Abstract: An installation for clear separation in one cycle of a conglomerate of different metals into individual material components. The installation involves the conglomerate of different metals being comminuted in a machine for producing a homogeneous mixture of metals and being transported to a feeding device. The conglomerate is transported to a highly magnetic rotating drum that separates ferrous-magnetic materials together with fluff and then conveys remaining nonferrous materials to a slowly running conveyor belt, underneath the conveyor belt, slowly rotating discs are mounted in a row that carry on their outer surface area a plurality of permanent magnets of an alternating pol direction. The nonferrous materials include particles that are stripped into a collection bin.

Abstract: A method for separating biological materials and other substances is disclosed, wherein a mixture containing desired and undesired components are exposed to magnetic particles having ligands capable of binding to the desired and/or the undesired components to form a magnetic mixture, placing the magnetic mixture onto a substrate material; exposing the substrate coated with the magnetic mixture to a magnetic field of sufficient strength to cause the magnetic components to migrate across the substrate; and repeatedly increasing and decreasing the magnetic field in a pulsing manner with a frequency sufficient to cause the desired magnetic components to separate spatially from the undesired magnetic components. A device for separating biological materials capable of being operated to increase and decrease magnetic field in a pulse fashion is also disclosed.

Abstract: A method is provided for depositing a spatially fine pattern of magnets on a substrate. The substrate can be fabricated from any number of materials, such as plastics, metals or ceramics. When sufficiently magnetized, the magnets will provide a magnetic field that can be sensed by a magnetic proximity sensor, to determine the position of the magnets. The magnets can be arranged in a plurality of patterns, including radial or linear arrangements. The ability to arrange these magnets in varying patterns provides a wide capability of magnetic sensing applications.

Abstract: Apparatus is disclosed for separating magnetic particles in suspension in a liquid contained in a reaction vessel of the type used in an automatic apparatus for processing biological samples. The apparatus comprises a rotatable carrier holding an array of magnet elements positioned on the carrier at different distances from the rotation axis of the carrier and at different azimuth angles. The carrier and the array of magnet elements can be positioned at a plurality of predetermined angular positions and heights.

Abstract: An improved magnet configuration of the magnet field generated by the magnetic roller in a magnetic separator to increase the separation capability of magnetic separators includes disc shaped magnets forming a magnetic roller beneath a Kevlar.TM. belt upon which withdrawn catalyst is placed. Catalyst particles having paramagnetic and/or ferromagnetic properties are attracted to the belt because of the influence of the magnetic field. Particles not having ferromagnetic and/or paramagnetic properties are carried further by momentum than those with the ferromagnetic and/or paramagnetic properties. The magnetic roller provides a concentrated magnetic field by placing a series of disc magnets arranged so that like poles face each other with spacers placed between the magnets. In this stacked configuration the magnetic field strength is doubled, which permits a greater range of operation of the speed at which the belt may be operated.

Abstract: Optimized utilization of combinations of fluid catalyst magnetic separator, classifier, and/or attriter can be used to achieve lower catalyst cost, and better catalyst activity and selectivity through control of metal-on-catalyst, particle size and particle size distribution. This process is especially useful when processing high metal-containing feedstocks. This provides a catalyst recovery unit (RCU.TM.) ancillary to an FCC or similar unit.

Abstract: An apparatus and method provide automated collection and transfer of particles from a liquid suspension to a glass slide for visual examination. A magnet is positioned adjacent to a solution which contains particles tagged with magnetic beads, for example cells, so that the magnetic particles flow toward the magnet and collect against a collection surface positioned between the particles and the magnet. A transfer mechanism applies a selected pressure to a second side of the collection surface for transferring collected cells to a viewing slide. The apparatus includes a device for dispersing the liquid suspension of particles prior to the collection process and for collecting particles against the collection surface with a spatial distribution advantageous for visual examination. The transfer operation maintains this spatial distribution.

Abstract: An apparatus for separating non-ferrous metal particles from residue composed of rubber, dirt, wood, plastic, glass, an the like, as well as the non-ferrous metal particles. The residue is transported by a conveyor belt over a pair of rotating magnetic separating discs which generate a magnetic field flux upward. This magnetic field flux induces an eddy current in the non-ferrous metal particles. The eddy current is a repulsive force to the magnetic field flux, which enables the non-ferrous metal particles to be levitated above the conveyor belt and the other residue material. The rotation of the field accelerates the particles off the side of the conveyor belt, into discharge chutes which collect the separated particles for recycling. The other residue material is collected at the end of the conveyor belt.

Abstract: A foreign material removing device for removing foreign materials from a developer for use in electrophotography and a development apparatus including such a foreign material removing device removes foreign materials from the developer employed in the development apparatus by conveying developer to and from a separator, the separator having a rotating disk of magnets for conveying and separating by conveying the developer and allowing the foreign material to fall into a container.

Abstract: A method is described for separating a mixture of flat metal alloy particles in which the particles of one alloy are generally smaller and less conductive than the particles of another alloy, e.g. a scrap mixture of aluminum-lithium alloy and other wrought aluminum alloys. In this method, the scrap mixture is thermally pretreated and then crushed into relatively flat particles, such that the aluminum-lithium alloy is fragmented into smaller particle sizes than the otehr wrought alloys. These particles are then physically separated based on differences in particle size, density and/or electric conductivity. For instance, the separation may be done by an eddy current separator or a dense media separator.

Abstract: A magnetic separator comprising a rotatable drum including an axis of rotation and a periphery comprising a plurality of magnet blocks. The magnet blocks are mounted and arranged as circular rings about the axis of rotation. The ith magnet block is magnetized in a predetermined direction defined by .psi..sub.i =-n.rho..sub.i where n is a positive number and .phi..sub.i is an angle described by a line from the center of gravity of the ith block to the axis of rotation and a predetermine radius vector. The spacing between neighboring centers of gravity of the magnetic blocks, expressed as a sector angle, is smaller than or equal to about .pi./2 (n+1).

Abstract: A magnetic can separator where a supply device drops crushed cans onto a mechanism that includes a non-magnetic separator disc positioned by a shaft for permitting rotation of the disc at a controlled speed, a plurality of magnetic members secured to the under surface of the disc for attracting magnetic cans and retaining them on the disc, and a guide secured adjacent to and above the top surface of the disc to engage any articles thereon and extending generally radially of the disc offset from its center to engage cans or articles on the upper surface of the disc and as the disc is rotated, the crushed cans are progressively stripped from the upper surface of the disc by the guide whereas the non-magnetic cans are thrown circumferentially from the disc substantially immediately upon deposit thereon. The separator disc can be positioned at an angle of up to about 50 degrees to the horizontal for improved operation.

Abstract: A magnetic separator has a support defining an upright axis, two stationary pole pieces spaced from and around the axis on the support, and a stationary inner ferromagnetic piece extending between the pole pieces and axially bridging same. This inner piece defines with the outer pieces respective angularly offset separation gaps. Means is provided, normally in the form of coils, for energizing the pole pieces and thereby creating a magnetic field extending radially across the gaps and through the inner piece. An annular rotor centered on the axis extends through the gaps. This rotor is formed of an endless angular succession of groups of nonradially extending and spaced-apart rotor elements. It is rotated about the axis to orbit the groups of rotor elements through the gaps and particulate material including magnetically attractable particles is fed axially down through the rotor as it rotates. Particles are then washed from the elements at a location angularly offset from the gaps.

Abstract: A system for separating glass particles from a mixture containing magnetic materials and glass, which system comprises a completely enclosed apparatus which protects against pollution by harmful silica dust and avoids excessive abrasion of conveying mechanism by utilization of pneumatic impulse feed devices whereby mixed particles are transported from a pressure vessel to one of a series of magnetic roller separators and further including dust separation or air cleaner means whereby substantially only glass and magnetic particles to be separated are introduced into the magnetic separators.

Abstract: Apparatus for removing magnetic articles from a flow of loosely packed material containing a mixture of magnetic articles and non-magnetic articles having a rotatable elongated support shaft, a plurality of metal plates coaxially aligned in spaced parallel relationship with each other and coaxially aligned with and mounted on the elongated support shaft and rotatable therewith and wherein each of the metal plates extend substantially vertically outwardly from the elongated support shaft and by the material flow or by the elongated support shaft and a plurality of magnetic members coaxially aligned with and mounted on the elongated support shaft and located in the spaces between the metal plates wherein the magnetic members each extend substantially vertically outwardly from the support shaft and have a periphery which is spaced a predetermined distance from the periphery of the metal plates and wherein each magnetic member is formed of a magnetic material having a magnetic flux density of sufficient magnitude

Abstract: A method and apparatus is disclosed for cleaning magnetic material attracted to a ferromagnetic matrix within a separating chamber of a magnetic separator. The magnetic material retained by the matrix is cleaned in a high pressure cleaning stage in which both a liquid medium and a gaseous medium are provided under pressure to clean the magnetic material. As the gaseous medium passes through the matrix, it does so with a pressure drop which is substantially lower than that of the liquid passing through the matrix. Consequently, as the gaseous medium expands, it transfers a portion of its kinetic energy to the liquid which provides improved and more rapid cleaning effects than known rinsing steps.

Abstract: Permanent magnetic separators for liquids to be purified which comprise one or more ferromagnetic catch and discharge bodies for the impurities contained in the liquid, which impurities are removed by means of at least one stripper from the effective adhesive surface, wherein said catch and discharge body or bodies is polarized from the outside, said catch and discharge body or bodies consisting of two bowl-shaped rotary bodies placed opposite each other and separated by an operating gap, and at least one of said catch and discharge bodies is positioned rotatably between two pole shoes placed opposite each other of at least one magnetic yoke. Additional features and particular embodiments include, among others, juxtaposed pairs of the catch and discharge bodies and switching units for effecting shorting of the magnetic lines of force.

Abstract: A magnetic field is established in a predetermined zone. A quantity of fluid, from which native magnetizable particles are to be separated, is passed through the predetermined zone; and, at the same time, a magnetizable material is passed through the predetermined zone in the same direction as the fluid, so that native magnetizable particles are attracted to the magnetizable material.

Abstract: Apparatus and method for magnetic separation. A magnetic field is established in a first zone by a magnet. Fluid containing magnetizable particles is passed through a separating chamber disposed in the first zone. The separating chamber comprises a rigid elongate canister having an inlet and an outlet for fluid, at least two fluid-permeable partitions dividing the space within the canister into several compartments, each of which extends substantially the full length of the canister, and a packing of magnetizable material disposed between the partitions. The form and disposition of the canister, the partitions and the packing material is such that the fluid flows from the inlet, through the packing material in a direction transverse to the axis of the canister, to the outlet, and the linear velocity of the fluid decreases as it passes through the packing material. As the fluid passes through the separating chamber, magnetizable particles within the fluid are magnetized and attracted to the packing material.

Abstract: Suspended contaminated particles are removed by magnetic separation from a liquid containing ferromagnetic particulate material to which the particles adhere. A plurality of radially extending filter discs are provided on a horizontally disposed rotatable shaft for rotation therewith, the liquid being directed toward the discs and through gaps provided therebetween. Permanent magnets are provided on the discs for producing local magnetic field gradients in the gaps, and the discs have non-magnetic portions outwardly of the magnets along the periphery of the discs. The particulate material is scraped from the discs which adhere thereto when the liquid passes the gaps, and the scraped material is moved outwardly of the discs.

Abstract: A filter disc for a magnetic separator is formed of two wall discs having a layer of permanent magnets arranged between them and in contact with each other. The permanent magnets have holes therethrough and have cut-away corners. The magnets are adhered to the wall discs by glue which enters the openings between and within the permanent magnets.

Abstract: A quantitative magnetic separator and method for isolating non-magnetic particles from contaminated magnetic powder mixtures to determine the relative purity of magnetic powder. The separation is effected by restraining the powder mixture below a relatively moving magnetic field which agitates the magnetic particles and allows the non-magnetic particles to disengage and free-fall by gravity into a receiver for subsequent measurement of the degree of contamination.

Abstract: A device for use in separating magnetically attractable particles from a stream of liquid in which they are entrained, and segregating the separated particles in a confined space. The separated particles may be periodically discharged from the confined space into a suitable container without interrupting the flow of stream of liquid. A window in the device permits the user to visually observe the separated particles moving by gravity from the stream of liquid to the confined space.

Abstract: A magnetic matrix separator for selectively separating diverse particles subjects the particles to the interaction of vibratory and magnetic forces induced conjointly by the application of an intensified intermittent or alternating magnetic flux to the matrix. Continuous, dual separating actions are obtained with a flexibly mounted circular matrix structure caused to rotate with respect to the pole faces of a pair of U-shaped electromagnets. Use of a systematic arrangement of uniformly shaped matrix components facilitate rapid processing of the particles for separation.

Abstract: A magnetic separator for removing contaminations from a liquid to which a ferromagnetic particulate material has been added is formed of a plurality of discs arranged along a shaft parallel to each other with spaces therebetween, the bottom parts of which dip into a container for the liquid. The discs contain permanent magnets of substantial coercive field strength over at least the greater part of their areas. The ferromagnetic material and contaminants carried thereby are scraped off the surface of the discs by belts which surround the shaft and which extend outside the discs to discharge the material scraped off of the discs.

Abstract: A high intensity field magnetic separator for separating materials of different magnetic properties, in which the materials to be separated from each other are during the movement of containers comprising induction poles and containing the materials to be separated passed through high intensity magnetic fields which are induced in the interior of coreless magnetic coils.