RU2077503C1 - Apparatus for magnetic treatment of substance - Google Patents

Abstract

FIELD: physico-chemical treatment of substance, specifically, magnetic treatment of water. SUBSTANCE: apparatus for magnetic treatment of substance has magnetic body with magnetic face covers mounted on its ends, alternating magnetic poles and dielectric rings embraced by dielectric tube which carries magnetization coil are placed between covers. Sections of tube used to pass treated substance through apparatus are screwed on branch pipes of face covers protruding outside. Body and poles have through cut along one of generating lines and face covers are cut partially. Magnetic flux is formed with supply of alternating voltage to magnetization coil which lines of force close over body, face covers, poles inside of apparatus. EFFECT: increased functional efficiency of proposed apparatus. 1 dwg

Description

 The invention relates to devices for physico-chemical treatment of substances, in particular to devices for magnetic treatment of water.

 A known apparatus for magnetic treatment of water, consisting of electromagnetic coils located on magnetic cores adjacent to the outside of the housing, and pole elements placed inside the housing, the pole elements being made in the form of triangular plates mounted close to the inner wall of the housing with an extended end and facing one to the other tapering ends, while the tapering ends of the plates are made with tips of a V-shaped section (see AS USSR N 1807011, CL 02 F 1/48).

 As a prototype, a device for magnetic treatment of water UPE-1 was selected. The apparatus contains three magnetizing coils, each of which has its own magnetic circuit. The treated water flow passing through the annular working gap crosses the magnetic field six times (see Electromagnetic water treatment in boiler rooms. Recommendations. Zernograd 1990, p. 11).

 The prototype has the following disadvantages. The design is not technologically advanced to manufacture and rather time-consuming to assemble. When processing a substance, the magnetic system is inconvenient and ineffective per unit of mass and power, since it involves the use of a three-phase magnetic system, and also has low productivity due to the small size of the cross-section for the passage of the substance.

 The purpose of the invention is to simplify the design and increase the efficiency of magnetic processing of the substance.

 This goal is achieved by the fact that in the inventive apparatus there is one magnetizing coil enclosed by ferromagnetic parts in the housing, end caps and poles in such a way that the end caps and poles are drawn on a dielectric pipe and separated from each other by dielectric rings, the housing and poles are cut through one of the generators, and the end caps are partially cut to block the path of the processed substance into the magnetizing coil, and the inner diameter of the end caps and poles is less than morning diameter of the dielectric ring.

 The drawing shows a General view of the apparatus for magnetic processing of matter.

 The apparatus for magnetic processing of a substance comprises: a magnetic housing 1 with magnetic end caps 2 installed at its ends, between which alternating magnetic poles 3 and dielectric rings 4 are placed, enclosed by a dielectric tube 5, on which a magnetizing coil 6 is located; on the protruding outlets of the end caps 2 are screwed pipe sections 7, which serves to pass through the apparatus of the processed substance. The housing 1 and the poles 3 have a through cut along one of the generators, and the end caps 2 are partially cut (8). The inner diameter of the end caps 2 and the poles 3 is the same, but it is smaller than the inner diameter of the dielectric rings 4. The end caps 2 and the dielectric tube 5 have a threaded connection with a seal.

 Apparatus for magnetic processing of matter works as follows. When applying alternating voltage to the magnetizing coil 6, a magnetic flux is formed, the power lines 9 of which are closed along the housing 1, end caps 2, poles 3 and pass inside the apparatus. The substance entering the apparatus repeatedly intersects the lines of force 9 of a time-varying magnetic field, and the processing efficiency of the substance depends on the magnitude of the current in the magnetizing coil (solid lines of force correspond to lower processing efficiencies, dashed greater). Due to the equality of the inner diameters of the end caps 2 and poles 3, on the one hand, and the larger diameter of the dielectric rings 4, on the other, the turbulence of the flow of a gaseous, liquid, or granular substance increases, which also leads to an increase in its magnetization efficiency. A through section of the housing 1, poles 3 and a partial section of the end caps 2 helps to reduce eddy currents; the end caps 2 are cut partially, in order to reliably close the path of material leakage to the magnetizing coil 6. By adjusting the current in the coil 6, the magnetization intensity of the substance in the apparatus is changed, which also depends on the frequency of the current in the coil 6 and the speed of the substance in the apparatus.

 Unlike the prototype, the inventive apparatus has a single magnetizing coil. The substance is treated with magnetic buckling fields that are created between the poles, and the processing efficiency is improved, since the number of poles can be quite large, and cavities are formed between the poles, which contributes to the turbulence of the flow.

 The use of the claimed apparatus will allow to obtain an economic effect by simplifying the design, reducing material consumption, improving manufacturing and assembly technology, and also by increasing the efficiency of magnetic processing.

Claims (1)

1 Apparatus for magnetic processing of a substance, consisting of a magnetic body, end caps, pluses and a magnetizing coil, characterized in that the end caps and poles are mounted on a dielectric tube and separated from each other by dielectric rings, the body and poles have a through cut along one of the generators, and the end caps are partially cut, and the inner diameter of the end caps and poles is less than the inner diameter of the dielectric rings.