SU1741908A1 - Magnetic separator - Google Patents

Abstract

Use: magnetic enrichment of finely ground materials. The essence of the invention: a stationary magnetic system / 1 / is located above the vibrating channel / 2 /, at an angle to its nonmagnetic upper wall / 3 /. Upper wall / 3 / is longer than the others. Vibrating channel / 2 / is driven by vibrator / 4 /. A fluidized bed is created on the surface of the vibrating tray / 2 /. The non-magnetic fraction is transported to the receiver / 6 /, and magnetic due to the vibration of the free end of the upper wall / 3 / is discharged into the receiver / 7 /. 1 il.

Description

The invention relates to the enrichment of minerals and can be used in mining and enrichment plants and enterprises of ferrous and nonferrous metallurgy.

The closest to the invention in technical essence and the achieved result is a magnetic separator comprising a magnetic system located above the transporting body in the form of a non-magnetic vibrating channel with an upper wall, a feeder and receivers of separation products.

The disadvantage of this device is the low efficiency of the separation process. In addition, such a separator is only suitable for separating finely divided starting material.

The aim of the invention is to increase the efficiency of the separation process by increasing the recovery and improving the discharge of the magnetic particles.

The goal is achieved by the fact that in a magnetic separator including a magnetic system located above the transporting body in the form of a nonmagnetic vibrating channel with an upper wall, a feeder and receivers of separation products, the upper wall of the vibrating channel is longer than the others, and the magnetic system is located above the exit of the vibrating trajectory at an angle to top wall.

The drawing schematically shows a magnetic separator.

The device includes a stationary magnetic system 1, a closed-type vibrating tray 2 installed with an upper wall 3, longer than the others, a vibrator 4, a shock absorber 5 and receivers 6 and 7 of the separation products.

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Magnetic separator works as follows.

The product to be processed is loaded into the vibration tray 2. Under the action of the vibrator 4, the tray vibrates and the original product moves along the tray. In a magnetic field, a portion of the product is in a suspended state, whereby the magnetic product is more effectively separated from the non-magnetic one. The non-magnetic particle, in a suspended state, is mainly affected by gravity, which returns the particle to the working surface of the tray or, if the particle is outside the tray, delivers the particle directly to the hopper 6 for the non-magnetic Fraction. , the magnetic particle gains speed in the horizontal direction depending on the strength of the magnetic field at the point of its location. Separate from the main mass of the ore flow, the magnetic particle is reached the surface of the nonmagnetic element. - top wall 3 The magnetic flux density is sufficient to deliver the magnetic particle to the surface of the non-magnetic element 3, but it is not strong enough to hold that particle on the surface

the free end of the upper wall 3 due to its vibration. The magnetic particles are shaken from the surface to the point of unloading, which is located outside the magnetic forces, i.e. into the hopper 7 for a magnetic fraction.

Claims (1)

Claims Magnetic separator comprising a magnetic system located above the transporting body in the form of a non-magnetic vibrating channel with an upper wall, feeder and receivers of separation products, characterized in that, in order to increase the efficiency of the separation process by increasing the extraction and improving unloading of magnetic particles, the upper wall the vibro-tray is longer than the others, and the magnetic system is located above the exit of the vibrating channel at an angle to the upper wall 2 s