SU1307609A1 - Static charge eliminator - Google Patents

Abstract

The invention relates to the field of protection against the harmful effects of static electricity and can I - ////////////////// // ////////// Л У /////////// ///////) // 1 //// // L to be used in the development of neutralizers (H) for light, pulp and paper, printing, chemical and other industries. The goal is to increase the efficiency of H charges of static electricity by increasing the proportion of neutralizing charges. It is achieved by the fact that H is supplied with power supply 4, and electrodes (E) 2 of polymer material with fine electrically conductive particles and metal E 3 are made in the form of alternating plates (P) and are located on housing 1 at a distance from each other. other, equal to 1-3 height P of a polymeric material. 1 il. with S (L oo o o: o; o / X G

Description

The invention relates to a technique for protection against harmful manifestations of static electricity and can be used in the development of neutralizers for light, pulp and paper, printing, chemical and other industries.

The purpose of the invention is to increase the efficiency of the neutralizer by increasing the proportion of neutralizing charges,

The drawing shows the structural scheme of the proposed Converter.

The neutralizer contains a housing 1 of a dielectric material, on which electrodes 2 are made of a polymer material with fine electrically conductive particles as a filler and metal electrodes 3, as well as a source 4 of power. The electrodes of a polymeric electrically conductive material and metal electrodes 3 are made in the form of alternating plates, which are located on the housing 1 at a distance of 1-3 times the height of the plates of a polymer material. Electrodes 2 from a polymeric electrically conductive material are grounded, and metal electrodes 3 are connected. to high voltage output source 4.

The device works as follows.

When high voltage is applied to the electrodes 3, the individual microsites of the grounded electrodes 2, corresponding to the location of the electrically conductive filler particles, induce a potential with a field strength of the individual microplots significantly exceeding the average value of the voltage. As a result, a corona discharge arises in the gap between the electrodes and the forming ions with a polarity opposite to the polarity of the charges of the electrified surface are attracted to it by the field of the latter. The charge is neutralized. As the height of electrodes 2 increases, the number of microplots involved

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in creating the field in the discharge gap, but when a certain limit is reached, a further increase in the height of the electrodes has little effect on the increase in the intensity of the field. The optimum distance between the electrodes is 1-3 of their height. This is due to the fact that with increasing distance greater than the specified ratio, due to the weakening of the field, the ion current of the neutralizer is significantly reduced by reducing the intensity of the corona discharge. When the distance between the electrodes is less than this ratio, the effect on the field ions formed between the corona electrodes considerably exceeds the action of the field of the charged surface. As a result, the discharge gap ions recombine or gap breakdown occurs. The proposed neutralizer, compared to the known ones, works at lower values of the field strength and is more economical, i.e. generally more effective.

Claims (1)

Invention Formula A static electricity charge neutralizer, comprising a housing made of a dielectric material with at least one metal electrode fixed to it and one polymer material electrode with electrically conducting particles distributed in its volume, connected to a common bus, characterized in that in order to increase the efficiency of the neutralizer by increasing the proportion of neutralizing charges, it is supplied with a power source, the high-voltage output of which is connected to metal electrodes, and low-voltage It is common to the common busbar, the electrodes are made in the form of parallel plates arranged in the plane, while the metal electrodes are alternately arranged with the electrodes made of polymeric material at a distance of 1-3 heights of the electrode made of polymeric material.