SU1511215A1 - Apparatus for magnetic treatment of fluids - Google Patents

Abstract

The invention relates to the magnetic treatment of liquid media, in particular, to devices for the magnetic treatment of suspensions, and makes it possible to increase the efficiency of the apparatus and to simplify the design of the apparatus. The apparatus for magnetic treatment of liquid media contains a cylindrical case with inlet and outlet nozzles, a cylindrical core placed outside the case and a cylindrical core inside the case with conical ends protruding beyond the solenoid pole tips, the inner surface of which is shaped like the ends of the core and is parallel to them in which conic dividers are placed with edges along the generatrix of a truncated cone. 2 Il.

Description

The invention relates to the magnetic treatment of liquid media, in particular to devices for the magnetic treatment of suspensions.

The aim of the invention is to improve the efficiency of the apparatus and simplify the design.

FIG. 1 shows the apparatus, the long section; in fig. 2 - divider.

The apparatus includes a housing 1 with flanges 2 and 3, a sealing gasket 4 and a face zaglugzhoy 5, outside the housing is a solenoid 6, and inside - a solid core 7 with the ends of conical shape, with a gap forming the working area in which the dividers B and 9, pole tips installed 10

and 11. Input 12 and output 13 nozzles are passed into the housing. The core and pole pieces are made of magnetic steel, all the rest is made of diamagnetic material.

The solenoid is powered by a constant or alternating electric current through a bipolar socket 14 depending on the need.

The apparatus for magnetic treatment of liquid media works as follows.

The fluid enters the inlet 12 and is distributed to 16 streams in the divider 8, which is located in the working zone of magnetization. In the splitter, the passage through its elements, represented by curved of flat diffusers, due to the effect of compression

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and the expansion of the jet creates the necessary pressure gradient and ensures the mixing of the liquid, i.e., optimum conditions are created for ohmichesing all particles in the liquid. From the booster, the liquid, omgocool 7, enters the divider 9, where by increasing the speed to the exit from the diffusers, the maximum effect of magnetization is created. From the divider fluid enters the outlet 13 and in the receiving pipeline.

When electric current is applied to the solenoid winding, the core 7 and the pole pieces 10 and 11 are magnetized, and a map field is created in the gap between them. Magnetic lines of force are directed at an angle of 90 to the surfaces of the core and pole cells facing each other, which makes it possible to obtain the maximum magnetic flux in the working zone.

The combination of optimal conditions in the working area, created by the splitters, the relative position, the shape of the core and the voltage concentrators, allows to achieve the maximum effect of magnetizing liquid.

KI-SX media, especially suspension 1, for example, fodder yeast, as well as purification of liquid media from salts

stiffness, ferromagnetic (37raki; s and other inclusions.

Claims (1)

Invention Formula Magnetic processing apparatus liquid media containing a housing with inlet and outlet connections, a solenoid located outside the housing, a ferromagnetic core with ends conical shape, installed along the axis of the body, and the pole pieces, the inner surface of which is equidistant to the surface of the conical part of the core, characterized in that, in order to increase e (| k} of the device operation efficiency while simplifying the design, it is equipped with flow dividers, made in the form of hollow truncated cones, with edges along their patterns  “The outer and inner surfaces are installed between the pole tips and the conical ends of the core, while the upper and lower conical KOHIIJ I cores are located above the upper and below the lower ends of the solenoid, respectively. FIG. I