SU1275794A1 - Static charge eliminator - Google Patents

Abstract

This invention relates to a technique for dealing with the harmful effects of static electricity and can be used in various industries. The purpose of the invention is to increase the efficiency of neutralizing the charges of both characters. Negative ions from the corona discharge are deposited on layer 4. The ion drain on electrode 3 is extremely slow due to the large electrical resistance of layer 4. In the pores of layer 4, ionization begins, and positive ions fly out into space from the side of electrode 3. In this case, the total current increases by more than 2 times. When passing through a material that is not electrified by positive charges, under the discharge, negative ions, rejecting, neutralize it. With a negative charge on the material, the latter is neutralized by positive ions. The presence of the porous dielectric layer 4 on the electrode 3 makes it possible to automatically change the polarity of the SL necessary for neutralizing the ions. 1 il. JV 0

Description

The invention relates to techniques for controlling the harmful effects of static electricity and can be used in textile and other industries when developing devices for neutralizing charges on electrified materials.

The invention aims to increase the efficiency of neutralization za- ¹⁰ rows of characters on both the treated material.

The goal is achieved by increasing the rate of formation of ions at the counter electrode. , <5

The drawing shows a structural diagram of one of the possible options for implementing the proposed device.

The device consists of a 2t dielectric body 1, in which pointed electrodes 2 (needles, wires, blades, etc.) are installed, and low-curvature counter electrodes 3 are coated with a layer 4 of a porous dielectric. 2!

The electrodes are connected to the terminals of a constant voltage source (not shown). For the manufacture of layer 4, porous fluoroplastic, several layers of fabric, or 3 | high resistance powder bonded with glue. The layer thickness should be 100-1000 microns.

The converter operates as follows. ₃

A constant voltage (for example, negative polarity) is supplied to the electrode 1 from the high-voltage power source, and the electrode 3 is grounded. At a certain voltage value ₄ at electrode 2, a corona section begins for several seconds, the moment comes when ionization begins in the pores, and ions of positive polarity fly into the interelectrode space from the electrode 3 in the direction of electrode 4. The total current is doubled due to the known reverse corona effect.

Thus, ions of both signs are located in the interelectrode gap. In addition, the appearance of an inverse corona leads to the fact that the electric field strength in the middle part of the interelectrode space decreases, therefore, it is easier to draw out ions from such a field to neutralize the object. It happens as follows. When a material electrified by positive charges passes under a spark gap, negative ions deviate toward the material and neutralize it. When the material is negatively charged, positive ions neutralize it.

Thus, with the help of the proposed device, the polarities necessary to neutralize the ions are automatically changed, and the efficiency of neutralizing the charges of static electricity of both positive and negative polarity increases.

Claims (1)

Claim A static electricity charge neutralizer comprising a dielectric body with a pointed electrode located therein and a back row. Negative ions rush to the electrode 3. Having reached it, they settle on layer 4. Since it has a large electrical resistance, the ions flow onto the electrode 3 extremely slowly. The approaching ions continue to settle on layer 4, charging it and increasing the electric field strength in its pores. Che-