RU2006255C1 - Magnetic filter - Google Patents

Abstract

FIELD: purifying liquids and gases from ferromagnetic impurities and separating nonmagnetic particles therefrom. SUBSTANCE: magnets are mounted in a space relation to each other in a closed vessel, provided with an inlet and outlet pipe. Magnets define inlet and outlet compartments communicated by the spacings. The similar poles of magnets are in face to face relation to each other. A scraper is disposed within the inlet compartment. EFFECT: enhanced quality of purifying. 3 cl, 4 dwg

Description

 The invention relates to mechanical engineering and can be used in devices for cleaning liquids and gases from ferromagnetic impurities, as well as for separating them from non-magnetic particles.

 Of the known closest to the claimed technical essence is a device for cleaning liquids from ferromagnetic impurities, including a tank equipped with inlet and outlet nozzles and filled with magnetic bodies of various configurations, separated by protrusions in the form of a non-magnetic spiral winding.

 The disadvantages of the known device are the low efficiency of liquid purification from ferromagnetic impurities due to the low magnetic field strength between the poles of magnetic bodies tending to self-shunt, and the complexity of regeneration associated with the separation of magnetic bodies drawn to the poles, ferromagnetic impurities prone to adhesion. Filling the gaps between the magnetic bodies is accompanied by an increase in hydraulic losses and energy consumption with a decrease in the productivity of the device.

 The aim of the invention is to increase the stable performance and efficiency of purification of a liquid or gas from ferromagnetic impurities, the efficiency of its work while reducing operating costs associated with the regeneration of the magnetic filter.

 The goal is achieved in that in a magnetic filter containing a container closed by caps with inlet and outlet nozzles, inside of which there are magnetic elements, in accordance with the claimed invention, the magnetic elements face the same poles and are installed with gaps between them in a closed container to form an input and output cavities communicating with each other through the indicated gaps, while a scraper is placed in the inlet cavity, which periodically interacts with the surface of the magnetic elements, and settles to collect ferromagnetic impurities.

 This goal is also achieved by the fact that the magnetic elements are made in the form of a package of annular or rectangular sealed solenoids.

 In FIG. 1 shows a magnetic filter with ring magnets in longitudinal section, N is the north pole, S is the south pole of the magnetic elements; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - the same, with rectangular magnets, a longitudinal section; in FIG. 4 is a section BB in FIG. 3.

 The magnetic filter contains a container 1 with an input cavity 2 communicating with gaps 3 formed by narrow dividing spacers 4 between the same poles of the package of magnetic elements 5, with an output cavity 6. On the upper wall of the container 1 there are rails 7 with a scraper 8 provided with a drive (not shown), periodically interacting with the surface of the magnetic elements 5 from the side of the inlet cavity 2, and on the lower wall provided with windows 9, a settler 10 is installed to collect ferromagnetic impurities. The package of magnetic elements 5 in the tank 1 is fixed between its walls using elastic gaskets 11.

 As magnetic elements can be used packages of sealed solenoids of ring or rectangular shape. Permanent magnets or solenoids are protected by corrosion and / or wear resistant coatings.

 The proposed magnetic filter operates as follows.

 The liquid or gas being cleaned from ferromagnetic impurities enters the tank 1 through the inlet cavity 2, from where, through the gaps 3 between the same poles of the magnetic elements 5, into the outlet cavity 6 and further into the technological network (not shown). Ferromagnetic impurities, when approaching the entrance to the gaps 3 with the same magnetic flux of poles, are repelled along the lines of force of the magnetic elements toward opposite poles and accumulate in the middle part of the magnetic elements 5. The fluxes of the magnetic elements are partially shunted with decreasing magnetic field strength in the gaps 3 as they accumulate by the surface of the magnetic elements of ferromagnetic impurities removed by moving from the drive (not shown) down in the guides 7 of the scraper 8, which cleans the magnetic elements from the accumulated impurities through the windows 9 into the sump 10, while restoring the magnetic field strength in the gaps 3 without a noticeable decrease in the performance and efficiency of the magnetic filter. Non-magnetic impurities are carried away with the flow of the liquid or gas being cleaned, due to which they are separated from ferromagnetic impurities. The installation of magnetic elements with gaps between their poles of the same name ensures the free passage of the liquid or gas being cleaned through these gaps, as well as the free removal of ferromagnetic impurities.

 The use of the invention provides a 4–5-fold increase in the stable productivity and efficiency of cleaning liquid and gas media from ferromagnetic impurities and a 8–10-fold reduction in energy consumption for overcoming hydraulic resistance, which makes it possible to reduce the dimensions of the device and significantly reduce operating costs for its maintenance, while continuous operation of the technological system is ensured. (56) British Patent N 1147955, CL B 03 C 1/00, 1969.

Claims (3)

 1. A MAGNETIC FILTER containing a closed container with inlet and outlet nozzles, inside which there are magnetic elements, characterized in that, in order to increase the stable performance and efficiency of cleaning liquid or gas from ferromagnetic impurities, the economy of its operation with a reduction in operating costs for regeneration, the magnetic elements face each other with the same poles and are installed with gaps to each other with the formation of the input and output cavities communicating with each other through the specified gap s, while in the input cavity there is a scraper installed with the ability to move along the surface of the magnetic elements, and a sump for collecting ferromagnetic impurities.  2. The filter according to claim 1, characterized in that the magnetic elements are made in the form of a package of annular tight solenoids.  3. The filter according to claim 1, characterized in that the magnetic elements are made in the form of a package of rectangular sealed solenoids.

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