SU1215745A1 - Magnetic separator of iron-containing admixtures - Google Patents

Description

one

The invention relates to the field of magnetic separation of substances and can be used in the metallurgical, mining and processing, chemical industry, thermal and nuclear energy and other branches of the national economy.

The purpose of the invention is to increase the degree of extraction of ferromagnetic particles by leveling the conditions of their deposition in terms of the volume of the packing.

FIG. 1 shows the proposed separator, a general view; in FIG. 2, the same cross section; in fig „3 node 1 in fig, 1,

The separator contains a working body I, filled with a polygradient medium in the form of ferromagnetic rods 2, arranged in alternating mutually perpendicular parallel rows and contained on the surface of the corrugation in the form of protrusions and depressions, magnetizing system 3 with poles, which use electromagnets or permanent magnets as nozzles input 4 and output 5,

The separator works as follows.

The technological contaminated medium enters through the nozzle 4 into the body 1 filled with corrugated rods 2 located in mutually perpendicular planes. Electromagnets 3 create fields, the overlapping of which in the volume of rods with unequal number of corrugations creates the same conditions for the effective deposition of impurities. The number of layers of rods is determined by the requirements for the purity of the medium being cleaned. For example, in the purification of feedwater of CHP boilers, rods with a diameter of 4 mm are used in the separator, with grooves of high

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mm and the width between the grooves near the poles of the magnets, 8 mm, and on the axis of the body - a width of 0.8 mm and with a height of the layer of rods 100 mm and

5 number of layers 7 pcs.

The iron-free medium is discharged through the nozzle 5.

Studies have been carried out on

This characterizes the distribution of the field in the volume of the ferromagnetic attachment between the poles of electromagnets. Cylindrical shells with a diameter of 120, i60 and 240 mm, filled with balls,

5 sequentially placed between the poles of electromagnets, with; core diameter - 90 mm. The induction of the magnetic field in the slit gap was measured along the axis by a Hall sensor.

0 Measurements showed that with an external field strength of 80 kA / m near the poles of the magnets at a distance of 30-50 mm, the induction field is 200-220 mT, and to the axis of the housings, .5 ducting decreases to 120-140 mT , t, e, 1.5-1.8 times. In the region furthest from the poles of the electromagnet, the induction is 80 mT MT, i.e. 2Q 2.5 times. Moreover, this ratio remains unchanged and with an increase in the intensity of the external sex, i.e. is universal.

The increase in the number of rods in the form of protrusions to the axis of the cage of the separator is 1.5-1.8 times, and to the area farthest from the poles of the electromagnets 2.0-2.5 times and, moreover, the location

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rods by alternating mutually perpendicular layers aligns these field distribution non-uniformities and leads to an increase in the efficiency of the magnetic deposition process.

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VNIIPI Order 927/6 Circulation 515 Subscription Affiliate GOSh Patent, Uzhgorod, Projecto st., 4

Claims (2)

1. A MAGNETIC SEPARATOR OF IRON-CONTAINING IMPURITIES, including a case with a ferromagnetic nozzle in the form of parallel rods and a magnetic system with poles adjacent to the outside of the case, which is different. In order to increase the degree of extraction of ferromagnetic particles by equalizing the conditions of their deposition over the volume of the nozzle, the rods in the housing are layered in layers, the rods in each layer are arranged in rows, and the rods of adjacent layers are mutually perpendicular, while the rods are made with corrugations on the surface in the form of protrusions and depressions with changing their number per unit length of the rod along the cross-section and length of the housing. 2. The separator pop. ^ characterized in that the number of protrusions per unit length of the rod increases in cross section in the direction from the poles by 1.5-1.8 times and along the length of the body in the direction from the poles - by 2.0-2.5 times. > 1 1215745