SU1314485A1 - Device for determining electrization of particles by measuring resistance thereof - Google Patents

Abstract

The invention relates to a technique of applying electric charges to particles and can be used in the development of devices for determining the electrifiedness of particles, for example, seeds, and choosing the method of charging them in agriculture. The purpose of the invention is to improve the accuracy of determining the electrical charge of particles due to the possibility of separate measurement of surface and volume resistances. The device contains a frame 1 of a dielectric material, a potential electrode (E) 2, tubular: E 3, rod E 4, separated from tubular E 3 by an insulating layer 5, a guide 6 and galvanometers 7 8. Rod E 4 and coaxial tubular E 3 form an integral measuring E, installed perpendicular to the plane of potential E 2 and moving along the axis to it. 1 il. with (L with

Description

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The invention relates to a technique of applying electric charges to particles and can be used in the development of devices for determining the electrifiedness of particles, for example, seeds, and choosing the method of charging them in agriculture and a number of industries.

The purpose of the invention is to increase accuracy due to the possibility of separate measurement of surface and volume resistances.

The drawing shows a structural diagram of the proposed device.

The device contains a frame 1 of a dielectric material, a potential electrode 2, a tubular electrode 3, a rod electrode 4 separated from the tubular electrode by an insulating layer 5, a guide 6 and galvanometers 7 and 8. The drawing also shows the particle 9 under investigation.

The rod electrode 4 and the tubular electrode 3 coaxial with it form a composite measuring electrode mounted for movement to a potential electrode.

The device works as follows.

Particle 9 with unknown electrical resistance is laid on potential electrode 2 and measuring electrodes 3 and 4 are lowered to it after contact. After applying voltage to potential electrode 2, two electrical circuits are formed: potential electrode 2 - particle surface - tubular electrode 3 and potential Electrode 2 — particle body — rod electrode 4. Through the first circuit, the sum of the surface current Ig And part of the bulk current 1 measured by the galvanometer 7 flows, and through the second circuit the rest of the bulk current 1, measured by the galvanometer 8

The device allows separate measurement of surface and bulk currents due to

Editor E. Kopcha

Compiled by V. Kim Tehred N. Glushchenko

Order 2222/57

Tzrazh 802Subscribe

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow,; K-35, Raushsk nab. 4/5

Production and printing company, Uzhgorod, st. Project, 4

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that the rod electrode 4 is placed inside the tube 3 and is separated from the latter by a layer 5 of insulation. Knowing the magnitude of the voltage and the readings of galvanometers 7 and 8, using known formulas, calculate the surface and volume components of the resistance of the particle.

Experimental studies have shown that it is not necessary to accurately calculate the bulk and surface resistances to choose the method for charging particles. It is sufficient to determine the ratio of the effective resistances R and R, which are calculated in accordance with Ohm’s law from the applied potential difference and measured, respectively, by galvanometers 8 and 7

currents. In particular, when R / Rg i i2, charging of corona particles is preferable, and at Ry / Rg 2, their contact electrification is preferable.

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Thus, the proposed device allows one to determine electrically the particles fairly accurately and efficiently and reasonably choose the method of their charging.

Claims (1)

Invention Formula A device for determining the electrical potential of particles by measuring their resistance, containing potential and measuring electrodes mounted on a frame made of a dielectric material, characterized in that, in order to improve accuracy due to the possibility of separate measurement of surface and volume resistance, the measuring electrode is made in the form isolated from each other and coaxial central rod and tube, installed perpendicular to the plane of the potential electrode with the ability to move on si tube. Proof-reader I.Erdeyi