DE2557897A1 - MAGNETIC FILTER - Google Patents

Description

Magnetic filter

The invention relates to a magnetic filter of the type mentioned in the preamble of the claim

It is known that liquids contaminated with suspended particles or dissolved high molecular substances such as resin substances to clean by giving them a ferromagnetic particulate material such as magnetite, iron, cobalt or Hickel, clogs and the ferromagnetic particles together with the impurities separated in a magnetic field It is also known in a corresponding manner to liquids that contain impurities from ferromagnetic particulate material from the start, such as the Coolants from machine tools, such as lathes and drills, “In principle, contaminated gases can also be removed by adding a ferromagnetic particulate material and treatment in one Magnetic field to remove the impurities are cleaned. It is also known to do the cleaning at the same time to use chemical flocculants such as lime, alum, ferric chloride, polyelectrolytes and water glass.

809829 / 055Ö

A magnetic filter is used in the cleaning process described. One such "known filter is from a Number of essentially parallel filter disks built up, lying in radial planes at a distance from one another on one rotatable shaft are attached. The filter disks contain permanent magnets, which are located in the between the filter disks Generate magnetic fields in spaces. The medium to be filtered which contains ferromagnetic particles when entering the filter, passes through the rooms, whereby the impurities on the Walls of the filter discs stick to the »The filter also has a scraper device for wiping off the dirt on the filter disc. ben sticking material. The stripping device can, among other things, consist of endless transport tracks, one of which each goes into a space between the filter panes and which extends into the space outside the filter panes «, Such a stripping device also takes care of the removal

can

of impurities. The stripping device / u ₀ a _{0 can} also be constructed in a finger-like manner, with one finger protruding into each space between the filter disks =

There is a problem with magnetic filters of the type described in that stripped material on the outwardly facing narrow sides of the filter discs between the individual scrapers can set and over these pages when rotating the filter discs to the already filtered Medium is returned and this again contaminated Das

60S829 / 05SO

The problem is particularly severe with such! Filters, with which stripped material is transported past the edges of said narrow sides of the discs.

The present invention is based on the object of further developing a filter of the type mentioned at the outset in such a way that that the sticking of stripped material on the narrow sides of the 3?

To solve this problem, a magnetic filter is used the preamble of the claim proposed, which according to the invention in the characterizing part of the claim features mentioned.

As a result of the measure according to the invention, the peripheral part of the filter discs practically field-free. The peripheral band of ferromagnetic material collects the otherwise the magnetic field lines emerging from the narrow sides of the filter disks. The space outside the narrow sides of the filter panes is magnetically short-circuited by the tape. In addition to soft iron, another material can be used for the tape high magnetic conductivity can be used, such as nickel, cobalt or alloys of iron, nickel and Cobalt.

The invention is to be explained in more detail on the basis of the exemplary embodiment shown in the figures. Show it:

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Fig. 1 schematically shows a filter according to the invention in a representation plane perpendicular to the direction of flow of the medium, wherein the stripping device is not shown,

FIG. 2 shows the filter according to FIG. 1 in a representation plane in the direction of flow of the medium,

3 schematically shows a filter disk of the filter according to FIG Figs. 1 and 2, with one wall partially removed,

Fig. 4 shows a cross section through a part of the filter disc of FIG ₀ 3.

The magnetic filter according to FIGS. 1 and 2 consists of several filter disks 1, each of which has two parallel walls 1a and 1b is constructed, between which permanent magnets are arranged in a manner that is more detailed with reference to FIGS to be discribed. The filter disks are arranged parallel to one another along the shaft 2 of the filter and lie in radial directions Levels. In the case shown, the shaft of the filter consists of a central, larger-diameter part 2a with flanges 2b and 2c and shaft ends 2d and 2e, which are mounted in bearing blocks 3a and 3b. The shaft is driven by a motor 4 via a gear

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2557R97

gear 5 driven. The ones from shaft 2 and those mounted on it The unit consisting of filter disks is in a gutter for the medium, normally contaminated water, to be filtered should be arranged. The inlet of the channel is marked with 7 and its outlet with 8. When passing through the filter the medium is passed through the spaces 9 between the panes 1. Ferromagnetic particles remain with them Adhesive substances that are to be excreted adhere to the walls of the filter discs and follow the rotation of these Walls, which are preferably carried out against the direction of flow of the medium. The filter is provided with a wiper device 10, which consists of endless transport tracks, which in the spaces 9 between the panes and in the columns 11a and 11b are arranged outside the outermost discs. In the case shown, each transport path consists of a belt 12 made of rubber or stainless steel, which encloses the central part 2a of the shaft of the filter and a roller 13 arranged outside the discs. The belt 12 can be driven by the shaft of the filter or by the roller 13 or by the filter shaft and the roller will. When the disks rotate, the material adhering to them is stripped off as the belt 12 passes. The ribbon does not need to be close to the discs, but rather there may be a small amount of play to reduce wear. The material 14 stripped from the belt becomes closed from the belt a collecting container 15 transported. On the roller 13 can a

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simple wipers can be arranged to prevent Material lying on the belt is returned to the filter.

As can be seen from FIGS. 3 and 4, each filter disk 1 consists of two walls 1a and 1b, for example made of stainless steel with a thickness of about 0.5 mm. Permanent magnets made of barium ferrite lie tightly packed between the walls from the shaft opening .17 to the periphery. Instead of the barium ferrite magnets, other ceramic magnets, such as, for example _, those made of strontium ferrite, can be used. In principle it is also possible to use metallic magnets, such as samarium-cobalt magnets. The magnets are attached to the walls with a glue, preferably cold-curing type, such as an epoxy resin glue (eg Araldit AW 106 with hardener HW 953 U from CIBA AG, Switzerland). The magnets are arranged with their magnetic axis (direction of magnetization) perpendicular to the filter disks. The length of the magnets in the direction of magnetization can be, for example, 5-10 mm and their cross-section perpendicular to the direction of magnetization

1 - 5 cm. The magnets are arranged side by side in such a way that their polarity changes constantly. Two Adjacent magnets have on the same side of the filter disc, i.e. always opposite polarity. This creates a maximum magnetic field strength reached

As can also be seen from FIGS. 3 and 4, there is a band 18

6Ό 9829/0550 _ ₇ _

made of soft iron placed outside the magnets furthest from the shaft of the filter. The ribbon is preferably about 2 mm thick. The space between the magnets 16 and the belt 18 is filled with a rubber material 19. A seal 20 made of the same rubber material is also disposed outside the belt 18 between the walls 1a and 1b Rubber material is preferably of the cold-curing type, for example a cold-curing silicone rubber (such as Gurisil from Gurit AG, Switzerland), that hardens in place. The belt 18 makes the peripheral parts of the filter disks field-free and prevents them from becoming the particulate material which the belts 12 have stripped from the filter disks on the edges of the filter disks outside the seals 20 fixes. This also prevents filtered water in the chute 6 during the rotation of the filter discs is contaminated again by particulate matter on the edges of the filter discs.

-8th-

609829/0550

Claims (1)

Patent claim; Magnetic! Filter with a number of essentially parallel filter disks, which lie in radial planes on a rotatable Shaft are fixed at a mutual distance from each other, which spacing spaces allow the passage of the ferromagnetic Particle-containing medium to be filtered are used, with permanent magnets in the filter discs, which create a magnetic PeId generate in the clearance spaces, with a scraper for Particulate matter adhering to the disks, which device is arranged in the spaces between the filter disks and the particulate material stripped from the clearance spaces able to challenge, characterized in that the filter filter disks (1) with a band (8) or the like made of soft iron or another material of high magnetic conductivity, which band (8) outside the radial furthest external permanent magnets (16) run to 609829 / 05SÖ Blank page