SU1481704A1 - Method for magnetic separation of single-component electrophotographic developer - Google Patents

Abstract

The invention relates to a method for magnetic separation of a single-component electrographic developer and makes it possible to increase the efficiency of the method. For this, the particles of the developer, before being supplied to the separation zone, are charged electrically, for example, by corona discharge. An electric field is applied in the separation zone. The electric field prevents particles from being separated from the jet by a magnetic field. 1 il.

Description

one

The invention relates to electrophotography, and specifically to methods for separating one-component magnetically sensitive manufacturers, and can be used to purify finely-dispersed non-magnetic powders from ferromagnetic impurities.

The purpose of the invention is to increase the efficiency of the method.

The drawing shows a diagram of an apparatus for carrying out the proposed method.

In the pipeline 1, in the direction of arrow A, a gas jet moves, carrying a stream of sputtered and pre-charged, for example, negative particles of the original developer to be separated, consisting of magnetic particles 2 (conventionally, shown as black dots) and non-magnetic and weakly magnetic particles 3 (conventionally shown as bright dots). An alternating magnetic field is formed by moving in a clockwise direction with magnets 4 The electric field preventing the particles from being separated from the jet by the magnetic field is created by a grid 5, which is supplied with an electric potential of the same sign as the sign of the charge on the particles of the developer, in this case negative (-)

The separation method is carried out as follows.

The developer to be separated is pre-sprayed and charged, for example, negatively in the corona discharge field by triboelectrification or in some other way and transported to the separation zone by a gas jet. Charging the particles with the same charge prevents their agglomeration due to mutual repulsion . Magnetic particles 2 under the action of the magnetic field of the magnets 4 overcome the repulsive effect of the electric KOJ field formed by the fed sludge from the dog.

(L

Ј. EO

-vJ

about

4b

314

5, the negative electric potential, the passage through the grid cells, are deposited on the conveying surface 6, on which they are transported from the zone in the direction of arrow B, to remove the finished product into the collection

The nonmagnetic and weakly magnetic particles 3 cannot, under the influence of a magnetic field, overcome the repulsive effect of the electric field and are carried away from the separation zone by the gas jet in the direction of the arrow C. The rotation of the magnets 4 in the direction opposite to the direction of motion of the gas jet has a braking effect on the magnetic particles and contributes to their more intensive deposition on the transporting surface b Regulator the magnitude of the potential of the barrier electric field, the intensity of the magnetic field in the zone separator and, the velocity of the gas jet, it is possible to ensure the separation of particles according to the required level of magnetic properties. Gazo

A new jet for transporting the particles of the initial powder to the separation zone and removal of the non-magnetic and weakly magnetic fractions of the particles from the separation zone is created, for example, by an exhaust fan mounted on the arrow side C „

Claims (1)

Invention Formula A method of magnetic separation of a single-component electrographic developer, including the transportation of its particles to the separation zone in a suspended state in a gas jet and the separation of magnetic particles from the jet by a magnetic field, characterized in that to increase efficiency, before supplying them to the separation zone, the electrolyte particles are applied an electric circuit, for example, by corona discharge, and an electric field is applied in the separation zone, which prevents the particles from being separated from the jet by the magnetic field.