SU1695258A1 - Magnetic separator of single-component electrographic developer - Google Patents

Abstract

The invention relates to magnetic separators of a single component electrophotographic developer and makes it possible to increase the separation efficiency by destroying the developer agglomerates with an alternating magnetic field when fed to the 12th transport cylinder. The movable transport separator contains a cylinder 1, a multi-pole magnetic shaft 2, on the outer surface of which permanent strip magnets are fixed with alternating polarity poles. The developer dosing means is made in the form of a non-magnetic sleeve 5 installed with an adjustable gap 6 relative to the transport cylinder and the same direction of rotation with it, and the shaft is provided with a scraper located above the gap. Multi-pole magnetic shaft is installed with the ability to adjust the angle of rotation. The scraper is mounted with an adjustable clearance relative to the non-magnetic sleeve. The scraper is made of ferromagnetic material. 1 il. (L S o yo go with 00

Description

The invention relates to electrophotography, specifically to the design of a magnetic separator, intended for magnetic separation of magnetosensitive powders, for example one-component. The invention can also be used for cleaning fine powders from ferromagnetic impurities.

The aim of the invention is to increase the separation efficiency by destroying the agglomerates of the propeller with an alternating magnetic field when applied to the transport cylinder.

The drawing shows the scheme of the proposed separator.

The separator consists of a transport cylinder 1 and a movable multi-pole magnetic aerial 2, on the outer surface of which permanent strip magnets 3 are fixed with alternating field of poles, the separator is equipped with a means of dosed supply of the developer to the cylinder 1, consisting of a supply hopper 4, non-magnetic sleeves 5 with adjustable rotational speed and installed with an adjustable gap 6, a stationary multi-pole magnetic shaft 7 of magnet-13, a scraper 8 for determining the developer from the surface of the liner located Hodu of its motion for the feed zone of the developer.

The scraper 9 and the receiving bin 10 serve to remove the weakly magnetic and non-magnetic parts of the developer, and the scraper 11 and the receiving bunker 12 serve to remove the separated parts of the developer with the required level of magnetic properties.

The separator works as follows.

The developer to be separated from the feed bin 4 of the sleeve 5 is transported to the gap area 6, separated by the scraper 8 and under the action of the forces the magnetic field hits the surface of the cylinder 1.

The magnetic particles of the developer that hit the surface of the transport cylinder 1 under the action of a magnetic field form chains oriented along the field lines.

When the shaft 2 rotates in a clockwise direction, the chains move, rolling along the surface of the cylinder 1 in the opposite direction. In the process of chain rolling, relatively weakly magnetic and nonmagnetic particles

in contact with the surface of cylinder 1, under the action of adhesion forces, they detach from chains, stick to the surface of the cylinder, are transported to the scraper zone 9 and enter the hopper 10. the scraper 11 enters the hopper 10,

The presence of a multi-pole magnetic shaft 7 inside the sleeve 5 significantly improves the condition of the exit of the developer by a uniform layer from the bunker 4, contributing to the destruction of large agglomerates of particles. In addition, in the area of the gap 6, under the influence of the interaction of the rotating magnetic field of the magnets 3 and the magnetic field of the magnetic shaft 7, the agglomerates are finally destroyed, and the scraper 8 provides the removal of

the powder from the sleeve 5 and its uniform supply to the cylinder 1.

Claims (1)

Claims of the Invention A magnetic separator of a single-component electrographic developer comprising a transport cylinder with a rotational drive and a movable multi-pole magnetic shaft located inside it, means for separating and collecting the separated particles of the developer, and means for dispensing the developer to the transport cylinder, characterized in that in order to increase separation efficiency by destroying the agglomerates of the variables magnetic field when fed to the transport cylinder, the dosed-feed tool contains a non-magnetic sleeve, which is made rotatable by a drive in the direction of rotation of the transport cylinder and installed with an adjustable clearance relative to the cylinder, a fixed multi-pole magnetic shaft located inside the sleeve, and a scraper for separating wittel from the surface 0 sleeves located along its movement beyond the supply zone of the propeller to the transport cylinder.