RU2006256C1 - Magnetic filter - Google Patents

Abstract

FIELD: clearing fluidal and gaseous substances from foreign matters and magnetic matters in particular. SUBSTANCE: magnetic system is mounted outside of body. In particular case magnetic system is made in the form of system of three successively positioned systems of axially magnetized circular magnets. Magnetic fields of adjacent systems of circular magnets are directed towards each other. Besides, in particular case fine-dispersion magnetic powder is placed inside body. EFFECT: enhanced filtering efficiency. 3 dwg

Description

 The invention relates to a cleaning technique and can be used to clean liquid and gaseous substances from foreign impurities, primarily magnetic impurities.

 Known magnetic filter containing a magnetic ring-shaped system, a housing of non-magnetic material, input and output fittings [1].

 The aim of the invention is to increase the degree of purification.

 In FIG. 1 shows a magnetic filter, section; in FIG. 2 and 3 are graphs of the distribution of the magnetic field along the axis of symmetry for two different options for constructing a magnetic system of ring magnets with axial magnetization.

 The inlet fitting 1 is mounted on the cover 2 and provided with a drainage tube 3. In the cover 2, a filler hole is provided with a plug 4. The outlet fitting 5 is mounted on the cover 2. The housing 6 is provided with a flange 7 that fixes the position of the magnetic system 8 on the housing 6 together with a removable stop 9. In the housing 6 there is a drain hole provided with a drain plug 10.

 Sealing the connections of the inlet fitting 1, plug 4 and the outlet nozzle 5 with the cover 2, the cover 2 with the housing 6 and the housing 6 with the drain plug 10 can be carried out using elastic elements, for example, when using a magnetic filter made of gas-oil-resistant rubber for cleaning fuels and lubricants.

 The detachable stopper 9 on the body 6, plug 4 on the cover 2, drain plug 10 on the body 6, input 1 and output 5 fittings, and the input fitting 1 to the drain pipe 3 can be fastened, for example, by means of a threaded connection.

 In a particular case, the magnetic system 8 can be made in the form of a combination of three successively arranged ring magnet systems with axial magnetization, the magnetic field of the first ring magnet system 11 directed towards the magnetic field of the second ring magnet system 12, and the magnetic field of the third ring magnet system 13 directed towards the magnetic field of the second ring magnet system 12.

 In FIG. Figures 2 and 3 show the distribution of the magnetic field H along the axis of symmetry for two options for constructing the magnetic system 8 (the X coordinate, measured along the symmetry axis, and the magnetic field H in arbitrary units, are plotted on the abscissa axis). To ensure comparability and clarity of the graphics in FIG. 2 and 3 correspond to the use of 8 identical ring magnets as a magnetic system. The graph shown in FIG. 2, corresponds to the option of constructing a magnetic system 8 from a series of sequentially arranged ring magnets with axial magnetization, and the directions of the magnetic fields of all ring magnets coincide. The graph shown in FIG. 3 corresponds to the case when the magnetic system 8 is made in the form of a combination of three successively arranged ring magnet systems with axial magnetization, the magnetic field of the first ring magnet system 11 being directed towards the magnetic field of the second ring magnet system 12, and the magnetic field of the third ring magnet system 13 directed towards the magnetic field of the second ring magnet system 12.

 The analysis of FIG. 2 and 3 of the graphs allows us to conclude that the second option for constructing a magnetic system is more preferable, since with the same number of identical ring magnets compared to the first option, it creates a higher maximum value of the magnetic field and thereby provides a higher degree of cleaning of the cleaned substances from magnetic impurities.

 Further, in a particular case, finely dispersed magnetic powder 14 can be placed inside the housing 6.

 The magnetic filter operates as follows.

 The substance to be cleaned (liquid or gas), passing sequentially through the inlet 1 and the drain pipe 3, enters the lower part of the housing 6, while a part of the impurities settles in the lower part of the housing 6. Flowing inside the housing 6 towards the outlet nozzle 5, the substance to be cleaned It is exposed to a magnetic field that traps magnetic impurities in the region of maximum magnetic field. The purified substance leaves the magnetic filter through the outlet 5.

 Cleaning the magnetic filter from trapped impurities is as follows. First, the removable stopper 9 is removed, then the magnetic system 8, after which the magnetic impurities are lowered into the lower part of the housing 6. After that, the stopper 4 and the drain plug 10 are sequentially removed, after which the impurities together with the residues of the substance to be cleaned flow out of the housing 6 through the drain hole, after whereby the magnetic system 8 is installed in its place and fixed by a removable stop 9. Then the drain plug 10 is installed in the drain hole of the housing 6, and the plug 4 is in the filler hole of the cover 2. If the substance to be cleaned is liquid b, then for the removal of air bubbles is necessary before the installation tube into the fill hole 4 of the cover 2 into the inner cavity of the magnetic filter pour the cleaning liquid.

 If finely dispersed magnetic powder 14 is placed inside the housing 6, the degree of purification is increased due to the fact that non-magnetic particles will also be retained.

 The particle size of the finely divided magnetic powder 14 is determined by the required degree of purification of the filtered substance from non-magnetic impurities. When cleaning the magnetic filter from impurities, fine magnetic powder 14 will also go away with them. After separation of the impurities and fine magnetic powder 14, the latter is filled into the housing before installing the magnetic system 8 (before performing this operation, it is necessary to install the drain plug 10 in the drain hole housing 6, and the cover 2 can be removed from the housing 6, and then again connected to the housing 6). When you install in place of the magnetic system 8 finely divided magnetic powder 14 is installed in the region of maximum magnetic field. The separation of finely divided magnetic powder from magnetic impurities can be carried out by flotation, from non-magnetic impurities by the action of a magnetic field. (56) Ardashev A.P. Purification of air from dust using an electromagnetic field. Lectures of the Gorky State University. N.I. Lobachevsky, 1976, p. 13, fig. 7.

Claims (1)

 A MAGNETIC FILTER containing a ring-shaped magnetic system, a body made of non-magnetic material, an inlet and outlet fittings, the inlet fitting being provided with a drainage tube, the upper part of the housing is made in the form of a cylinder, the lower part of the housing is made in the form of a truncated cone with a drain hole and equipped with a plug , the magnetic system is fixed outside the housing, and inside the housing there is a ferromagnetic load, characterized in that the magnetic system is made in the form of a combination of three sequentially arranged systems of ring magnets with axial magnetization and polarity, alternating along the height of the filter from system to system, and the magnetic system is volumetric.

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