DE971949C - Magnetic roller separator - Google Patents

Description

The invention relates to a per se known waken magnetic separator with between the Palschulhen arranged full roller for excreting ferromagnetic ^ especially weak magnetizable parts from bulk materials of all kinds, z. B. from pulpy, liquid, gaseous or powdery Media of different consistency.

According to the invention, the roller magnetic separator is characterized in that the one pole piece as rotatable hollow roller is formed and that the magnet system of two opposing each other polarized permanent magnet rod groups, one of which is within the hollow roller Equally polar on the soft iron back yoke part connected to the stationary second pole piece a two-part, the magnetic rod groups connecting soft iron back yoke body is arranged is.

On automatic roll cutters, as it is also the subject of the present invention, are mainly electromagnetic separators have become known, those between fixed pole pieces have one or more ferromagnetic roller discharge bodies, the pole faces of which on both Sides of the air gap for the passage of goods through the outer surface of thick-walled rollers or full rollers are formed.

In contrast to the electrical separators, according to the invention, the interaction a rotating pole piece with a discharge body a new type of permanent magnet Effect achieved in the movement of the between

Äustragskkörper and pole shoe extending magnetic field consists, the moving magnetic field a Loosening of the ferromagnetic, especially the weakly magnetic components in the too causing the separating medium, as a result - the separation of these parts from the downdraft is significantly improved.

This novel magnetic effect is also based on a strong, but mainly strict, one ίο aligned magnetic field that is created between the rotating bodies comes that the magnet system has a rear blot body connecting its poles on one side. The course of the lines of force is therefore related to the expansion area of the magnetic poles and the direction of magnetization limited, so that losses due to scattering are eliminated and the Magnetic force is practically completely used.

Such a magnetic field cannot be obtained with electromagnetic separators because it is heated the coils through which the current flows on the one hand and because of the lack of a return path body on the other hand, uncontrollable shifts and scattering occur in the magnetic field, which the Weaken the power flow of the electric separator, on the other hand affect the zero zone, so that captured Parts do not come to separation. In addition to electromagnetic separators are also permanent magnetic become known, which have magnetic systems in drums and on the Generate lifting magnetic circles on the roller surface. These are often very extensive far from the roller surface, which aims to achieve a deep effect in the material to be separated. In the immediate vicinity of the roll surface, the magnetic fields are relatively strong, they loosen up with the distance from the roller surface and lose by too strong Scattering or loosening their magnetic force.

For the separation of larger iron parts, these separators have proven themselves in practice, but not in the separation of finer or very finest iron particles, mainly from pulpy, pulpy ones or from liquid as well as from heavily contaminated gaseous media. For the elimination Iron parts that are weakly magnetizable are by no means satisfactory with any of the previously known separators Results have been obtained, suggesting the above-described lack of excessive loosening the magnetic fields.

In contrast, the measure according to the invention consists in reducing the magnetic fields of a separator, in particular to concentrate those further away from the separator surface.

This is achieved, among other things, in that the separator receives a back nut body, which the parts belonging to the separator's magnetic system for a return of the magnetic ones Lines of force connect with each other. The yoke body gives the separator a high degree of demagnetization as well as magnetic scatter resistance.

At the same time, a high magnetic field density is achieved in the working air gap, which is particularly important in the Separation of weakly magnetizable parts at least one influencing of the shape of these parts an angular deflection ensures.

In the drawing, various exemplary embodiments of the separator according to the invention are shown, namely shows

Fig. Ι a longitudinal section through the cutting device along the line AB of Fig. 2,

FIG. 2 shows a plan view of the cutting device and FIG. 3 shows a longitudinal section through a cutting device different embodiment.

According to FIGS. 1 and 2, the cutting device consists of a magnet system with two magnet rod groups. Both groups are connected via the yoke body ι and exist of individual permanent magnet rods 2. In one group, the permanent magnet rods 2 are on a magnet carrier 3, which in turn is fastened on an axis 4. Magnet carrier and axle can also consist of one piece for manufacturing reasons. The axis 4 is at rest in bearing bodies 5, 6, which are pushed onto the yoke body ι. This magnetic stick group is according to the invention by a hollow roller 7 rotatably mounted on the axis 4 made of ferromagnetic Surrounding material, which in the effect of a rotating pole piece this group running around. To prevent a magnetic return path between the hollow roller 7 and the axle 4 consist the end walls of the hollow roller 7 made of magnetically non-conductive material. The other The magnet rod group of the magnet system rests on the one hand on the rear nut body 1 and on the other hand a pole piece 8 firmly. Between this pole piece and the hollow roller 7 is also in Rückeblußkörper mounted full roller 9 is provided, which rotates in the opposite direction to Hollow roller is driven via chain wheels 16, 17. The groups of magnetic rods are aligned with opposite polarity, d. that is, the one left group has an N polarity and the other right group has an S polarity. As a result, a magnetic circuit is created, starting from the two magnet groups, that is in the return of the magnetic lines of force through the axis 4 and through the yoke body 1 completely closed and over the solid roller 9 to the two circumferential sides at small distances is open. The gap 10 formed between the pole shoe 8 and the solid roller 9 is smaller in its width held as the gap 11 between solid roller 9 and hollow roller 7, whereby the magnetic field is more strongly oriented towards the solid roller 9 and in the Air gap 11 removes the ferromagnetic parts of the material to be separated mainly from the solid roller 9 be attracted. iao

By changing the distance between the solid roller 9 and the hollow roller 7, the magnetic Reduce or enlarge the air gap 11 and thus the flow area and the strength regulate the magnetic field.

Such an adjustment, each after

the media, but especially the magnetic influence of the particles to be separated directs, z. B. be achieved when the resting in the bearing bodies 5, 6 ends of the Yoke body 1 can be pulled further outwards and locked in this position.

The separator works as follows:
The material to be separated is introduced into the working air gap 11 while the solid roller 9 and the hollow roller 7 rotate in the opposite direction. Under the influence of the strongly and tightly directed magnetic blocking field, which runs through the above-described force according to the invention in the gap 11, the magnetizable components in the separating material initially experience a strong inhibition in their movements and then orientate themselves predominantly to the solid roller 9, from which they are caught and when the magnetic neutral zone is reached below the roller 9 they drop again. The ferromagnetic parts that may adhere to the hollow roller 7 also drop below the hollow roller 7, since this is magnetic only in the area of the gap 11.

During the rotation of the hollow roller 7, this causes a slight, especially for the separation favorable movement of the lines of force in the magnetic field.

If there is an even greater movement due to the diversity of the media to be separated of the magnetic field should be desired, this can be achieved if the effect of the Hollow roller 7 partially canceled as a pole shoe and a hollow roller 7 known per se, consisting of Parts of magnetically conductive and magnetically non-conductive material is used.

The material can have the shape of rods that form a hollow roller 7 parallel to the axis be put together progressively. When such a hollow roller revolves around the magnet rod groups the magnetic lines of force pass through the magnetically conductive parts more strongly and through the magnetically non-conductive parts weaker in the gap 11, which a continuous movement of the Magnetic field.

Another possibility to reduce the separation effect of the To improve cutting device is given when on the rotating bodies 7, 9, preferably on the surface of the solid roller 9, according to FIG. 3, both radially and axially in uniform Tooth-like or pimple-like elevations 12 are attached, which deeper into the lines of force let the gap between the bodies 7, 9 enter and thus act directly into the material to be separated. At the same time, these protruding parts are suitable for loosening up that falling through the air gap 11 Good, especially if it is very powdery? Media acts as a result Often caked moisture. The fixed pole piece 8 is in this embodiment Provide with recesses 13 through which the above Sliding parts through.

If the magnetic rods are extended accordingly, the polishing shoes can no longer be used.

Magnet blocks can also be used instead of the individual magnet bars.

If the magnet system is not covered by pole pieces, it is advisable to use sheet metal cladding 15 made of non-magnetic material to be provided.

The described embodiments of the separator can, without the inventive idea to leave, also be redesigned in such a way that the yoke body 1 is not horizontal, but vertical to the rotating bodies. In this embodiment, however, for the Storage of the body special consoles are provided to maintain the Magnetic yoke to be attached to the yoke body 1. The task of the separated material would be through a slot opening in the upper, directly above the gap 11 Rückschiußteil 1 take place.

Claims (9)

Patent claims: 1. Roller magnetic separator with discharge body for separating ferromagnetic parts, especially weakly magnetizable parts from bulk materials of all kinds and from pulpy, liquid, gaseous or powdered media of various consistencies, characterized in that one discharge body is designed as a rotatable pole piece (7) and that the magnet system consists of two oppositely polarized permanent magnet rod groups (2) , of which one group within the pole piece (7) is homopolar on its axis (4) and the other group is also equipolar on the soft iron back connected to the stationary second pole shoe (8) ioo final part (1) of a two-part, the magnetic rod groups connecting soft iron back yoke body is arranged. 2. Scbeidgerät according to claim 1, characterized characterized in that the one part of the soft iron back yoke (1) through the axis (4) of the rotating pole piece (7) is formed. 3. Cutting device according to claim 1, characterized characterized in that the rotating pole piece (7) consists of parts of magnetically conductive and magnetically non-conductive material. 4. Cutting device according to claim 1, characterized in that instead of individual magnetic bars (2) Block magnets are provided. 5. Cutting device according to claims 1 and 4, characterized in that the on the Soft iron back yoke body (1) arranged with magnet bars (2) at their free poles a fixed pole shoe (8) are provided, which the rounding of the discharge body (9) is adapted. 6. Cutting device according to claims 1 and 2, characterized in that the axis (4) of the Poleohuhes (7) in bearing bodies (5, 6) rests on the soft iron yoke body (1) are slidably arranged. 7 · separating device according to claims ι to 6, characterized in that the air gap (io) between the discharge body (9) and fixed pole piece (8) is kept smaller than the gap (11) between the discharge body (9) and pole piece (7). 8. sheath device according to claims 1 to 7, characterized in that the Austragskörper (9) is provided arranged dental and pimple-like ferromagnetic elevations (12) on the surface with radially and axially. 9. Cutting device according to claims 1 to 8, characterized in that the soft iron yoke body (1) is arranged vertically to the discharge body (9) and for the mounting of the discharge body (9) or the pole piece (7) brackets are provided, which are magnetically connected to the yoke body (1). Considered publications:
German Patent Nos. 827 1S1, 732 133, 323, 578 394, 395 825; German Auslegeschrift No. 1 009 571; French Patent No. 726813;
U.S. Patents Nos. 2,177,809, 2,088,364, ι 068 453. 1 sheet of drawings Q 809 785 / »4.59