SU1639755A1 - Ferromagnetic ore dresser - Google Patents

Abstract

The invention relates to the enrichment of minerals and can be used to separate minerals according to magnetic properties. The purpose is to increase the enrichment efficiency. The unit consists of a loading device 1 and arranged in baths 10 and 11 of magnetic separators 2 and 3 with drums (B) 4 and 5, in which are located magnetic systems (MS) 6 and 7. At the same time, MS 6 and 7 are made of an equal number of poles 8, assembled from magnetic ceramic plates 9 o At the same time, 0.428-0.714 poles of the MS 7 are from the loading side ceramic plates 9, the ratio of which to the number of plates 9 in the pole B 4 is 0.33-0.67. The starting material from the device 1 enters the bath 10 under the rotating B 4 and under the influence of the magnetic field created by MC 6, from it The magnetic product is removed. Then, detaching from B 4, the particles enter the bath 11 under the rotating B 5 into the zone of action of the low-intensity magnetic field created by MS 7 o. When the magnetic field leaves the zone, the magnetic particles are uncoupled. water to concentrate 1 Il.

Description

The invention relates to the enrichment of minerals and can be used to separate minerals according to magnetic properties.

The purpose of the invention is to increase the efficiency of the enrichment process.

The drawing shows schematically a unit for enrichment of magnetic ores, a general view

The unit for enrichment of magnetic ores consists of a loading device 1 and two magnetic separators 2 and 3, installed in series

each of which contains a non-magnetic drum 4 (5), a magnetic system 6 (7), made of poles 8, assembled from ceramic magnetic plates 9, a bath 10 (11) o The bath 10 of the first separator has a 12 tail outlet, the bath 11 of the second serarator - industrial products, hole 13 and pin 14 of the concentrate.

The loading device 1 serves to evenly distribute the pulp across the width of the drum. The drums of the enrichment unit

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RUD working bodies, they are designed to transport the magnetic product from the bath of the first separator into the bath of the second separator, from it - to the output of the concentrate "

The separation process takes place directly in the separator bath. “The magnetic system consists of poles made up of magnetic ceramic plates.” At that, all the poles of the first drum and 0.572 - 0.286 and the poles of the second drum on the discharge side of the concentrate contain the same number of plates, and the drum on the loading side is made of magnetic ceramic plates, the ratio of which to the number of magnetic ceramic plates at the pole of the first separator is 0.33-0.67

Magnetic ore in the form of pulp is fed into the loading device 1, from where it is uniformly flowed into the bath 10 under the rotating drum 40 Here the source material falls into the zone of action of the high intensity magnetic field created by the magnetic system 6 A great amount of water goes to the outlet 12 of the tails. Magnetic grains are attracted to the drum 4 and evenly move to the edge of the magnetic system 6, where they are disengaged from the drum and by gravity flow into the bath 11 under the rotating drum. 5 "Here the magnetic grains fall into the zone of action of the magnetic field with a low voltage

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UN

Editor T, Zubkova

L, s. G W.

Compiled by B0 Levchayev

Tehred L. Oliynyk Corrector. Cherni

poles generated from a smaller number of magnetic ceramic plates. At the same time, grains consisting of intergrowths of ore minerals with waste rock go into the industrial product opening 13, the disclosed ore grains are attracted to the surface of the drum 5 and are moved to the edge of the magnetic system 7 with a high magnetic field strength When leaving the magnetic field, the magnetic grains are uncoupled from the drum and by gravity flow to pin 14 of the concentrate

Claims (1)

Invention Formula The unit for enrichment of magnetic ores, consisting of a loading device and two magnetic separators installed in series, each of which contains a non-magnetic drum placed in the bath, with outputs for tailings and a concentrate, each of which contains a magnetic system made of an equal number of poles, recruited from magnetic ceramic plates, characterized in that, in order to increase the efficiency of the enrichment process, 0.428-0.714 poles of the magnetic system of the second drum on the loading side wounds of magnetic ceramic plates, the ratio of which to the number of magnetic ceramic plates in the pole of the first drum is 0.33-0.67.