SU404509A1 - - Google Patents

Description

PULSING MAGNETIC FIELD DEVICE

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The invention relates to apparatus for treating fluids with magnetic zeros.

One of the non-reagent methods of preventing and eliminating scale formation is the magnetic method of treating water and solutions, the essence of which is that a fluid passing at a certain speed through the device, in which magnetic fields are created, under the influence of the latter loses the ability to defer the hardness salts. It separates these salts in the form of particles (slimes) that are easily carried away by the flow of water.

In known devices with fixed permanent magnets, the treatment of the liquid occurs in the map field, the magnitude of which varies only in one direction, the direction of movement of the latter, which does not allow intensive movement of charged particles moving in the liquid and an increase in the number of crystallization centers. The design features of these apparatuses do not ensure the creation of a magnetic field between the opposite poles of the magnets directly facing each other, as a result of which a fairly abrupt change in the flux of magnetic induction at the input and output is achieved.

the treated fluid from the zone of influence of the magnetic field.

The efficiency of magnetic processing of liquids depends on the degree of difference in the change in induction flux at the inlet and outlet of the treated fluid from the zone of exposure to magnetic zero. It is precisely at the entrance and exit from the floor that the particles of a liquid with different charges, sizes, and magnetic susceptibility are acted upon by forces that cause their mutual displacement and non-redistribution of bonds.

In order to create a pulsating magnetic field along two mutually perpendicular planes, the poles of the permanent magnets are located radially to the axis of the apparatus, and the rotor magnets are facing the stator magnets with opposite poles.

The design of the apparatus for the magnetic treatment of liquids differs from the designs of the known fixed magnet fixtures, firstly, because half of the mappits ,. pressed into the rotor, rotates relative to another part of the magnets, fastened to the stator of the device, and, secondly, by the fact that in it the zones of magnetic treatment of the liquid are formed directly between opposite to each other by the poles of the permanent magnets. Such an embodiment of the apparatus ensures the creation of a sharply varying in two mutually perpendicular directions of the pulsating magnetic field at the inlet and outlet of the liquid from the treatment zone. A pulsating magnetic field created in the apparatus, characterized by a significant magnetic induction gradient and varying with a higher frequency in two mutually perpendicular directions, provides a more efficient magnetic treatment of the fluid by this apparatus in comparison with previously known apparatuses of the same purpose. On the other hand, due to the mutual displacement of zeroes in the working gap of the apparatus, a much lower deposition rate is formed than in devices with fixed zeroes, which lengthens the time between periodic cleaning of the apparatus. The drawing shows the proposed apparatus 20 para. The device of a pulsating magnetic field includes a diamagnetic rotor 1 mounted on the continuation of the shaft 2 of a centrifugal pump. In the stator 3 there are holes, into which ferromagnetic cylindrical permanent magnets 4 are pressed. The magnets of the stator and the rotor face each other with opposite zeroes a and b, and in the corresponding 30 pairs they are oppositely opposite. The intensity of the magnetic field in the 10-millimeter gap between the opposite poles of the stator and rotor magnets is 1.6-10 a / m.35 The device works as follows. When the rotor rotates between the six pairs of poles of the stator and the rotor, a pulsating magnetic field arises in each of the annular zones of the working gap, whose intensity varies from 0 to 1.6-10 a / m with a frequency of 288 Hz. The performance of the device can be changed. So, changing the size of the annular gap between the stator and the rotor, or only 45 the distance between the poles of the magnets, the number of annular poles, the number of magnets in the center, the step of relative positioning of the magnets in the neighboring axes, and using magnets of different strengths It is possible to obtain devices with different values of the magnetic field intensity, its frequency of 10 25 pulsations and the polarity changing period, as well as with a different mass coefficient of liquid processing. If the apparatus is used for operation with pumps or if it is possible to control the flow rate of the fluid in the apparatus (for example, by diaphragming the outlet pipe of the pump), the time and frequency of treating the fluid with the field can also be changed. The rotor of the apparatus can also be rotated by means of a turbine mounted on it, driven by a stream of fluid sucked by the pump. In this case, it is not necessary to connect the rotor of the apparatus with the pump shaft. No additional energy sources are required for the operation of the apparatus. Subject of the Invention A pulsed magnetic field apparatus for treating a fluid, including a diamagnetic rotor and a stator with constant magnets pressed into them along concentric circumferences, characterized by that. that, in order to create a pulsating magnetic field along two mutually perpendicular planes, the poles of the permanent magnets are located radially to the axis of the apparatus, and the magnets of the rotor are turned to the magnets of the stator by the opposite poles.