SU1579565A1 - Magnetic separator - Google Patents

Abstract

This invention relates to polygradient magnetic separation. The goal is to increase the efficiency of the separation process by increasing the total length of the magnetic field concentrators. On the side surface of the vertical rotor (P) 1 there are blind holes (GO) 2, filled with non-magnetic material. P 1 is installed with the possibility of rotation between the pole tips of the electromagnetic system 3. A diamagnetic gasket 4 is fixed at one of the poles. Made in the body of P 1 and filled with a non-magnetic material GO 2 perpendicular to the lateral surface of P 1. The source material is fed into the working area by a feeder 5. Non-magnetic the fraction falls into the receiver 7, is magnetically carried out by rotating p 1 into the unloading zone and is read by a scraper. The magnetic field concentrators are the edges of GO 2. During operation, they are not blunt by the scraper, which increases the separation efficiency. 1 il.

Description

The invention relates to magnetic enrichment and can be used in various sectors of the economy.

The purpose of the invention is to increase the efficiency of the separation process by increasing the total length of the magnetic field concentrators.

The drawing shows a separator, General view, section.

The magnetic separator includes a vertical magnetic rotor 1 with perpendicular to its lateral surface blind cylindrical holes 2. The holes are filled with non-magnetic material. The rotor 1 is mounted with the possibility of rotation between the pole pieces of the electromagnetic system 3. A diamagnetic gasket is mounted on one of the poles 4. A feeder 5 with a loosening grate is located above the rotor 1. A receiver 7 of a nonmagnetic fraction and a receiver of a magnetic fraction (not shown) are located under the separator.

With a sufficient degree of accuracy, the size of the isthmus between blind holes 2 can be determined by the formula _ ία D for D <15;

^TP [tmax at D 2: 15, (where tn is the size of the isthmus between the blind Holes, mm;

tmax - the largest size of the isthmus Between blind holes, mm (from experience tmax = 9-10 mm);

a-experimental coefficient equal to a = 0.667;

D is the diameter of the blind hole, mm, and the distance between the surface of the rotor 1 and the diamagnetic gasket 4 can be determined by the formula __р_ бэ ⁼ - A. dmax (1 θ ^2, 5).

where BE is the effective distance between the surface of the rotor and the diamagnetic gasket, mm;

dmax is the maximum value of the gradient zone in the interpolar gap, determined experimentally, mm;

λ is the safety factor, which is advisable to take equal to 0.85-0.9.

The separator works as follows.

The material to be separated is fed by the feeder 5 to the separation zone between the rotor 1 and the diamagnetic gasket 4. Magnetic particles are attracted to the rotating magnetic rotor 1 and carried to the unloading zone, where they are cleaned by a scraper to the magnetic fraction receiver. Non-magnetic particles fall into the receiver 7 of non-magnetic fractions.

Claims (1)

Claim Magnetic separator, including a vertical rotor with magnetic field concentrators on the side surface, mounted for rotation between the pole pieces of the electromagnetic system, one of which has a diamagnetic gasket, a feeder and receivers of separation products located above the rotor, characterized in that, in order to increase efficiency separation process by increasing the total + * (other than magnetic field concentrators, the rotor is made with blind holes located on its side surface perpendicular to it.