RU2167721C1 - Magnetic separator - Google Patents

Abstract

FIELD: separation of powder materials in manufacture of permanent magnets and in powder metallurgy. SUBSTANCE: magnetic separator has a flat nonmagnetic separating member and magnetic system installed on the same shaft in a spaced relation to each other, and discharging unit with receivers for separated products. Magnetic system and separating member are installed on the same shaft by means of bushings for regulation of gap between them. Discharging unit has magnetic screen fixed in gap between separating member and magnetic system. EFFECT: extended operating potentialities of separator, provided separation of mixtures with different magnetic properties. 3 cl, 3 dwg

Description

 The invention relates to apparatus for magnetic separation of bulk materials and can be used in the manufacture of permanent magnets and in powder metallurgy.

Known magnetic separator for dry ore dressing (ed. Certificate of the USSR N 876170, M.cl. ³ B 03 C 1/10, 1981), comprising a separating element rotated by the mixture flows, made in the form of hollow disks freely mounted on a fixed axis and having blades along the generators of the disks, a magnetic system rigidly mounted on the shaft and placed inside the hollow disks, a partition separating the flows of magnetic and non-magnetic fractions, receivers of shared products. The flow of the mixture directed to the blade vanes drives the disks into rotation. The magnetic fraction is attracted to the end surfaces of the disks, transported to a zone free of magnets, and unloaded to the receiver for the magnetic fraction, and the non-magnetic fraction is unloaded by gravity into its receiver.

 The disadvantage of the separator is that it cannot be used to separate different mixtures without changing the magnetic system, requiring changes in the magnetic field over a wide range.

Known magnetic separator (ed. Certificate. USSR N 1069858, Mcl ^3. B 03 C 1/02, 1984), adopted as a prototype. The separator contains a stationary separation element made in the form of a disk of non-magnetic material, a rotating magnetic system made in the form of disks that create a magnetic field around the periphery of the separation element, an unloading unit with receivers of shared products. The separation element and the magnetic system are installed with a gap relative to each other. And the disks of the magnetic system are mounted with the possibility of rotation around its axis. The initial mixture under the influence of a magnetic field is brought into a vortex motion, providing mixing of the layer. In this case, non-magnetic particles under the influence of weight and centrifugal forces enter the receiver for the non-magnetic fraction of the unloading unit, and magnetic particles are transported to the zone of weakened magnetic field and enter the receiver for the magnetic fraction of the unloading unit.

 The design of the known separator does not provide means for regulating the magnetic field, allowing it to be used to separate different mixtures with different magnetic properties without replacing the magnetic system.

 The problem to which the invention is directed, is to ensure the regulation of magnetic field strength on the separation element.

 The problem is solved in that in a magnetic separator comprising a flat non-magnetic separation element installed with a gap relative to each other and a magnetic system mounted on the drive shaft to create a magnetic field, an unloading unit with receivers of separation products, a separation element and a magnetic system are mounted on the same shaft with the possibility of adjusting the gap between them, the magnetic system is mounted on the shaft using bushings and secured with a clamping nut, and the unloading unit contains a magnetic screen wounds installed in the gap between the separation element and the magnetic system.

 In FIG. 1 shows a section of the proposed separator; in FIG. 2 is a view A in FIG. 1; in FIG. 3 is a section BB in FIG. 1.

 The magnetic separator contains a separating element 1, made in the form of a disk of non-magnetic material with an annular limiter 2 of the shared mixture mounted on it, a magnetic system 3 made of permanent magnets 4 to create a magnetic field on the periphery of the separating element 1, shaft 5, on which the separating element 1 and magnetic system 3 with a gap 6 relative to each other. Sleeves 7 and 8 are placed on the shaft 5, between which the magnetic system 3 is fixed using the clamping nut 9. The separator comprises a discharge unit 10 of separation products with a receiver 11 for a low magnetic fraction, a receiver 12 for a high magnetic fraction and a magnetic screen 13 fixedly installed in the gap 6 The rotation of the shaft 5 is carried out from the drive 14, and a feeder 15 is provided for supplying the initial mixture.

 The separator works as follows.

 To separate a mixture containing, for example, weakly magnetic and strongly magnetic fractions, the magnetic field strength on the separation element 1 and the rotation speed of the shaft 5 are calculated (or experimentally selected) to provide the centrifugal force necessary for unloading the separation products. The regulation of the magnetic field is carried out by changing the size of the gap 6. To do this, select and install the sleeve 7 of the desired length and using the sleeve 8 and the clamping nut 9, fix the magnetic system on the shaft 5. Then the separated mixture is fed to the rotating separation element 1, where the mixture is distributed around the periphery, since the limiter 2 prevents the mixture from moving to the center of the separation element 1. Under the action of centrifugal force, the weakly magnetic fraction of the mixture is discharged to the receiver 11 of the discharge unit 10, and the highly magnetic fraction of the mixture is transported to the area of the unloading unit 10, where the magnetic field is weakened by the screen 13, and is reset by centrifugal force to the receiver 12.

 To separate the mixture, requiring a different magnitude of the magnetic field on the separation element 1, set the sleeve 7 of another, the desired length.

 The installation of the separation element and the magnetic system on one shaft with the ability to control the gap between them, allows you to change the magnetic field strength, and the regulation of the centrifugal force by the speed of rotation of the separation element, which extends the operational capabilities of the separator; providing separation of different mixtures with different magnetic properties.

Claims (3)

 1. A magnetic separator comprising a flat non-magnetic separation element installed with a gap relative to each other and a magnetic system mounted on the drive shaft, an unloading unit with receivers for separation products, characterized in that the separation element and the magnetic system are mounted on the same shaft with the possibility of adjusting the gap between them.  2. The separator according to claim 1, characterized in that the magnetic system is mounted on the shaft using bushings and secured with a clamping nut.  3. The separator according to claim 1 or 2, characterized in that the unloading unit comprises a magnetic screen fixedly installed in the gap between the separation element and the magnetic system.

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