SU1071818A1 - Vortex ejector - Google Patents

Abstract

VORTEX EJECTOR containing tangential active nozzle. communicated with a countercurrent mixing chamber, connected thereto are connections for supplying a passive medium and withdrawing a mixture of media, the latter of which is located in the active nozzle zone, and a direct flow vortex stage with a mixing chamber located coaxially with the outlet pipe of the mixture of media, and a diffuser, characterized in that In order to increase the ejection coefficient, the flow vortex stage is equipped with a tangential nozzle for supplying a passive center located in the zone of the nozzle for discharging the mixture of media. W with o m / feccuSni / u / yutvk eo 90

Description

The invention relates to inkjet technology.

Known vortex ejector containing a tangential active nozzle in communication with the mixing chamber, a diffuser and supply pipes' active 5 and passive medium [1J. ι - /

However, this vortex / ctor has a low efficiency. >) "

The closest to the invention in terms of technical nature and the achieved result is a vortex ejector containing a tangential active nozzle in communication with a countercurrent mixing chamber, connected to it are pipes for supplying a passive 15 medium and for removing a mixture of media, the last of which is located in the zone of the active nozzle, and a direct-flow vortex step with a mixing chamber located coaxially to the pipe outlet of the mixture of 20 media and a diffuser [2J.

However, the known vortex ejector has a relatively low ejection coefficient, which is associated with the incomplete use of the energy of the active 25 medium.

The aim of the invention is to increase the coefficient of ejection.

This goal is achieved by the fact that in a vortex ejector containing θ containing a tangential active nozzle ³ connected with a countercurrent mixing chamber, pipes for supplying a passive medium and removal of a mixture of media connected to it, the last of which is located in the active zone of the nozzle 35, and direct-flow a vortex stage with a mixing chamber located coaxially to the outlet pipe of the mixture of media, and a diffuser, the direct-flow vortex stage is equipped with a tangential pipe for supplying a passive medium located in the area of the pipe for withdrawing the mixture of media.

In FIG. 1 shows a vortex ejector, a longitudinal FIG. FIG. Section A-A section BB section; in FIG.

on the

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ВНИИПИ Order 101/30 Circulation 624 Subscription

The vortex ejector contains a tangential active nozzle 1, in communication with the countercurrent mixing chamber '2, connected to it pipes 3 and 4 for supplying a passive medium and for discharging a mixture of media, the last of which is located in the zone of the active nozzle 1 and a direct-flow vortex stage with a mixing chamber 5 located coaxially to the pipe 4 of the outlet of the mixture of media, and a diffuser 6. The direct-flow vortex stage is equipped with a tangential pipe 7 of the supply of the passive medium located in the area of the pipe 4 of the outlet of the mixture of media.

The active gaseous medium enters the spiral tangential active nozzle 1, flowing out of which, the swirling flow is directed into the countercurrent mixing chamber 2.

In the mixing chamber 2, as a result of moving the flow of the active medium, the gas expands along the axis and radius with the formation of a rarefaction zone in the axial zone of the countercurrent mixing chamber 2, into which the passive medium enters through the pipe 3. The mixture of media from the countercurrent mixing chamber 2 enters the pipe 4 of the mixture discharge, flowing out of which the mixture of media entrains the passive medium entering the mixing chamber 5 through the tangential pipe 7 for supplying the passive medium. The mixture of media enters from the mixing chamber 5 into the diffuser 6, where the kinetic energy of the flow is partially converted into potential energy.

Thus, by performing a vortex ejector with a direct-flow vortex stage equipped with a tangential nozzle for supplying a passive medium located in the zone of the nozzle for withdrawing a mixture of media, an increase in the ejection coefficient is achieved.

Branch of PPP Patent, Uzhgorod, Project 4,

Claims (1)

A VORTEX EJECTOR containing a tangential active nozzle in communication with a counterflow chamber; interferences; passive medium supply pipes and a mixture of mediums connected to it; the last of which is located in the active nozzle zone; and a direct-flow vortex stage with a mixing chamber located coaxially to a pipe of a mixture of mediums; and a diffuser, characterized in that, in order to increase the ejection coefficient, the direct-flow vortex stage is equipped with a tangential inlet pipe for the passive medium located in the area of the outlet pipe mixtures of media.