RU2064845C1 - Magnetic classifier - Google Patents

Abstract

FIELD: equipment for natural minerals benefication, for separation of suspensions of fine comminuted strong magnetic ores at benefication works, that process magnetic iron ores and red iron ores. SUBSTANCE: magnetic classifier has body with bottom, mounted in it magnetic system of vertical magnetic plates, loading, unloading and discharging means. Vertical magnetic plates have trapezoidal form and are mounted along whole height of body. Body has inclined in direction of unloading bottom. Unloading mean is made in the form of slit in butt of body. Magnetic classifier has adjusting bolt mounted between unloading and discharging means. Location of magnetic plates in parallel to inclined bottom, that is full depth of tank, allows in case of meeting similar poles magnetic streams to fill whole volume of body with magnetic field, that provides pressing non-ore particles out as foreign particles of suspension and so allows to decrease significantly of non-ore particles presence in end product. EFFECT: improved quality of benefication. 2 cl, 2 dwg

Description

 The alleged invention relates to the field of magnetic concentration of finely disseminated magnetite ores, and more particularly to the separation of materials by magnetic properties, while significantly reducing the contamination of the magnetic product by non-magnetic particles.

 Various methods are known for separating suspensions from finely divided strongly magnetic ores by size and magnetic properties (see, for example, L.A. Lomovtsev et al. Magnetic enrichment of strongly magnetic ores. M. Nedra, 1979, V.I. Karmazin and others. Magnetic enrichment methods. M. Nedra, 1982, N.G. Berdan, Machines for Mineral Processing, Kiev: Higher School, 1981).

 Closest to the claimed device (prototype) is a magnetic slotted sieve (see, for example, ed. Certificate. USSR N 1465112 of 03.15.89. B.I. N10).

 The slotted magnetic sieve (prototype) has, in contrast to the proposed magnetic classifier, in each slotted gap one or more ferromagnetic plates installed in the upper part of the housing, along the axis of which holes with a diameter of 30-40 mm are made along with a pitch of 90-120 mm, the lower the trapezoidal part, in which there are three nozzles for unloading the enriched material passing through the holes in the ferromagnetic plate.

 All known methods for the classification of suspensions of finely ground highly magnetic ores, including the prototype, have a significant drawback, expressed in excessive metal consumption and significant clogging of the magnetic product by processes (weakly magnetic grains) and non-magnetic particles, and large losses of the magnetic product in the waste, the sieve gaps are clogged.

 The objective of the invention is to eliminate this drawback in the enrichment of finely disseminated magnetite ores by reducing the useful component in the discharge and reducing clogging of the magnetic product.

In the developed magnetic classifier, which includes a housing with a bottom inclined at an angle of 45-60 ^o in the direction of discharge, a magnetic system of vertical plates installed in the housing, loading, unloading and drain devices, magnetic plates are made of trapezoidal shape, installed along the entire height of the housing, and the unloading the device is made in the form of a gap in the end of the housing, the adjustment device is made in the form of a valve.

 The invention is illustrated in the drawing, where Fig. 1 shows a sectional magnetic classifier.

The problem is solved in that the suspension of finely ground highly magnetic ores enters the device developed by the author, which is a housing 1 with an inclined angle of 45-60 ^o (providing unloading of the material) 2. In the housing there is a magnetic system made in the form of trapezoidal vertical plates 3 glued on both sides by magnetic tiles 4 of permanent magnets. The plates are located 150-200 mm wide from one another and face each other with the same poles. The plates can have different polarity (one plate has a pole S, the other N), but are equipped so that the plates face each other with the same poles.

The magnetic classifier contains loading 5 and drain 6 devices, a device for supplying water 7, a slit-like discharge device 8 in the form of a gap along the width of the body, an adjustment device in the form of a valve 9 located between the discharge and drain devices. The suspension through the feeder 5 is fed into the slotted gap between the plates 3 along the inclined bottom 2 and moves towards the discharge between the magnetic plates. With this arrangement of the magnetic plates 3 due to the displacement of magnetic fields into the working area of the device, where when the magnetic fluxes of the same poles meet, the entire volume of the device is saturated with a magnetic field, which ensures the displacement of nonmetallic as foreign particles from a magnetite suspension with minimal loss of ore particles. The speeds of magnetic and non-magnetic particles in a volume magnetic field are different. Taking into account the difference in the speeds of motion of magnetic and non-magnetic particles, the latter, as already mentioned, are displaced from the magnetite suspension and carried off to the drain 6. Magnetic particles, on the contrary, are braked, form locks, settle to the bottom 2 of housing 1 and move along its inclined planes to the unloading device 8. Its unloading is carried out through the unloading slot 8 between the bottom 2 and the drain device 6. Due to the presence of an adjusting valve 9, it is possible to control the process and get a drain with very little Kim magnetic product containing very pure magnetic product. This is achieved by opening or closing the valve 9, which controls the amount of discharge, taking into account the control of the composition of the drain and the magnetic product. The content of SiO ₂ in the final concentrate decreases by 2-3% when the content of the magnetic product in the discharge, according to semi-industrial tests at PGOK, ranges from 0.5% to “traces”, which is more than 2 times lower than the losses on serial samples.

Claims (2)

1. Magnetic classifier, comprising a housing with a bottom, a magnetic system of vertical magnetic plates installed in it, loading, unloading and discharge devices, characterized in that the vertical magnetic plates are trapezoidal in shape, installed along the entire height of the housing, while the housing is made with an inclined at an angle of 45 60 ^o in the direction of unloading the bottom, and the unloading device is made in the form of a gap in the end of the housing.  2. The classifier according to claim 1, characterized in that it is equipped with an adjusting valve installed between the discharge and drain device.

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