SU1483107A1 - Ejector - Google Patents

Abstract

The invention relates to inkjet technology, mainly to ejectors for pumping various liquid media. The aim of the invention is to intensify the mixing of media during pulsating flow of the active medium. The ejector includes a housing 1 with an active nozzle 2, a mixing chamber 3 (CS) and a diffuser 4, and the COP 3 is installed with the formation of the annular cavity 5 with the housing 1. The cavity 5 is connected to the active nozzle 2 by the overflow pipe 6 and is limited at the inlet section of the COP 3 by magnets 7, and at the exit section of CS 3 elastic cuff 8 with magnetic segments 9 placed in it. CS 3 is made of a piezoelectric material and screw channels 10 are made along its inner surface. Active liquid medium, having emitted under a pulsating pressure from the nozzle 2, entrains a passive medium in KS 3 and, interacting with screw channels 10, causes elastic torsional vibrations of KS 3. Simultaneously, the pulsating pressure of the active medium through pipe 6 causes longitudinal = transverse oscillations of KS 3. 2 Il.

Description

The invention relates to inkjet technology, mainly to ejectors for pumping various liquid media.

The purpose of the invention is the intensification of the mixing of active and passive media with a pulsating flow of the active medium.

In FIG. 1 shows an ejector, a longitudinal section; in FIG. 2 — section A — A in FIG. one.

The ejector comprises a housing 1 with an active nozzle 2, a mixing chamber 3 and a diffuser 4, the mixing chamber 3 being installed with the formation of an annular cavity 5 with the housing 1 and the latter is in communication with the active nozzle 2 by the bypass pipe 6. The ejector is equipped with magnets 7 and an elastic sleeve 8 with magnetic segments placed in it 9. The mixing chamber 3 is made of piezoelectric material with screw channels 10 along its inner surface, and the annular cavity 5 is limited at the inlet portion of the mixing chamber 3 by magnets 7, and heel - elastic cuff 8.

During the operation of the ejector, the active liquid medium through the nozzle 2 under a pulsating pressure is supplied to the mixing chamber 3 and, interacting with the screw channels 10, introduces it into the mode of elastic torsional vibrations. At the same time, the pulsating pressure through the pipe 6 is transmitted to the cavity 5 and displays the mixing chamber 3 in the mode of longitudinal-transverse vibrations. A passive medium, carried away by the active medium, enters into the mixing chamber 3 with it, and in the latter, both media are mixed and exposed to a magnetic field formed by magnets 7 and magnetic segments 9, and an electric field formed by a mixing chamber made of piezoelectric material 3.

Thus, the complex effect on the penetrating stream of a mixture of media intensifies the process of mixing the media and affects the physicochemical characteristics of the medium flowing from the ejector.

Claims (1)

15 claims An ejector comprising a housing with an active nozzle, a mixing chamber and a diffuser, the mixing chamber being installed with the formation of an annular cavity with a housing, and the latter is connected to the active nozzle with a bypass pipe, characterized in that, in order to intensify the mixing of the active and passive media with a pulsating active medium supply. the ejector 25 is equipped with magnets and an elastic cuff with magnetic segments located in it, the mixing chamber is made of piezoelectric material with screw channels along its inner surface, and the annular cavity is bounded at the inlet section of the mixing chamber by magnets, and at the outlet section, with an elastic cuff.