SU915896A1 - Device for magnetic coagulation - Google Patents

Description

The invention relates to the filtration of liquids, in particular to the cleaning of lubricating fluids (60ZH) from contamination arising during metalworking, and can be used in various industries.

A device for magnetic coagulation of particles with highly magnetic properties is known, including a frame and an electromagnetic system located in it [13,

The known device cannot be effectively used in installations for cleaning the coolant, as it does not allow to separate from the liquid along. with ferromagnetic non-magnetic particles of impurities, intensively clogged when filtering pores of filtering materials, the magnetization of ferromagnetic inclusions in this device occurs in the direction of fluid flow with the separation of ferromagnetic

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component from other inclusions, i.e. there is only the creation of enriched coagulated ferromagnetic particles, which does not meet the requirements for cleaning coolant.

The closest to the proposed technical essence is an apparatus for magnetic treatment of feed water of a boiler house, including a housing, inlet and outlet pipes, a magnetic field generator and a ruptured two-pole magnetic core [2].

The use of this apparatus for carrying out the coagulation process is ineffective, because due to a change in the direction of the magnetic field in two breaks in the magnetic core, sludge particles pass under opposite poles, while under the input pole they are magnetized in one direction, under the next pole they are demagnetized or rotated in parallel

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fluid flow without trapping non-magnetic particles.

The purpose of the invention is to improve the efficiency of the coagulation process by creating a magnetic field strength, increasing along the flow of the liquid, with a slight hydraulic resistance.

To achieve this goal, one of the poles of the magnetic circuit is made in the form of a cone, placed inside and along the axis of the housing top to the outlet part of the supply pipe, which is the second pole of the magnetic circuit, while the surface of the poles are non-parallel, and the cross-sectional areas of the interpolar passage at the top and bottom of the cone are not less than the cross-section of the inlet pipe "

FIG. 1 shows the device, a general view; FIG. 2 is a section A-A in FIG. 1;

The device for magnetic coagulation consists of a housing 1, which is the outer part of the magnetic circuit, a magnetic field generator 2, for example, a solenoid located inside the housing, an internal magnetic conductor having a gap in which two poles are formed, one of which is the output part of the inlet 3, which is in contact with the case, and the other pole - the conical part of the part 4 installed coaxially with the inlet nozzle, while the cone is placed inside and along the axis of the body from the outlet part of the inlet nozzle with its tip appointment to liquid flow. The surfaces of the poles are non-parallel, and the cross-sectional areas of the interpolar passage at the top and the base of the cone are not less than the flow area of the inlet pipe ”

When this condition is met, the distance between the poles at the apex of the cone is provided larger than at the base of the cone, which makes it possible to obtain an increasing magnetic field strength as the fluid moves. The non-polarity of the poles, and consequently, the increase in the magnetic field strength in the interpolar passage of the coagulator, can be set depending on the treated fluid. ”

On the cylindrical part of the part 4, which serves to fasten the part to the body and to supply a magnetic flux4

ka, sections 5 are formed, forming fluid passages in the discharge pipe 6. Between the inlet pipe 3 and the cylindrical part of part 4, a separating washer 7 is installed, made of a diamagnetic material and used to intensify the magnetic flux between the poles. Case 1 and supplying side 3, which are in contact with each other, create a path of low resistance to magnetic flux, and the cross section of the cylindrical part 4 is made so that it can pass the magnetic flux without saturation ’, t, e, with minimal scattering flows.

Device for magnetic coagulation works as follows.

When the generator 2 of the magnetic field is turned on between the poles (the output part of the inlet pipe and the tapered part of part 4) a magnetic field is formed, the strength of which due to the decrease in distance 25 between the poles increases from the top to the bottom of the cone. coagulator. Upon entering the magnetic field, ferromagnetic slurry particles are captured by the magnetic field and entrained in the zone of its greatest intensity, i.e. to the base of the cone parts 4, overtaking non-magnetic particles. In the zone of _{35 and the} largest magnetic field strength, ferromagnetic particles create a sort of filtering mesh, which also captures non-magnetic particles of pollution. Magnetic forces that are clogged up in the grid are not able to hold at the pole, and under the action of fluid flow, the grid pieces are detached from the pole and removed with fluid flow from the coagulator through ₄₅ passages formed by ₄₅ sections 5 and further to the filter where the final cleaning is performed fluid.

Since the cross section of part 4, under the ⁵⁰ leading magnetic flux to the cone, is made by an unsaturated magnetic flux, the scattering fields in the fluid passages are excluded, and as a result, demagnetization and destruction of coagulated aggregates are excluded. In addition, since the cross-sectional areas of the interpolar passage in the coagulator are not less than the cross-sectional area of the supply5 915896 6

the hydraulic nozzle, the hydraulic contact with the fluid flow in the coagulator is minimal, therefore, the destruction of aggregates of coagulated particles is prevented, which can happen with a 5 increase in the hydraulic resistance.

The proposed device allows to increase the efficiency of the process of coagulation of sludge particles by creating 1.0 magnetic field strength, increasing along the flow of the treated liquid, with a slight hydraulic resistance and due to the capture of non-magnetic particles 15 of the sludge by coagulated ferromagnetic aggregates. The use of the device for magnetic coagulation in the MOR purification systems improves the performance of filters by more than 20 times to 10 times with an increase in fineness and degree of cleaning and an increase in the service life of the coolant. The device allows to reduce the frequency of regeneration of filters and reduce the consumption of filter fabric.

Claims (1)

Claim thirty A device for magnetic coagulation, comprising a housing, a supply > and discharge nozzles, a magnetic field generator and a two-pole rupture magnetic core, characterized in that, in order to increase the efficiency of the coagulation process by creating a magnetic field strength, increasing along the flow of the liquid, with a slight hydraulic resistance, one of the magnetic poles is made the cone is placed inside and along the axis of the housing apex to the output part of the inlet nozzle, which is the second pole of the magnetic circuit, while the surfaces of the poles are non-parallel, and the sectional areas interpolar passage at the top and base of the cone is not less than the cross-sectional area of the inlet pipe.