SU457192A1 - Aeroin Generator - Google Patents

Description

one

The invention relates to the artificial ionization of air "intended for the production of AerO | Ionov used to communicate artificial electrically charged charge to mine dust particles for the purpose of more efficient (Noah cleaning mine air by electrophysical methods, as well as for neutralizing uniform electrically charged aerosol particles arising from the development of piacTBOpOB dyes in paints and varnishes.

The known generator of light ions containing corus with air channels in the form of a Laval nozzle, corona and non-corona electrodes.

However, in such a generator, the axial arrangement of the corona electrode from 1NO | Relatively non-curing reduces the density of the corona current, which leads to a decrease in the removal of light aeroionob and an increase in air flow. Another costructive lagging of the axial positioning of the corona electrode relative to the corona is that precise centering of the corona electrode is required.

In order to increase the output of light laraions, reduce compressed air consumption and simplify the generator-generator design, the proposed device has an internal nozzle surface and directly behind the critical section has a recess perpendicular to the OSI nozzle with a corona electrode capable of moving to this axis, and the corona electrode is made as

plates with a surface coinciding with the profile of the coil, and mounted against the corona electrode.

The drawing shows schematically the proposed generator.

The air channel is made in the case I of the generator of light aeroions along its longitudinal axis. On the inner side of the channel, directly behind its critical section, the non-corona electrode 2 is rigidly fixed. Diametrically opposite to the center of the non-arresting electrode, a recess is made on the inner wall of the channel. The center of the recess is perpendicular to the axis of the channel, as well as to the non-coring electrode.

needle coranuclear electrode 3. A cover 4 with a hole for supplying compressed air is rigidly fixed on the generator housing 1. The wires through which the voltage is applied to the corona and non-corona electrodes are not shown in the drawing. The generator works as follows. Compressed air at a pressure of 1-5 kg / cm. Through the opening in the lid 4 is supplied to the air channel. The air stream expires at a minimum axial velocity from the critical

a section of the air channel. in the area of the KopoiiiHoro discharge with the highest ion concentration, arising between the corona-3 and the non-corona-2 electrodes when voltage is applied to them up to 5 kV. The arrangement of the coronaIr of the coring electrode perpendicular to the non-coring allows an increase in the corona discharge current and, consequently, the concentration of aero ions, and also reduces the requirement for an accurate corona-forming electrode relative to the non-coring.

The implementation of the deepening of the inner wall of the channel makes it possible to combine the region with the maximum speed of the air flow with the region of the highest concentration of ions. This also leads to an increase in the yield of light air ions | B, while simultaneously reducing the flow rate of the amount of compressed air. Fastening the discharge electrode into the recess with the possibility of radial mixing makes it possible to obtain a stable corona.

regardless of the voltage applied. Air ions obtained in the corona area, the air flow, having, speed close to the speed of sound, taken out from the generator, carried out aeroionization of atmospheric air.

Preferential Invention

The aeroion generator, comprising a housing with an air channel in the form of a Laval nozzle, corona and pecoronating electrodes, is characterized in that, in order to increase the efficiency of the generator, the inner surface of the nozzle directly has a critical cross section and a recess perpendicular to the axis of the nozzle the corona electrode can be moved to this axis, and the noncorona electrode is made in the form of a plate with the surface coinciding with the nozzle profile and mounted against the corona electrode.