SU88775A1 - Swirl Ejector - Google Patents

Description

A vortex ejector (kasos) with a cylindrical mixing chamber and a tangential supply of working fluid (gas) is proposed, the vortex of which is used to suck up the ejected (lifted) medium entering the mixing chamber in the axial direction.

The described ejector differs from: known in that the aspirated fluid flows to the other vortex through a nozzle centrally located relative to the mixing chamber. The mixing chamber itself ends in a slot diffuser communicating with the cochlea.

FIG. 1 shows a vortex ejector in longitudinal section; in fig. 2 - the same, side view.

The vortex ejector (pump) consists of a cylindrical chamber / mixing with tangentially located branch pipes .2, a cochlea g with a discharge branch pipe, and cylinders of a P1-branch pipe 4 located coaxially with the chamber / mixing chamber.

The chamber / mixing is rigidly connected to the neck of the cochlea 3, and the latter is connected with a pipeline (not shown in the drawing) to the consumer via a discharge pipe. The cylindrical nozzle 4 is rigidly connected to the displacement chamber by means of a flange.

The working fluid (gas) is introduced into the chamber / displacement through tangentially positioned nozzles 2, and the ejected (lifting) medium enters the chamber 1 in the axial direction through a cylindrical nozzle.

The working fluid (gas) entering the displacement chamber performs a turbulent motion in it creating a stable vortex, which has the property of drawing the ejected medium with its core from the cylindrical nozzle 4. The mixture from the cylindrical displacement chamber enters the cochlea t. In the cochlea, the flow is unwound and pressure is restored.

With this execution of the ejector, the process of pressing the medium and the flow spin up are more organized, which increases the efficiency of the ejector.