| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 발포 플라스틱의 폐재를 감용장치 | KR2019910001456 | 1991-01-31 | KR2019930002451Y1 | 1993-05-10 | 우메하라다께시; 이게다도시오; 우라다가즈히사 |
| 22 | Mobile turf infill reclamation system | US13549153 | 2012-07-13 | US09045071B2 | 2015-06-02 | Mark H. Nicholls; Michael A. Hartwell |
| A mobile infill reclamation system comprising a mobile platform configured to be readily moved from a first location to a second location in relatively close proximity to an existing synthetic turf surface, a support structure mounted on the mobile platform, multiple processing components supported by the support structure and configured and arranged to process used infill material from the existing synthetic turf surface, an infill intake supported by the support structure and configured and arranged to receive the used infill material, and an infill output supported by the support structure and configured and arranged to discharge infill material processed by the processing components. | ||||||
| 23 | PLASTIC BOTTLE PROCESSING APPARATUS AND VEHICLE HAVING SAME MOUNTED THEREON | US14538935 | 2014-11-12 | US20150143644A1 | 2015-05-28 | Susumu Yamada |
| A plastic bottle processing apparatus includes: an apparatus body having a conveying path section in which a plastic bottle is conveyed; and a label separating unit arranged in a middle of the conveying path section so as to separate a label from the plastic bottle. The label separating unit includes: a label cutting member that cuts the label of the plastic bottle, which is conveyed in the conveying path section along the axial direction of the plastic bottle; a heating member that heats the label cut by the label cutting member; and a brush member disposed so as to be able to make contact with the label heated by the heating member and remove the label from the plastic bottle body by making contact with the label. | ||||||
| 24 | SYSTEM AND METHOD FOR GPS-BASED REPORT GENERATION | US14340810 | 2014-07-25 | US20150031343A1 | 2015-01-29 | BORIS N. MAMLYUK |
| A system for the global generation, maintenance and distribution of reports of certain conditions in identified locations. The system generates and/or receives reports through an observer's mobile computing device (e.g., cell phone, smart phone, tablet computing device, or wearable computing device) equipped with a GPS receiver and system to ascertain the device's location, and with a camera or video camera to take an image or video of the condition that is being reported. The observer or other user can annotate a location on a computer-based map or mapping system, or otherwise edit information on such a map. | ||||||
| 25 | System and Method of Removing Beads from Tires | US13763409 | 2013-02-08 | US20130205963A1 | 2013-08-15 | Julie K. Prochello; Les Pederson; Dennis Metz; Joe Brehmer |
| A system and method for removes steel beads from large diameter tires by making a series of overlapping punched cuts in a circumferential pattern in the sidewall of the tire around the beads. The punching mechanism is hydraulically operated and remains stationary while a powered roller advances the tire after each successive punching motion until the beads have completely severed from both sidewalls of the OTR tire. The machine is capable of either simultaneously or individually removing both rubber-encased inner beads from the tire. | ||||||
| 26 | MOBILE TURF INFILL RECLAMATION SYSTEM | US13549153 | 2012-07-13 | US20130017023A1 | 2013-01-17 | Mark H. Nicholls; Michael A. Hartwell |
| A mobile infill reclamation system comprising a mobile platform configured to be readily moved from a first location to a second location in relatively close proximity to an existing synthetic turf surface, a support structure mounted on the mobile platform, multiple processing components supported by the support structure and configured and arranged to process used infill material from the existing synthetic turf surface, an infill intake supported by the support structure and configured and arranged to receive the used infill material, and an infill output supported by the support structure and configured and arranged to discharge infill material processed by the processing components. | ||||||
| 27 | Oil Isolation and Decontamination Apparatus | US13063743 | 2009-09-11 | US20110226673A1 | 2011-09-22 | Louis Bilhete |
| There is provided a portable oil isolation and decontamination system comprising a plurality of high heat energy generators that supply high heat energy to an oil isolation and decontamination unit. Each heat energy generator comprises a chamber for gasifying used rubber tires, waste oil, coal or other combustible materials for the production of volatile gases and high energy heat. The oil extractor unit comprises a pair of parallel, elongate rotating cylinders that each rotate within a common closed housing. Oil-rich material such as oilsands, oilshale, contaminated soil or used oil is introduced into one end of each rotating cylinder and is caused to migrate to the opposite end in cascading fashion as the cylinder rotates. High energy heat from the generators is directed at the rotating cylinders to indirectly heat the oil-rich material therein to vaporize the hydrocarbons as the rotating drum migrates the oil-rich material towards its collection end. Vacuum pressure withdraws the vaporized hydrocarbons from the cylinder, and the cleaned sand or other solid material exits the collection end of each rotating cylinder and housing. The vaporized hydrocarbons condense and are collected within a forced-air condenser for recycling. An optional second stage refrigeration unit condenses any residual vaporized hydrocarbons that may be missed by the forced-air condenser. | ||||||
| 28 | Method and apparatus for reusing bituminous products | US12085103 | 2006-11-15 | US07891590B2 | 2011-02-22 | Karsten Rasmussen |
| Method for reusing bituminous products (11), in particular bitumen containing roofing materials and membranes, wherein the bitumen containing products are placed in a second hopper (9), where a particulate material having a grain size between 5 mm and 35 mm is placed in a first hopper (5), and that in the bottom of the second hopper, conveyor means (10) urges the bituminous material into a mixing chamber (8), and that inside said mixing chamber a milling and/or crushing wheel (14) is arranged, which wheel engages and crushes/mills the material transported from the second hopper in an engagement zone, and at the same position as the wheel engages the bituminous material, the particulate material by means of a first conveyor (7) is fed into the engagement zone, and that the wheel's action will fragment the materials and at the same time mix the fragmented bituminous materials and the particulate materials, and transport the material past a sieve (15), where material having a particle size smaller than the sieve size will leave the mixing chamber and be collected and stored in suitable storage means. | ||||||
| 29 | Apparatus for collecting artificial turf for recycling | US12820132 | 2010-06-21 | US20100319510A1 | 2010-12-23 | John H. Bearden |
| A turf collecting machine capable of automatically collecting laid artificial athletic turf, separating the infill and tufted backing components of the collected turf, and then depositing those separated components into separate storage containers is disclosed. The apparatus also includes mechanisms for cleaning the infill particles collected. | ||||||
| 30 | Method and Apparatus for Reusing Bituminous Products | US12085103 | 2006-11-15 | US20090121053A1 | 2009-05-14 | Karsten Rasmussen |
| Method for reusing bituminous products (11), in particular bitumen containing roofing materials and membranes, wherein the bitumen containing products are placed in a second hopper (9), where a particulate material having a grain size between 5 mm and 35 mm is placed in a first hopper (5), and that in the bottom of the second hopper, conveyor means (10) urges the bituminous material into a mixing chamber (8), and that inside said mixing chamber a milling and/or crushing wheel (14) is arranged, which wheel engages and crushes/mills the material transported from the second hopper in an engagement zone, and at the same position as the wheel engages the bituminous material, the particulate material by means of a first conveyor (7) is fed into the engagement zone, and that the wheel's action will fragment the materials and at the same time mix the fragmented bituminous materials and the particulate materials, and transport the material past a sieve (15) , where material having a particle size smaller than the sieve size will leave the mixing chamber and be collected and stored in suitable storage means. | ||||||
| 31 | Plastics recovery system | US10775665 | 2004-02-09 | US07325757B2 | 2008-02-05 | Paul C. Allen; Laurence E. Allen, III. |
| 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. | ||||||
| 32 | Woodwaste recycling apparatus and method | US11286520 | 2005-11-25 | US20070119755A1 | 2007-05-31 | Jimmy Freeman |
| A woodwaste processing trommel apparatus has a rotating trommel for receiving and separating woodwaste by size. An elongated electrode is mounted within the trommel and has a polarized electric charge thereon for attracting plastic pieces having a static electric charge thereon. An elongated vacuum pipe is mounted in the trommel adjacent the electrode for removing plastic pieces clinging to the elongated electrode. An electrode and vacuum nozzle is also placed adjacent the end of the discharge conveyor to further remove plastic particles. A method of removing plastic intermixed with woodwaste in the trommel in accordance with the apparatus is also provided. | ||||||
| 33 | Transportable plastics recovery system | US10775665 | 2004-02-09 | US20040159593A1 | 2004-08-19 | Paul C. Allen; Laurence E. Allen III |
| 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. | ||||||
| 34 | Mobile tire cruncher and method thereof | US09864318 | 2001-05-25 | US20020175233A1 | 2002-11-28 | Matt Friedlander |
| The mobile tire cruncher utilizes a trailer to support a hydraulic press punch and removable die. The press punch and die cooperate with one another to form small chips from used tires. The die is removable so that any shaped chip may be made by using a die with that shape openings. The trailer has wheels so that the trailer may be transported to the site of the used tires. The press punch is powered by a hydraulic cylinder and the trailer supports a power unit for causing movement of the press punch. Hydraulic stabilizers extend from the trailer to support the tire cruncher during use. | ||||||
| 35 | Method of producing molded products from stripped roofing material | US09206223 | 1998-12-07 | US06258877B1 | 2001-07-10 | Vic De Zen |
| A method of converting stripped roofing material into a useful product comprising feeding roofing material removed during repair or reroofing of a building roof into a shredder introducing particles of material from said shredder together with particles of thermoplastic material and a particulate filler material into a high intensity mixer to form a batch of material to be mixed, intensely mixing said batch of material to produce a heated mass of hot particles of roofing material and filler material coated with molten thermoplastic, then molding said heated mass under pressure into a desired end product. The invention also includes products produced utilizing said stripped roofing material. | ||||||
| 36 | Materials size reduction systems and process | US139074 | 1998-08-24 | US6045070A | 2000-04-04 | Ricky W. Davenport |
| A series of solids size reduction systems utilizing variable displacement rotary dispersion and in-line grinder apparatus. The systems include in-feed, and receiving and mixing systems for blending solids with a carrier fluid. The systems include force feeding of the solids and carrier fluids to the grinding apparatus as well as separation and recover of the carrier fluids for recycling. The systems further include pre-shredding and metal removal apparatus. Systems are also disclosed which provide for recovery of ferrous and nonferrous metals, separation of hi/low density solids and further provides for the palletizing of separation solids. Systems and processes are disclosed for the reduction of whole tires or strips and chips to granulated rubber, the portable processing of raw sugar cane, and the processing of drill cuttings for injecting into a well head. | ||||||
| 37 | Machine and method for removing tread material from used motor vehicle tire and producing recyclable buffings | US66084 | 1998-04-24 | US6015105A | 2000-01-18 | John C. Brewer |
| A machine, a method, and an air-cooled cutting brush for removing tread material for recycling from used motor vehicle tires prior to scrapping or retreading without damaging the tire cords and beads. The tread material is removed as fine particles, or buffings, ready for recycling without subsequent sorting out of cloth or metal. A tire is mounted in an upright position on a tire receiving assembly which expands to grip the tire beads. The tire receiving assembly is mounted on a supporting structure which pivots. An elongate, powered, rotating, cutting brush is mounted on a rolling mounting structure which moves the cutting brush into and out of engagement with the tread on the outer, ground-contacting portion and on the sidewalls of a tire. In operation, the tire is rotated as the cutting brush engages the tread material of the ground-contacting portion, the supporting structure is then pivoted to remove the tread material of one sidewall, and repeated on the opposite sidewall. The cutting brush is maintained at a temperature below the melting point of the tread material by radially-extending bristles that are twisted and crimped along their length to allow bristles to abut or engage other bristles and allow air circulation between the bristles and to provide even cutting. The machine can be mounted on a tractor-trailer rig for mobile operation, the cutting brush being powered by an internal combustion engine with the tractor having retractable stabilizer arms and a crane to lift tires. A retractable screw auger deposits removed tread material into a container beside the trailer. | ||||||
| 38 | Mobile tire shredder | US398137 | 1995-03-03 | US5676320A | 1997-10-14 | Paul Merklinger |
| A motor truck for use in collecting and processing solid waste material such as scrap tires. The truck includes a chassis including a cab; a body structure positioned on the chassis behind the cab and defining a storage chamber; a shredder mounted on top of the body structure forwardly of the storage chamber; a compactor positioned within the body structure beneath the shredder and forwardly of the storage chamber; and a conveyor system for conveying tires from a curbside location upwardly for discharge downwardly into the open upper end of the shredder. The shredded tires are discharged downwardly into the body structure rearwardly of the compactor, whereafter the compactor is actuated to stroke rearwardly and compress the tire shreds into the storage chamber. After the truck has visited a series of retail tire outlets and the storage chamber is full of tire shreds, the truck returns to a recycling facility where a door at the rear of the storage chamber is opened and the compactor is utilized as an ejector to eject the tire shreds from the storage chamber. At the recycling facility the tire shreds are processed to form a rubber crumb material and the rubber crumb material is further processed at further processing facilities to form diverse finished products. | ||||||
| 39 | Method and device for preparing plastic waste | US231738 | 1994-04-25 | US5522554A | 1996-06-04 | Reinhard A. Blank; Georg Ranosch |
| For preparing plastic waste composed of different plastics, possibly combined with other materials, for further processing, for example, as additives for construction. A method of the invention comminutes the waste, metals are separated out, the plastic waste is agglomerated, and the agglomerated waste is comminuted further. A device according to the invention for performing the method uses comminution devices, metal separators, and at least one agglomerator. The entire device is completely mobile and equipped with its own power supply. | ||||||
| 40 | Mobile tire shredder | US056320 | 1993-05-03 | US5395061A | 1995-03-07 | Paul Merklinger |
| A motor truck for use in collecting and processing solid waste material such as scrap tires. The truck includes a chassis including a cab; a body structure positioned on the chassis behind the cab and defining a storage chamber; a shredder mounted on top of the body structure forwardly of the storage chamber; a compactor positioned within the body structure beneath the shredder and forwardly of the storage chamber; and a conveyor system for conveying tires from a curbside location upwardly for discharge downwardly into the open upper end of the shredder. The shredded tires are discharged downwardly into the body structure rearwardly of the compactor, whereafter the compactor is actuated to stroke rearwardly and compress the tire shreds into the storage chamber. After the truck has visited a series of retail tire outlets and the storage chamber is full of tire shreds, the truck returns to a recycling center where a door at the rear of the storage chamber is opened and the compactor is utilized as an ejector to eject the tire shreds from the storage chamber. At the recycling center the tire shreds are processed to form a rubber crumb material and the rubber crumb material is combined with scrap plastic to form a rubber/plastic resin compound in pellet form. | ||||||
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