To Classify Or Separate Material Patents (Class 241/19)
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Patent number: 7472853Abstract: Described is a roller mill (1) for grinding particulate material such as cement raw materials, cement clinker and similar materials, said roller mill (1) comprising a housing (3) which surrounds a grinding table (7) which is rotatable about a vertical axis (5), said grinding table being supported via a support (9) by a machine foundation (11), at least one roller (13) rotatable about a substantially stationary axis (12), said roller being configured for interaction with the grinding table (7) and an electric motor (15), which comprises a rotor (16) which is firmly connected to the grinding table (7) and a stator (17). The roller mill is peculiar in that the stator (17) constitutes an integral part of the support (9) for the grinding table (7), so that at least some of the load imposed by the at least one roller (13) on the grinding table (7) is transmitted via the stator (17) to the machine foundation (11).Type: GrantFiled: June 12, 2006Date of Patent: January 6, 2009Assignee: FLSMIDTH A/SInventor: Luis Petersen
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Publication number: 20080296417Abstract: Disclosed is an aggregate recycling apparatus having an air circulation type foreign substance and fine particle separation means which directs a blast of air, circulated in a dry state, toward waste having passed through a crushing process immediately after the crushing of the waste and removes fine particles and foreign substances using a cyclone, thereby removing dust generated in the course of separating and screening the waste, and a method thereof. The aggregate recycling apparatus includes a crushing device for crashing waste, an air circulation type fine particle and foreign substance separation device for directing re-circulated air to crushed products received from the crushing device, scattering fine particles and foreign substances and collecting dust in a cyclone, an air conveyor for conveying crushed products deprived of the fine particles and foreign substances, and a double vibration screen for screening the crushed products received from the air conveyor.Type: ApplicationFiled: May 13, 2008Publication date: December 4, 2008Inventor: Jang-Yong Kim
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Publication number: 20080265068Abstract: A method for industrial production of especially fine powders and mineral powders, where the material to be ground is mixed to a gas-solid matter suspension, which through acceleration nozzles (12) is led at least to two counter jets, which meet in grinding chamber (13) for further grinding of the powders. The ground gas-solid matter suspension is led in its turn by means of working gas at least to two intermediate containers (2a);(2b) in the grinding circulation, in which containers the gas is removed from the mixture and into intermediate container (2) a certain quantity of solid matter is collected, which quantity is returned to be ground and led to the other container (2) and the said quantity is circulated through the grinding process among intermediate containers (2a);(2b) until in some container the quality is established sufficient for removal off the process.Type: ApplicationFiled: November 20, 2006Publication date: October 30, 2008Inventors: Jouko Niemi, Jarkko Tamminen
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Patent number: 7441716Abstract: A closed circuit, dry processing system for processing aluminum containing products and producing reusable particles of aluminum, and a process thereof. The aluminum containing products are crushed into chips which are then separated into iron-based and ironless chips. The ironless chips are further crushed into chip fragments which are controllably supplied into a granulation chamber where the chip fragments are granulated into spheroidal particles of aluminum and other particles of organic and carbonic materials. A controlled upward airflow produced in the granulation chamber draws those of the particles exceeding a desired granulation degree out of the granulation chamber. The particles are classified as a function of their sizes and then separated as a function of their weight so that the spheroidal particles of aluminum forming the reusable particles of aluminum and residues formed by the other particles are released separately.Type: GrantFiled: January 22, 2007Date of Patent: October 28, 2008Inventors: Emile Arseneault, Andre Simard
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Patent number: 7438244Abstract: An apparatus and method for separating contaminated plastic material from various types of contaminants, including paper, includes a grinder for reducing the size of the contaminated plastic material to a reduced size of pieces and an eductor for receiving the pieces of contaminated plastic material from the grinder. The eductor has a nozzle portion at one end for producing a turbulent flow of compressed air and an intermediate portion with a mixing chamber for receiving the turbulent flow of air and the reduced size of pieces whereby the pieces are pulled into the eductor by the compressed air flow and the contaminants are separated from the plastic.Type: GrantFiled: May 3, 2006Date of Patent: October 21, 2008Assignee: Environ Solutions IncorproatedInventors: Timothy C. Rozema, James W. Trent
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Publication number: 20080197219Abstract: A method for recycling comprises a pulverization step (S1) of pulverizing thermoplastic resin molded articles, each having a different softening point in a resin substrate and having a metal part and a coupling film, a metal-material selection-removal step (S3) of selecting and removing a metal material from pulverized pieces, a pulverized resin-material selection step (S5) of selecting a target pulverized resin material for recycling by allowing the pulverized pieces from which the pulverized metal material has been removed to drop and by ejecting gas towards either one of the target pulverized resin material and a non-target pulverized resin material for changing a drop direction thereof, and a coating-film peeling step (S7) of peeling the coating film from the resin substrate by applying a shearing force to the target pulverized resin material under the softening point of the resin substrate of the target pulverized resin material for recycling.Type: ApplicationFiled: January 14, 2008Publication date: August 21, 2008Applicant: Mazda Motor CorporationInventors: Kenji MORIWAKI, Takahiro TOCHIOKA
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Publication number: 20080185463Abstract: The method of converting nepheline syenite particulate feedstock with a grain size profile to an ultra-fine grain finish product for subsequent commercial use, the ultra-fine grain final product has a maximum grain size of less than about 6 microns.Type: ApplicationFiled: January 22, 2008Publication date: August 7, 2008Inventors: Louis M. Schlesinger, Mauricio Duran Sanchez, Gerardo Hernandez Gonzalez, Artemio Gonzalez Acevedo
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Publication number: 20080173739Abstract: A process for milling amorphous solids using a milling apparatus can result in particles having a median particle diameter d50 of <1.5 ?m. The process includes: operating a mill in a milling phase with an operating medium selected from the group consisting of gas, vapor, steam, a gas containing steam and mixtures thereof, and heating a milling chamber in a heat-up phase before the actual operation with the operating medium in such a way that a temperature in the milling chamber, the mill exit or both, is higher than a dew point of the operating medium.Type: ApplicationFiled: October 16, 2007Publication date: July 24, 2008Applicant: EVONIK DEGUSSA GmbHInventors: Karl Meier, Ulrich Brinkmann, Christian Panz, Doris Misselich, Christian Goetz
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Patent number: 7380735Abstract: A process for preparing extremely small RPET particles comprises proving a quantity of RPET flakes, increasing the crystallinity of the RPET flakes, separating a portion of the RPET flakes having the lowest particle density from the remainder of the RPET flakes, and comminuting the remaining RPET flakes, to prepare RPET particles having an average mean particle size less than 500 microns.Type: GrantFiled: March 12, 2004Date of Patent: June 3, 2008Assignee: Phoenix Technologies International, LLCInventors: Donald W. Hayward, Daniel L. Witham
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Publication number: 20080116118Abstract: Blending methods for adding and uniformly mixing a small fraction of relatively small particles (additives) to a bulk particulate powder of larger size than the additives. In particular, the present invention provides blending methods for adding and uniformly mixing a small percentage of flow/fluidization additives into fine powders, especially fine paint powders. The fine powder and additives are first pre-mixed for macro-scale homogeneity and then further mixed at a micro-scale (such as with a screen mixing process) for micro-scale homogeneity. With these methods, optimum dispersions and maximum functionalities of additives can be obtained and the disadvantages caused by severe agglomerates of additives can be avoided.Type: ApplicationFiled: November 20, 2006Publication date: May 22, 2008Inventors: Jingxu Zhu, Hui Zhang
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Patent number: 7325757Abstract: A transportable system for separating materials in a waste stream. An arrangement of separation and grinding devices is mounted on a transportable platform. The devices are configured and arranged to produce three or more product streams from a plastic-rich feed mixture. One of the product streams is a coarse heavy stream, one stream is a ground plastic-rich product stream, and one stream is a ground light material stream. The system can be transported to a waste-goods location, operated to separate waste-goods, and relocated a new location.Type: GrantFiled: February 9, 2004Date of Patent: February 5, 2008Assignee: MBA Polymers, Inc.Inventors: Paul C. Allen, Laurence E. Allen, III.
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Patent number: 7264185Abstract: The invention provides a dry grinding system including grinding means for dry-grinding a material to be ground; first classification means for classifying a ground product obtained through the grinding means, into fine powder having a relatively small average particle size and coarse powder having a relatively large average particle size; second classification means for further classifying the coarse powder obtained through the first classification means, into find powder having a relatively small average particle size and coarse powder having a relatively large average particle size; and returning means for returning to the grinding means the coarse powder obtained through the second classification means. The invention enables production of a powder product having a desired average particle size at high efficiency.Type: GrantFiled: June 9, 2006Date of Patent: September 4, 2007Assignee: Showa Denko K.K.Inventors: Shinichiro Tomikawa, Hirokazu Miyazawa
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Patent number: 7264184Abstract: The invention provides methods for separating outer birch bark from inner birch bark. The invention also provides methods for isolating betulin; lupeol; betulinic acid; 9,10-epoxy-18-hydroxyoctadecanoic acid; 9,10,18-trihydroxyoctadecanoic acid; polyphenolic polymers and fatty acids from birch bark.Type: GrantFiled: October 14, 2004Date of Patent: September 4, 2007Assignee: Regents of the University of MinnesotaInventors: Pavel A. Krasutsky, Robert M. Carlson, Vitaliy V. Nesterenko, Igor V. Kolomitsyn, Chris F. Edwardson
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Patent number: 7252250Abstract: The invention provides a method and apparatus for recycling toner cartridges. A shredder breaks up the toner cartridges into pieces, thereby releasing any toner from within the otherwise substantially sealed cartridges. The toner pieces along with any free toner powder are then fed through a separation stage including a mechanical separator and a trommel separator. Each separator employs a sifting screen, which allows smaller particles to fall through the screen while holding back the larger pieces. Both separators agitate the pieces to mobilize the smaller particles. A vacuum extraction system is used to withdraw air from around the cartridge pieces and an air ionizer is included for feeding ionized air into the apparatus to reduce any static electronic charge buildup. The toner is then removed from the extracted air by a dust collector.Type: GrantFiled: June 13, 2003Date of Patent: August 7, 2007Assignee: Close The Loop Technologies PtyInventors: Stephen Morriss, Graham Badman, Jim Badman
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Patent number: 7175115Abstract: A new method and concept for the recovery of valuable materials from solid waste and the conversion of organic solid waste and sewage into crude oil, gas, usable elemental solids and water uses a two step process, solid waste reduction and an organic fusion process. Two resources are used in the Waste Resource Process, solid waste (municipal garbage) and waste water (municipal sewage). Waste water goes directly into the Organic Fusion Process. Solid waste requires processing for removal of non-organic products and preparation of the organics that are used in the Organic Fusion Process. Solid waste organics used in the Organic Fusion Process include, plastics, papers, food and yard waste, organic construction debris, waste oils, many household and commercial chemicals; anything with a hydrocarbon molecular structure.Type: GrantFiled: January 20, 2006Date of Patent: February 13, 2007Inventor: Carl Gali
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Patent number: 7134619Abstract: A method of separating and processing a catalyst carrier that is contained in a processing object that includes a catalyst carrier metal cover to which an exhaust gas pipe is still connected, magnetic carrier foil or a ceramic carrier, a surface-enlarging coating film provided on the magnetic carrier foil or the ceramic carrier, and the catalyst carrier containing precious metal. This method includes the steps of: crushing the catalyst carrier and the metal cover to which the exhaust gas pipe is still connected, using a first crusher of a shearing type; breaking the catalyst carrier containing precious metal from the metal cover, using an impact-type pulverizer; and separating the catalyst carrier containing precious metals from the exhaust gas pipe and the metal cover, using a separator.Type: GrantFiled: February 5, 2004Date of Patent: November 14, 2006Assignee: Nippon Mining & Metals Co., Ltd.Inventors: Koji Soe, Shigeo Katsura, Shingo Matsumoto
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Patent number: 7118054Abstract: A pressure differential material transport system to transfer materials with an airflow to a sewer system. Embodiments of the pressure differential material transport system may be used for residential or industrial applications to dispose of materials to the sewer or to a comminutor to reduce the size of materials prior to disposal.Type: GrantFiled: June 5, 2002Date of Patent: October 10, 2006Assignee: Tommin Enterprises, LLCInventor: Richard Timothy Grimes
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Patent number: 7070131Abstract: A white pozzolan derived from by-products of manufacturing vitreous low alkali, low iron glass fibers, and to the method for producing the white pozzolan. The invention relates as well to cement compositions based on the white pozzolan, such as white and pigmented blended pozzolanic cements of high durability for use in applications such as white or colored architectural concrete, building materials, and manufactured cementitious products. The white pozzolan also functions as a high performance pozzolan with grey cement.Type: GrantFiled: June 21, 2004Date of Patent: July 4, 2006Assignee: Albacem LLCInventors: Raymond T. Hemmings, Robert D. Nelson, Philip L. Graves, Bruce J. Cornelius
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Patent number: 7021572Abstract: The invention relates to a method for warm dehulling soya and other bean fruits and for subsequently grinding them, as well as to corresponding installation. The invention can simplify the process and the design of the installation. To this end, the fruits and heated/conditioned, double-ground, individualized on a baffle plate and the hulls are removed.Type: GrantFiled: February 27, 2003Date of Patent: April 4, 2006Assignee: Buhler AGInventors: Christian Heeb, Urs V. Keller
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Patent number: 7018509Abstract: This invention relates to an improved process for manufacturing bleached thermomechanical aspen pulp having reduced yellow after treatment with aluminum based chemicals such as alum which are used in paper making processes. In this improved process the pulp is washed prior to, after or between the bleaching stages or a combination of the foregoing.Type: GrantFiled: August 31, 2002Date of Patent: March 28, 2006Assignee: International Paper Co.Inventors: Robin R. Kilgannon, Robert J. Kane, Eileen M. Joy, Anil K. Dewan
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Patent number: 7007873Abstract: The invention relates to a process for disintegrating compressed bales of coarse, fiberlike, natural or synthetic materials, especially straw bales, and transporting the disintegrated materials to further processing. Bales often contain foreign objects which the invention removes from disintegrated bale material by moving the material disintegrated from the compressed bales to a feeding and collecting auger and sucking off the portions of natural or synthetic fiber intended for further processing from the feeding and collecting auger, while the contaminants collected are moved on by the feeding and collecting auger and discharged.Type: GrantFiled: March 31, 2004Date of Patent: March 7, 2006Assignee: mst-Maschinenbau GmbHInventors: Joachim Meyer, Frank Stöver
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Patent number: 6974097Abstract: A method for recovering fuel substance and providing an alternative periodic cover material for landfills by separating materials in a salvage operation. A non-sorted material stream including metallic and non-metallic components, which preferably includes automobile scrap, is fed to a shredder. After shredding, the non-sorted material stream is separated. The non-sorted material stream is first separated into two streams, namely, a heavy material stream and a light material stream. The heavy material stream is conveyed to a magnetic separator where ferrous metals are separated from non-ferrous materials. The light material stream is passed under a cross belt magnetic separator where the light ferrous metals are separated. The remaining light material stream is further separated to remove non-ferrous metal material. The remaining non-metallic material can be used as a fuel substance or as a cover material for landfills.Type: GrantFiled: June 13, 2003Date of Patent: December 13, 2005Inventors: Jonathan L. Simon, James R. Clark
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Patent number: 6832736Abstract: In a collecting method and a collecting apparatus for collecting foaming gas generated from foaming heat insulator material, as well as in a processing process and apparatus of disposals, disposals 1 including the foaming heat insulator material 5 are charged into a first and a second crushing machines 3 and 17 for separating the foaming gas contained in the foaming heat insulator material 5 thereof, and the separated foaming gas is collected by a collector 29, wherein measurement is made on the concentration of flammable gas separated, so as to control the charging of the disposals 1 and the foaming heat insulator material 5 into the first and second crushing machines 3 and 17, depending upon that concentration measured, thereby collecting the foaming gas with high efficiency, while controlling the concentration of the flammable gas, appropriately and with ease, and an charge amount thereof to be charged, appropriately, depending upon the concentration of that flammable gas contained therein.Type: GrantFiled: February 8, 2001Date of Patent: December 21, 2004Assignee: Hitachi, Ltd.Inventors: Tetsurou Miyamoto, Kanji Fujimori, Eiji Satou, Masakatsu Hayashi, Chihiro Fukumoto
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Patent number: 6817556Abstract: A method for breaking down used materials or items, particularly wooden or motor-vehicle items, into reusable components with the use of fractionating tools, with which the accelerated parts of used material interact. The breakdown is effected selectively through impacts, deformation tension, bending stress, friction and/or shearing, with the shape and arrangement of the fractionating tools being set and/or matched to the structure and size of the used feed materials and/or the obtained recycled material.Type: GrantFiled: April 24, 2002Date of Patent: November 16, 2004Inventor: Rolf Hesch
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Patent number: 6786437Abstract: A method and apparatus for comminuting and drying material utilizing a closed-loop cyclonic system including a cyclonic comminution chamber, and further incorporating heated or dried air for desiccation of the material, as well as reducing the air pressure of the system to provide enhanced drying of the material. The present invention further contemplates to a cyclonic mill system configured to fiberize and dewater cellulose and other materials in a highly efficient and cost effective manner. The present system employs indirect heat drying and fiberizing for the continuous drying and processing of moist cellulose (i.e., bagasse, paper, etc) material by cyclonically agitating same in a hot air flow via a specially designed cyclonic mill, which is configured to effectively dewater and decimate wet cellulose material from a variety of sources for form fiberized cellulose material suitable for thermal insulation or other products.Type: GrantFiled: May 24, 2002Date of Patent: September 7, 2004Inventor: Harris J. Ribardi
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Patent number: 6783088Abstract: A method of producing glass as an abrasive media for cutting materials includes the steps of providing a glass feed stock and reducing the glass feed stock in size to produce glass particles with a high angularity and low aspect ratio. The method also includes the step of classifying the glass particles to remove at least one of coarses and fines. The method further includes the steps of size classifying the glass particles to produce an abrasive media with a predetermined size classification for use in abrasivejet cutting of materials.Type: GrantFiled: February 27, 2002Date of Patent: August 31, 2004Inventors: James Murray Gillis, Jiann-Yang Hwang
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Publication number: 20040094641Abstract: A method and apparatus for breaking down pieces of material into smaller pieces and for separating out different substances making up the material, one of the substances being a fibrous textile and another being metal, comprising the steps of subjecting the pieces to a series of dismemberments to produce progressively smaller pieces falling within a predetermined size range; separating the smaller pieces into a plurality of fractions, each fraction including pieces within a predetermined size range; and subjecting each fraction to a flow of air calibrated to cause separation of the fibrous textile material from the pieces.Type: ApplicationFiled: November 18, 2002Publication date: May 20, 2004Inventor: Christopher Chen
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Patent number: 6715705Abstract: An improved two-stage comminuting and dehydrating system is efficient, environmentally sound, and may be employed to process sticky materials. The system includes a pair of cyclone structures for comminuting and dehydrating. Injection ports are positioned for injection of viscid substances directly into the low pressure region of each cone. The secondary cyclone structure is equipped with a lower exit port. A single blower is coupled with the cyclone structures to form an air flow loop from the primary cone bottom to the secondary cone top and from the secondary cone top to the primary cone top. Airflow for cycling material between the cones is controlled by feedback from moisture and particle size monitoring devices in a collection unit coupled with the secondary cone.Type: GrantFiled: December 5, 2002Date of Patent: April 6, 2004Inventor: Frank F. Rowley, Jr.
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Patent number: 6691939Abstract: A pressure differential material transport system to transfer materials with an airflow to a sewer system. Embodiments of the pressure differential material transport system may be used for residential or industrial applications to dispose of materials to the sewer or to a comminutor to reduce the size of materials prior to disposal.Type: GrantFiled: June 5, 2002Date of Patent: February 17, 2004Assignee: Tommin Enterprises, LLCInventor: Richard T. Grimes
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Patent number: 6685116Abstract: A crushing apparatus is provided for crushing a printed circuit board on which electronic components are mounted into pieces of a size ranging from a few to ten centimeters square and separating some of the components and sheathed wires from the printed circuit board. The crushing apparatus comprises a rotor 3 having a substantially conical or truncated conical projected center 6 mounted at the center of rotation thereof, a plurality of extensions 3a thereof extending from the conical projected center 6 radially and horizontally, and studs 3 and 4 mounted on the extensions 3a thereof. A drive motor 8 is provided for rotating the rotor 3, a cylindrical case 1 accommodates the rotor 3 therein, and a plurality of studs 2 mounted are on the inner side of the cylindrical case 1.Type: GrantFiled: May 8, 2001Date of Patent: February 3, 2004Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Takao Hisazumi, Takeshi Uemura, Nobuo Terada, Yoshiaki Furuya, Shoichi Irie, Kaoru Shimizu, Norio Hirata
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Patent number: 6682005Abstract: Raw material containing precious metals and heavy minerals is introduced into a comminuting chamber. The raw material falls onto rotating chains which drive the material against the side wall of the chamber with sufficient velocity to cause the raw material to fracture. Air flows upwardly at the side wall and classifies the particles into a first fraction which falls to the floor of the chamber and a second fraction which is carried upward to a trommel. Large particles from the trommel are recycled to the chamber while fines are discarded as tailings. The rate of upward flow of air in the chamber, the rate of rotation of the chains and the size of particles separated by the trommel are all adjusted in order to ensure that the particles that collect on the floor of the chamber are rich in precious metals and heavy minerals.Type: GrantFiled: April 19, 2002Date of Patent: January 27, 2004Assignee: First American Scientific Corp.Inventors: Calvin Leslie Kantonen, John Brian Nichole, Robert Salter
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Publication number: 20030213859Abstract: A method for recovering fuel substance and providing an alternative periodic cover material for landfills by separating materials in a salvage operation. A non-sorted material stream including metallic and non-metallic components, which preferably includes automobile scrap, is fed to a shredder. After shredding, the non-sorted material stream is separated. The non-sorted material stream is first separated into two streams, namely, a heavy material stream and a light material stream. The heavy material stream is conveyed to a magnetic separator where ferrous metals are separated from non-ferrous materials. The light material stream is passed under a cross belt magnetic separator where the light ferrous metals are separated. The remaining light material stream is further separated to remove non-ferrous metal material. The remaining non-metallic material can be used as a fuel substance or as a cover material for landfills.Type: ApplicationFiled: June 13, 2003Publication date: November 20, 2003Inventors: Jonathon L. Simon, James R. Clark
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Patent number: 6648251Abstract: The invention relates to a device for disaggregating pieces of derived timber products from cellulose and/or lignocel-lulose-containing products, especially particle boards, medium-density fiber boards and the like, with a transport device and at least one disaggregation container. The inventive device is also characterized in that the disaggregation container and the transport device are configured as at least one common densifier screw (1) with a housing-mounted outer shell and a driven shaft located therein. The shaft is provided with helices of a predefined pitch. The pieces of derived timber products are transported in the axial direction of the densifier screw (1) from a feed opening in the outer shell towards an outlet opening on the front side thereof in the axial direction (direction of transport). A feed opening (7) for vapor is provided in the outer shell between the inlet opening and the outlet opening.Type: GrantFiled: January 7, 2002Date of Patent: November 18, 2003Assignee: Pfleiderer AGInventor: Patrick Chollet
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Patent number: 6634575Abstract: The invention provides methods for separating outer birch bark from inner birch bark. The invention also provides methods for isolating betulin; lupeol; betulinic acid; 9,10-epoxy-18-hydroxyoctadecanoic acid; 9,10,18-trihydroxyoctadecanoic acid; polyphenolic polymers and fatty acids from birch bark.Type: GrantFiled: August 23, 2001Date of Patent: October 21, 2003Assignee: Regents of the University of MinnesotaInventors: Pavel A. Krasutsky, Robert M. Carlson, Vitaliy V. Nesterenko, Igor M. Kolomitsyn, Chris F. Edwardson
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Patent number: 6634574Abstract: A low-fiber method for obtaining a fiber material (21) that is suitable for use as a raw material for insulation purposes, for the production of fiber mattresses or as a filing or padding material, from the fruits of poplars, willows, composites or similar plants. The closed fruits of said plants are dried and/or opened using an air flow and agitated in a treatment chamber (17), whereby the fiber material (21) contained in the fruit capsules (19) is substantially separated from the other constituent parts of said fruits.Type: GrantFiled: February 5, 2001Date of Patent: October 21, 2003Inventor: Jens-Gerrit Eisfeld
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Patent number: 6588686Abstract: Malleable material, such as manure, and municipal sludge, food waste, and the like, is dried and the average particle size of the material is reduced in a simple and effective manner without the use of an external heat source. The material with a first moisture content and average particle size is fed into an air stream, and the speed of the air flow with entrained particles is increased so that it is super-colonic, typically have a bullet profile with a substantially zero velocity at the periphery of the air flow and a velocity of about 400-500 mph at the center of the air flow. The material is then caused to be reduced in particle size by material to material collisions in one or more cyclone-shaped vessels with retention air-affecting inlets at bottom portions thereof, and the speed of the air flow with entrained material is ultimately reduced so that substantially the entire flow is below super-colonic speed.Type: GrantFiled: December 4, 2002Date of Patent: July 8, 2003Assignee: GulfTex Environmental Services LLCInventors: H. Clay Dingee, IV, David Watson, John E. Teague
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Patent number: 6586151Abstract: A toner manufacturing method includes grinding and classification to produce a toner containing a binder resin and a colorant with a weight mean particle size of 5 microns to 12 microns and sharp particle density distribution. The toner has a specific circularity, relationship between cut ratio and weight mean size, and relationship between circularity and weight mean size as disclosed in the specification.Type: GrantFiled: October 6, 2000Date of Patent: July 1, 2003Assignee: Canon Kabushiki KaishaInventors: Takeshi Naka, Yuichi Mizoo, Satoshi Matsunaga, Masami Azuma, Takashige Kasuya, Tadashi Dojo, Tsuneo Nakanishi, Nene Shibayama, Katsuhisa Yamazaki, Yusuke Hasegawa
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Patent number: 6581858Abstract: Components of crushed fluorescent lamps are conveyed pneumatically from a lamp crusher housing to a cyclonic hopper and enter tangentially into the hopper adjacent its upper end. The components include heavy glass particles and caps which are allowed to drop by gravity into a separator housing where they are separated from each other and discharged into different storage containers. Lighter glass particles and dust are recirculated from the upper end of the hopper back to the crusher housing. A vacuum source draws dust and vapors pneumatically from the bottom of the hopper and introduces them tangentially into a cyclone filter housing where particulate matter is allowed to drop into a dust collector. This vacuum source also draws lighter dust and vapors from the upper end of the cyclone filter housing to a dust and mercury filter. Mounted in the crusher housing is a paddle element which rotates adjacent lamp crusher blades and mechanically sweeps lamp components towards the crusher housing outlet.Type: GrantFiled: September 5, 2000Date of Patent: June 24, 2003Assignee: Dextrite, Inc.Inventors: Joseph W. Deklerow, Otto Muller-Girard
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Patent number: 6568612Abstract: A waste disposal apparatus comprising a crushing means for crushing waste including a circuit board into fragments, and a circuit board sorting means for sorting fragments of the circuit board from the fragments of the waste crushed by the crushing means through eddy current sorting or gravity concentration so as overcome a difficulty in separation between nonferrous metals. With this arrangement, lead contained in the circuit boards can be sorted and separated without being diffused, and further, the volume of fragments of the circuit boards adapted to be mingled into fragments of other waste such as nonferrous metals and plastics can be decreased. Thus, even though waste including circuit board is directly crushed by the crushing means, thereby it is possible to enhance the quality of recovered valuables.Type: GrantFiled: June 27, 2000Date of Patent: May 27, 2003Assignee: Hitachi, Ltd.Inventors: Toshiyuki Aoki, Masakatsu Hayashi, Tsutomu Hasegawa
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Publication number: 20030080223Abstract: Malleable material, such as manure, and municipal sludge, food waste, and the like, is dried and the average particle size of the material is reduced in a simple and effective manner without the use of an external heat source. The material with a first moisture content and average particle size is fed into an air stream, and the speed of the air flow with entrained particles is increased so that it is super-cyclonic, typically have a bullet profile with a substantially zero velocity at the periphery of the air flow and a velocity of about 400-500 mph at the center of the air flow. The material is then caused to be reduced in particle size by material to material collisions in one or more cyclone-shaped vessels with retention air-affecting inlets at bottom portions thereof, and the speed of the air flow with entrained material is ultimately reduced so that substantially the entire flow is below super-cyclonic speed.Type: ApplicationFiled: December 4, 2002Publication date: May 1, 2003Applicant: GulfTex Environmental Services LLC.Inventors: H. Clay Dingee, David Watson, John E. Teague
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Patent number: 6543709Abstract: The invention relates to a classifying mill with a housing configured for containing a stream of particulate material. A particulate material feed inlet is associated with the housing for introducing the particulate material into the housing. A milling assembly is disposed within the housing and configured for grinding the particulate material into fines and oversize particles. A classifier comprising a classifier rotor is disposed within the housing and below the milling assembly. A fines output at the underside of the classifier is configured for extracting the fines from the classifier, and an oversize particle collector at the underside of the classifier is configured for extracting the oversize particles from the housing. The classifying mill is arranged such that the particulate material stream extends downward from the feed inlet, through the milling assembly, and subsequently through the classifier.Type: GrantFiled: August 9, 2001Date of Patent: April 8, 2003Assignee: Hosokawa Micron Powder SystemsInventors: Ching-Chung Huang, Robin T. Voorhees
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Patent number: 6530534Abstract: Apparatus and method of comminuting materials are provided. In one embodiment, the comminution/drying apparatus comprises a comminution/drying cyclone having an input and an output, a blower having a blower output connected to the input of the comminution/drying cyclone, a material feed connected to the input of the comminution/drying cyclone, and a separation cyclone having an inlet connected to the output of the comminution/drying cyclone, the separation cyclone having a material discharge and an air outlet. In another embodiment, the comminution apparatus comprises a comminution cyclone having an input and an output, a blower having a blower output connected to the input of the comminution cyclone, a material feed connected to the input of the comminution cyclone, and a wet filtration system having an inlet, a material discharge and an air exhaust, the inlet of the wet filtration system connected to the output of the comminution cyclone.Type: GrantFiled: September 13, 2000Date of Patent: March 11, 2003Inventor: Bobby Joe Farmer
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Patent number: 6527206Abstract: A method for processing mixed waste in a continuously operating processing plant comprising a plurality of successive stations which are connected to each other by means of at least one conveyor segment and wherein the mixed waste material is processed in at least one step of the inventive method and/or conveyed along at least one conveyor section, whereby the particles in the stream of mixed waste are accelerated at least in one transfer site between a conveyor section or one transfer site between two conveyor sections. Also disclosed is a processing plant for implementing said method and buffer silos which are used in the plant.Type: GrantFiled: October 2, 2000Date of Patent: March 4, 2003Assignee: “der Gruene Punkt”, Duales System Deutschland AGInventors: Alfons Wuebbels, Josef Koetting
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Patent number: 6506311Abstract: A wet material treatment apparatus includes an inlet hopper for introducing the wet material into the apparatus. The hopper feeds the wet material into an injector auger that physically directs the wet material into a high velocity air stream produced by a blower thereby directing the flow of the wet material through the apparatus. The wet material moves from the injector auger into a cyclone that separates the wet material through specific gravity and desiccation into a substantially liquid and a substantially solid portion. The substantially liquid portion is discharged through a first outlet in the cyclone to a wet scrubber, while the substantially solid portion of the wet material is discharged through a second outlet. The apparatus can be mounted to a trailer for mobile transportation, and can include two cyclones operating in series.Type: GrantFiled: March 5, 2001Date of Patent: January 14, 2003Assignee: Global Resource Recovery OrganizationInventors: Richard DeGarmo, Stan Gibson, Loran Balvanz
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Publication number: 20020179751Abstract: Raw material containing precious metals and heavy minerals is introduced into a comminuting chamber. The raw material falls onto rotating chains which drive the material against the side wall of the chamber with sufficient velocity to cause the raw material to fracture. Air flows upwardly at the side wall and classifies the particles into a first fraction which falls to the floor of the chamber and a second fraction which is carried upward to a trommel. Large particles from the trommel are recycled to the chamber while fines are discarded as tailings. The rate of upward flow of air in the chamber, the rate of rotation of the chains and the size of particles separated by the trommel are all adjusted in order to ensure that the particles that collect on the floor of the chamber are rich in precious metals and heavy minerals.Type: ApplicationFiled: April 19, 2002Publication date: December 5, 2002Inventors: Calvin Leslie Kantonen, John Brian Nichole, Robert Salter
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Publication number: 20020170989Abstract: A method for breaking down used materials or items, particularly wooden or motor-vehicle items, into reusable components with the use of fractionating tools, with which the accelerated parts of used material interact. The breakdown is effected selectively through impacts, deformation tension, bending stress, friction and/or shearing, with the shape and arrangement of the fractionating tools being set and/or matched to the structure and size of the used feed materials and/or the obtained recycled material.Type: ApplicationFiled: April 24, 2002Publication date: November 21, 2002Inventor: Rolf Hesch
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Patent number: 6460788Abstract: The invention concerns a method for separating all categories of polymer materials derived from waste characterised by successive steps and phases, implemented in the following order: sequentially, a grinding step is followed by a cylindrical drum form factor mechanical separation step, which is followed by a first density separation step in parallel steps, followed by energetic cleaning of the polymer materials and ending with a second density separation step in parallel steps. Said polymer materials can, if required, be extruded. The method enables to obtain different categories of polymer materials, and in particular PE, PP, PS, ABS, PP filled at 20 to 40% with PA, PMMA, Xenoy™, PVC.Type: GrantFiled: July 18, 2000Date of Patent: October 8, 2002Assignee: Galloo Plastics S.A.Inventor: Hugues de Feraudy
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Patent number: 6446886Abstract: A method for producing glass sands including the steps of crushing glass articles to convert them into fine fragments so as to form glass fragments, then agitating finely crushed glass fragments to eliminate sharp portions while at the same time forming glass fragments into glass sands with a predetermined granular configuration, then sieving foreign materials which have been entrapped into glass sands formed in a granular configuration, while at the same time sorting out glass sands according to their grain sizes.Type: GrantFiled: January 5, 2001Date of Patent: September 10, 2002Assignee: Kaneto Co., Ltd.Inventor: Yoshinori Harada
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Patent number: 6435431Abstract: A powderizing assembly includes a product line for receiving product sized powderized material from a powderizing mill, and a purger assembly for receiving non-product sized material from the mill. Non-product sized material is periodically removed from the mill and fed to the purger. The purger assembly includes a purge line in parallel with the product line for receiving material from the mill. The purge line includes a cyclone separator and a filter. A first valve is operable to direct material from the mill to one of the product line or the purge line. The first valve and a second valve are operable to isolate the product line from the purge line.Type: GrantFiled: May 8, 2000Date of Patent: August 20, 2002Assignee: Sturtevant, Inc.Inventors: William Chapman, Jr., Anthony Schepis
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Publication number: 20020092938Abstract: The invention relates to a classifying mill with a housing configured for containing a stream of particulate material. A particulate material feed inlet is associated with the housing for introducing the particulate material into the housing. A milling assembly is disposed within the housing and configured for grinding the particulate material into fines and oversize particles. A classifier comprising a classifier rotor is disposed within the housing and below the milling assembly. A fines output at the underside of the classifier is configured for extracting the fines from the classifier, and an oversize particle collector at the underside of the classifier is configured for extracting the oversize particles from the housing. The classifying mill is arranged such that the particulate material stream extends downward from the feed inlet, through the milling assembly, and subsequently through the classifier.Type: ApplicationFiled: August 9, 2001Publication date: July 18, 2002Inventors: Ching-Chung Huang, Robin T. Voorhees