| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Press for cotton, wool, hair, &c. | US1897641530 | 1897-06-19 | US630368A | 1899-08-08 | LOWRY GEORGE A |
| 42 | 압력롤의 지지장치 | KR1019910012614 | 1991-07-23 | KR1019960003328B1 | 1996-03-08 | 헤베르트코네만 |
| 내용 없음. | ||||||
| 43 | しわ発生防止装置付ロールプレス機とロールプレス方法 | JP2016101014 | 2016-05-20 | JP2017208283A | 2017-11-24 | 箭内 勝彦; 森 茂 |
| 【課題】電極板の塗工部と未塗工部でロールプレス作業により生ずる、しわの発生を抑えるしわ発生防止装置を備えたロールプレス機と及びロールプレス方法の提供。 【解決手段】プレスロール101にプレスロールより小径の作業ロール201を押しつけ、電極板300の未塗工部がプレスロール101と作業ロール201間で延伸可能となし、更に作業ロール201が幅方向で均一な押圧力により前記未塗工部を押しつけ可能なように、作業ロール201をV字型に配置した2本の補強ロール202a、202bで保持したロールプレス機。 【選択図】図5 |
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| 44 | しわ発生防止装置付ロールプレス機とロールプレス方法 | JP2016101014 | 2016-05-20 | JP6027701B1 | 2016-11-16 | 箭内 勝彦; 森 茂 |
| 【課題】電極板の塗工部と未塗工部でロールプレス作業により生ずる、しわの発生を抑えるしわ発生防止装置を備えたロールプレス機と及びロールプレス方法を提供する。 【解決手段】プレスロールにプレスロールより小径の作業ロールを押しつけ、未塗工部がプレスロールと作業ロール間で延伸可能となし、更に前記作業ロールが幅方向で均一な押圧力により前記未塗工部を押しつけ可能なように、前記作業ロールをV字型に配置した2本の補強ロールで保持した。 【選択図】図5 |
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| 45 | 動作パラメータ用センサのためのトリガリングシステムを有する工業用ロール | JP2016506695 | 2014-04-17 | JP2016522885A | 2016-08-04 | キャントレル,クリフォード・ブルース |
| 工業用ロールの回転位置を決定する方法は、(a)長手方向の軸を有する、回転する工業用ロールを提供するステップであって、工業用ロールがその一端に取り付けられた加速度計を有し、工業用ロールが複数のセンサをさらに含むステップと、(b)加速度計によって提供された第1の重力ベクトルに基づき、ロールのプリトリガ角度位置を決定するステップと、次いで、(c)加速度計によって提供された、大きさが典型的なノイズ信号の大きさより大きい分だけ第1の重力ベクトルの大きさと異なる第2の重力ベクトルに基づき、ロールのトリガ角度位置を決定するステップと、(d)ロールがトリガ角度位置を通過した後、センサからデータを収集するステップと、(e)トリガ角度位置の決定に基づき、ステップ(d)で収集されたデータを、複数のセンサのそれぞれのセンサと整合させるステップとを含む。 | ||||||
| 46 | Preparation for the composition of thermosetting material having thermochromic properties | JP2006504607 | 2004-03-09 | JP4825941B2 | 2011-11-30 | シーボス アルノ; アンドレアス ルッツ イング; クリヴァネック ジョルグ; ルツシュ デートレフ |
| 47 | Preparation for the composition of thermosetting material having thermochromic properties | JP2006504607 | 2004-03-09 | JP2006522179A | 2006-09-28 | シーボス アルノ; アンドレアス ルッツ イング; クリヴァネック ジョルグ; ルツシュ デートレフ |
| 【課題】サーモクロミック性質を有する熱硬化性物質の調製用組成物を提供する。
【解決手段】サーモクロミック性質を有する熱硬化性物質の調製用組成物であって、サーモクロミック複合物と熱硬化性物質の生産用原料成分との混合物から構成されている。 前記サーモクロミック複合物は、以下の成分のうちの少なくとも一種の成分を含有する。 これらの成分は、着色剤、現像剤、融剤、表面活性物質、及びポリマーである。 前記サーモクロミック複合物は、また、混合物の中で熱硬化性物質の生産用原料成分に対して実質上不活性となるように処理されている。 |
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| 48 | Equipment and method for forming laminate in which laminated sheets are pressed | JP40599590 | 1990-12-25 | JPH03290336A | 1991-12-20 | JIYON DONARUDO KERAA; GOODON FUOSUTAA PEREMAN |
| PURPOSE: To provide the equipment capable of changing the height of a drive roll corresponding to the height of a laminated article to be pressurized while the laminated article is turned and moved between a plurality of pairs of pressurizing roll segments opposite to each other, and capable of preventing the breakage of the glass during the preliminary pressurization. CONSTITUTION: A laminated article (a windshield assembly) 10 including a pair of glass plates arranged across a thermoplastic intermediate film is transferred 12 to a preliminary pressurizing station 14. The laminated article 10 is advanced in the direction of the arrow 20 between an upper roll 16 and a lower roll 18, and each main surface of the assembly 10 is pressurized. After the preliminary pressurization, the assembly 10 is transferred 22 to the next treatment station. Because the angle of the feeding conveyor 12 and the arrangement direction where the assembly 10 enters the station 14 are regulated, the conveyor 12 is turnable around a conveyor roll 24. Similarly, because the preliminarily pressurized assembly 10 is received and supported while any windshield pressure is minimized, a carrying-out conveyor 22 is turnable around a conveyor roll 26. COPYRIGHT: (C)1991,JPO | ||||||
| 49 | METHOD AND DEVICE FOR EXTERNAL LUBRICATION OF PRESS ROLLS OF A ROLLER COMPACTION DEVICE AND APPLICATION OF THE METHOD | US15117144 | 2015-01-23 | US20170173911A1 | 2017-06-22 | Paul GERTEIS |
| In a method for external lubrication of the press rolls (2 or 2.1) of a roller compaction device (1) by means of a continuous coating of said press rolls (2 or 2.1), a thin layer of a lubricant and/or an anti-adhesive are continuously provided to coat the press rolls (2 or 2.1). This coating preferably contains magnesium stearate or a mixture containing magnesium stearate. To carry out the method, at least one coating device (13, 14, 15 or 13.1, 14.1, 15.1) is arranged in a housing in which the press rolls (2 and 2.1) are arranged, by means of which coating device at least one press roll is provided with a thin coating of a lubricant and/or an anti-adhesive, preferably with magnesium stearate or a mixture containing magnesium stearate. The method is used for the manufacture of dry granules in the pharmaceutical and food industries. | ||||||
| 50 | METHOD TO IMPROVE THE EFFICIENCY OF REMOVAL OF LIQUID WATER FROM SOLID BULK FUEL MATERIALS | US15014837 | 2016-02-03 | US20170022435A1 | 2017-01-26 | 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. | ||||||
| 51 | Industrial roll with triggering system for sensors for operational parameters | US14255734 | 2014-04-17 | US09157184B2 | 2015-10-13 | Clifford Bruce Cantrell |
| A method of determining a 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. | ||||||
| 52 | DOUBLE DIE PELLET MACHINE | US13704422 | 2010-06-14 | US20130309344A1 | 2013-11-21 | Klaus Werner Posselt; James David Woodford |
| A pellet machine includes a hopper feeding a pair of inter-locking counter-rotating dies. Feeders convey material from the hopper to pre-compression rollers on the dies. A mat of the material is rotated on the dies into a nip between the pair of dies. Teeth on each die are in opposed facing relation to the teeth on the opposite die as the teeth rotate into the convergence area in the nip. Pellet forming chambers are inter-leaved between the teeth on both dies. The teeth are offset between the two dies so that the teeth act as plungers driving and compressing the material mat into and through the chambers as the teeth on each die drive into the opposed facing depression between the teeth on the opposite die. The material is driven through the chambers to extrude into the interiors of the dies. | ||||||
| 53 | System and method for compacting materials in open top transport conveyance | US13055456 | 2009-12-29 | US08549997B2 | 2013-10-08 | 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. | ||||||
| 54 | METHODS AND SYSTEMS TO DRIVE ROTARY PRESSES | US12139113 | 2008-06-13 | US20080307939A1 | 2008-12-18 | 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. | ||||||
| 55 | Method To Improve The Efficiency Of Removal Of Liquid Water From Solid Bulk Fuel Materials | US12047641 | 2008-03-13 | US20080222947A1 | 2008-09-18 | 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. | ||||||
| 56 | Stress and/or temperature-indicating composition for roll covers | US10417622 | 2003-04-17 | US07261680B2 | 2007-08-28 | 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. | ||||||
| 57 | Compacting apparatus | US230851 | 1994-04-21 | US5366367A | 1994-11-22 | Don L. Dekker; Robert R. Hasbrouck |
| An apparatus is provided for compressing a material in a mold. The apparatus includes a frame having a first portion and a second portion. The apparatus also includes a roller coupled to the first portion of the frame for compressing the material in the mold, and a support plate coupled to the second portion of the frame for receiving the mold thereon to position the mold relative to the compression roller. The apparatus further includes an apparatus for varying the distance between the roller and the support plate so that the roller applies a compressive force to the material. A drive mechanism is coupled to the support plate for moving the support plate relative to the roller in a direction normal to the compressive force applied by the roller. | ||||||
| 58 | Compacting apparatus | US885155 | 1992-05-18 | US5334005A | 1994-08-02 | Don L. Dekker; Robert R. Hasbrouck |
| An apparatus is provided for compressing a material in a mold. The apparatus includes a frame having a first portion and a second portion. The apparatus also includes a roller coupled to the first portion of the frame for compressing the material in the mold, and a support plate coupled to the second portion of the frame for receiving the mold thereon to position the mold relative to the compression roller. The apparatus further includes an apparatus for varying the distance between the roller and the support plate so that the roller applies a compressive force to the material. A drive mechanism is coupled to the support plate for moving the support plate relative to the roller in a direction normal to the compressive force applied by the roller. | ||||||
| 59 | Press for the continuous production of thin chipboard and fibreboard | US611101 | 1990-11-09 | US5167978A | 1992-12-01 | Rolf Gersbeck |
| A press for the continuous production of thin chipboard and fibreboard includes a central rotatable drum and a feed roller; a nip being defined between the curved exterior surfaces of the drum and roller. An endless steel band passes around a major portion of the curved surfaces of both drum and roller and passes through the nip. Other rollers are provided for guiding, tensioning and applying pressure to the band. The feed roller has a large diameter, of at least 2 m, and is provided with drive means so as to be rotatable. These features, surprisingly, enable the board output to be increasing while, at the same time improving the physical characteristics of the board. | ||||||
| 60 | Cotton-press. | US1899740187 | 1899-12-13 | US765664A | 1904-07-26 | FULLER JAMES T |
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