SU1655911A1 - Device for magnetizing liquids - Google Patents

Abstract

The invention relates to devices for the magnetic treatment of liquids and can be used to treat water in various areas of national economy, for example, to prepare water in boiler plants and heat exchangers to eliminate scale formation, in the manufacture of concrete, in irrigation aggregates of agricultural machines and so on. .d The device is made in the form of a diamagnetic case-pipe 1, on the threaded surface of which there are permanent annular magnets 2 with pole pieces 3, and in case 1 below they are placed a ferromagnetic core 5, while at the ends of the case 1 in its cavity ferromagnetic sleeves 7 are installed. When screwing the magnets between themselves or on the edge of the pipe 1, the magnetic intensity in the magnetic gap 4 is regulated, in which a liquid of the corresponding chemical composition 1 is passed

Description

J

9 V

2 4

The invention relates to devices for the magnetic treatment of liquids in various areas of national economy and can be used to prepare water in boiler plants and heat exchangers in order to eliminate scale formation and salt deposition, in the manufacture of concrete, in irrigated aggregates of agricultural machines, food products and other technological processes.

The purpose of the invention is to simplify the design and expand the range of adjustment of the tension in the working gap.

The drawing shows the apparatus, a longitudinal section.

The device consists of a diamagnetic case in the form of a pipe 1, on the external screw thread of which a magnetic system is installed, made in the form of separate elements (permanent magnets 2 with pole pieces 3).

The number of magnets 2 with pole tips 3 can be from one to several pieces, depending on the performance of the device. The axis of the housing 1 with a gap 4 is installed with a ferromagnetic core 5, which is centered on both ends by gratings 6, and the latter are pressed by ferromagnetic sleeves 7 installed without clearance with the housing 1. The sleeves 7 on both ends of the housing 1 are fixed by threaded sleeves 8 with nozzles 9 input and output fluid. The length of the sleeves 7 is chosen so that all the magnets 2 with pole tips 3 are evenly spaced with gaps between themselves, at least the width of a single magnet 2, between the sleeves 7, and when screwed onto the ends of the housing 1 close - in the section of these sleeves 7, the position of the core 5 in the housing 1, i.e. between the ends of the sleeves 7, may be indicated by an annular groove 10 outside the housing 1. The magnets 2 are preferably placed opposite poles to each other.

The device works as follows.

A liquid, for example water, is introduced into the apparatus through one of the pipes 9. The water around the core 5. passes in a cylindrical gap 4 between the housing 1 and the core 5. The magnetized water passes through the second grate b, the sleeve 7 and exits through the second nozzle 9.

The magnetized water, at the established capacity, is sampled and analyzed. For this, a sample of water is kept for 8–10 min in a water bath and then examined under a microscope for crystallographic structure. At optimum efficiency of water magnetization, salt crystals fall out in the form of flakes or filaments.

When the crystals are kept in water or their transparency is preserved, the apparatus is adjusted according to the intensity of the magnetic field and its frequency.

The adjustment is carried out by moving the magnets along the pipe and, therefore, changing the gaps between the individual magnets, as well as screwing a part of the magnets to the ends of the pipe, where the working gap is shielded by ferromagnetic sleeves.

Thus, the proposed apparatus possesses reliability, an extremely simple design and, in a wide range of tension, allows it to be tuned to any chemical composition of water.

Claims (1)

Invention Formula An apparatus for magnetic treatment of a fluid, comprising a diamagnetic tube with an external screw thread and a magnetic system, the elements of which are placed outside, are movable along the tube, and a ferromagnetic core placed inside the tube, with a gap to it simplifying the design, and expanding the range of adjustment of the magnetic field strength in the working gap, it is equipped with ferromagnetic material bushings installed inside the body at its ends, the total length on the sleeves not less than the total length of the elements of the magnetic system.