SU1639749A1 - Magnetic separator - Google Patents

Abstract

The invention relates to equipment for the enrichment of minerals and is intended for use in the mining industry in the enrichment of low-magnetic materials. 2. In the gaps 3 between the plates 2, grids 4 of expanded metal are vertically installed. Initial material al enters the interpolar space under the influence of the magnetic field weakly magnetic particles are attracted to both the grid 4 and the plates 1 February yl

Description

The invention relates to equipment for mineral processing and is intended for use in the mining industry for the enrichment of weakly magnetic materials.

The aim of the invention is to increase the efficiency of the separator.

The drawing shows a diagram of the proposed magnetic 'separator.

The separator includes a magnetic system 1 with poles. A ferromagnetic filler is placed in the interpolar gap, made in the form of plates 2. The surface of the plates is made in the form of alternating protrusions and grooves. The plates are installed with a gap of 3 equal to 3-6 mm for the passage of pulp. A mesh 4 is installed in each gap between the plates. The mesh is made of expanded metal from magnetic stainless steel 12x17 or 12x13. To enrich weakly magnetic oxidized iron ores, it is most rational to use nets made of sheet material with a thickness of 0.6 mm (for large material) and 0.25 mm (for thin). In this case, the rhombuses of the expanded metal mesh have diagonals, respectively: 13.5 x 5.1 mm and 3.2 x 1.5 mm. In addition, the separator also contains a feeder 5 and receivers 6 for the removal of enrichment products

The separator works as follows.

Before the supply of the source material, the magnetic system 1 is turned on, the plates 2 and the expanded metal mesh 4 are magnetized. At the same time, a high gradient field is formed on the sharp edges of the protrusions of the plates and the expanded metal mesh. The pulp of the source material entering through the feeder 5. moves along the protrusions of the plates, the gaps 3 between them and expanded metal grids, which reduces its speed and allows you to increase the residence time of ore grains in a magnetic field. When pulp enters the working area, finely divided weakly magnetic particles are attracted to the edges of the corrugated plates and grids and trapped on them, and non-magnetic particles are loaded into the tail section of the bath by the flow of pulp. When the rotor leaves the magnetic field, the magnetic product is unloaded to the receiver 6 and the ferromagnetic aggregates are washed. Since there are 4–5 times more sharp edges on a mesh of expanded metal than sharp protrusions on corrugated plates, the gradient of the magnetic field strength in the gap increases.

Increasing the efficiency of the magnetic enrichment process is achieved by increasing the gradient of the magnetic field and the longer residence time of the pulp in the magnetic field, which will increase the extraction of the magnetic product.

Claims (1)

Claim Magnetic separator for beneficiation of weakly magnetic ores, including a magnetic system with poles located under the feeder, in the interpolar space of which a ferromagnetic core is placed in the form of corrugated plates installed with a gap, and separators are equipped with a separator nets of expanded metal, which are installed vertically in the gaps between the plates.