SU608950A1 - Ejector - Google Patents

Description

one

The invention relates to the mining industry and can be used to ventilate the mine workings and to control dust.

A known ejector includes a thin-walled casing with a tubular collector made in the form of a grid with a rectangular cell shape and injecting nozzles located at the nodes of the grid 1.

The disadvantage of this ejector is the presence of a lattice which creates a large resistance to it.

The ejector is known, including a housing, a tubular manifold, and nozzles 2.

The disadvantage of this ejector is the impossibility of maintaining the specified parameters of the ventilation flow created by the ejector.

The purpose of the invention is to maintain the predetermined parameters of the ventilation flow created by the ejector.

This is achieved by the fact that the ejector is equipped with an additional tubular manifold, and the longitudinal walls of the body are made with windows in which collectors are placed, each of which is provided on the outer side with spacer plates and the stop springs located between these bars,

collectors along the longitudinal wall of the housing.

FIG. 1 shows an ejector, a cross section; in fig. 2 - the same, top view.

The ejector consists of a rectangular casing 1, on the longitudinal walls of which there are rectilinear tubular collectors 2 with a number of tubular nozzles 3 mounted tangentially on them. At the ends of the tubular manifolds, there are spacer bars 4 with stop springs 5. The manifolds have nipples 6 on one side for connection to the compressed air line.

The operation of the ejector is carried out as follows.

Claims (2)

Compressed air through the nipple 6 enters the collector 2, from where it is ejected through the tubular nozzles 3 into the cavity of the housing 1, ejecting a significant amount of ambient air. When compressed air is exhausted from the nozzles located tangentially, forces arise on the collectors, which tend to turn them around the axis towards each other, and the thrust springs 5, enclosed by the spacer 4, are somewhat compressed, restoring equilibrium. Thus, the higher the air pressure in the manifold and, accordingly, the velocity head of the jets flowing from the nozzles, the greater the angle between the axis of the ejector and the nozzle axes. The use in the ejector of springs of different stiffness makes it possible to set various parameters of the ventilation flow. Claims of the invention The ejector includes a housing, a tubular manifold and nozzles, characterized in that, in order to maintain the desired ventilation flow parameters created by the ejector, it is provided with an additional tubular manifold, and the longitudinal walls of the hull are provided with windows in which the collectors are located. of which, from the outer side, are provided with spacer plates and thrust springs located between the said bars, while the nozzles are located on the collectors along the longitudinal wall of the housing. Sources of information taken into account during the examination 1. USSR author's certificate No. 408035, cl. E 21F 1/08, 1971. 2. USSR author's certificate number 432296, cl. E 21F 5/00, 1972. l l a l l l / VVVVW. gp I I |. four - + - I I ii I FIG. one FIG. 2