RU2106203C1 - Magnetic hydroseparator - Google Patents

Abstract

FIELD: equipment for wet magnetic separation of mineral resources, mainly fine- disseminated iron ores. SUBSTANCE: a tray is installed under the main magnetic system, its shell receives the ends of vertically installed magnetic plates inclined to the drain baffle, the upper ribs of the plates closely adjoin the lower edge of the shell of the auxiliary magnetic system. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to equipment for wet magnetic concentration of minerals, mainly finely disseminated iron ores, and solves the problem of improving magnetic hydroseparators.

 There are various magnetic hydroseparators, also called magnetic deslamers, each of which includes a vat, the main magnetic system, feeding and unloading devices, rake and drive [1].

 Also known is a magnetic deslamator (prototype), including a vat, a loading device with a magnetic system and a feeding chute, characterized in that the loading device is made in the form of a vertically located valve with side supply, open from above, while an additional magnetic system is installed on the outer surface of the valve [2].

 The disadvantage of all known magnetic hydroseparators is the relatively high clogging of their sands by non-metallic particles and the large loss of metal in the drain when working with increased upstream speeds necessary to obtain a rich concentrate.

 The invention solves the problem of improving the magnetic hydroseparator to obtain relatively free from non-metallic particles of sand and, accordingly, free from ore particles discharge.

 This goal is achieved by the fact that the magnetic separator is equipped with a pallet and a shell located under the main magnetic system, while the additional magnetic system is made in the form of an additional shell and vertically mounted magnetic plates inclined towards the drain threshold, the ends of which are brought into the shell of the pallet, and the upper ribs are flush adjacent to the lower edge of the additional shell.

 With this design of the magnetic hydroseparator, the flow of the suspension, representing the initial power, exiting vertically downward from the main magnetic system, enters the pan where it acquires a horizontal direction of movement, which excludes the movement of magnetized particles to the bottom of the vat and, therefore, their ingress into the sands of the hydroseparator.

 The ends of the magnetic plates introduced into the shell of the pallet, the specified feed stream is divided into submarine jets, each of which moves in a crevice gap along the surfaces of the magnetic plates, inclined to the bottom. Here, magnetic particles are attracted to the bottom of the tank due to the action of magnetic forces and are removed from it as a magnetic product in the form of sand, while non-magnetic particles are carried upstream.

 The upper edges of the magnetized plates are adjacent to the lower edge of the shell of the additional magnetic system. Therefore, the suspension of particles of suspension outside the action of magnetic fields is excluded, which allows the developed hydroseparator to obtain a drain (waste) with a low content of ore particles at relatively high upstream velocities, which can significantly increase the degree of purification of sand from non-magnetic particles.

 An improved magnetic hydroseparator is shown in the drawing, where 1 is a chan, 2 is a magnetic plate, 3 is a shell of an additional magnetic system, 4 is a feed device, 5 is a drive for rotating the rake, 6 is a supply tank with a main magnetic system installed in its bottom, 7 - a pan with a shell, 8 - drain threshold, 9 - rake, 10 - exhaust device for sand.

 The device operates as follows.

 The feed (discharge of the hydrocyclone), which is a suspension of particles with a diameter of about 0.1 mm or less, with a density of about 1200 g / l, is fed through system 4 to a supply tank 6, in the bottom of which there are outlet openings framed by permanent magnets (for example , permanent magnets in the form of tiles are fixed around the perimeter of the outlet). Here, the ore particles are magnetized to saturation and form magnetic flocs. The flow of slurry from the supply tank flows down through the magnetizing devices and meets the bottom of the pallet 7, into the shell of which the ends of vertically mounted plates 2 are introduced, by which all the power supplied to the pallet 7 is cut into underwater jets, which first enter horizontally into the slotted gaps formed by the indicated magnetic plates. Then, since the magnetic plates are inclined towards the drainage threshold of the vat, ore particles are magnetically directed down to the bottom of the vat 1 and removed from it through the exhaust device 10 in the form of sands, and non-metallic particles, bending around the lower edge of the shell 3 with an outgoing stream of water, discharged through drain threshold 8 to waste. Since the lower edge of the shell 3 is adjacent to the ends of the magnetic plates 2, the removal of ore particles into the drain is excluded even at an upward flow rate of about 3 cm / s, at which sands with a high iron content are obtained, and drain (waste), on the contrary, low in content.

 Comparative tests of the developed magnetic hydroseparator, conventional deslamator and prototype showed that due to the permissibility of high upstream speeds, the productivity of the developed hydroseparator is 1.5-2 times higher. The resulting product has a higher quality: the iron content in the sands is 1.3 times higher, the iron content in the waste is reduced by about 1.2 times, which gives a significant economic effect in the enrichment of ferruginous quartzites.

Claims (1)

 A magnetic hydroseparator, including a tub, a supply and exhaust device, a main and additional magnetic system, characterized in that it is equipped with a pan with a shell located under the main magnetic system, the additional magnetic system is made in the form of an additional shell and vertically mounted and inclined towards the drain threshold of magnetic plates, the ends of which are brought into the shell of the pallet, and the upper ribs are adjacent to the lower edge of the additional shell.