SU1421371A1 - Magnetic dust collector - Google Patents

Abstract

The invention relates to dust collection, can be used to clean the air from dust containing ferromagnetic particles, and allows for highly efficient cleaning of dust streams from dust having magnetic susceptibility by using magnetic forces at a constant change in the captured material and blowing it through flow by slowly rotating the non-magnetic casing and leading the rotation of the magnetic system. 3 il.

Description

The invention relates to the field of dust collection in mining facilities and can be used in cleaning the air from dust containing ferromagnetic particles, in particular for separating particles with magnetic susceptibility from aspiration emissions from crushing factories at mining plants.

The aim of the invention is to increase the efficiency of trapping magnetically susceptible impurities and reducing the trapping of non-magnetic particles.

FIG. 1 shows a magnetic dust collector, front view (section A-A in FIG. 2); in fig. 2 shows a section BB in FIG. one; in fig. 3 shows a section B-B in FIG. 1 (disc with reinforced magnets).

The magnetic dust collector consists of a supply air duct 1, body 2, inside of which a magnetic system 4 is fixed on sub-supports 3, a magnetic system 4 consisting of a shaft 5 with an asterisk 6 at the end connected with a chain 7 with an asterisk 8 fixed on the shaft 9 of the gearbox 10 On a coaxial shaft 11 mounted on the support 12, a non-magnetic casing 13 is fixed, consisting of non-magnetic disks 14, for example, stainless steel and non-magnetic sheathing fairings 15 made of an elastic material, such as rubber. At the end of the coaxial shaft 11, an asterisk 16 is fastened, which is connected with an asterisk, 18, mounted on the gearbox shaft 9 by means of a chain 17. Downstream, along the movement of the cleaned flow between adjacent disks 14 of the nonmagnetic casing 13, coaxially fixed scrapers 19 are mounted, which are rigidly they are attached to a dust collecting bin 20. At the bottom of the bunker 20, a dust unloading mechanism 21 is fixed. The rotation of the non-magnetic and magnetic systems is carried out through the gearbox 10 by means of the electric motor 22. The air flow, purified from ferromagnetic particles, is directed through the exhaust gas duct 23 for purification to the standard dust collector. The cellular non-magnetic disk 24 is made of a non-magnetic material, such as a textolite, with a thickness equal to the thickness of the flat magnets 25. To improve the separation of the dust layer in the bunker, part of the disk 24 is not filled with magnets, forming a non-magnetic gap 26.

five

Magnetic dust collector works as follows.

When the electric motor 22 is turned on, through the gearbox 10 and the sprockets 8 and 18, mounted on the shaft 9 using chains 7 and 17, rotation is transmitted to the shaft 5 of the magnetic system 4 and the shaft 11 of the nonmagnetic casing 13. Moreover, the sprocket 6 is smaller in diameter than the sprocket 16, the magnetic system rotates faster than the non-magnetic casing. When applying a dusty stream, ferromagnetic particles under the action of magnetic forces are attracted and deposited on non-magnetic disks 14, due to the advancement of rotation of cellular non-magnetic disks 24 with flat magnets 25 embedded in them 25, the axial layer continuously moves from one magnet to another. In this case, the layer is stirred and the non-magnetic fraction is removed from it due to the constant blowing of this layer with a cleaned air stream. The bed, reaching the scrapers 19, is cleaned in the dust bin 20.

The process of removing the scraped layer is enhanced by the non-magnetic gap 26 on the cellular non-magnetic disk 24. Through the discharge duct 23, the flow is directed to a standard dust collector. The collected material is periodically discharged from the dust collecting bin 20 by means of a dust unloading mechanism 21.

Claims (1)

Formula of invention A magnetic dust collector, including a housing, inlet and outlet ducts, a magnetic system, a nonmagnetic housing mounted for rotation, a rotation mechanism, a hopper for 5 of collecting the captured impurities, characterized in that, in order to increase the efficiency of trapping magnetosensitive impurities and reducing the trapping of non-magnetic particles, the magnetic system is made Q in the form of cellular disks fixed on the common shaft of non-magnetic material with flat permanent magnets fixed in the cells, into a non-magnetic casing is made in the shape that repeats the shape of the magnetic system and is installed 5 is coaxial to the outside of the magnetic system with a gap to its surface, wherein the magnetic system is mounted rotatably in the direction of rotation of the non-magnetic case and ahead of its rotation. fig.Z 15 26