SU850154A1 - Apparatus for magnetic processing of liquid - Google Patents

Description

(54) DEVICE FOR MAGNETIC TREATMENT OF LIQUID

one

The invention relates to devices for the magnetic treatment of liquids, in particular water, in order to prevent scale formation and corrosion on the heating surface of heat exchange equipment and can be used, for example, in cooling systems for internal combustion engines.

A known apparatus for the magnetic treatment of water, which comprises a cylindrical body with inlet and outlet nozzles, a solenoid located outside the body and a cylindrical core installed inside the body. The front end of the core facing the inlet nozzle 1.

However, in the known apparatus, the electromagnetic field is not fully utilized and the need to regulate the processing modes, which cannot be carried out quickly even with continuous monitoring of the salt content of the liquid, since the dependence of the magnetic field strength on the salt content of the treated liquid is not linear, and treatments allowing fast

and reliably assess the effect under operating conditions, are absent.

Therefore, for effective magnetic treatment of liquids varying in salt composition, a smooth change is necessary, the magnetic field strength along the working gap in a sufficiently large range.

The purpose of the invention is to provide an effective magnetic treatment of liquids varying in salt composition by providing a smooth change in the magnetic field intensity gradient.

This goal is achieved by the fact that the device is equipped with an additional solenoid and inlet and exhaust valves installed respectively in 15 inlet and outlet nozzles, while the core is made in the form of a piston and is mounted for movement.

The drawing shows the device.

Claims (3)

The cylindrical body 1 of the device is made of a diamagnetic material. In this case, solenoids 2 and 3 are mounted, and a piston 4 core is installed inside the housing. The housing is closed at the ends with steel covers 5. Inlet ports 6 and 7 are equipped with inlet valves 8 and 9, and outlet pipes 10 and 11 are with exhaust valves 12 and 13. Space Between the housing, the lids and the end surfaces of the core-piston form working cavities A and B, in which the magnetic treatment of the fluid takes place. The device works as follows. When power is applied to the solenoid 2, the core-piston 4 is drawn into the inside of the coil of the solenoid 2 and the liquid through the pipe 6 and the inlet valve 8 enters the working cavity A and is simultaneously processed by the magnetic field of the solenoid 2. When switching power to the solenoid 3, the core-piston 4 is drawn into the inside of the solenoid 3, moving in the opposite direction and pushing the fluid through the inlet valve 12 and the nozzle 10. At the same time, the working cavity B is filled through the nozzle 7. in both cavities the magnetic field of the solenoid 3. Then the power is switched back to solenoid 2 and the whole process is repeated. When the core-piston moves, the gap between it and the covers changes and, therefore, inside the working cavities the magnetic field strength varies continuously in a sufficiently large range, which allows effective magnetic treatment of fluids with varying salt composition without adjusting the processing parameters. The proposed device has small dimensions, provides an effective magnetic treatment and performs the functions of a pump, which makes it possible to use it to prevent scale formation in various heat exchange devices, including cooling systems of internal combustion engines. Apparatus of the Invention A magnetic fluid treatment apparatus comprising a cylindrical body with inlet and outlet nozzles with a solenoid placed outside the body and a core mounted inside the body, characterized in that, in order to improve the magnetic field processing efficiency by providing a smooth change in the magnetic field strength gradient it is equipped with an additional solenoid, as well as exhaust and intake valves installed respectively in the inlet and outlet nozzles, with this the core is formed as a piston and is movably mounted. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 550345, cl. From 02 to 9/00, 1977.