| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Device for supporting pressure roll | JP18642191 | 1991-07-25 | JPH05169620A | 1993-07-09 | HERUBERUTO KOONERUMAN |
| PURPOSE: To obtain uniform pressure across the width of a press roll by assembling two support rolls to roll carriers and positioning the roll carrier orthogonally against the rotation axis line of the support roll onto the support body or support member to which the roll carriers are frame-fixed or fixed to the frame like a balance support. CONSTITUTION: Support housings 4', 5' welded to a support pillar 3 connected to side wall parts 1, 2 support roll carriers 4", 5" by a cylindrical shell-like bearing which retains the housings 4, 5 for a support roll 6. A support roll 6 supports a pressure roll 7 assembled to the side wall parts 1, 2. A support roll 21 to support the upper pressure roll 18 is supported by a support housing 23 positioned on a roll carrier 23' like a balance support and a roll carrier beam 23' supports the end part of an additional carrier 23" by a cylindrical shell-like bearing 21'. A balance-support-like carrier 23" is positioned on a lateral member of a metal-fitting-like carrier 28' by an additional shell-like bearing 21" and the metal-fitting-like carrier 28' is lifted up/down by a spindle 26. | ||||||
| 102 | Press for manufacturing thin chip plate and fiber plate continuously | JP30124790 | 1990-11-08 | JPH03248802A | 1991-11-06 | RORUFU GERUSUBETSUKU |
| PURPOSE: To maintain the quality at a specified level relative to the rought density and the lateral tensile strength of a pressed long-size object by forming a drawing roller which draws a steel band together in such a manner that the roller can be driven and also has a specified diameter. CONSTITUTION: A steel band which encircles rollers almost 240 deg. is stretched together with a material to be compressed at a spot where a maximum resistance to stretching is overcome. At a drawing roller with at least, 2,000 mm dia., the endless band passes through a pressing gap and is subjected to only a slight alternating bending stress by a presscake which is partially stretched back again, resulting in perhaps the restoration of the extended life of the endless band to its original state. Rollers 3, 4, 5 are attached to a press drum 2 which can be heated. The endless steel band 6 suffers high tension in the arrow 8 direction by an adjustable tensioning roller, and encircles the press drum 2, a deflection roller 9, the tensioning roller 7 and the drawing roller 3. | ||||||
| 103 | JPS5135432B2 - | JP437973 | 1972-12-28 | JPS5135432B2 | 1976-10-02 | |
| 104 | CANTILEVERED SCREW ASSEMBLY WITH SPEED REDUCER AND PIVOTING TORQUE ARM | US15637811 | 2017-06-29 | US20190002205A1 | 2019-01-03 | Mark E. Koenig |
| A cantilevered screw assembly comprising a speed reducer to facilitate rotation of a screw. The speed reducer may be connected to a torque arm that is adapted to control or limit undesired movement (e.g., wobbling, orbital movement, etc.) of the screw during operation. In effect, one exemplary embodiment of a speed reducer may essentially float on a pivoting torque arm (and the shaft of the screw) such that the torque arm is adapted to limit undesired movement of the speed reducer and screw. As a result, an exemplary embodiment may eliminate the need for alternative drive systems or other means to control undesired movement of the screw. An exemplary embodiment may be particularly useful for light or infrequent duty or other small-scale applications to reduce the likelihood of a breakage of a screw or another portion of a cantilevered screw assembly (e.g., the bearing(s) or bearing assembly, the gears, etc.). | ||||||
| 105 | ROLL-PRESS MACHINE WITH WRINKLE OCCURRENCE PREVENTION DEVICE AND ROLL-PRESS METHOD | US15570939 | 2017-02-27 | US20180226630A1 | 2018-08-09 | Katsuhiko YANAI; Shigeru MORI |
| {Problem} Provided is a roll-press machine provided with a wrinkle occurrence prevention device for suppressing occurrence of wrinkles caused by a roll-pressing operation on a coated part and an uncoated part of an electrode plate, and a roll-pressing method.{Solution} A work roll having a diameter smaller than that of the pressing roll is pressed to allow the uncoated part to be rolled between the pressing roll and the work roll, and the work roll is held by two backup rolls arranged in a V-shape formation so that the work roll can press the uncoated part with a pressing force uniform in width-wise. | ||||||
| 106 | System and Method for Compacting Materials in Open Top Transport Conveyance | US15900326 | 2018-02-20 | US20180170693A1 | 2018-06-21 | Charles Wayne Nyquist; Mark D. Stephen; Zachary Johnston Renner; Michael A. McCurdy |
| A compacting system compacts particulate matter in open-top railroad gondola cars rolling on rails. The compacting system comprises a compacting station adjacent the rails and a scanning system that scans the gondola cars as they move along the rails toward the compacting station. The scanning system transmits data of the gondola car to an electronic control system. The compacting station has at least one compaction member, e.g., a plate structure or a roller, configured to contact an upper surface of the particulate matter in the gondola cars. The electronic control system controls the compacting station so that the compaction member engages with and applies force to the upper surface of the particulate matter in the gondola car so as to compress the particulate matter in the gondola. A method for compacting particulate matter in a gondola car is also shown. | ||||||
| 107 | System and method for compacting materials in open top transport conveyance | US14018040 | 2013-09-04 | US09908724B2 | 2018-03-06 | Charles Wayne Nyquist; Mark D. Stephen; Zachary Johnston Renner; Michael A. McCurdy |
| A compacting system compacts particulate matter in open-top railroad gondola cars rolling on rails. The compacting system includes a compacting station adjacent the rails and a scanning system that scans the gondola cars as they move along the rails toward the compacting station. The scanning system transmits data of the gondola car to an electronic control system. The compacting station has at least one compaction member, e.g., a plate structure or a roller, configured to contact an upper surface of the particulate matter in the gondola cars. The electronic control system controls the compacting station so that the compaction member engages with and applies force to the upper surface of the particulate matter in the gondola car so as to compress the particulate matter in the gondola. A method for compacting particulate matter in a gondola car is also shown. | ||||||
| 108 | METHOD OF MANUFACTURING FLEXIBLE DISPLAY APPARATUS | US15402771 | 2017-01-10 | US20170199548A1 | 2017-07-13 | Gunmo Kim; Wonsang Park; Jongsung Bae |
| Provided is a method of manufacturing a flexible display apparatus. The method includes: arranging a film over a window having a three-dimensional curved surface shape, the film being flexible; arranging a plurality of pressure balls over the film; and pressing the plurality of pressure balls towards the window by using a pressure plate such that the film is closely adhered onto the window according to the three-dimensional curved surface shape of the window. | ||||||
| 109 | METHOD TO IMPROVE THE EFFICIENCY OF REMOVAL OF LIQUID WATER FROM SOLID BULK FUEL MATERIALS | US15235364 | 2016-08-12 | US20160348965A1 | 2016-12-01 | Robert R. French; Robert A. Reeves |
| The invention provides methods to efficiently reduce the water concentration of raw solid fuels, including low rank coals such as brown coal, lignite, subbituminous coal, and other carbonaceous solids. Efficiently drying these materials at low temperatures significantly reduces greenhouse gas emissions and allows the production of low-rank coals for gasification and liquefaction. | ||||||
| 110 | METHOD TO IMPROVE THE EFFICIENCY OF REMOVAL OF LIQUID WATER FROM SOLID BULK FUEL MATERIALS | US14731652 | 2015-06-05 | US20160152906A1 | 2016-06-02 | Robert R. French; Robert A. Reeves |
| The invention provides methods to efficiently reduce the water concentration of raw solid fuels, including low rank coals such as brown coal, lignite, subbituminous coal, and other carbonaceous solids. Efficiently drying these materials at low temperatures significantly reduces greenhouse gas emissions and allows the production of low-rank coals for gasification and liquifaction. | ||||||
| 111 | METHOD TO IMPROVE THE EFFICIENCY OF REMOVAL OF LIQUID WATER FROM SOLID BULK FUEL MATERIALS | US14525600 | 2014-10-28 | US20150291902A1 | 2015-10-15 | Robert R. French; Robert A. Reeves |
| The invention provides methods to efficiently reduce the water concentration of raw solid fuels, including low rank coals such as brown coal, lignite, subbituminous coal, and other carbonaceous solids. Efficiently drying these materials at low temperatures significantly reduces greenhouse gas emissions and allows the production of low-rank coals for gasification and liquifaction. | ||||||
| 112 | INDUSTRIAL ROLL WITH TRIGGERING SYSTEM FOR SENSORS FOR OPERATIONAL PARAMETERS | US14255734 | 2014-04-17 | US20140311364A1 | 2014-10-23 | Clifford Bruce Cantrell |
| A method of determining the rotative position of an industrial roll includes: (a) providing a rotating industrial roll having a longitudinal axis, the industrial roll having mounted on one end thereof an accelerometer, the industrial roll further including a plurality of sensors; (b) determining a pre-trigger angular position of the roll based on a first gravity vector provided by the accelerometer; then (c) determining a trigger angular position of the roll based on a second gravity vector provided by the accelerometer, the magnitude of the second gravity vector differing from the magnitude of the first gravity vector by more than the magnitude of a typical noise signal; and (d) gathering data from the sensors after the roll has passed the trigger angular position; and (e) matching the data gathered in step (d) with a respective sensor of the plurality of sensors based on the determination of the trigger angular position. | ||||||
| 113 | Methods and systems to drive rotary presses | US12139113 | 2008-06-13 | US08833217B2 | 2014-09-16 | Gregory S. Smith |
| Methods and systems to drive rotary presses are described. In one described example, a rotary press system includes a first rotary press and a second rotary press adjacent to the first rotary press. The first and the second rotary presses are to receive a strip of material. A drive member is operatively coupled to the first and the second rotary presses and a motor coupled to the drive member rotates the drive member to cause the first and second rotary presses to process the strip material. | ||||||
| 114 | Shaft with a Flange Connection | US14347808 | 2012-09-20 | US20140234021A1 | 2014-08-21 | Meinhard Frangenberg |
| A flange connection on a shaft having at least two diameters of different size, wherein the diameter of the flange connection is smaller than a diameter of the roller bearing seat. Machine parts on the shaft can thereby be rapidly and simply interchanged without the flange having to be removed in the process. | ||||||
| 115 | Mushroom compost compacting system and method | US13709105 | 2012-12-10 | US08561344B2 | 2013-10-22 | Robert T. Pannell |
| A mushroom compost compacting system and method includes a roller assembly mounted to a compost receptacle to form a nip, and a web or conveyor to convey mushroom compost to the nip. Mushroom compost is compacted at the nip from an initial compost height to a final compost height. The roller assembly has a roller, a shaft, and fixtures coupled to each end of the shaft. The fixtures are adjustable to define the roller nip height. In one embodiment, the fixtures are mounted to sleeves that engage the sidewalls of the compost receptacle. In another embodiment, the ends of the fixtures are mounted to a support, which may be a joist or a separate channel extending under the floor portion of the compost receptacle, or which may be a post that forms support structure for the compost receptacle. | ||||||
| 116 | Mushroom compost compacting system and method | US12902523 | 2010-10-12 | US08069608B1 | 2011-12-06 | Robert T. Pannell |
| A mushroom compost compacting system and method includes a roller assembly mounted to a compost receptacle to form a nip, and a web or conveyor to convey mushroom compost to the nip. Mushroom compost is compacted at the nip from an initial compost height to a final compost height. The roller assembly has a roller, a shaft, and fixtures coupled to each end of the shaft. The fixtures are adjustable to define the roller nip height. In one embodiment, the fixtures are mounted to sleeves that engage the sidewalls of the compost receptacle. In another embodiment, the ends of the fixtures are mounted to a support, which may be a joist or a separate channel extending under the floor portion of the compost receptacle, or which may be a post that forms support structure for the compost receptacle. | ||||||
| 117 | SYSTEM AND METHOD FOR COMPACTING MATERIALS IN OPEN TOP TRANSPORT CONVEYANCE | US13055456 | 2009-12-29 | US20110126723A1 | 2011-06-02 | Charles Wayne Nyquist; Mark D. Stephen; Zachary Johnston Renner; Michael A. McCurdy |
| A compacting system compacts particulate matter in open-top railroad gondola cars rolling on rails. The compacting system comprises a compacting station adjacent the rails and a scanning system that scans the gondola cars as they move along the rails toward the compacting station. The scanning system transmits data of the gondola car to an electronic control system. The compacting station has at least one compaction member, e.g., a plate structure or a roller, configured to contact an upper surface of the particulate matter in the gondola cars. The electronic control system controls the compacting station so that the compaction member engages with and applies force to the upper surface of the particulate matter in the gondola car so as to compress the particulate matter in the gondola. A method for compacting particulate matter in a gondola car is also shown. | ||||||
| 118 | Stress and/or temperature-indicating composition for roll covers | US10417622 | 2003-04-17 | US20030224917A1 | 2003-12-04 | Andreas Lutz |
| An industrial roll includes: a substantially cylindrical core and a cover overlying the adhesive layer. The cover typically comprises a polymeric top stock layer which comprises a mixture of a polymeric material and at least one of a piezochromic material and a thermochromic material. In this configuration, the pressure and/or temperature experienced by the roll cover at any location thereon can be determined visually, without the need for external equipment. | ||||||
| 119 | Cantileverable roll for roll pair of paper making machine | US296243 | 1994-08-25 | US5535670A | 1996-07-16 | Christian Schiel; Joachim Grabscheid |
| A cantileverable roll for use in a roll press, wherein the cantileverable roll cooperates with a backing roll. The cantileverable roll has a rotating surface and is either a solid rotatable roll body or a stationary roll body with a rotatable shell around it. A journal at each end of the cantileverable roll is supported in a respective bearing bracket. At one end of the roll, preferably the drive end, there is a non-rotating extension piece which extends out axially from the roll body and is fastened to the bearing bracket at that end. A tension bar or the like connects the extension piece to a stationary structural part and introduces force in the roll body which compensates for the weight of the roll when the other end of the roll is temporarily unsupported and the roll is cantilevered. The backing roll may also be cantilevered. The various techniques for supporting the one end of the roll by using the coupling element from the extension piece to the frame of the paper making machine are disclosed. The cantileverable roll and the roll press are particularly useful in a paper making machine. | ||||||
| 120 | Roll press, specifically for the paper industry | US163840 | 1993-12-07 | US5413036A | 1995-05-09 | Christian Schiel |
| A roll press with two press rolls which together form a press gap and whose axes are situated in a press plane. A journal is disposed on the ends of each roll, with pillow blocks for receiving the journals, with a rack for supporting the pillow blocks, and with tie rods which are arranged on both sides of the press plane and at least approximately parallel to it. Cradles are provided which support the pillow blocks. Between the cradles and the pillow blocks is an articulated joint which enables the pillow blocks to pivot about an axis which extends perpendicularly to the press plane and essentially in the axial plane of the respective roll. | ||||||
QQ群二维码
意见反馈
意见反馈