SU835495A1 - Magnetic filter - Google Patents

Description

(54) MAGNETIC FILTER

The invention relates to the purification of liquids from ferromagnetic inclusions and can be used in cleaning devices for feedwater and boiler water in thermal power engineering.

A device for magnetic cleaning of a fine ceramic suspension containing corus and magnetic cleaners, made in the form of semiconductor ferrite magnets with steel bodies around them 1, is known.

The disadvantage of this device is the impossibility of its use in continuous processes that take place in thermal power engineering, since o does not ensure the cleaning of permanent magnets from ferromagnetic particles without disassembling the device.

The closest in technical essence and the achieved effect is a magnetic filter containing a non-magnetic cylindrical body with a filler, a part of which is made in the form of spheres made of magnetic material, and a solenoid extended outside the body 2.

The disadvantage of this device is the high power consumption.

The purpose of the invention is to save energy.

This goal is achieved due to the fact that the other part of the filler is made in the form

of the hard magnetic material, and they constitute 40-60% of the filler, and the balls have different diameters.

The drawing shows a longitudinal section of the filter.

The magnetic filter has a cylindrical body / of a non-magnetic material, inside which is placed the filter layer 2, which is 40-60% composed of balls 3 (or bodies of another shape) made of magnet, a solid material, which are evenly distributed throughout the volume of the filter layer, and magnet of flexible material of different diameters, placed according to the law of maximum filling space. Outside the cylindrical body, there is a solenoid 4, creating a magnetic field inside the body. Fluid is supplied and discharged through tubes 5 and 6, respectively.

The magnetic filter works as follows. When the solenoid 4 is turned on for a short time, the balls and bodies of a different form from a hard magnetic material are magnetized and transformed into permanent magnets. These permanent magnets, in combination with balls of magnet of a soft material, create a polygradient magnetic field even after turning off the solenoid. The magnetic field is maximum at the point of contact of the balls.

When a fluid with ferromagnetic particles is passed through the filter, the ponderomotive forces act on the latter, under the action of which the particle moves in the direction of increasing magnetic zero and spreads to the surface of the filtering layer. To clean the filter from ferromagnetic particles, the filter layer is demagnetized by passing non-transitory current through a solenoid, and then washed.

Due to the fact that in the proposed device the continuous power supply of the solenoid is replaced by a short-term pulsed, the filter's energy capacity is reduced, the number of conducting materials used to make the solenoid makes it possible to use cheaper conductor materials (for example, to replace copper with aluminum) and refuse cooling the solenoid.

Calculations show that, while maintaining the same efficiency, the consumption of a magnetic filter energy is reduced by 50 times with a slight complication of its design.

Claims (3)

1. A magnetic filter containing a non-magnetic cylindrical body with a filler, a part of which is made in the form of balls made of a magnet of smooth material, and a solenoid placed outside the body, so that, in order to save electricity, the other part of the filler is made in the form of bodies of hard magnetic material. 2. Magnetic filter according to claim 1, characterized in that the bodies of the magnetic material are 40-60% filler. 3. Magnetic filter according to claim 1, characterized in that the balls have different diameters. Sources of information taken into account in the examination: 1. USSR author's certificate number 213723, cl. B 03 C 1/02, 1965. 2. USSR author's certificate number 523700, cl. At 03 C 1/00, 1974 (prototype).