SU1278035A1 - Pneumatic flotation column - Google Patents

Abstract

This invention relates to the flotation enrichment of non-magnetic minerals containing fine fractions of ferromagnetic and low-magnetic minerals. The purpose of the invention is to improve the quality of concentrates of non-magnets of minerals by providing optimal conditions for the flocculation of magnetic fractions under various conditions of flotation. For this, the column further comprises an electrically connected magnetic analyzer (MA) 9, a regulator 10 and a driving device (PP) 8 for moving the magnetic system (ms) 2 along the height k (L j

Description

lonny. Moreover, MA 9 is connected with the input of the regulator 10, the output of which is connected with the input of the PP 8. The initial slurry processed by the reactants enters the chamber 1 of the column through the loading nozzle 4. The passage through the magnetic field installed outside the housing of the chamber 1 of the MC 2, particles the ferromagnetic materials are flocculated to go down to the bottom of chamber 1 and, together with ness1), removed particles are removed77035

with through the discharge cone 6. Non-magnetic minerals, attached to air bubbles, lifting 1-1c-1x from the aerator 3, go into foam and unload through the foam removal section 5. When-containing iron content in the foam product, the MA 9 signal on the regulator 10 "It actuates the PP 8, which changes the installation of the MS 2 in height of the column). 1 il.

The invention relates to the field of enrichment of useful minerals, in particular, to the flotation enrichment of non-magnetic minerals containing ferromagnetic fine fractions (magnetite, ilmenite and weakly magnetic minerals), and is an improvement of the device according to the model No. 440160.

The purpose of the invention. —increasing the quality of concentrates of non-magnetic minerals by providing optimal conditions for the extraction of magnetic fractions at various relshmah (ototatsii.

The drawing shows a pneumatic flotation column.

The device contains a chamber 1 of the column, a map system 2. installed outside the body of the chamber 1 at the level of the zone for the removal of bubbles and adapted to move it along the height of the chamber 1, aerators 3 located in the lower part of the chamber 1, the loading nozzle 4 located in the upper camera 1 and placed under the foam section 5, a discharge cone b, installed under the aerators 3 and used to unload the chamber product from chamber 1, guides 7 for vertical movement of the magnetic system 2 along the height of the camera 1 of the machine, mounted outside the hull of the chamber 1 and located along its entire height, the driving device 8 for moving the magnetic system 2 along the height of the chamber 1 of the flotation column, a magnetic analyzer 9 installed

on the drain of the non-detachable compartment 5, and the regulator 10, whose input is electrically connected to the output of the magnetic analyzer 9, and the output to the input

drive 8 was moved 8 of the magnetic system 2 along the height of the chamber 1 of the column. In this case, the camera body is made of non-metallic materials, such as Plexiglas, fiberglass textolite, etc.

The device works as follows.

Source pool, processed

the reagent enters the chamber 1 of the column through the loading nozzle 4. When solid particles pass through a magnetic field created by the magnetic system 2, particles of ferromagnetic minerals located in the enriched minerals float under the force of gravity and descend to the bottom of chamber 1, where with non-floating particles

removed through the discharge cone 6.

. The recoverable non-magnetic minerals, attached to air bubbles rising from the aerator 3, are transferred to the foam and unloaded.

through the foam section 5.

A 1% product was obtained using a magnetic analyzer 9 for iron content, and if the content of the iron containing miner was present, the seam in the foamy

the product is above the allowable rate, the magnetic analyzer supplies an electrical signal to the controller 10, which is in accordance with the received signal.

actuates the drive device 8 for moving the magnetic system along the height of the chamber. The driving device 8 changes the setting of the magnetic system 2 in height and direction, which are determined by the received signal. Similar actions are carried out as long as the iron content in the froth product exceeds a predetermined limit.

The presence of a magnetic analyzer regulator, a magnetic system and a device for moving the magnetic system along the height of the column chamber, as well as the connection of the electrical output of the magnetic analyzer to the controller input, the output of which is connected to the input of the drive device for moving the magnetic system along the column height, ensure optimal the magnetic flux effect of the magnetic system on the pulp-air flow of the enriched material for all possible changes in the flotation mode (flow rate) of the pulp, air a, pulp density, etc., due to which efficient flocculation of magnetic

780354

minerals and their extraction into the froth product is prevented. A decrease in the extraction of magnetic minerals into the froth product is finally achieved, ultimately, an increase in the quality of the concentrates obtained during flotation.

Claims (1)

Invention Form Pneumatic Flotation JO LONA on bus. Ev, No. 440160, characterized in that, in order to improve the quality of concentrates of non-magnetic minerals by providing optimal flocculation conditions 2 magnetic fractions with different flotation modes; it additionally contains a magnetic analyzer, a regulator and a drive device for moving the magnetic system Q is the height of the column, a magnetic analyzer, a drive device for moving the magnetic system, and a controller are electrically connected between : by itself, with magnetic analyzer 5 is connected to the controller input and the output is connected to the input of the drive device for moving the magnetic system.