SU490274A1 - ESD Discharger - Google Patents

Description

one

This invention relates to discharge discharge discharges used to combat static electricity, in particular in the production of dielectric sheet metals such as paper, plastic film, base film films, etc.

Known dischargers of static electricity with sliding discharge are known.

They consist of high voltage and grounded electrodes separated by a dielectric layer. Such a gap is placed over an electrified surface (paper, film, etc.). When a high alternating voltage is applied to a high voltage electrode near a grounded electrode, a sliding electrical discharge arises and propagates along the surface of the isolating insulator. The ionizing ionizes the air, and the ions, with the opposite sign of the electrified surface, are deposited on it and neutralize it. d static electricity.

A disadvantage of the known glitter neutralizer structures is the low efficiency, in particular due to the fact that the gliding discharge occurs on the surface of the separator layer of the insulator from the moisture of the electrified surface. As long as the ions reach the electrified surface, they largely recombine.

In one of the known solutions, this disadvantage is reduced by fabricating an insulator with a semi-cylindrical groove that guides the sliding discharge towards the electrified and surface (the technique is not technological).

The aim of the invention is to further

increase the efficiency of the sliding discharge.

For this purpose, a movable electrified dielectric is used as a separator layer of the insulator.

For example, on a cylindrical part of the process equipment used as a grounded electrode and made of a conductive material, for example, on a guide roller, and on the other hand

an electrified dielectric surface is fitted with a high-voltage electrode, the working part of which is shaped according to the shape of the surface of a grounded electrode, for example, forming a roller.

The proposed gaps can be used to neutralize static electricity charges predominantly on thin dielectrics (supercalenders and tails of papermaking machines, role-playing printing masks and flat cutters.

machines for the production of paper paper and plastic films).

FIG. 1 schematically shows the proposed bit. As the grounded electrode 1, a piece of technological equipment is used, for example, a guide, supporting or turning a roller, over which a densets electrified dielectric 2. A high-voltage electrode 3 is installed on the electrified surface. It has the form of a grounded electrode. Thus, in FIG. 1, the working surface of the electrode 3 is made as a part of a circle with a radius close to the radius of the roller 1.

FIG. 2, the working surface of the high-voltage electrode has a shape similar to that of the forming roller. The high voltage electrode is attached in such a way that it creates a slight pressure on the dielectric (for example, using a counterweight).

The device of a high-voltage power source does not have a princinal value.

One of the features of the neutralization of static electricity charges on thin dielectrics is the low potential (with a large amount of electricity). In this connection, there are no strong electric fields that could create directional movement of air ions (with a charge opposite to the charge of the dielectric) to the electrified surface. This explains the low efficiency of all static electricity converters — with sliding or corona, radioisotope, etc. — a weak electric field.

Otherwise, the proposed designation works (see Fig. 2). When high alternating voltage is applied from transformer 4 to high voltage electrode 1, a sliding discharge 5 is formed and along the electrified surface of the charged dielectric 6, while the air ions 7 are in close proximity to the charged surface. The forces of ion attraction to the charged surface, as compared with the known structures, are much higher (according to Coulomb, inversely proportional to the square of the distance). Thus, even at a low potential and a weak electric field, a nanovarious movement of ions to the charged surface is created, causing neutralization of static electricity on it.

Subject invention

A static electricity discharger consisting of high voltage and grounded electrodes separated by an insulator layer, characterized in that, in order to increase efficiency, a movable electrified dielectric used, for example, on a cylindrical piece of process equipment used in as a grounded electrode and made of conductive material, for example, on a guide roller, and on the other hand electrified the surface of the dielectric is installed high-voltage electrode, the working part of which is made according to the shape of the surface of a grounded electrode, for example, forming a roller.

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