SU1132073A1 - Vortex ejector - Google Patents

Description

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The invention relates to inkjet technology.

A vortex ejector is known, comprising a vortex chamber, a mixing chamber, a central channel for supplying a passive medium, and a diffuser 1.

However, the intensity of mixing active and passive media in it is insufficient.

Also known is a vortex ejector containing a vortex chamber with tangential channels, a cylindrical mixing chamber and a slot diffuser 2.

However, the range of application of this ejector is limited due to the small size of the diffuser slot, which does not allow it to work with two-phase media containing large inclusions. .

The purpose of the invention is to expand the range of application.

This goal is achieved by the fact that in an ejector containing a vortex chamber with tangential channels, a cylindrical mixing chamber and a slot diffuser, the diffuser slot has a value of 0.5-1.0 times the diameter of the mixing chamber. .

FIG. 1 shows a vortex ejector, longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a graph of experimental dependence of the degree of vacuum on the size of the diffuser slot.

The swirl ejector contains a swirl chamber 1 with tangential channels 2,

a cylindrical mixing chamber 3 and a slit diffuser 4. For supplying a passive medium, there is a channel 5, for discharging the mixture an outlet channel 6. The diffuser 4 is equipped with

the regulating element 7. The diffuser slot has a value A of 0.51.0 from the diameter d of the mixing chamber 3.

Vortex ejector works as follows.

The active medium is fed to chamber 1

turbulence along the tangential channel m 2, as a result of which a vacuum is created in its axial zone, where passive medium enters through channel 5. In the displacement chamber 3, energies are exchanged between the active and passive medium, then where the kinetic energy of the stream is converted to potential. The mixture is discharged through channel 6. According to the experimental data obtained (Fig. 3)

the value D of the slit of the diffuser 4 is set by means of the regulating element 7 in the range of 0.5-1.0 diameters d of the displacement chamber 3.

Thus a significant increase

the size of the slit, while maintaining the degree of vacuumization, makes it possible to significantly extend the range of application of the ejector, since the latter in this case can work on two-phase media with large inclusions without clogging the diffuser.

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Claims (1)

Vortex ejector containing a swirl chamber with tangential channels, a cylindrical mixing chamber and a slot diffuser, characterized in that, in order to expand the application range, the diffuser slit has a value of 0.5-1.0 diameter of the mixing chamber. SU .... 1132073