SU1675589A1 - Vortex ejector - Google Patents

Abstract

The invention relates to inkjet technology and can be used for pumping liquids and gases. The purpose of the invention is to simplify the design. The vortex ejector contains a chamber (K) 1 of the vortex with a tangential supply 2 of the active medium, located along the axis K 1 1 nozzle 3 supplying a passive medium, coaxial with the last K 4 mix, having a cylindrical outlet section 5, and a flat diffuser 6, walls 7 and 8 of which are perpendicular to the K 4 axis. The output section 5 K 4 is conjugated with the entrance of the diffuser 6 by an axisymmetric diffuser section 9. The diffuser section 9 is made in the form of a truncated cone with an angle of inclination of 45 ° amp; 0.5-0.66 dia the output area of the 5 K 4. 2 silt

Description

ABOUT

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The invention relates to inkjet technology and can be used for pumping liquids and gases.

The purpose of the invention is to simplify the design.

Fig, 1 shows an ejector, a longitudinal section; in fig. 2 - ejector, view from the side of a flat diffuser.

The vortex ejector contains a swirl chamber 1 with a tangential supply 2 of the active medium, located along the axis of the swirl chamber 1; perpendicular to the axis of the mixing chamber 4, while the output section 5 of the mixing chamber 4 is connected with the entrance of the diffuser 6 by an axisymmetric diffuser section 9. The diffuser section 9 is made in the form of a truncated cone with an inclination angle of 45 °, height truncated cone is 0,5-0,66 diameter outlet portion 5, the mixing chamber 4.

Vortex ejector works as follows.

The active medium enters the vortex chamber 1, in the center of which a zone of reduced pressure is formed, due to which the passive medium enters the chamber 1 through the nozzle 3, after which both media are mixed in the mixing chamber 4.

the mixture enters first into the diffuser section 9, and then into the flat diffuser 6, where the pressure of the mixture is restored, which subsequently enters the collecting manifold and is discharged from the ejector to its intended purpose.

Experimental comparison showed approximately the same evacuating capacity of the ejector with the mating of the mixing chamber 4 and the diffuser 6 using a conical section 9 and with the mating in the form of rounding the output edges of the chamber 4 in the range of radii of 0 4.35 of the mixing radius 4.

Claims (1)

Claims Vortex ejector containing a vortex chamber with a tangential active medium supply, located along the axis of the vortex chamber the section of the mixing chamber is interfaced with the entrance of the diffuser by an axisymmetric diffuser section, characterized in that, in order to simplify the construction, the diffuser section is designed as a truncated cone with an angle of inclination of a generatrix of 45 °, and the height of the truncated cone is 0.5-0.66 of the diameter of the exit section of the mixing chamber.