DE1090567B - Device for removing small iron particles from ceramic masses and glazes or the like. - Google Patents

Description

The invention relates to a device for removing the in liquid ceramic masses and glazes contained small iron particles.

In the known devices either magnetic iron rods are in the liquid mass flow Immersed, or magnetic filters contain material made of soft iron in the form of rods, perforated in the filter space Sheets, spirals, balls, chips, etc., on whose contact surfaces are affected by magnetic Forces form pole pairs. Screen meshes have also been built into the filter space in such a way that the mesh wires in their longitudinal direction, i.e. perpendicular to the direction of flow of the material to be filtered, between unlike pole plates establish a connection that conducts the magnetic forces, whereby the magnetic poles arise at the points of contact of the wires lying at right angles on top of each other. The filter material the function is assigned to the iron by magnetic poles from the flowing through the free openings To pull out and hold the liquid. These devices are particularly useful for the de-iron removal of liquids in which iron particles are the only solid constituents.

There ceramic masses and glazes made from a mixture of finely ground kaolin, quartz and feldspar exist and water is merely a means of transportation, they are in the crowd and Finely crushed iron particles contained in the glaze as the liquid flows through the filter openings or when flowing past the magnetic poles carried away by the adhering liquid and the pushing and pushing mineral particles, see above that only relatively large iron particles are attracted by the magnetic poles because of the stronger induction and be held. The fine iron dust goes through the openings with the flowing mass and appears on the fired ceramic objects as discoloration that is detrimental to quality or as brownish spots noticeable.

According to the invention, those caused by the flow of the liquid mass and the magnetic Force of attraction counteracting forces while maintaining the advantage of improved quality of broken glass and glaze canceled by the fact that a large number of fine-meshed sieve fabrics made of non-rusting, magnetically conductive material are stacked tightly to form a block. The meshes are alternately laid one on top of the other in such a way that the mesh squares of one mesh are closed the mesh squares of the following fabric are offset by about 45 °. Wire thickness and mesh size the sieve mesh are adapted to the different masses and glazes in such a way that the adhesive force

Removal device

of small iron particles from ceramic

Masses and glazes or the like.

Applicant:

Ernst Zollitsch,
Dresden-A 29, Mobschatzer Str.14B

Ernst Zollitsch, Dresden,
has been named as the inventor

the liquid on the wire surfaces the pressure of gravity the liquid keeps the equilibrium until a further influx of the mass decreases it Overpressure arises, which brings the mass to the drain. According to the embodiment shown in the drawing the magnetic lines of force emerge from the magnets arranged in a ring in the housing 1 2 into the filter chamber perpendicular to the sieve level. Due to the magnetic induction, therefore, arise only on the semicircular elevations of the warp wires 8 pronounced magnetic poles. The passage of the liquid The mass through the sieve block takes place in such a way that it is suspended in the meshes of the fabric 4 Liquid membranes bend slightly downwards under the pressure of gravity and from those below Meshes are picked up. When the mass passes from tissue to tissue, the slides Liquid past the thin wires without vortex formation. On the diagonally from below into the Semicircular warp wires protruding above the liquid membranes create stagnation points. With the small diameter of the wires of 0.1 mm and a little more, the mineral particles slide off the stagnation points. If an iron particle is deposited on a stagnation point 8, which is also a magnetic pole, it remains under the magnetic influence and because of the elimination of disruptive flow forces. So that Any retained iron particles can be removed again, the sieve block is subdivided. The in capsules 5 The sub-blocks housed can be closed from the magnetic force field by means of cylinder 3 remove and clean.

009 610/355

Claims (2)

Patent claims: 1. Device for removing small iron particles from ceramic masses and glazes or the like. Using a magnet, marked is characterized by in screwable capsules (5) located in a cylinder (3) superimposed close-meshed sieve fabric (4) in the interior of the housing (1) a ring-shaped magnet (2) are arranged. 2. Apparatus according to claim 1, characterized in that the mesh squares of one Sieve to the other are offset by 45 °. 1 sheet of drawings