SU1519752A1 - Electromagnetic filter - Google Patents

Abstract

The invention relates to magnetic separation, mainly to devices for cleaning liquid media from ferromagnetic corrosion products, and reduces magnetic field losses, provides a relatively even average magnetic field strength in the working area over the entire filtering area, increases the magnetic field strength, efficiency and performance, as well as the degree of regeneration of the nozzle. For this, the shell, made hollow, contains a ferromagnetic nozzle, forming an outer working chamber 3. In the upper and lower parts of the filter on both sides of the magnetizing coil 2 between the central 1 and outer 3, the magnetic chambers 6 are installed. f-ly, 2 ill.

Description

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The invention relates to magnetic separation and can be used in ore dressing, metallurgical, chemical, food and other sectors of the industry, as well as in thermal and nuclear power engineering for cleaning fluids from ferromagnetic impurities.

The aim of the invention is to reduce the loss of the magnetic field, to ensure a relatively equal magnetic field strength in the working area over the entire filtering area, to increase the magnetic field intensity, efficiency and productivity, as well as the degree of regeneration.

In fig-. I shows the electromagnetic filter, side view with a cut; in fig. 2 shows a section L A in FIG. one.

The electromagnetic filter contains a central working chamber 1 on which catapult 2 magnetization is placed. The outer working chamber 3 is placed outside the central working chamber with a magnetization coil. The central and outer working chambers are filled with a ferromagnetic nozzle 4, which is held in the chambers by means of grids 5. In the upper and lower parts of the magnetization coil. yugeny magnetic conduits 6 with coils 7. exchanged on them; central and external working chambers connect pipelines 8 between them through Ko.i.ieKTop 9. in the lower part of the filter on the pipe ||) () waters there is a log) 1a fittings 10 Supply pipe 11 and discharge pipe 12.

The electrically () filter operates as follows.

The medium to be cleaned is connected to the manifold 9 through a pipe 11, and from the collector through the connecting pipes 8 then goes to the central working chamber 1 and the outer chamber 3. Through segment 5, the cleaned medium enters the volume of ferromagnetic filter nozzle 4, which located in the magnetic field created by the magnetizing coil 2 and the coils 7 placed on the magnetic flux tubes (i. The ferromagnetic particles are trapped in the volume of the ferromagnetic nozzle, and the purified medium is removed from the electromagnetic filter by tr pipelines 8 to the collector 9 and to the output pipeline.

When the electromagnetic filter is regenerated, the supply of the medium to be purified is stopped in the central and external working chambers, the demagnetization of the ferromagnetic nozzle 4 and the ferromagnetic impurities retained in its volume is carried out.

After demagnetization, the shut-off valve 10 opens, for example, to supply first the flushing medium into the central working chamber, and the valve 10 is closed; this condition will ensure that the fluid flow rate during regeneration is doubled compared to the filtering mode, in this case, it is intensively regenerated, similarly, the outer working chamber is regenerated with the valve of the pipeline 11 closed and the valve 10 open.

The presence of an additional external working chamber and magnetic conductors between the central and external working chambers allows obtaining a closed magnetic circuit, which reduces the loss of the magnetic field, increases productivity and improves the degree of regeneration of the nozzle.

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Claims (5)

1. Electromagnetic filter for cleaning current media, including a central working chamber, a ferromagnetic nozzle, a magnetization coil and a casing, characterized in that, in order to increase the efficiency of the filter, the casing is hollow and filled with a ferromagnetic nozzle, while the filter is equipped 5 magnetic conductors installed in its upper and lower parts, on both sides of the magnetization coil between the central chamber and the hollow shell. 2. A filter according to claim I, characterized in that the magnetic cores are installed radially. 0 3 Filter by PP. 1 and 2, characterized in that the end sections of the magnetic cores are angled; 1en into the attachment. 4. Filter on PP. 1-3, characterized in that the diameter d of the magnetic conductor and the diameter D of the central working chamber D are determined by the ratio H IS  P 0 five Jt // 5-2 T where Ui, -4l 10 H / m is magnetic constant; magnetic permeability of the nozzle; the intensity of the magnetizing floor; admit induction in the metal of the steel magnetic conductor, the number of magnetic conductors one side of the magnetization coil. characterized in that the magnetic cores are additionally provided with magnetization coils. . 6. The filter according to claim 1, characterized in that the central working chamber and the floor sheath are interconnected hydraulically. 0 5. Filter on PP. one, ig.2