SU1263305A1 - Magnetic precipitator - Google Patents

Abstract

The invention relates to the field of magnetic separation of substances, can be used in the metallurgical, mining, machine-building, chemical, petrochemical, pharmaceutical, energy industries in the purification of natural and waste waters and improves the efficiency of the cleaning process and improves the regeneration process. For this, the plates of the nozzle 2 are made with holes 3 located in even-numbered plates in thickened protrusions, and in odd-numbered plates in hollows, with elastic perforated bridges placed between adjacent plates made of ferromagnetic material and with corrugations on the bottom surface. When the filter is operated, adjacent plates and jumpers are pressed to each other by means of actuator 5, and during regeneration the magnetic system 7 is disconnected and the drive shaft is moved to the uppermost position, with the result that the elastic jumpers "straightened, disconnect the top plates" mechanically destroying the precipitate, which (L is washed away by the air-water mixture. 2 Cp f-crystals, 5 ill.

Description

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Claims (3)

The invention relates to magnetic separation of substances and can be used in the metallurgical, mining, machine-building, chemical, petrochemical, pharmaceutical, energy industries during cleaning. The purpose of the invention is to increase the efficiency of the purification and regeneration process. FIG. 1 shows a filter precipitator, a general view; in fig. 2 - filter nozzle; in fig. 3 is a view A of FIG. 2; in fig. 4 shows a section BB in FIG. 3; in fig. 5 - elastic perforated jumper: Ka, general view. The filter includes a housing 1 with a nozzle 2 placed therein in the form of zigzag ferromagnetic perforated plates made with alternating holes 3 arranged in even-numbered plates in the depressions, the plates being made of a non-core material or coated with an anticorrosive layer and made of a variable wave-like shape and elastic perforated jumpers 4 placed between adjacent plates contain corrugations for passing a liquid medium and at the same time for creating zones of a high-gradient field; an actuator 5, the shaft of which is connected to a movable grid 6 placed on the upper plate, a magnetizing system 7 made of a multilayer electric coil, electromagnets, or permanent magnets assembled according to a closed magnetic circuit, an inlet 8 to be cleaned and an outlet 9 of the cleaned medium. To pass the cleaned medium through the bridges and holes in the plates of the walls of the partitions, they are made in the form of figured cuts, forming a flow section for the liquid being cleaned and at the same time zones of increased magnetic field, and the top of the bridges has holes, in addition, holes in the plates, to which the shells are attached To create a gradient field and pass the medium to be cleaned, a notch is included. Magnetic filter precipitator works as follows. The magnetic system 7 is turned on, which magnetizes the plates 2 and jumpers 4. High-gradient magnetic fields are created at the contact points of adjacent plates and contact points of plates and jumpers, while the drive shaft 5 is in its lowest position, providing clamping of the plates 2 and jumpers 4. Cleansing the medium through the inlet nozzle 8 enters the volume of the magnetized nozzle, where, the passage through the increased-length pore channels formed by alternating holes located in the even and odd plates is cleaned of ferro agnitnyh impurities. The cleaned medium is removed through the pipe 9. The magnitude of the average induction of the magnetic field in the presence of holes in the plates practically does not decrease, because the holes are formed in the places of thickening of even plates, i.e. the ferrometallic concentration is increased, and in odd plates the increased value of induction is reached jumpers. Regeneration of the filter is carried out as follows. The magnetic system 7 is disconnected, the drive shaft is brought to the extreme upper position, while the elastic jumpers 4, "straighten, deform, separate the plastids of the nozzle, mechanically destroying the sediment of trapped impurities and removing the residual magnetization of the plates and jumpers. To intensify this process, the drive provides a vibrating effect, i.e., part of the up and down movement of the shaft. At the same time, a regeneration water-air mixture is passed through the plate nozzle, which flushes trapped impurities into the drainage. The use of a magnetic filter precipitator, in which zigzag plates are made and contain alternating holes located in clear plates in thickened ledges, and in odd plates in hollows, forming pore channels of increased length, containing perforated elastic bridges between adjacent plates, increases the efficiency of the magnetic cleaning process and improves by 10-15% the efficiency of the regeneration process in comparison with the prototype. 1. Magnetic filter precipitator for cleaning liquids and gases, containing a magnetizing system, a housing with a nozzle in the form of zigzag plates, between which jumpers, input and output connections are placed, characterized by the fact that, in order to increase the efficiency of the cleaning process and regeneration, the plates are made with holes in the thickened protrusions of the even plates and in the hollows of the odd ones, and the bridges between the adjacent plates are curved, elastic, perforated, ferromagnetic. 2. The filter precipitator according to claim 1, characterized in that the edges of the holes in the plates are made with a notch. 3. The filter-precipitator according to claim 1, characterized in that the bottom surface of the bridges is made with corrugations. Vida