SU1144724A2 - Electric magnetic separator - Google Patents

Abstract

ELECTROMAGNETIC SEPARATOR in aut. St. No. 944659, about the fact that, in order to increase the efficiency of the separation process, the path of ensuring continuity; the process; the bottom part of the trick is made of a non-magnetic grid.

Description

   Yu

four

The invention relates to electromagnetic separators for separating mixtures consisting of ferromagnetic and non-magnetic dispersed materials, in particular mixtures of steel powders and abrasives in sludge after abrasive machining of metal products, and can be applied in the machine-building, mining, metallurgical and chemical industries.

A known electromagnetic separator comprising a tray made of a non-magnetic conductive material; mounted on the frame at an angle to the horizon, an electromagnetic system located under the tray, feeder and receivers of separation products L. However, despite the fact that the layer separation of the components takes place in 7–8 s, the removal of the layer of the magnetic component from under the layer of the ferromagnetic field held by the magnetic field is difficult. In this case, a ferromagnetic block is formed at the output of the electromagnetic system, which is the main resistance to the passage of the nonmagnetic component. In addition, this separator is intermittent, which limits its performance.

The purpose of the invention is to increase the efficiency of the separation process by ensuring the continuity of the process.

This goal is achieved by the fact that in the electromagnetic separator part of the bottom of the tray is made of a non-magnetic grid.

In the drawing of Leagues. 1 shows the electromagnetic separator, a general view; in fig. 2 .- the same, the second option.

The electromagnetic separator shown in FIG. 1, contains a four-sided closed 1, above which groups of electromagnets are located along it: electromagnets 2, powered by a single-half-wave rectifier of alternating current with a frequency of 50 Hz ,. additionally interrupted with a frequency of 2-5 Hz and the number of pulses per second 20; electromagnets 3, powered by a current at f 10 Hz, the number of pulses per second is 10-20; electromagnets 4 of the second section, powered by a current of f 16 Hz and the number of pulses per second 32; linear inductor 5 with a running magnetic field

moreover, the lower base of the tray starting from the second zone, located under the electromagnets 4, is made in the form of a grid 6 with cells 1-2 mm in size, under the grid 6 there is a directional surface 7. The separated material is fed from the hopper 8 through the vibrating feeder 9 located above the bottom base Tray 1, spring 10, and mounted. On the hinge 11. The ferromagnetic component is removed with a belt conveyor 12, and a nonmagnetic conveyor 13.

At the site of electromagnets 2 and 3, pre-magnetic separation is carried out, at the site of electromagnets 4 - the final clean separation of components, at the site of electromagnets 5 - magnetic transport of the ferromagnetic concentrate.

The electromagnetic separator of FIG. 1 works as follows.

The material being processed from the hopper 8 through the feeder 9 enters the tray-1, which is made closed on four sides of conductive material, such as aluminum. During the movement along tray 1, the material to be processed falls under the poles of electromagnets 2 and 3. In this case, the ferromagnetic and nonmagnetic component and at the same time achieves braking of the ferromagnetic component in such a way that the rock is somewhat ahead of the ferromagnetic layer, a fluidized mechanical field, part of which moving between the upper and lower bases of the tray. In the second zone, under the electromagnets 4, the ferromagnetic component is completely weighed by the magnetic field (particles move near the conductive screen j and near the mesh bottom they only float.) the poles of electromagnets 4. Then the ferromagnetic material at the output of the magnetic system 4 is intercepted by a traveling magnetic field of a group of electromagnets 5, operating only in the magnetic of transport. In this case

3

A ferromagnetic plug is not formed at the exit of the magnetic system 4, since there the material is diverted by a magnetic transport system. The inclusion of electromagnets 3 and 4 in the electrical network alternately by two groups, each of which has at least two electromagnets, including one common to each of these groups, provides, firstly, a more efficient movement of the ferromagnetic component separation in a suspended state and its redistribution between the magnetic poles as compared with the simple alternating switching of the electromagnetics; secondly, when the ferromagnetic component is moved, its reciprocating oscillation along the tray is provided, which improves the screening of the nonmagnetic component through the ferromagnetic layer.

The electromagnetic separator of FIG. 2 contains a closure4 tray 1 with a grill, on its base 2-, a vibrating filter 3 placed above the inclined conductor of the tray L (closed type), an electromagnet 4 located above the tray 1-, a bunker 5 for collecting non-magnetic components installed under the grid 2 , n bunker 6 for collecting the ferromagnetic component. Tray 1 is mounted on the hinge 7 and is pressed by the spring 8 by an upper conductive base made of aluminum.

447244

Electromagnet.tny separator works as follows.

The material being processed, containing at least 60-70% iron, is 5 of the vibrating hopper 3 on the inclined tray 1, the upper base of which is pressed to the poles of the electromagnet 4 by the spring 8. The separator only works with a continuous feed of material

О But in order to start its work, it is necessary to load into it a ferromagnetic concentrate in a weight quantity equal to the ponderomotive force of the electromagnet 4. Otherwise, immediately

15 apply the material for separation, part of the ferromagnetic component at the first moment falls into the bunker to collect

ferromagnetic material, and then, its precipitation stops. This is due to the formation of magnetic

the gate preventing the passage of non-magnetic particles to the end of the tray, whereas ferromagnetic particles due to their magnetic flocculation

5 does not fall through it, but out of the working area of the separator into the hopper 6.

Thus, the execution of part 0 of the bottom of the tray in the form of a non-magnetic grid with cells, the size of which provides free removal of the non-magnetic component under the moving layer of the ferromagnetic component, greatly shortens the path of the non-magnetic component.

Claims (1)

ELECTROMAGNETIC SEPARATOR po.avt. St. P 944659, about aphids of the first and second, with the aim of increasing the efficiency of the process of separation of the path to ensure the continuity of the process; part of the bottom of the thread is made of a non-magnetic grid.