SU966935A1 - Neutralizer of static electric charges - Google Patents

Description

(5) NEUTRALIZER OF CHARGES OF STATIC ELECTRICITY

Claims (2)

The invention relates to electrical engineering, technology for combating the harmful effects of static electricity, and can be used in the textile and other industries (pulp and paper, printing, etc.). Neutralizers of static electricity charges are known, for example, high-voltage neutralizers containing a gaiter, consisting of a row of needles and a grounded electrode t However, these neutralizers have insufficiently high efficiency, especially at high rates of electrified material. The closest to the proposed is a static electricity neutralizer containing a dielectric body, a series of ground electrodes — needles located on the input side of the material being processed, so that the ends of the needles are on a straight line, and at least one high voltage electrode 2.. The disadvantage of this neutralizer is the complexity of the design, due to the fact that all electrodes are made in the form of needles. The aim of the invention is to simplify the design of the neutralizer by reducing the number of electrodes. This goal is achieved by the fact that in a neutralizer, static charges, containing a dielectric body, a series of grounded electrodes — needles, are located on the input side of the material being processed, so that the ends of the needles are on a straight line and at least one high voltage the electrode, the latter is made in the form of a flat metal plate, and the side wall of the body is made with a groove on the inner surface parallel to the specified line, while the high-voltage electrode is located in the said groove. The drawing shows a device diagram and a transverse section of the gap. The device contains a high-voltage electrode 1 located on the side wall of the housing of the discharger 2 and a series of electrodes — needles 3 mounted on the base of the housing. The high voltage transformer A has two windings: the primary one, which is powered by the alternating voltage of the network, and the high voltage one, one of the terminals of which is connected to a grounded transformer case. The ungrounded output of the high voltage winding of the transformer is connected to the high voltage electrode. The needle array is connected to a grounded transformer housing. The device works as follows. When non-electrified material 5 passes under discharger 2, it first enters the zone of action of a row of needles 3. A sharp non-uniform field forms between grounded needles 3 and neutralized material 5 (needle radius of about 35 microns), which causes ionization of the needle ends. 3 and the flow of part of the charge to the ground. Then, the material with residual charge enters the zone of action of the alternating electric field formed by applying voltage from the high voltage transformer 4 to the electrode 1. Here the ionization occurs from an external source (high voltage transformer). Ions of a positive or negative sign, formed between the needles 3 and electrode 1, neutralize the static charge. Thus, the proposed solution provides neutralization efficiency, as well as the prototype, because it combines the advantages of both a high-voltage and induction neutralizer at the same time. However, the design of the neutralizer is significantly reduced due to the decrease in the number of electrodes. Claims The static neutralizer of static electricity on moving materials, comprising a dielectric body, is grounded by grounded needle electrodes located on the input side of the material being processed so that the ends of the needles are on a straight line, and at least one high-voltage electrode that differs in that, in order to simplify the design by reducing the number of electrodes, the high-voltage electrode is made in the form of a flat metal plate, and the side wall of the body is made with a groove n and an inner surface parallel to said line, wherein a high voltage electrode is located in said slot. Sources of information taken into account in the examination of T, USSR Author's Certificate no., Class, H 05 F C / b, 1961, 2, USSR USSR author's certificate for application No. 2816816 / 18-25, l, H 05 F C / O 1979 (prototype).