SU906619A1 - Apparatus for thickening ferromagnetic suspensions - Google Patents

Description

(5) APPARATUS FOR CONDENSION OF FERROMAGNETIC SUSPENSIONS

This invention relates to the beneficiation of minerals. A known apparatus for thickening ferromagnetic minerals, containing a non-magnetic body, a magnetic system and a vertical pipe terminating at the discharge opening with a socket with a spiral CO mounted in it. The disadvantage of this apparatus is the removal of ferromagnetic material into the discharge of fluxes arising in the working area. The closest to the proposed invention is an apparatus for condensing ferromagnetic suspensions, comprising a housing, an electromagnetic system on a frame, a loading and auger-equipped discharge pipes and a capillary grating located in housing 2, and the discharge of this apparatus is a high material consumption for an electromagnetic winding systems and low efficiency of use of a magnetic field. The purpose of the invention is to reduce the consumption of materials for the winding of the electromagnetic system and increase the efficiency of the apparatus due to more complete use of the magnetic flux. The goal is achieved by the fact that the electromagnetic system is located inside the housing on the supply pipe, and the capillary grating is above the electromagnetic system. The frame of the electromagnetic system is made of magnetic material. The drawing shows the proposed device. The apparatus includes a housing 1, an electromagnetic system consisting of a magnetic frame 2 and a winding 3, a loading k and a unloading 5 nozzles, a screw 6 and a capillary lattice 7. The nozzle is rigidly fixed relative to the case using brackets 8 and a flange 9, which also serves as .

same for fixing the electromagnetic system. Drainage takes place through pipe 10,

The device works as follows

The suspension is fed through the nozzle into the housing 1, where the magnetic suspension is structured under the action of a magnet field. Under the action of a gravitational field, the formed floccules descend to the bottom of the apparatus and are unloaded by the screw 6 through the patrol of the side 5. Magnetic particles carried by the turbulent flows upwards fall into the holes of the capillary lattice 7 and, as they enlarge, they fall out of the bottom of the apparatus and downstream; They are connected through the pipe 5. The installation of the electromagnetic system inside the housing leads to the fact that in the proposed design of the apparatus almost the entire path of the magnetic flux is used for Alokulation, while in the known only internal part of the path. In this case, the frame of the electromagnetic system can be made of a magnetic material, which reduces the cost of construction. On the other hand, with the same magnetic revolutions of the electromagnetic system in the proposed apparatus, the consumption of materials for the winding is less.

Thus, the placement of the electromagnetic system inside the case on the loading pipe leads to a reduction in the consumption of materials for the winding

Z4

and an increase in the fR.T of the apparatus for use budgets for flocculation of the entire magnetic flux.

Claims (2)

1. An apparatus for thickening ferromagnetic suspensions containing a housing, an electromagnetic system on a frame, a loading and screw-equipped discharge pipe, a capillary grating located in the housing, in order to reduce the consumption of materials on the winding of the electromagnetic system and increasing the efficiency of the apparatus by more fully utilizing the magnetic flux, the electromagnetic system is placed inside the housing on the supply nozzle, and the capillary grating is installed above the electromagnetic system, 2. The apparatus according to claim 1, characterized in that the frame of the electromagnetic system is made of a Mining material. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 381395, cl. At 03 On 1/00, 1970. 2. USSR author's certificate number 578107, cl. D 03 C 1/00, 1973 (prototype),