SU1319904A1 - Magnetic analyzer - Google Patents

Abstract

The invention relates to the technology of mineral processing and can be used when conducting fractional analysis of samples in order to determine the possibility of their enrichment by magnetic separation. The purpose of the invention is to increase the efficiency of magnetic analysis by increasing and changing the direction of the magnetic field (MP) intensity in the interpolar gap, as well as controlling the intensity of the magnetic field on the surface of the non-magnetic chute. Above the magnetic system with poles 1 there is an obliquely mounted working body (PO) 4 in the form of a non-magnetic flat chute with induction strips mounted in its bottom oriented from one pole 1 to the other. Some of the bands are magnetically coupled to one of the poles, and some to the other, and they alternate with each other. The chute is mounted for movement in a direction perpendicular to its surface. The material under study enters the PO 4, where the magnetic fraction is held by MP forces both above the poles 1 and in the working gaps of the bands. The non-magnetic fraction is discharged in the lower part of PO 4. After it is washed out, PO 4 is lifted, turning it about the axis of attachment 7 to tilt in the opposite direction, and the magnetic fraction is washed off. 1 h. item f-ly, 2 ill. s (L CD with O -ir 11 10

Description

The invention relates to the technology of mineral processing, in particular to devices for separating the components of the mineral mixture into magnetic and non-magnetic fractions in a magnetic field, and can be used both in laboratory and in field conditions when conducting fractional analysis of samples to determine the possibility their enrichment by magnetic separation.

The purpose of the invention is to increase the efficiency of magnetic analysis by increasing and changing the direction of the magnetic field intensity in the interpolar gap.

FIG. 1 shows a magnetic analyzer, a general view; in fig. 2 - the same, top view.

The magnetic analyzer consists of a magnetic system with poles 1, made of permanent magnets with pole pieces 2 and connected with a rm 3, a working body 4 above them, made in the form of a nonmagnetic flat chute equipped with longitudinal induction strips 5 fixed in its bottom, some of which magnetically connected with the north pole, and the other with the south pole, and mutually alternating in the interpolar gap. The working body 4 is provided with a feed hopper 6 and is connected by means of an attachment axis 7 with an adjusting screw 8. In the interpolar gap, the working member 4 rests on an adjusting screw 9. Screws 8 and 9 are mounted on the frame 3, one end of which is pivotally connected to the base by means of an axis 10 11, and the other can move along the arcuate guides 12 and be fixed by clamping screws 13.

Magnetic analyzer works as follows.

The test material from the feed hopper 6 enters the working body 4, where the magnetic fraction is held by magnetic field forces both over the poles and in the working gaps of the induction strips 5, and the nonmagnetic unloads in the lower part of the working body 4. After the washing of the nonmagnetic fraction ends, the working body 4 lift it, turning it about the axis of attachment 7 to tilt in the opposite direction, and wash off the magnetic fraction. After lowering the working body 4 to the initial position, the analyzer is again ready for operation.

The process of magnetic analysis is carried out for one sample of ore at different values of the magnetic field strength. As a result of the synchronous rotation of the screws 8 and 9, the working member 4 can be removed or brought closer to the surface of the pole pieces 2, changing the intensity of the magnetic field on its surface.

To regulate the speed of movement of the material under study in the working gaps of the induction strips 5 depending on the magnetic properties of minerals, their concentration in the pulp and density, the analyzer provides for a change in the angle of the working body 4, which is carried out by moving the pitch 3 along the arcuate guides 12 with subsequent fixation clamping screws 13 in a certain position of the angle of inclination.

The induction strips 5 are long hollows, installed parallel to the walls of the working body 4 and perpendicular to its bottom. To reduce the magnetic flux losses, these bands can be inserted into special slots in the bottom of the working organ 4. The induction strips are divided into two groups according to the position in the tray, one of which is connected with the north pole and the other with the south pole.

The permanent magnets are removable. In the analysis of strongly and moderately magnetic materials they are made of barium ferrite (IBA-2) or strontium ferrite. In the analysis of weakly magnetic materials, the magnets are made of samarium cobalt.

Claims (2)

1. Magnetic analyzer, which includes a working body and a magnetic system with poles, characterized in that, in order to increase the efficiency of magnetic analysis by increasing and changing the direction of the magnetic field strength in the interpolar gap, the working body is made in the form of a non-magnetic device obliquely installed above the magnetic system a flat gutter with induction strips mounted in its bottom, oriented from one pole to the other, some of which are magnetically connected to one of the poles, and some to the other, while TVOC magnetically associated with the different poles alternate with each other. 2. The analyzer according to claim 1, characterized in that, in order to control the intensity of the magnetic field on the surface of the non-magnetic chute, the non-magnetic chute is mounted for movement in a direction perpendicular to its surface. 73 2