RU32484U1 - Apparatus for magnetic processing of matter - Google Patents

Abstract

A device for magnetic processing of a substance, consisting of magnetizing coils, magnetic cores and poles, covering a pipeline, characterized in that the magnetic circuit, magnetizing coil of a pole, a steel pipe form n modules, where n = 4, 6, 8, each of which are fastened by non-magnetic plates and contain poles, the latter at the points of contact with the pipe are equipped with samples of ferromagnetic material with a depth of not more than the smallest side of the contact area of each pole.

Description

MATERIAL PROCESSING MAGNET

The utility model relates to devices for magnetic processing of a substance that can be used in industry and agriculture for the magnetization of water systems, bulk materials, seeds of agricultural crops, etc.

A device for magnetic processing of fluid media, including a pipeline and a multi-pole magnetic circuit; the latter is made in the form of W-shaped magnets turned to each other by opposite poles. In this case, the cores of Ш-shaped magnets are made of soft magnetic material (See, A.S. USSR No. 791619, Cl. C 02 F 1/48, B 03 C 1/00).

The device is limited in functionality because W-shaped magnets are worn on a non-steel (non-magnetic) pipe, since the use of such a design, due to shunting of the magnetic flux by the pipe, is impossible for a steel pipe.

A known design for the magnetization of water, comprising a housing of non-magnetic material, permanent magnets located in the grooves uniformly around the circumference of the housing, the magnets being magnetized along the transverse side and installed in the grooves with the longitudinal side parallel to the axis of the housing, along its entire length with alternating poles around the circumference of the housing N , N, S, S (See A. S. of the USSR No. 1068395, Cl. C 02 F 1/48).

The design drawbacks are limited functionality and large dimensions, since the design uses permanent magnets, which does not allow to increase the magnetic field characteristics and improve the overall dimensions.

g- o g -J 11 s

IPC 02 F 1/48

Closest to the technical nature of the proposed design and adopted by the authors for the prototype is a device for magnetic fluid processing, consisting of two magnetic cores, each of which is made in the form of a base with three peaks equipped with excitation coils. The base of one of the magnetic cores is made in the form of two rods connected to the protrusions by means of a detachable connection, and the excitation coils are mounted on the rods (see AS No. 981243, Cl. C 02 F 1/48).

The disadvantages of the prototype are: the device is used only on a non-magnetic pipeline; large overall dimensions; the use of a variable cross-section of the pipeline; obligatory insertion into the main pipeline.

The technical result, which can be obtained using the proposed utility model, boils down to expanding the functionality of magnetic processing devices.

The technical result is achieved by the fact that the proposed apparatus for magnetic processing of matter, consisting of magnetizing coils, magnetic cores and poles, covering the pipeline, forms four modules, each of which is fastened with non-magnetic plates and contains poles, the latter at the points of contact with the pipe are equipped with samples of ferromagnetic material with a depth of the smallest side of the touch pad of each pole.

In Fig.1 shows a General view of the apparatus for magnetic processing of matter, and in Fig.2 a section of the poles.

The device for magnetic processing of matter consists of four modules, each of which is made of a magnetic circuit 1, a magnetizing coil 2, poles 3, non-magnetic plates 4 and a steel pipe 5. Poles 3 at the points of contact with the pipe have ferromagnetic samples

material with a depth not exceeding the smallest side of the touch pad of each pole.

The device operates as follows. The beginnings and ends of the magnetizing coils 2 are connected so that when a voltage is supplied from a direct current source, the current flowing through them causes a magnetic flux Φ to appear in each module, which closes along the magnetic circuit 1, poles 3, and part of the steel pipe 5, with the orientation it is such that the poles 3 of the adjacent modules have the same polarity (plus or minus), as a result of this, the power lines of the flow Ф partially bulge inside the section of the pipeline 5 and the formation of the work flow который which t on the processed substance. The value of F1 depends on the magnetic field strength of the magnetizing coils 2 and the availability of a sample of the material of the poles 3 (figure 2). For installation of the apparatus on the main pipeline, non-magnetic plates 4 are used.

The transition to large diameters of pipelines made of magnetic material is obtained by creating powerful gradient fields at the points of contact between the pipe surface and the magnetic circuit (the gradient in this case is the maximum derivative of the magnetic conductivity with respect to the spatial coordinate), which can significantly increase the characteristics (intensity, induction) of the flux F1 and concentration power lines in the working section of the pipeline.

Compared with the prototype, the proposed utility model has advantages:

- installation is possible, both on ferromagnetic and on

non-ferromagnetic pipeline;

there is no need to stop the process,

since the device is mounted on a pipe;

installation of the device can be done on very large pipes

diameter, by increasing the number of modules used;

installation of the device does not require violation of the integrity of the main

the pipeline.

Patent Engineer

The authors:

D.A. Ushakova

V.N. Gurnitsky G.V. Nikitenko I.V. Atanov R.A. Mirgorodsky

Claims (1)

A device for magnetic processing of a substance, consisting of magnetizing coils, magnetic cores and poles, covering a pipeline, characterized in that the magnetic circuit, magnetizing coil of a pole, a steel pipe form n modules, where n = 4, 6, 8, each of which are fastened by non-magnetic plates and contain poles, the latter at the points of contact with the pipe are equipped with samples of ferromagnetic material with a depth of not more than the smallest side of the contact area of each pole.