RU93792U1 - DEVICE FOR WATER TREATMENT IN A MAGNETIC FIELD FLOW - Google Patents

Abstract

 A device for treating water in a magnetic field with a stream contains a cylindrical body with side covers made of ferromagnetic material, which acts as a closing magnetic circuit, in which a device made of magnetic material is placed, forming oppositely directed magnetic induction vectors, characterized in that the body is cylindrical and axially a cylindrical four-pole magnet is installed between the pressure caps, which spirals around the tube for the flow of treated water from non-magnetic material.

Description

The claimed technical solution relates to the magnetodynamic treatment of liquids having hydrogen bonds, in particular water, and can be widely used, for example, in the purification of water from iron-containing impurities, to prevent the deposition of calcium salts on the walls of pipes, in agriculture for watering plants, etc. .

The positive properties of liquids, including water treated with a magnetic field, are widely known. That is why water treated with a magnetic field is increasingly used in various fields of human life and activity, as well as in industry. It is known that the most effective is the effect of a constant magnetic field directed perpendicular to the fluid flow. There are many methods and devices for applying a magnetic field to water and other liquids based on this principle and intended for use for various purposes (see, for example, patents for inventions No. 2110609 publ. 30.06.1994, 2014287 publ. 15.06.1994, 2188798 publ. 08.12.2002, 2152906 publ. 07.20.2000, etc.).

Closest to the claimed is a device that implements magnetic processing of a liquid medium with a constant magnetic field with a variable direction, i.e. field, the direction of the vector of tension of which, at least once, is reversed (see patent for the invention No. 2136603 publ. 09/10/1999). It contains a housing made of ferromagnetic material, which acts as a closing magnetic circuit, with water inlet and outlet nozzles located in the housing in a cassette of magnetic material, four pairs of permanent unidirectional permanent magnets adjacent to each other, forming four magnetized sections creating in the working channel , through which the processed fluid flows, a magnetic field of complex configuration.

The disadvantage of this device is that to ensure a single change in the direction of the magnetic field, four pairs of magnets are installed in it. To increase its efficiency, it is possible to increase the processing time, which will require an additional number of modules of four pairs of magnets, which, given their considerable cost, will significantly complicate and cost the design. In addition, the device provides for the passage of liquid through the working channel in which the metal parts are located, and such interaction with metal surfaces can lead to the ingress of metal particles into the treated liquid.

The technical task of the proposed solution is to simplify the design and increase the efficiency of the device.

This problem is solved as follows. A device for treating water in a magnetic field with a stream contains a cylindrical body with side covers made of ferromagnetic material, acting as a magnetic closure, in which a device made of magnetic material is placed, forming oppositely directed magnetic induction vectors, characterized in that the body is cylindrical and in it the axis between the pressure caps a cylindrical four-pole magnet is installed, which spirals around the tube for the flow of treated water and a non-magnetic material.

The technical result is due to the fact that in the proposed device to achieve the same effect as in the prototype, only one magnet is used. Moving around a four-pole magnet, the liquid is exposed to the same field as in the prototype, because when a unit volume of liquid moves only one turn of the tube, it sequentially crosses the magnet poles from N to S, from S to N, from N to S, from S to N, i.e. exposed to one period of a sinusoidal spatially periodic magnetic field. A simple increase in the number of turns of the tube around the magnet will increase the processing time, and, consequently, the efficiency of the device, i.e., the degree of purification of the liquid (water). In addition, the proposed solution excludes contact of water with metallic materials polluting the water.

Figure 1 shows the inventive device for treating water in a magnetic field with a cross-section along the body with covers, and figure 2 schematically shows a four-pole magnet with a tube wound around it for the passage of fluid.

The device of FIGS. 1, 2 consists of a housing 1 with side covers 2. A four-pole magnet 3 is placed along the axis along the axis, onto which a tube 4 of non-magnetic material is wound in a spiral. In the covers 2 there are holes 5 for the inlet and outlet of the tube 4. At the ends of the tube 4, fittings 6 are installed to connect the device to the water supply.

The device operates as follows. It is connected to the pipeline and a stream of water is supplied. Passing through a tube 4 of non-magnetic material through a spatially periodic magnetic field created by a four-pole magnet 3, water is magnetically processed and leaves the device in a purified form ready for further use.

The use of the proposed device will allow for more efficient magnetic treatment of water, which will positively affect, in particular, water treatment, because It is known that the processes that occur with the use of water are better, the cleaner the water used in them. The device can find application, for example, in the purification of water from iron-containing impurities, to prevent the deposition of calcium salts on the walls of pipes, in agriculture for watering plants, etc.

It is not difficult to manufacture, convenient to use (it can be easily connected anywhere in the water system), is not bulky and does not cause difficulties during transportation.

Claims (1)

A device for treating water in a magnetic field with a stream contains a cylindrical body with side covers made of ferromagnetic material, which acts as a closing magnetic circuit, in which a device made of magnetic material is placed, forming oppositely directed magnetic induction vectors, characterized in that the body is cylindrical and axially a cylindrical four-pole magnet is installed between the pressure caps, which spirals around the tube for the flow of treated water from non-magnetic material.