DE141041C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The present invention relates to magnetic ore separators of the type in which movable Magnets the magnetic particles of the freely falling processing material along a continue the fixed non-magnetic surface from the path of the non-magnetic mixture parts.

The subject of the invention differs from the known in that the case and separation space for the good of two opposing solid, non-magnetic Guiding walls is limited, on the outer surfaces of which a row of magnets each along to be led. With this arrangement, the magnetic material becomes from the bottom much more strongly attracted than with the previously known ore separators of this type, because the magnetic ones Lines of force go across the divorce space and thus create an extremely strong magnetic field.

In the drawing, two appropriate embodiments of the subject matter of the invention are shown, namely show:

Fig. Ι such a device in which the separation space of two concentrically arranged Cylinders is delimited,

2 and 3 an embodiment in vertical section and in plan, in which the separation seam is not cylindrical, but rather conical.

In the arrangement according to FIG. 1, the separation space consists of two concentrically arranged cylinders α b. In the space between these cylinders there is a vertical partition c or there are several. The magnets e, which are outside the outer cylinder, and the magnets d, which are inside the inner cylinder, are distributed in such a way that the inner and outer magnets are exactly opposite one another and maintain this mutual position even during the rotation of the magnets. Since the magnetic material hits the partition walls c when the magnetic poles are rotated, it falls down on them, so that it can easily be caught by itself.

The device according to FIGS. 2 and 3 is set up according to the requirements of practical operation. The cylinders α and b are replaced by two fixed, conical shells f and g . The magnetic poles consist of radially arranged arms, the inclination of which corresponds approximately to that of the jackets fg. The polar arms h located inside the jacket f are attached to a hub i which sits on the axis k. The arms h are attached approximately at the same height as the upper edge of the jacket / and extend almost to the lower edge of the same. The outer pole arms / are attached to a hub m arranged below the cone shells on the continuous axis, run upwards and outwards in their lower part, are bent inwards near the lower edge of the outer shell g and approximately in their upper part

directed parallel to the inner pole arms / 2, and that they reach close to the outside of the outer mantle and up to the upper edge of the same. The magnetic poles or arms are arranged in such a way that each inner pole is always exactly opposite an outer pole or arm and this mutual position of the poles is maintained even during the rotation. The power supply to the exciting coil in the interior of the inner shell is effected f through k through the axis designated channel 0. Also, the lower end of the axis k is pierced in the longitudinal direction, and indeed is this bore ρ up with two grooves q, which up to the lower edges of the mantle fg range in connection. At the upper ends of these grooves, two partitions r are provided, which separate the space between the cone shells fg into two parts (Fig. 3).

The magnetic poles rotate in the direction of the arrow (Fig. 3). The magnetic particles of the material are guided by the magnetic poles to the partition walls r and fall along the same into the channels q and out of the device through the bore ρ , while the non-magnetic parts are carried away through the annular channel s, which is open at the bottom.

The magnetic poles or arms do not need to be arranged in planes, as shown in FIG. 3 to become which go through the axis of rotation; rather, there are also other positions of the same permissible.

Likewise, the magnets can be in the form of toothed teeth running around the cone shells Have rings whose teeth are given such a polarity in a known manner that two on different sides of the Opposite teeth located between the cone jackets Form poles.

Claims (4)

Patent Claims: ι. Magnetic ore separator with movable magnets that make the magnetic Particles of the freely falling material to be processed along a stationary non-magnetic Continuing the surface from the path of the non-magnetic mixture parts, characterized in that, that the case and separation space for the good of two opposite one another fixed, non-magnetic baffles is limited, on the outer surfaces of each a row of magnets along to be led. 2. embodiment of the magnetic ore separator according to claim 1, characterized in that that the magnets of the two rows of magnets are opposite each other in pairs. 3. Ausführungsfonn of the magnetic ore separator according to claim 1, characterized in that that the separation space is interrupted by transverse walls on which the magnetic particles of the goods fall. 4. embodiment of the magnetic ore separator according to claim 1, characterized in that that the separating space is formed by two conical shells and that the two are arranged in the shape of a wheel star Rows of magnets are driven by a common shaft laid through the cone axis. 1 sheet of drawings.