| 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 | Seed cotton module handler and trash separator | US496828 | 1995-06-29 | US5765694A | 1998-06-16 | Billy Joe Blalock; Danny Hugh Harrell |
| An infeed conveyor feeds seed cotton modules successively to a feeder head having disperser drums which reduce the modules to clumps of cotton. Incorporated into the conveyor are fluted rollers and beater rollers which cooperate to agitate the bottom portion of the modules and work the fibers on the bottom of each module so as to stretch and relax these fibers, thereby causing the sand, dirt, mud, trash and other debris accumulated along the bottom of the modules to be released. A conveyor feeds this debris to a hopper. Further, after the cotton modules have been dispersed into clumps of cotton by disperser drums in a feeder head and the clumps deposited in a clump chamber, a trough having a sieve means receives the clumps of cotton. In the trough, a conveyor disposed in the trough urges the clumps of cotton in a lateral direction toward an air separator box adjacent the feeder head. The movement of the cotton in the trough allows sand, dirt and other debris released from the clumps of cotton to pass through the sieve means in the trough. The clumps of cotton removed from the feeder head are introduced into an air separator box where additional contaminants are removed from the dispersed cotton prior to delivery to a cotton gin. | ||||||
| 22 | Wool and other fiber drying machine. | US1911660197 | 1911-11-14 | US1032713A | 1912-07-16 | SOWDEN ARTHUR |
| 23 | METHOD AND DEVICE FOR PROCESSING OF FILTER MATERIAL, PRODUCT OBTAINED THEREOF | EP17713426.9 | 2017-01-15 | EP3402913A1 | 2018-11-21 | Cesko, Vladimír |
| Filter material, mainly in form of industrial remnants from the production of the filter fillings, is processed without the intake of the heat in such a way that it is cut in the disintegrator (4) at the presence of the air, where the material is during retention time repeatedly led to the contact with the rotating blades and bunches emerge in the disintegrator (4) through aeration. The flat carrier (3) is thus at least partially disintegrated to the original fibers (1); the released fibers (1) intertwine into bunches and the active carbon (2) is released from the original bond with the flat carrier (3). The swirl (vortex) created inside the disintegrator (4) carries the dust particles of the active carbon (2) and they adhere to the surface of the fibers (1). Part of the released active carbon (2) is - after the separation - carried away from the emergin bunches, which in the lower part of the disintegrator (4) run through the sieve out of the disintegrator (4). The resulting product is advantageously applicable as heat and noise isolation in all fields of technology, for example construction. The separated active carbon (2) in form of granules is also a resulting product of processing. | ||||||
| 24 | VORRICHTUNG ZUM AUFTRENNEN TEXTILER FASERBÜNDEL | EP10803344.0 | 2010-11-25 | EP2643505B1 | 2015-02-25 | LÜTZKENDORF, Renate; ORTLEPP, Gerald |
| 25 | GROWING MEDIUM AND MULCH FIBER OPENING APPARATUS | EP15815634.9 | 2015-06-29 | EP3161195A1 | 2017-05-03 | SPITTLE, Kevin Scott; BOWERS, Gary Lane |
| A compressed growing medium or mulch fiber opener comprising at least one set of adjacent rotating members, the rotating members having a surface and including at least one wire wound around at least a portion of the surface, wherein the wire includes a plurality of projections engaging compressed or partially opened growing medium or mulch fiber, and wherein a distance between the adjacent rotating members is sufficiently small to create at least one pinch point between the adjacent rotating members, the adjacent rotating members separating the fibers as the fibers pass through the at least one pinch point so that the density of the fiber is lowered by at least 50-95%. | ||||||
| 26 | VORRICHTUNG ZUM AUFTRENNEN TEXTILER FASERBÜNDEL | EP10803344.0 | 2010-11-25 | EP2643505A1 | 2013-10-02 | LÜTZKENDORF, Renate; ORTLEPP, Gerald |
| The invention relates to a device for mechanically splitting finite textile fiber bundles, comprising n individual fibers (n ≥ 2) in fiber bundles having less than n individual fibers and/or individual fibers, characterized in that in a milling chamber that is sealed off from the outside and that has one or more dead spaces of at least 10% of the milling chamber volume and in which one or more rotating impact elements operate in a non-cutting manner and so as to reduce load peaks and at a rotational speed that can be adapted to the material but that is at least 200/min, the material is adjustably input in different amounts in batches, treated for an adjustable duration, and then discharged from the milling chamber. | ||||||
| 27 | Device for undoing textile fiber bundles | US13882994 | 2010-11-25 | US08904604B2 | 2014-12-09 | Renate Lützkendorf; Gerald Ortlepp |
| Device for mechanically splitting finite textile fiber bundles, comprising n individual fibers (n≧2) in fiber bundles having less than n individual fibers and/or individual fibers, characterized in that in a milling chamber that is closed off from the outside and that has one or more dead spaces of at least 10% of the milling chamber volume and in which one or more rotating striking elements operate in a non-cutting manner and so as to reduce load peaks and at a rotational speed that can be adapted to the material but that is at least 200 r.p.m., the material is adjustably input in different amounts in batches, treated for an adjustable duration, and then discharged again from the milling chamber. | ||||||
| 28 | PROCESS FOR MAKING BAMBOO FIBERFILL AND ARTICLES THEREOF | US12257053 | 2008-10-23 | US20090101294A1 | 2009-04-23 | Jordan Bradley Young |
| A process for producing bamboo fiberfill from raw bamboo fiber includes, obtaining a bale of the raw bamboo fiber, picking up and separating the raw bamboo bale fiber into tufts of bamboo fiber with a bale opener, feeding the bamboo fiber tufts into a blending hopper configured to blend the bamboo fiber tufts, feeding the blended bamboo fiber tufts into a beater configured to open the bamboo fiber tufts, and feeding the opened bamboo fiber tufts into a fine opener configured to reduce the size of the opened bamboo fiber tufts and refine the opened bamboo fiber tufts into the bamboo fiberfill, wherein the bamboo fiberfill has a fiber length of about 30 millimeters to about 60 millimeters and a linear density of about 0.5 denier to about 5.0 denier. | ||||||
| 29 | Seed cotton module handler with trash separator | US388260 | 1995-02-13 | US5537809A | 1996-07-23 | Billy J. Blalock |
| An infeed conveyor feeds seed cotton modules successively to a feeder head having disperser drums which reduce the modules to clumps of cotton. Incorporated into the conveyor are fluted rollers and beater rollers which cooperate to agitate the bottom portion of the modules and work the fibers on the bottom of each module so as to stretch and relax these fibers, thereby causing the sand, dirt, mud, trash and other debris accumulated along the bottom of the modules to be released. A conveyor feeds this debris to a hopper. | ||||||
| 30 | Method of stripping pulp bales and a machine therefor | US903302 | 1978-05-05 | US4193169A | 1980-03-18 | Carl F. S. Olsson |
| A method and an apparatus is disclosed for a coarse defibering of pulp bales with tools that work over the entire cross section of the bales in such a way that the tools strike against the feeding direction of the bales and lifts the fibers out of the bale. | ||||||
| 31 | Module feeding apparatus | US697938 | 1976-06-21 | US4109875A | 1978-08-29 | Jose G. Condarco; John E. McClesky; Pedro Condarco; Charles V. Brown |
| Module reclaim apparatus comprising a housing open at the bottom and an end and movable over a stack of seed cotton or other fibrous modules. The housing carries a descending series of pronged feeder rollers near one end which release fibers from the adjacent end of the module and throw same onto a transversely traveling conveyor for ultimate delivery, for instance, to the gin equipment. A rotary sweeper returns escaped fibers to the feeder rollers and a novel jacking system provides for adjusting the vertical positioning and levelling of the housing. A door at the forward end of the housing moves against the rear end of the module when the fibrous remnant is too thin to be self-supporting. | ||||||
| 32 | Bale breaker | US77832847 | 1947-10-07 | US2636220A | 1953-04-28 | LYALL JOHN D |
| 33 | 직물 섬유 묶음을 풀기 위한 장치 | KR1020137012655 | 2010-11-25 | KR1020130133189A | 2013-12-06 | 뤼츠켄도르프레나트; 오트렙제라르드 |
| 본발명은, n(n ≥ 2)개의개별섬유를포함하는유한한직물섬유묶음을, n개보다적은개별섬유를가진섬유묶음으로및/또는개별섬유로기계식으로분할하기위한장치에있어서, 외부로부터폐쇄되어있으며, 밀링챔버의볼륨의 10% 이상의하나이상의무효공간을가지고있는상기밀링챔버를구비하고있으며, 상기밀링챔버에서, 하나이상의회전타격부재는, 비절단방식으로, 부하피크를감소시키기위해, 재료에대해조절될수 있지만 200rpm 이상인회전속도로작동되고, 상기밀링챔버에서, 재료는프로세스에서배치방식으로여러가지다른양으로조절가능하게입력되며, 조절가능한기간동안처리되고, 다음에는상기밀링챔버로부터다시배출되는, 직물섬유묶음을개별섬유로기계식으로분할하기위한장치를제공한다. | ||||||
| 34 | 생육 배지 및 멀치 섬유 개방 장치 | KR1020177002508 | 2015-06-29 | KR1020170040212A | 2017-04-12 | 스피틀,케빈,스콧; 바우어스,개리,레인 |
| 압축된생육배지또는멀치섬유개방기는인접한회전부재의적어도하나의세트를포함하고, 그러한회전부재는표면을가지고그러한표면의적어도일부주위에권선된적어도하나의와이어를포함하며, 그러한와이어는압축된또는부분적으로개방된생육배지또는멀치섬유와결합되는복수의돌출부를포함하며, 그리고인접하는회전부재들사이의거리는, 인접하는회전부재들사이에서적어도하나의조임지점을생성하기에충분할정도록짧고, 인접하는회전부재들은, 섬유가적어도하나의조임지점을통과할때, 섬유들을분리하고, 그에따라섬유의밀도가적어도 50 내지 95% 만큼낮아진다. | ||||||
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