SU1604412A1 - Electromagnetic filter - Google Patents

Abstract

The invention relates to the field of magnetic separation and allows an increase in the duration of the filter cycle and the cleaning efficiency. The medium being cleaned through the pipe 9 enters the central channel 1, the passage through which is subjected to preliminary magnetic treatment, and then filtered through the nozzle (H) 3. The impurity particles under the influence of a high-gradient magnetic field are retained in H 3. Due to the cross-magnetization of the H 3 by an external solenoid 7 and electromagnetic coils 4 with cores 5 for deposition use all the contact points of the H 3 granules, which leads to an increase in the storage capacity of the particles. 1 hp f-ly, 3 ill.

Description

The invention relates to magnetic separation and myset to be used in the ore-dressing, metallurgical, chemical, food and other industries, as well as thermal and nuclear energy for cleaning fluids from ferromagnetic impurities.

The aim of the invention is to increase the duration of the filter cycle and the cleaning efficiency.

FIG. 1 shows a filter, a general view; in fig. 2 is the same, top view, in FIG. 3 shows section A-A in FIG. 2

The electromagnetic filter contains a central channel 1, around which there is a working chamber, equipped with longitudinal radial partitions 2, dividing it into sections (Fig. 2), in which the filtering granular nozzle 3 and electromagnetic coils 4 with cores 5 are alternately placed, and the coils Ki 4 and cores 5 are installed perpendicularly to the radius of the working chamber with Rusa over the entire height of the nozzle 3, and the sections where they are located are provided with transverse partitions 6 installed in the upper and lower parts of the section. A solenoid 7 is installed outside the working chamber. The medium is supplied through the inlet pipe 8 connected to the central working channel 1, and the outlet is through the pipe 9. The pipe 10 is intended to drain the regeneration medium together with the impurities retained in the nozzle.

The electromagnetic coils 4 and the cores 5 magnetize the nozzle 3 in the transverse direction, while the induction of the magnetic field decreases in the radial direction from the central channel 1, and the solenoid 7 magnetizes the nozzle 3 in the longitudinal direction with an increase in the induction value from the central channel 1 along the radius. The displacement of the coils 4c cores 5 cores relative to each other along the height of the nozzle 3 leads to a more uniform transverse magnetization. Thus, the nozzle 3 as a whole is magnetized evenly, which makes it possible to increase the cleaning efficiency. As a result of simultaneous longitudinal-transverse magnetization of the nozzle 3, the magnetization channels capture additional points

Q

0

five

tact of the granules, creating around them zones of magnetic capture of impurity particles, which are not used in any of the separately taken types of magnetization. This makes it possible to increase the storage capacity of the particles in the packing and, consequently, the duration of the phylocycle.

Electromagnetic filter works as follows.

The medium to be cleaned through the pipe 9 enters the central channel 1, the passage through which is subjected to magnetic treatment for preliminary flocculation of particles, and then filtered through the nozzle 3, where the particles of impurities are delayed by the action of a high-gradient magnetic field. The cleaned medium is discharged through the pipe 9. The magnetic field is generated by a magnetizing system including an external solenoid 7 and electromagnetic coils 4 with cores 5 located in sections with transverse partitions 6, which serve to prevent the medium from flowing around the nozzle 3. After saturating the nozzle with 3 impurity particles, i.e. at the end of the filter cycle, it is regenerated by washing. The washed precipitate and the regeneration medium are removed from the filter through the nozzle 10.

The proposed electromagnetic filter in comparison with the known one allows to increase the duration of the filter cycle and 1.5-2 times, as well as to increase the cleaning efficiency.

one

Claims (2)

1. Electromagnetic filter containing a central channel and a working chamber, a filter nozzle, a magnetizing system consisting of a solenoid and electromagnetic coils with cores, characterized in that, in order to increase the duration of the filter cycle and the cleaning efficiency, the working chamber is equipped with longitudinal radial baffles, section the sections in which the filter nozzle and the electromagnetic coils with cores are alternately placed, the solenoid is located outside the working chamber, and the section with the elec tromagnetic The coils and cores are provided with transverse partitions installed in the upper and lower parts of the section, and the cores are installed perpendicular to the radius of the working chamber. 2. The filter according to claim 1, which differs from and With the fact that the coils with cores in the sections are installed — Rusa along the entire height of the nozzle, and the Russ are shifted relative to each other. BUT S Yes