, broader technological capabilities are the advantage and advantage of the proposed technical solution in comparison with analogues and prototype.

Formula a invented and

A sprayer containing a hollow nozzle with a perforated spherical surface, mounted with the possibility of axial movement on the body with a central channel for supplying the sprayed liquid, the outlet end of which is located inside the nozzle cavity, so that In order to expand technological capabilities, the nozzle is made

in the shape of a ball, and the output end of the body is made beveled. .

FIG.

FIG. 2