SU1660745A1 - Electromagnetic separator - Google Patents

Abstract

This invention relates to magnetic separation of weakly magnetic ores. The goal is to increase the efficiency of the separation process by increasing the floor tension in the working gap. The separator contains an electromagnetic system 1 with pole pieces (PN). One PN is made in the form of a roll (B) 3 mounted rotatably in bearings 4 and 5 fixed in the body of the magnetic core 7. The yoke 6 of the magnetic core 7 is provided with a fixing ring 12. This ring provides the minimum clearance between the surface B 3 and the frame 6. The second The MO 2 is configured to move toward the first MO as B 3. The vibratory feeder has a tray (L) which is inserted into the gap between B 3 and MO 2. The source material is supplied by the vibrating feeder along L to the working gap between B 3 and MO 2. Non-magnetic particles fall into holes in L. Magnetic the particles are attracted to B 3 and are carried by them to unload into the receiver. Performing one PN as a rotating B 3, and another with the ability to move to the first, increases the tension in the interpolar gap. 3 il.

Description

The invention relates to the field of mineral processing, and more specifically to the enrichment of dry weakly magnetic ores and materials of various magnetic susceptibility, as well as for the deironing of materials

The purpose of the invention is to increase the efficiency of the separation process by increasing the tension of the floor in the working gap,

Figure 1 shows a schematic of a separator, a general view; on ф г.2 - the same, a section along a roll; on fig.Z - the relative position of the vibrating channel and the poles of the separator.

The separator consists of an electromagnetic system 1 with a pole tip 2, a roll 3 with bearing supports 4 and 5, rma b, a fixed magnetic circuit 7, an electrovibrating feeder 8 with a tray 9 located in the working gap between the pole tip 2 and the roller 3. The drive is selected 10 g electric motor with a V-belt drive on the 11, mounted on a roll 2, fixed in the bearings 4 and 5 on the rome 6 and the fixed magnetic conductor 7.

The yoke 6 is provided with a mounting retainer ring 12 to provide a minimum gap between the surfaces of the roll and the roll 3 located in it.

Above the chute 9, a loading device 13 with nozzles 14 is installed for discharging the separable material. A disconnector device 15 is located at the pole end 2 for receiving separation products.

The separator works as follows.

From the electric motor 10 through the pulleys 11, the roll 3 is mounted in rotation, fixed in the bearing supports 4 and 5 on the frame b V) of the magnetic core 7.

The source material through the holes of the nozzles 14 of the loading device 13 enters the tray 9 of the electrovibration feeder 8, with which it is delivered into the working gap under the roll 3.

Under the action of a magnetic field created by a magnetic system 1 with a pole tip 2, the magnetic fraction is attracted to the roll 3, is taken out of the working area and unloaded into the discharge device 15, and non-magnetic falls into the discharge device through the holes of the tray 9.

8 Depending on the size of the material being separated, the size of the working gap can be adjusted using a removable

pole tip 2 by moving it in height. In this case, the magnetic field strength in the working gap varies. The mounting of the fixing ring 12 on the bm to the increase in the strength of the magnetic field by ensuring the alignment of the surfaces of the bores of the frame and the bearing housing reduces the gap between them to such an extent that the leakage of magnetic flux through it practically

is absent, and this makes separator operation more efficient.

Claims (1)

Invention Formula Electromagnetic separator, which includes an electromagnetic system with a magnetic conductor and pole pieces, a vibrating channel for supplying power in an interpolar gap and receivers of separation products, different in that. that, in order to increase the efficiency of the separation process by increasing the tension in the field in the working gap, one pole tip is made in the form of a roll mounted rotatably by means of bearings fixed in the body of the magnetic core, and the other is moveable towards the first pole tip, ff 1