SU1435312A2 - Injector - Google Patents

Abstract

The invention relates to devices intended for the production of aerosols, and can be used in the aircraft engine and chemical industry. The goal is to increase the dispersion of the aerosol. For this, the nozzle is equipped with a means of mixing, installed in front of the entrance, made in the form of two perforated plates. Plates are placed in the pipeline to feed the liquid perpendicular to its axis with the formation of a cavity between them, communicated with the reservoir for the foaming agent under pressure. The nozzle provides a high degree of dispersion of the aerosol by pre-gasing it. Running air flow initially splits the liquid after it exits in the form of streams into the cavity of the nozzle. The aerosol formed is accelerated and discharged through an outlet orifice perpendicular to the incoming air flow and is subjected to a second crushing of 1 sludge. (L

Description

1H

The invention relates to devices for the production of aerosols, can be used in aircraft engine building and in chemical filming and is an improvement of the invention according to the authors. St.

No

1069865.

The aim of the invention is to disperse the aerosol dispersion.

The drawing shows a nozzle, a general view.

The nozzle contains a pipeline 1 dp of fluid supply, ending with a sleeve 2 with radial holes 3 and a bottom A, and an air duct 5 covering the sleeve 2, the bottom 4 is articulated with an adjusting screw 6, on which the coaxially is mounted with axial intersecting ring nozzle 7 with radial holes 8 in the inner wall, coincide with holes 4 in sleeve 2, inlet 9 drawn into the air flow (indicated by arrows) and outlet hole Yu, perpendicular to the air flow.

The nozzle is also equipped with a mixture formation means installed before the entrance to the sleeve 2, made in the form of two perforated plates 1 and 12 ,. placed in the pipeline for supplying fluid perpendicular to its axis with the formation between the co-cavity 13, communicated through the medium with the t 1 ohm slits 14 made in the pipe conductor 1, the receiver 15 and the pipe 16 with electropneumatic valve 17, filled with foam, for example, PO-1. The container 18 has a fitting 19 for supplying air 111od pressure and a throat 20 for a foaming agent.

The nozzle operates as follows: ioM.

When fluid is supplied through conduit 1 to sleeve 2, electropneumatic valve 17 opens at the same time. The foaming agent, under the data of air supplied through fitting 19, enters the receiver 15 and through slots 1A enters the conduit 1, where} from cavity 13 it is shifted to the working fluid . The mixing is carried out due to the fact that the liquid is fed through the perforated plate 11 into the cavity 13 in the form of streams, and the foaming agent through the slots 14 in the form of a film. The film is pierced by the jet, resulting in a turbulent flow.

Additional mixing occurs at the outlet of the perforated plate 12, where the jets merge into a common stream. The amount of foaming agent supplied to the working fluid is provided by the pressure of air entering through fitting 19 and the passage section of the slots 14. The mixture then enters the sleeve 2, passes through the openings .3 and 8 in the form of streams into the cavity of the nozzle 7, where it is crushed due to impact with the incoming air flow through the opening 9, mixing with air to form stump 1, which is a cellular-film dispersed system consisting of a mass of air bubbles separated by thin films of liquid. The foam is ejected through the opening 10 into the incoming air stream, where it is crushed.

Claims (1)

Invention Formula Nozzle auth. No. 1069865, characterized in that, in order to increase the dispersion of the aerosol, it is provided with a mixing means installed in front of the bushing, made in the form of two perforated plates placed in the pipeline for supplying the liquid perpendicular to its axis with the formation of a cavity between itself communicated with tank for foaming agent under pressure. / /// f / nineteen