SU1129424A1 - Ejector - Google Patents

Abstract

1. EZHEKTOR, comprising a housing with an opening for supplying a passive medium, mounted in the housing along the axis to form a mixing chamber and a diffuser, a hollow shaped central body having an inlet section formed by a paraboloid of rotation and provided with an active medium supply pipe from the diffuser side on the opposite side, a central outlet, and a shaped deflector installed coaxially with the latter, forming a radial slit active nozzle with the central body, characterized in that pour tabarita axial contraction, the input housing portion is located equidistant to the central body and the housing in the area of the diffuser is provided with perforations, and a central body - the annular grooves. (L

Description

2. The ejector according to claim 1, about tl and h ay shchi and with the fact that annular blades are concentrically mounted on the body platoon,

3. The ejector according to claim 1, characterized in that the grooves in the cross section have an oval or rectangular shape and are made with a leading edge protruding above the bottom along the stream.

one

The invention relates to inkjet technology.

An ejector is known, comprising a housing with an active nozzle, a hole for supplying a passive medium and an axially shaped hollow central body W installed in the housing along the axis to form a mixing chamber and a diffuser.

However, this ejector has a relatively low efficiency.

Closest to the invention is an ejector, comprising a housing with an opening for supplying a passive medium, installed in the housing axially to form a displacement chamber and a diffuser, a hollow shaped central body having an inlet portion formed by a paraboloid of rotation and provided with a supply pipe on the diffuser side the active medium, the opposite side ac, with a central outlet, and a profiled deflector installed coaxially with the last, forming a radial slit with the central body e nozzle

However, the known ejector has a relatively large axial envelope, which is associated with a non-optimal performance of the ejector body and the surface of the central profiled body.

The purpose of the invention is to reduce the axial dimension.

This goal is achieved by having an ejector containing a housing with an opening for supplying a passive medium mounted axially in the housing to form the displacement chamber and diffuser, a hollow shaped central body having an inlet section formed by a paraboloid of rotation and provided with an active supply pipe from the diffuser environment, and from the opposite side

a central outlet, and a profiled deflector installed coaxially with the last, forming a radial gap with the central body — a 5th active nozzle, the inlet part of the body is equidistant to the central body and the body in the diffuser zone is provided with perforations, and the central body is annular

0 mi.

Ring blades are concentrically mounted at the body entrance. Grooves in cross section are oval or rectangular

5 form and made with a lower edge projecting above the backstream.

On fig.G presents the proposed ejector, a longitudinal section

0 in Fig. 2 is a groove having an oval shape, a cross section ,. in fig. 3 groove, having a rectangular shape, cross section.

The ejector includes a housing 1 with a hole 2 for supplying a passive medium, mounted in the housing along the axis with the formation of the displacement chamber 3 and the diffuser 4 a hollow profiled central body 5 having an inlet

0. "The section formed by the paraboloid of rotation, and provided on the side of the diffuser 4 with a nozzle 6 for supplying the active medium, and on the opposite side with a central outlet from

- version 7, and a profiled deflector 8 installed coaxially with the latter, forming with the central body 5 a radial slotted active nozzle 9. Inlet section 10 of the housing

Q 1 is located equidistantly central. body 5, and the housing 1 in the zone of the diffuser 4 is provided with a perforation 11, and the central body 5 with annular grooves 12. At the entrance of the housing 1 there are concentrically mounted annular loops

patches 13. Grooves 12 in transverse

the cross sections have an oval or rectangular shape and are made with a leading edge 14 projecting above the rear along the flow.

The active medium through the nozzle 6 5 for the supply of the active medium and the central body 5 enters the radial active nozzle 9, which has expired from

draws into the mixing chamber 3 a passive medium entering through the ring vanes 13 and the opening 2 for supplying the passive medium. The mixture of active and passive media enters the diffuser 4, where kinetic energy is partially converted into potential energy. 15 When the active medium is wrapped in the central body of the 5 grooves 12 in -NEW, stable standing forms are formed. The vortices, which have an ejection effect, draw in the active medium to the profiled surface of the central body 5 and thereby prevent the active surface from tearing

environment from the surface of the central body: 5. Prevention of the effect of separation of media from the elements of the design of the ejector eventually increases the mass of the passive medium. At the same time, stable eddie formations formed in the grooves 12 located at the entrance to the housing 1 contribute to the intensification of the aspiration of the passive medium due to the vacuum induced by the eddies.

The suction of the flowing media to the profiled surface of the central body 5 due to the manifestation of the Coanda effect also contributes to a continuous flow around the central body 5, an increase in the rarefaction aa of its surface, and hence the mass of the passive medium. Concentric placed annular blades 13 reduce the loss of active kinetic energy (media caused by the collision of the mixing media.

Thus, the implementation of the entrance section of the housing is equidistant to the central body and the execution of the grooves on the central body leads to a continuous flow around the central body with minimal loss of kinetic energy of the passive medium at the entrance to the ejector, which reduces the axial envelope of the ejector.

FIG. 2

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Claims (3)

1. EJECTOR, comprising a housing with an aperture for supplying a passive medium, mounted axially in the housing with the formation of a mixing chamber and a diffuser, a hollow profiled central body having an inlet portion formed by a paraboloid of revolution and equipped with an active medium supply pipe on the diffuser side, and on the opposite side, a central outlet, and a profiled deflector installed coaxially with the latter, forming a radial slotted active nozzle with a central body, characterized in that, in order to Dye axial dimension, the input housing portion is located equidistant to the central body and the housing in the area of the diffuser is provided with perforations, and a central body - the annular grooves. 2. Ejector by π. 1, characterized in that the annular blades are concentrically mounted on the housing. 3. The ejector according to π.1, characterized in that the grooves in the transverse section are oval or rectangular in shape and are made protruding above the rear. along the flow leading edge.