RU2668906C1 - Inductor with closed displacement of working bodies - Google Patents

Abstract

FIELD: instrument engineering.SUBSTANCE: invention relates to devices for physical and chemical effects on liquid media and can be used in agriculture, communal services, the chemical industry and other fields. Inductor with the closed displacement of the working bodies consists of a housing inside which is located a ferromagnetic cylindrical core with electric windings, in the bore of which there is a bushing made of paramagnetic material, the space inside which is a working area in which working bodies move and the technological process is carried out, while at the exit from the working zone at the boundary of the action of the electromagnetic field in the paramagnetic bushing there is a sampling device consisting of a receiving branch pipe and a centrifugal conveyor. Under the action of the centrifugal force, the working bodies belong to the periphery of the working zone, where an excessive pressure is created, sending bodies that have gone beyond the limits of the action of the rotating alternating electromagnetic field, in the intake, transporting them under the influence of the created pressure to the entrance to the working area.EFFECT: invention provides an increase in the efficiency of the functioning of the inductor with moving internal bodies in the form of ferromagnetic particles.1 cl, 2 dwg

Description

The invention relates to apparatuses for physicochemical effects on liquid media and can be used in agriculture, utilities, chemical industry and other fields.

A known device is a vortex layer containing caps with nozzles for supplying and discharging a cooling medium, a collector in communication with a pipe for supplying a cooling medium, an inductor of a rotating electromagnetic field located between the caps having an axial channel in which a reaction chamber in the form of a pipe is installed with a gap to the channel walls, having a removable insert with ferromagnetic particles, the inductor also has a shell of non-magnetic material and a casing connected to the covers, while the casing and the shell of the inductor are made cylindrical mi, with ferromagnetic particles of the removable insert made in the form of rods of different sizes (see patent RU 2342987, B01F13 / 08, publ. 10.01.2009).

Known ferrovortex apparatus, consisting of a housing with nozzles for supplying and discharging a cooling medium, an inductor of a rotating electromagnetic field, a reaction chamber made of non-magnetic material with ferromagnetic particles, characterized in that the reaction chamber is formed by caps and a cylindrical body, and the covers are additionally equipped with inlet and outlet pipes the reaction chamber, while the inductor magnetic circuit is made in the form of a burdened ring of rectangular cross-section with made on one of its two t the end surfaces with grooves and a three-phase winding embedded in them with the number of pairs of poles of at least one, and the apparatus is additionally equipped with an axial magnetic circuit, which is placed inside the reaction chamber and made without grooves and winding in the form of a burlap ring of rectangular cross section, while the axial magnetic circuit is protected by a non-magnetic casing material, and the area of the annular gap between the inner diameter of the cylindrical body of the reaction chamber and the outer diameter of the casing of the axial magnetic core is not Chez sectional area of inlet of the reaction chamber, wherein the working zone of the reaction chamber is formed inside of the reaction chamber lid, the inner side of the cylindrical body of the reaction chamber and the axial end surface of the housing of the magnetic circuit (see. Patent RU 2323040, B01F13 / 08, publ. 04/27/2008).

An electromagnetic device of a vortex layer containing a reaction chamber of non-magnetic material, a set of ferromagnetic particles placed in the cavity of the reaction chamber, and an inductor having at least one C-shaped magnetic circuit with a set of coils placed on it, connected to a power source and a control unit the operation of the apparatus, the magnetic circuit made in the form of a toroid from a tape of rolled electrical steel wound along the "Archimedes spiral", with the turns of the tape fastened together using a fixing hardener - epoxy glue, coils either connected in series with each other and a power source with a sinusoidal voltage of 50 Hz, or connected to individual power sources in the form of inverter converters through individual control units (see patent RU 2461416 B01F13 / 08, published on 09/20/2012 )

The disadvantages of the above devices is the inability to prevent the release of ferromagnetic particles outside the working zone of the inductor during continuous operation of the apparatus, a passive device without an additional energy source.

The closest in technical essence and the achieved effect is a device for holding ferromagnetic particles in the working area of the inductor when working with liquid media, consisting of a housing inside which is a cylindrical core of ferromagnetic material with electric windings, a sleeve made of paramagnetic material installed in the bore, the space inside of which represents a working area in which ferromagnetic particles rotate and a technological process is carried out, characterized in that at the exit de from the working area on the border of the electromagnetic field installed matrix consisting of a metal shell reflecting ferromagnetic particles with installed cross-sectional meshes (see patent RU 171681, B01F13 / 08, B03C 1/00, published 09.06.2017).

This device has a number of identified disadvantages:

- does not ensure the return of the ferromagnetic particles that have gone beyond the working zone of the inductor, without thereby ensuring their closed movement in the inductor;

- the installation of such devices at the outlet of the working area has significant resistance to the movement of material inside, since the ferromagnetic particles removed from the working area will be concentrated near the lower shell of the matrix, which reduces the overall performance of the device and does not provide for their return to the working area.

The objective of the invention is to increase the efficiency of the inductor with moving inside the working fluid in the form of ferromagnetic particles.

The essence of the invention lies in the fact that the inductor with a closed movement of the working fluid, consisting of a housing, inside of which there is a ferromagnetic cylindrical core with electric windings, in the bore of which there is a sleeve made of paramagnetic material, the space inside of which is a working area in which the working bodies move and the technological process is carried out, at the same time, at the exit from the working area at the boundary of the electromagnetic field in the paramagnetic bushing a fence is installed, consisting s from the receiving tube and the centrifugal conveyor.

The specified technical result is achieved due to the fact that under the action of centrifugal force, the working fluids belong to the periphery of the working zone, where excess pressure is created, sending the bodies that go beyond the limits of the rotating alternating electromagnetic field to the intake, transporting them under the action of the created pressure to the inlet work area.

The invention is illustrated in the drawing, where

FIG. 1 - general view of the inductor;

figure 2 - inductor, view aa

An inductor with a closed movement of the working fluid consists of a housing 1, inside of which there is a ferromagnetic cylindrical core with electric windings 2, in the bore of which a sleeve 3 of paramagnetic material is installed, the space inside of which is a working area in which the working fluids 4 are moved, and at the output from the working area at the boundary of the electromagnetic field in the paramagnetic sleeve 3 there is a fence 5 providing a closed movement of the working fluid 4 in the inductor and consisting of a receiving pipe and 6 and centrifugal conveyor 7. - it is necessary to show these details in the drawing.

The inductor inside the paramagnetic sleeve 3, which forms the working zone, creates a rotating alternating electromagnetic field, which drives the working bodies 4 located inside it. Since the electromagnetic field is homogeneous only in the area where the ferromagnetic core 2 is located, zones of low field strength arise outside it getting into which the working fluid 4 move under the action of centrifugal and inertial forces and own pressure of the material flow, as a result of which they can overcome force of the weakened field and leave the working area. To eliminate the loss of working fluid 4 at the exit from the working area, it is necessary to install a fence 5, consisting of a receiving pipe 6 into which the working bodies fall under the action of centrifugal force and a centrifugal conveyor 7 sending the working bodies that got into the receiving pipe and transporting them back due to the created excess pressure back to the entrance to the working area.

The invention in comparison with the closest analogue and other known technical solutions has the following advantages:

- lack of additional structural elements aimed at retaining working bodies;

- simplicity of design;

- high reliability;

- lack of additional energy costs;

- high efficiency, due to the provision of a closed movement of the working fluid of the working area of the inductor and preventing them from going beyond it;

- the absence of edge effects and, as a consequence, a decrease in the productivity of the device due to the concentration of working fluids in the zone of devices installed to hold them.

Claims (1)

An inductor with a closed movement of the working fluid, consisting of a housing, inside of which there is a ferromagnetic cylindrical core with electrical windings, in the bore of which a sleeve of paramagnetic material is installed, the space inside of which is a working area in which the working fluids are moved and a technological process is carried out, characterized in that at the exit from the working area at the boundary of the electromagnetic field in the paramagnetic sleeve there is a fence consisting of a receiving pipe and prices robezhnogo conveyor.

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