SU1577841A1 - Laboratory cartridge-type high-gradient separator - Google Patents

Abstract

This invention relates to wet magnetic separation of low-magnetic materials. The goal is to increase the efficiency of the separation process by adjusting the pulp density. In the interpolar space of the magnetic system 1 of the separator is placed a cartridge 2 with a ferromagnetic filler 3. The separator feeder is made in the form of a conical mixer (CS) 4 with a tangential nozzle 5 for supplying water and located above the COP 4 of the supply nozzle with a conical plug 7. The supply nozzle is made in the form the cone 6. The plug 7 has the possibility of vertical movement with the help of the rod 8, the adjusting screws 9 and 10 and the stopper 11. After turning on the electromagnetic system 1, water is supplied to the nozzle 5. Through a pre-selected gap m forward to the stopper 7 and the cone 6 is supplied with a dry fraction of starting material. It is mixed with water in COP 4 to form a slurry. The pulp is immediately fed into the cassette 2. The magnetic fraction is attracted to the ferro-filler 3, and non-magnetic goes with water to the receiver. After emptying the cone 6, the magnetic fraction is washed off to another receiver. 1 il.

Description

The invention relates to the beneficiation of minerals in a magnetic field and can be used to study the process of beneficiation of low-magnetic ores of ferrous metals, rare-metal ores, removal of low-magnetic impurities from non-magnetic mineral raw materials, and wastewater treatment.

The purpose of the invention is to increase the efficiency of the separation process by controlling the density of the pulp.

The drawing schematically shows a separator, General view.

The separator includes an electromagnetic system 1, in the pole gap of which there is a cartridge 2 with ferromagnetic filler 3. Above the cartridge 2 is a feeder. It is made in the form of a cone mixer 4 with a tangential nozzle 5 for supplying water. Above the mixer 4 is placed a supply pipe 6 for supplying solid. It can be made, for example, in the form of a cone, equipped with a conical plug 7, mounted with the possibility of vertical movement. The device for moving the cork. 7 can be performed, for example, in the form of a rod 8 with adjusting screws 9 and 10 and a limiter 11. Under the cassette 2, receivers of separation products (not shown) are installed.

The separator works as follows.

The upper cone 6 is filled with dry material and, using the adjusting screws 9, 10 and the limiter 11, an annular gap is established between the cone 6 and the cone plug 7 such that the required amount of dry material passes through per unit time. After practicing the regime of supplying solid material, the plug 7 is closed by locking the rod 8 with a screw 9, the required amount of solid is poured into the upper cone and the cone is ready for operation. Then regulate the water supply through the pipe 5 of the feeder 4, achieving the desired water performance.

Having placed the cassette 2 with the ferromagnetic filler 3 in the interpolar space of the separator, turn on the magnetic system 1. water is supplied through the nozzle 5. Pressing on the rod 8 with the screw 9 unscrewed, it is moved to the stop 11, the plug 7 is opened ₅ and the dry material is evenly poured onto the water feeder funnel 4. By mixing, water and dry material form a pulp of the required density, which enters the cassette 2 on the filler 3. The wet magnetic enrichment of coarse-grained material begins, continuing until from the cone 6 all dry material will not spill out. The water in the pipe 5 is shut off.

Magnetic particles, under the action of magnetic forces acting in a cassette with a ferromagnetic filler, are attracted to the filler elements, and non-magnetic particles are transported with water to a receiver for non-magnetic material. The magnetic field is turned off, water is again supplied through the pipe 5 ² θ and flushes the magnetic material into the receiver for the magnetic product.

The use of the proposed separator makes it possible to conduct research on the wet magnetic concentration of weakly magnetic ore and non-metallic materials with a particle size of 0.5-2.0 mm with high accuracy.

Claims (1)

Claim Laboratory high-gradient cassette separator comprising a cassette with a ferromagnetic filler located in the interpolar space of the electromagnetic system, a feeder and receivers 35 of separation products, characterized in that, in order to increase the efficiency of the separation process by controlling the density of the pulp, the feeder is made in the form of a conical mixer with a tangential a pipe for supplying water and a supply pipe placed above the mixer for supplying solid with an outlet located at its outlet and installed with zhnosti vertical movement of the conical plug. Compiled by A. Moiseenko Editor N. Horvat Order 1874 Tehred A. Kravchuk Proofreader V. Girnyak Circulation 466 Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and Publishing Plant "Patent", Uzhhorod, st. Gagarina, 101