SU1708419A1 - Separators - Google Patents

Abstract

This invention relates to magnetic separation of weakly magnetic ores. The goal is to increase the capacity of the separator by more fully utilizing the drum surface and improving the concentrate discharge. The separator includes a rotating drum (B) 1 installed in bath 8. It is made of B 1 of alternating ferromagnetic rings (FM10.2 and ring permanent magnets (M). They are magnetized M axially and facing the FMK 2 with the same poles. Inside B 1 is stationary magnetic system 4 in the form of sector M 5 separated by non-magnetic sectors and fixed on the magnetic conductor 1. Sector M 5 are magnetized radially and face PMK 2 with the same poles as M. M 5 are installed opposite FMK 2. Magnetic circuit 1 is made in the form of a sector of the cylinder. It lies in the discharge zone, between the loading device 9 and the concentrate discharge device 11. The pulp is fed to the surface B 1 through the device 9. The non-magnetic fraction is discharged through the discharge device 10 to the tailings receiver. The magnetic fraction is attracted to the surface B 1 and is carried to the zone Here the field is weakened due to the presence of the magnetic circuit 1, which closes the field to itself. The water from the squirting fluid 12 washes away the concentrate to the discharge device t1. This embodiment of the magnetic system 4 increases the field on the surface of the B 1 and improves the discharge of the concentrate. 2 ill. FeS00 ^ th

Description

The invention relates to the beneficiation of minerals, namely the magnetic enrichment of weakly magnetic ores, and can be used in the mining industry.

The purpose of the invention is to improve the performance of the separator due to more

full utilization of the drum surface and improved concentrate discharge.

FIG. 1 shows a separator, a cross section; in fig. 2 is a section A-A in FIG. one.

Claims (2)

The device includes a drum 1 rotating around a horizontal axis, made of alternating ferromagnetic rings 2 and annular permanent magnets 3, which are magnetized axially and facing the rings 2 by like poles. Inside the drum 1 there is a stationary magnetic system 4, made of sector magnets 5, separated by non-magnetic sectors b and fixed on the magnetic core 7, Magnetic sectors 5 are magnetized radially and located on the npon / tB of ferromagnetic rings 2. At the same time, the ring magnets 3 and the sector magnets 5 face the rings 2 with the same poles. The drum 1 is installed in the bath 8 having a loading device 9, a discharge device 10 dp tailings and a discharge device 11 for the concentrate. The magnetic circuit 7 is made in the form of a sector of the cylinder and is located in the zone of discharge of the concentrate, between the boot 9 and the discharge 11 device. Above the concentrate unloading device 11 is 1 sprayed 12 for washing the concentrate. The magnetic separator works as follows; The initial power supply from the loading device: 9 is supplied to the drum 1, where the magnetic fraction is attracted to its surface, where a high magnetic field strength is created using ring magnets 3 and sector magnets 5. The drum 1 rotates the magnetic material into the loading zone where the magnetic field on the surface of the drum 1 drops due to the closing effect of the magnetic circuit 7. Here the concentrate is loaded into the discharge device 11, the Nonmagnetic fraction is discharged in the bottom of the bath 8 into the discharge device 10 for the tails . Claims Magnetic separator comprising a drum mounted in a bath for rotation around a horizontal axis, made of alternating ferromagnetic rings and permanent ring magnets magnetized axially and facing ferromagnetic rings of the same poles, with a fixed magnetic system placed inside it, loading. devices for unloading concentrate and tailings, characterized in that, in order to improve the performance of the separator due to more complete Using the drum surface and improving the concentrate unloading, the stationary magnetic system inside the drum is made of sector magnets fixed on the magnetic core, radially magnetized against the ferromagnetic rings, drum and poles facing them, with poles of the ring magnets facing the same rings, with At this point, the magnetic core is made in the form of a pie sector of a cylinder and is located opposite the drum section between the loading device and the device for manual ultrasonic inspection concentrate. flumaHLie FIG. 2