DE169812C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to magnetic processing of pulverized ore, in particular Iron ore, using the action of the surface tension of water for Separation of the strongly magnetic substances, which oppose those out of the water are attracted to a magnet, and the weakly magnetic substances which the Surface tension cannot be overcome

ίο fortune.

The present procedure serves to

■ table complete separation of the most magnetic particles, d. H. of the particles of pure iron ore, of the less magnetic Particles and the non-ore-containing particles, while at the same time the less magnetic Particles are separated from the non-ore-containing particles.

It is known from a Erzschlammstrom the magnetic particles by means of magnets, which, narrow at the bottom, transversely stand above the Stromgerinne and run around the endless conveying means, and to pull out the conveyor, they deliver laterally. On the other hand, a sieve setting machine has become known in which a magnet with a drum rotated over the web in the direction of the flow of the material over the web is arranged above the web between two consecutive setting sieves, the magnet holding the magnetic particles of the over

^; pulls the web flowing set material out of this to the drum, which continues it.

In these devices, a separation of the goods into a strongly magnetic, a weaker magnetic type and a "non-magnetic" element is provided. The latter is achieved according to the invention by the following:

The material, comminuted to the required fineness, is suspended in water.

When the turbidity enters the magnetic field, which is a fixed above the turbidity flow Magnet generated with a non-magnetic conveying means (hollow drum) running around it, the turbidity is held in a thin layer, but under the magnet it passes a deeper bed in a horizontal flow, in which the non-magnetic parts sink under. The conveyor circulating around the magnet must not touch the water level.

Partly by regulating the strength of the magnet, partly by changing the distance between the pole pieces of the magnet and the surface of the mud stream and by fitting The depth and speed of the mud flow can cause the magnetic particles to be attracted and away from the non-magnetic at a certain distance to the side of the pole piece separate and that the most magnetic particles, i. H. those made of pure magnetic Iron ore, when passing the pole piece, are lifted out of the water by the magnet, while the weaker Magnetic particles are not drawn out of the water, but in a layer in and stay below the surface of the water,

which layer is then richer than the part of the sludge flow below. the Particles attracted from the water are specially collected for themselves and the richer layer of the current containing less magnetic particles becomes special derived to be further enriched if desired.

To collect and remove the from

ίο the magnet attracted particles are each of the pole pieces of the magnet with a r in _knowngr_Weise made of a magnetically indifferent material, e.g. J ^. Zinc or brass,., Made hollow drum, which rotates in the direction of the movement of the sludge flow. The pole piece is provided with an edge which lies behind and in the vicinity of the drum part past which the current is conducted. The shell of the drum is equipped with iron lamellas in the well-known way, which take the particles with them for a part of the way and then let them fall. Water jets directed against the drum at suitable locations can also be used to completely remove the particles from the drum.

In the drawing, an embodiment of a device is shown schematically as an example for the execution of the new processing method. Fig. 1 is a view partly in section along line 1-1 in Fig. 2, and Fig. 2 is a vertical section along Line 2-2 in Fig. 1.

An electromagnet α is equipped with pole pieces bb , which terminate downward in an elongated edge c . A shaft d passes through the magnet and carries the drums e surrounding the pole pieces and a pulley / for driving the drums. In the drawing, the drum with the associated parts is only drawn for one pole piece. Under the drum there is a vessel g divided into two compartments i and Ar by an inclined partition h. An inlet pipe / for the goods suspended in the water opens into section i of this vessel, and at section k there is a tap provided with a tap.

laßrolir m provided. An overflow η is arranged somewhat lower than the upper edge of the partition wall h . An adjustable plate ο is used to regulate the overflow height. A gutter ρ emanates from the overflow η and a gutter q is provided above this. The ore particles can be rinsed off the drum through a water pipe r with perforations towards the drum e.

The device works in the following way: the vessel g is filled with water and the drum e is set in rotation. The material suspended in the water is then let in through the pipe Z, rises in space i and passes over the edge of the partition h . From this edge the current flows after the overflow η , in which way the separation by the strong magnet takes place in such a way that the magnetic material is already drawn upwards, ie to the surface of the sludge ß, during the beginning the non-magnetic good sinks. Under the magnetic edge c, the most magnetic particles from the water are drawn towards the drum e and adhere to it, while the less magnetic particles flow off via the overflow η through the channel ρ and are collected for further treatment. The non-ore-containing part of the material, which sinks down in division k , is withdrawn through the pipe m. The particles adhering to the slowly rotating drum e are rinsed off the drum, fall into the channel q and are collected for further treatment.

The device can either be arranged so that each pole piece is one Stream of the goods suspended in the water treated, or so that one of the Pole pieces a part of the sludge flow that has already been processed by the other pole piece, which is therefore subjected to a second processing.

Claims (3)

Patent Claims: 1. Process for the magnetic processing of ore slurries or sands, especially of iron ore, by means of fixed, non-magnetic conveying means for the attracted magnetic revolving magnets, characterized in that the upon entry into the magnetic field in A thin layer of turbidity below the magnet, whose conveying means revolving around it above the water level must stay, a deeper bed happens in a horizontal stream, with the strongest magnetic ones Particles in a manner known per se out of the sludge to the conveying means rotating around the magnet are drawn, but also weaker magnetic particles are drawn from the non-magnetic ones that are sinking and discharged below Particles get separated for separation by being held in the upper layer of the liquid and by the Current can be dissipated in a higher position. 2. Apparatus for performing the method according to claim 1, in which the turbidity flow under a transverse to it with a lower edge extending - the magnet and one around it in the lower part in the direction of the turbidity flow rotated funding, e.g. B. a hollow drum with inserted iron lamellas, 'flows past, characterized in that the lower edge of the magnet so above a settling tank with an overflow inlet for that which is suspended in water Good and opposite overflow drain is that those held in suspension under the influence of the magnet Weaker magnetic good particles still reach the drain overflow under the influence of the magnet. 3. Device for performing the method according to claim 1, characterized in that the container (g) lying under the magnet with its drum is divided by a partition (h) into two adjacent compartments (i and k) , one of which ( i) in the bottom with an inlet pipe (I) for the goods suspended in water and the other (k) in the bottom with an outlet pipe (m) for the non-ore-containing part of the goods and at the top with the overflow (n) for the weaker magnetic part of the goods is provided. 1 sheet of drawings.