SU1546160A1 - Magnetic electrostatic separator - Google Patents

Abstract

The invention relates to the separation of substances using magnetic electrostatic separators, can be used in electrography for the separation of one-component magnetically sensitive manufacturers (P) from ferromagnetic impurities and allows to increase the separation efficiency. The non-magnetic cylinder 1 and the multipole magnet 2 coaxially placed inside it are embedded rotatably into the envelope of their pipeline (TP) 3 with the feed hopper 4 and spray gun P 5. Inside the TP 3 there is a perforated electrode (E) 10 connected to the electrical voltage 9. A device for charging particles is installed in front of E 10 inside TP 3. Particles II from the hopper 4 are sprayed with a spray gun 5 and charged in a device for charging particles installed inside TP 3 before E 10. The flow of charged particles P is transported to a section around the non-magnetic cylinder 1. Under the influence of the magnetic field of the magnet 2, the magnetic particles 14 overcome the repulsive effect of the electric field E 10 and pass through the perforated E to the surface of the cylinder 1. On the surface of the cylinder 1, the particles 14 roll in opposite rotation the magnet 2 is in the direction and removed by the scraper 7 into the hopper 12. The weakly magnetic and nonmagnetic particles 15 cannot overcome the repulsive action of the E 10 and are carried away into the cyclone 13. Some of the weakly magnetic particles pop It is placed on the surface of cylinder 1. During its slow rotation, the particles are removed by the scraper 8 and carried by the gas stream into the cyclone 13. 1 sludge.

Description

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ABOUT

Embedded for rotation into the envelope of the pipeline (TP) 3 with the feed hopper 4 and the spray gun II 5. Inside the TP 3 a perforated electrode (E) 10 connected to the electrical voltage source 9 is installed. Before E 10 inside the TP 3 there is a device for charging particles P. Particles I from the hopper 4 are sprayed by the spray nozzle 5 and charged in the particle charging device installed inside the TP 3 before the E 10. The stream of charged particles P is transported to the section of the bending around of the nonmagnetic cylinder 1. Iod by the action of the magnetic field of the magnet 2 is magnetic particles 14

overcome the repulsive action of the electric field E 10 and pass through the perforated J to the surface of the cylinder 1. On the surface of the cylinder 1, the particles 14 roll in the direction opposite to the rotation of the magnet 2 and are removed by the scraper 7 into the hopper 12. The weakly magnetic and non-magnetic particles 15 cannot overcome the repulsive effect 10 and carried away into the cyclone 13. Some of the weakly magnetic particles fall onto the surface of cylinder 1. With its slow rotation, the particles are removed by the scraper H and carried away by a gas stream into the cyclone 13. 1 Il.

The invention relates to the field of separation of substances using magnetic electrostatic separators and can be used in electrophotography for the separation of one-component magnetically sensitive manufacturers, namely for the purification of fine powders from ferromagnetic impurities.

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

PA drawing schematically shows the proposed device.

A magnetic electrostatic separator for separating a one-component magnetically sensitive developer contains a non-magnetic cylinder 1 installed rotatably and placed inside it coaxially with a multipolar magnet 2, embedded in a circumflex pipeline 3 with a supply hopper 4 and a sprayer 5 of the fan, an exhaust fan 6 and devices for removal of 7 and collection of 8 separated fractions of the manufacturer.

The separator is supplied with a source of electrical voltage 9 with a perforated electrode 10 connected to it, which is installed inside the pipeline 3, and a device (not shown) for charging the particles of the sprayed developer installed inside the pipeline 3 in front of the electrode 10. The electrode 10 can be made in the form of a metal grid. At the site of the upper junction of the cylinder 1 and the pipeline 3 there is a gap 11. The scraper 7 and the hopper 12 serve

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removing the separated developer, and the scraper 8 and cyclone 13 for collecting non-magnetic and weakly magnetic fractions of the developer.

The device works as follows.

I

The particles of the developer to be separated from the hopper 4 are sprayed by the spray gun 5 and charged, for example negatively, with a pipe-electric, corona or some other charge contained, for example, in the spray gun 5, and fed to the pipeline 3 in which are transported in the form of a stream of charged particles by a gas jet created by an exhaust fan 6. In the section of bending, charged magnetic particles 14 (conventionally shown as black dots) under the action of the magnetic field of the magnet 2 overcome the repulsive action of the barrier The electric field of the electrode 10, connected to the negative pole of the electrical voltage source, passes through the grid cells of the electrode and is deposited on the surface of the outer cylinder 1, where it moves (rolls) along it in the direction opposite to the direction of rotation of the magnet 2, passes through The gap 11 and moving further (shown by a spiral arrow) are removed by the scraper 7 and get into the bunker 12 to collect the separated equipment. Charged negatively weakly magnetic and nonmagnetic particles 15 (conventionally shown are bright

MI POINTS.CMI) MOI VI UNDER EXPOSURE - OM M.1GN HTHoI (i FIELD Preo Yu. GS Tb OTTa - the accelerating action of the barrier electric field of electrode 10, entrained with a gas jet and deposited in a cyclone 13. Filter 16 clears the gas jet, preventing the emission of dust particles into the atmosphere.Slightly magnetic particles may be deposited on the surface of the outer cylinder.When the outer cylinder rotates slowly clockwise, these particles are removed by the scraper 8 and carried by the gas jet into the cyclone 13 Instead of the scraper B, for example, rotating brush. In the form of a scraper, a part of the pipe wall can be made that touches the outer cylinder. The rotation of the outer cylinder can be either continuous or periodic as needed to clean it,

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The formula is a Magnetic Electrostatic Geyarator for separating a one-component magneto-sensitized developer, containing a rotary-mounted non-magnetic cylinder and a multi-pole magnet embedded inside it, embedded in a pipe enveloping them a supply hopper and a propeller sprayer, an exhaust fan and a device for removing and collecting the separated developer fractions, characterized in that, in order to increase the separation efficiency, the separator is equipped with an electrical source It also has a perforated electrode connected to it, which is installed inside the pipeline above the surface of the embedded part of the non-magnetic cylinder, and a device for charging the particles of the sprayed electrode installed in front of the electrode.

Claims (1)

Claim A magnetic electrostatic separator for separating a one-component magnetosensitive developer 5, containing a non-magnetic cylinder rotatably mounted and coaxially mounted a multi-pole magnet embedded in it θ into a pipe envelope with a feed hopper and a developer spray gun, an exhaust fan and a device for removing and collecting the separated developer fractions, 5 characterized in that, in order to increase the separation efficiency, the separator is equipped with a voltage source with a perforated electrode mounted to it, which is installed inside the pipeline above the surface of the incised part of the non-magnetic cylinder, and a device for charging particles of the sprayed developer installed in front of the electrode.