SU402672A1 - EJECTOR FLOW - Google Patents

Description

one

The invention relates to the mining industry and can be used to clean the air in the mine workings. .

An ejector is known, consisting of a cornus, an annular collector with supersonic nozzles and a fairing, and the nozzles in the ejector are evenly spaced around the circumference and united by an annular collector, and in the mixing chamber there is an envelope in the form of two copes, the bases of which are connected by a cylindrical spacer.

However, the tubular manifold, located in the confuser, creates a large frontal sonrotiBlenpe. In addition, paired nozzles are installed in the fabrication, and three radial tubular nozzles, which serve to fasten the fairing, cover the central part of the ejector.

The purpose of the invention is to reduce the aerodynamic resistance on the inlet, twist and then rotate the ejected flow, as well as to obtain a sharp-directional abutment of the additional jet of outflow of compressed air from the nozzle and to increase the ejector range.

For this purpose, the annular collector of the proposed ejector is diamond-shaped, and the nozzles are enclosed to the plane of the inlet end of the collector and directed tangheepially to the inner surface of the electric housing.

In addition, the nozzles of the type 1e P) 1 are tubular, have a constant cross section for d1p1e, and the ratio of the nozzle diameter to its length is 1: 6.

In the drawing the diagram of the proposed ejector.

The ejector-ladder consists of a topkostennogo case 1, inside of which, using hollow mounting racks 2, the center-shaped collector 3 exchanges the hollow diamond-shaped profile with a hollow mounting post 2. At the end of the collector, at an angle to its plane, are installed tubular sharply-blind nozzles 4. Air supply nozzles 5 are located to supply compressed air from two sides of the ejector housing.

The operation of the flow injector is as follows.

Compressed air but with air-conductive nozzles 5 and hollow mounting posts 2 is supplied to the annular manifold 3. Next,

tubular sharply-directed nozzles 4, it is ejected into the 1-mat of the cavity of the housing 1 in such a way that the entire air flow, the passage of the right side of the housing, begins to rotate under the influence of tangentially

flowing out compressed air jets 6.

3

Flowing compact jets create significant vacuum at the mouth of the ejector, resulting in a significant amount of air being ejected through it.

As a result of rotation under the rise of tangentially flowing jets of compressed air, a channel with a vacuum is formed along its axis. The balance of forces due to rotation and rarefaction makes the notes stable and roomy as it moves a considerable distance.

Subject invention

Claims (2)

1. An ejector flow distributor with an annular manifold and nozzles, characterized in that, in order to reduce the aerodynamic resistance at the inlet, twist and the next rotation of the ejected flow, the annular collector is made of a diamond-shaped profile, and the nozzles are inclined to the plane of the inner end of the collector and directed tangentially to the inner surface of the ejector body. 2. The ejector-flow distributor according to claim 1, characterized in that, in order to obtain an extremely leveling plume, the outflow of compressed air from the seat, increase the range of the ejector, the nozzles are made tubular in constant section along the length, and the ratio of the diameter of the nozzle to its length is 1 : 6.