SU810283A1 - Magnetic separator - Google Patents

Description

The invention relates to the field of mineral processing and can be used to separate finely divided ore minerals according to their magnetic properties.

Known magnetic tape separator with a magnetic system of electromagnets [1].

A magnetic separator is also known, including belt conveyors placed one above the other, magnetic systems with poles placed between the branches of the conveyors, a feeder, receivers of separation products [2].

The disadvantage of these separators is the low efficiency of the separation process.

The purpose of the invention is to increase the efficiency of the separation process due to the multiple cleaning of the magnetic fraction in the working area.

This goal is achieved due to the fact that the conveyors are parallel at an angle to the horizontal, and the magnetic systems face each other with the same poles and are offset by ‘/ g of the pole pitch, while the tension and drive drums of the upper conveyor are equipped with additional magnetic systems.

The drawing shows the described separator.

The separator contains magnetic systems 1, 2, 3, 4, conveyor belts 5 and 6, 5 located parallel at an angle to the horizon, feeder 7, unloading device 8, sprayed 9.

Magnetic separator operates as follows.

A mixture of minerals and water from the feeder 7 by gravity enters the working area of the separator.

Magnetic particles under the action of the forces of the magnetic system 1 located in the drive drum of the upper belt conveyor 5 are attracted to its surface and transported by tape along the poles of alternating polarity. When particles exit the zone of action of magnetic system 1, they fall into the zone of action of magnetic system 2, under the influence of which magnetic particles cross the working zone of the separator and are attracted to the surface of the lower belt 25 of conveyor 6.

The lower conveyor moves the magnetic particles along the poles of magnetic system 2 to the zone where the action of the magnetic forces of the field of this system is weakened, and 3θ on the magnetic particles begin to act on the forces of the magnetic system 3, under the influence of which the magnetic particles again intersect the working area of the separator and are attracted again to the tape the upper conveyor 5, which moves them along the poles of the magnetic system 3 to the zone where they again fall under the influence of magnetic forces of the field of the magnetic system 2.

Next, the process is repeated until the magnetic particles reach the zone of action of the magnetic system 4 located in the tension drum of the upper conveyor belt 6.

Under the action of the magnetic forces of the field of the system 4, magnetic particles are attracted to the surface of the conveyor belt 5 and transported by it to the unloading place, where they are washed off with water from the sprayer 9 to the unloading device 8.

Thus, magnetic particles, after repeated cleaning in the working area, are moved ji to the unloading device 8; - 'and the non-magnetic material is unloaded through the slot in the bathtub as a separate product.

At the moments of transition of magnetic particles from one field to another, due to the use of magnets of the same polarity, a sharp reorientation of the strands and their destruction occurs. In this case, non-magnetic particles are released, and the enriched material regroups into new floccula richer in magnetite.

The use of this separator provides multiple detachment of strands of strongly magnetic particles from the surface of the working body and their periodic destruction, which contributes to the release of strands from non-magnetic particles, and, consequently, an increase in the content of magnetite in the finished concentrate.

Claims (1)

Claim 10 Magnetic separator, including belt conveyors placed one above the other, magnetic systems with poles, placed between the branches of conveyors, feeder, product receivers 15 separation, characterized in that, in order to increase the efficiency of the separation process due to the multiple cleaning of the magnetic fraction in the working area, the conveyors are located 20 parallel at an angle to the horizontal, and the magnetic systems face each other with the same poles and are offset from each other by '/ ₂ pole steps, while the tension and drive drums of the upper 25 conveyor are equipped with additional magnetic systems.