| 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 | Poste de rectification pour usiner au moins un bloc de béton à coller. | EP13163581.5 | 2013-04-12 | EP2656969B1 | 2017-06-21 | Ancrenaz, Daniel; Ancrenaz, Christophe; Lemaire, Jean Marie |
| 102 | MACHINING TOOL INCLUDING A PIVOTING MACHINING ARM AND A METHOD OF USING THE SAME | EP15177839.6 | 2015-07-22 | EP2977144A3 | 2016-03-02 | RIZZO, John P. |
The present disclosure relates generally to a machining tool (10) and a method for using said machining tool. The machining tool includes a machining arm (12) including a first arm section (26), a second arm section (28), a proximate end (14), a distal end (16), and a machining arm longitudinal axis (18), a belt (22) disposed around the machining arm (12); and a first motor (23) operably coupled to the machining arm (12), wherein at least a portion of the machining arm (12) is configured to pivot such that an angle (θ) is formed between the distal end (16) and the machining arm longitudinal axis (18). The method includes the steps of placing the pivotable machining arm (12) in a first orientation, inserting the pivotable machining arm (12) in the desired location, determining whether the belt (22) is in a desired position relative to a raised surface (42), operating the motor to rotate the belt (22) around the pivotable machining arm (12), and placing the belt in contact (22) with the raised surface (42).
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| 103 | MACHINING TOOL INCLUDING A PIVOTING MACHINING ARM AND A METHOD OF USING THE SAME | EP15177839.6 | 2015-07-22 | EP2977144A2 | 2016-01-27 | RIZZO, John P. |
The present disclosure relates generally to a machining tool (10) and a method for using said machining tool. The machining tool includes a machining arm (12) including a first arm section (26), a second arm section (28), a proximate end (14), a distal end (16), and a machining arm longitudinal axis (18), a belt (22) disposed around the machining arm (12); and a first motor (23) operably coupled to the machining arm (12), wherein at least a portion of the machining arm (12) is configured to pivot such that an angle (θ) is formed between the distal end (16) and the machining arm longitudinal axis (18). The method includes the steps of placing the pivotable machining arm (12) in a first orientation, inserting the pivotable machining arm (12) in the desired location, determining whether the belt (22) is in a desired position relative to a raised surface (42), operating the motor to rotate the belt (22) around the pivotable machining arm (12), and placing the belt in contact (22) with the raised surface (42).
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| 104 | A surface processing system for a work piece | EP14177979.3 | 2014-07-22 | EP2839927A2 | 2015-02-25 | Chen, Qiyue |
The present invention provides a surface processing system for a work piece in the mechanical technical field. The system comprises at least one group of polishing units (A). A manipulator (2) and several polishers (3) with different polishing precisions are provided on the polishing units (A). The polishers (3) are arranged around the manipulator (2) in turn. The work piece could be moved by the manipulator (2) between the processing center (1) and the polishing units (A). The machined work piece is loaded by the manipulator (2) for one time when the manipulator (2) is located at the processing center (1). When the manipulator (2) is located at the polishing units (A), the manipulator (2) keeps holding the work piece and transfers the work piece in a preset sequence to each polisher (3) corresponding to the polishing unit (A) where the manipulator (A) is located. The surface of work pieces having different wall thicknesses and complex surfaces could be processed in a large batch with a high efficiency.
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| 105 | Polishing apparatus and polishing method | EP12001940.1 | 2012-03-20 | EP2502701A2 | 2012-09-26 | Seki, Masaya; Togawa, Tetsuji; Nakanishi, Masayuki; Matsuda, Naoki; Yoshida, Atsushi |
The polishing apparatus has a polishing unit capable of forming a right-angled cross section by polishing a peripheral portion of the substrate. The polishing unit includes a polishing head having a pressing member configured to press a polishing tape against the peripheral portion of the substrate from above, a tape supply and recovery mechanism configured to supply the polishing tape to the polishing head and to recover the polishing tape from the polishing head, a first moving mechanism configured to move the polishing head in a radial direction of the substrate, and a second moving mechanism configured to move the tape supply and recovery mechanism in the radial direction of the substrate. The guide rollers are arranged such that the polishing tape extends parallel to a tangential direction of the substrate and a polishing surface of the polishing tape is parallel to a surface of the substrate. |
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| 106 | TIRE SURFACE ABRASION DEVICE FOR AUTOMOBILE | EP07706285.9 | 2007-01-26 | EP1985413B1 | 2011-01-05 | MATSUI, Takashi |
| A tire surface abrasion device which can perform abrasion while checking abrasion position and amount visually, and can perform appropriate abrasion even on a complicated tire surface. As shown in Fig. 2, the tire surface abrasion device comprises a means (10) for rotating a tire, an abrasion belt means (20) for abrading the grounding surface of the tire, a belt drive means (30), and a means (40) for attaching/separating the abrasion belt means (20) to/from the tire. The abrasion belt means (20) can abrade the corner of the tire by turning thereat. The abrasion belt means (20) has an endless stripe abrasion belt. The belt drive means (30) is coupled with a base substrate (44) urging the abrasion belt toward the tire abrasion surface rotatably in the horizontal direction. Links (41, 42) for driving the base substrate (44) are operated through a handle (51). The handle (51) and the abrasion belt means (20) move in the same direction. | ||||||
| 107 | Vorrichtung zum Schleifen von Spinnzylindern | EP06013302.2 | 2006-06-28 | EP1747848B1 | 2009-12-16 | Stentenbach, Udo |
| 108 | POLISHER | EP91916639.0 | 1991-09-13 | EP0549653A1 | 1993-07-07 | Turnbull, Richard William |
| Un dispositif de polissage (10) comprend un bras principal (12) conçu pour effectuer un mouvement horizontal et vertical. Le bras (12) est pourvu d'une courroie rotative (32) en matériau abrasif servant à effectuer le polissage. On place l'article à polir, par exemple, une surface incurvée, sur un système d'entraînement rotatif (24). Le bras (12) porte une plaque XY (28) comprenant une roue de contact (30) mobile par rapport au bras (12) le long de deux axes orthogonaux. Des cylindres (38, 40) poussent la roue de contact vers l'article à polir. En cours d'utilisation, le bras (12) balaie le rayon de la surface incurvée afin de "définir" le profil à polir et, ensuite, le bras (12) suit ce profil selon un décalage prédéterminé de 50-75 millimètres. Les irrégularités mineures de la surface sont "supprimées" par la plaque XY (28) allant à l'encontre de la poussée constante du cylindre pneumatique, sans être meulées. | ||||||
| 109 | COATING APPARATUS FOR COLOR FILTER SUBSTRATE AND COATING METHOD THEREOF | US15510182 | 2016-03-07 | US20170304864A1 | 2017-10-26 | Xiaoguang LI; Dong WANG; Jingjing JIANG; Yu XIAO |
| A coating apparatus for a color filter substrate, including a coating sprayer (1) configured to coat a first film layer on a color filter layer (03) formed on the color filter substrate (01); a grinding device (2) configured to grind the color filter layer (03) to eliminate a step formed by the color filter layer (03) covering a black matrix (02); and a detection control unit (3) configured to measure a height of the step, determine a grinding amount of the grinding device (2) according to the height of the step, and control an operation of the grinding device (2) such that the first film layer coated on the color filter layer (03) has a flat surface. Also disclosed is a coating method for a color filter substrate. | ||||||
| 110 | Machining tool including a pivoting machining arm | US14793498 | 2015-07-07 | US09757837B2 | 2017-09-12 | John P. Rizzo, Jr. |
| The present disclosure relates generally to a machining tool and method for using the machining tool. The machining tool includes a machining arm including a first arm section, a second arm section, a proximate end, a distal end, and a machining arm longitudinal axis, a belt disposed around the machining arm; and a first motor operably coupled to the machining arm, wherein at least a portion of the machining arm is configured to pivot such that an angle is formed between the distal end and the machining arm longitudinal axis. The method includes the steps of placing the pivotable machining arm in a first orientation, inserting the pivotable machining arm in the desired location, determining whether the belt is in a desired position relative to the raised surface, operating the motor to rotate the belt around the pivotable machining arm, and placing the belt in contact with the raised surface. | ||||||
| 111 | BELT TRANSMISSION DEVICE AND GRINDING APPARATUS | US14801756 | 2015-07-16 | US20160151877A1 | 2016-06-02 | Yinchu Zhao; Haibin Liu; Jinjun Wang; Xu Li; Zuoxiang He; Xinqing Zhu |
| The present disclosure provides a belt transmission device and a grinding apparatus. The device comprises: a grinding stand; rotation wheels mounted on the grinding stand, including a driver wheel and driven wheels; a grinding belt supported by rotation wheels; a first sensor fixedly provided on the grinding stand and configured to detect a rotation speed of any one of the driven wheels; and a controller configured to control a rotation speed of the driver wheel and connected with a driving motor of the driver wheel, wherein the controller is further connected with the first sensor, receives rotation speed signals of the one driven wheel detected by the first sensor, calculates difference between the rotation speeds of the driver wheel and the one driven wheel, and compares the difference with a predetermined difference range in the controller; and when the difference is beyond the predetermined difference range, an alarm is provided. | ||||||
| 112 | MACHINING TOOL INCLUDING A PIVOTING MACHINING ARM AND A METHOD OF USING THE SAME | US14793498 | 2015-07-07 | US20160023320A1 | 2016-01-28 | John P. Rizzo, JR. |
| The present disclosure relates generally to a machining tool and method for using said machining tool. The machining tool includes a machining arm including a first arm section, a second arm section, a proximate end, a distal end, and a machining arm longitudinal axis, a belt disposed around the machining arm; and a first motor operably coupled to the machining arm, wherein at least a portion of the machining arm is configured to pivot such that an angle is formed between the distal end and the machining arm longitudinal axis. The method includes the steps of placing the pivotable machining arm in a first orientation, inserting the pivotable machining arm in the desired location, determining whether the belt is in a desired position relative to the raised surface, operating the motor to rotate the belt around the pivotable machining arm, and placing the belt in contact with the raised surface. | ||||||
| 113 | Hammer union restoration apparatus | US14120520 | 2014-05-28 | US09174320B1 | 2015-11-03 | Kevin R. Meyer |
| The present invention relates to a hammer union restoration apparatus wherein a main sanding unit is mounted to a base. The main sanding unit including a sander for sanding the four side faces of a lug formed on the hammer union. The sander being resiliently movable in a direction away from a side face of the lug. The sander is movable under control of a motor to rotate the sander relative to the lug around the four faces of the lug with the sander floating across the corner edges of the four faces. The present invention further includes a sander for sanding the end face of the lug. | ||||||
| 114 | Surface Processing System for a Work Piece | US14341785 | 2014-07-26 | US20150044944A1 | 2015-02-12 | Qiyue Chen |
| The present invention provides a surface processing system for a work piece in the mechanical technical field. The system comprises at least one group of polishing units. A manipulator and several polishers with different polishing precisions are provided on the polishing units. The polishers are arranged around the manipulator in turn. The work piece could be moved by the manipulator between the processing center and the polishing units. The machined work piece is loaded by the manipulator for one time when the manipulator is located at the processing center. When the manipulator is located at the polishing units, the manipulator keeps holding the work piece and transfers the work piece in a preset sequence to each polisher corresponding to the polishing unit where the manipulator is located. The surface of work pieces having different wall thicknesses and complex surfaces could be processed in a large batch with a high efficiency. | ||||||
| 115 | PATTERN SANDER DEVICE, SYSTEM AND METHOD | US14292194 | 2014-05-30 | US20140342639A1 | 2014-11-20 | ROBERT BRYAN BOGGS; JOSEPH SHANNON MILLER; MICHAEL SCOTT STANDRIDGE; JASON RICHARD SHAW |
| The invention relates to a device for sanding a predetermined impression into a workpiece. The device has a pattern belt positioned inside the area formed by a sanding belt. A pad is positioned inside the area formed by the pattern belt. A raised pattern is formed on the outer surface of the pattern belt. In use, the pad contacts the pattern belt, urging the raised pattern of the pattern belt to contact the sanding belt. The portion of the sanding belt contacted by the pattern belt is urged toward the workpiece so that the predetermined impression is sanded into the workpiece. | ||||||
| 116 | Pattern sander device, system and method | US13476654 | 2012-05-21 | US08771037B2 | 2014-07-08 | Robert Bryan Boggs; Joseph Shannon Miller; Michael Scott Standridge; Jason Richard Shaw |
| The invention relates to a device for sanding a predetermined impression into a workpiece. The device has a pattern belt positioned inside the area formed by a sanding belt. A pad is positioned inside the area formed by the pattern belt. A raised pattern is formed on the outer surface of the pattern belt. In use, the pad contacts the pattern belt, urging the raised pattern of the pattern belt to contact the sanding belt. The portion of the sanding belt contacted by the pattern belt is urged toward the workpiece so that the predetermined impression is sanded into the workpiece. | ||||||
| 117 | CUTTING BELT WITH DRIVE LUGS | US12960007 | 2010-12-03 | US20120138040A1 | 2012-06-07 | Ken Barnes; Larry Lee |
| Belt for cutting solid aggregate material such as natural or synthetic stone, include a main belt body comprised of a flexible material and having outer and inner loop surfaces. Multiple drive lugs project from the inner loop surface toward the interior of the loop, and each lug has a belt drive surface generally transverse to the main belt body. Multiple abrasive segments containing diamond particles are partially embedded in the main belt body, so that they form a part of the outer surface of the main belt body. Methods of manufacturing and using the cutting belt are also disclosed. | ||||||
| 118 | OVERLAY SANDER | US12522106 | 2008-01-04 | US20100029184A1 | 2010-02-04 | Brent K. Place |
| A belt sander includes a housing and an endless sanding belt supported by the housing. A first shaft is connected to the housing, and the housing is pivotable about the first shaft. A second shaft is connected to the housing and offset from the first shaft. The sander is mounted to the rotating portion of a rotary machining clam shell trackway and revolved around a pipe surface to be sanded while biasing the sander against the surface. The sander may also be pivotable to sand a tapered surface. | ||||||
| 119 | Device for Grinding Spinning Cots | US11427346 | 2006-06-29 | US20070042689A1 | 2007-02-22 | Udo Stentenbach |
| The device has a rotating grinding surface and a receptacle into which a spinning cot to be ground is inserted. The receptacle is advanced in a direction toward the grinding surface until the spinning cot inserted into the receptacle contacts the grinding surface. A size determination device for determining the size of the spinning cot is provided, wherein the size determination device has distance sensors and a computing unit for deriving the size of the spinning cot. The distance sensors operate with measuring beams that have an orientation such that the measuring beams impinge on an outer peripheral surface of the spinning cot inserted into the receptacle on at least three points that are spaced apart from one another in a circumferential direction of the spinning cot. | ||||||
| 120 | METHOD OF FINISHING A BELT SEAM USING AN ABRASIVE FINISHING MACHINE, A METHOD OF FINISHING A BELT SEAM USING AN ABRASIVE FINISHING MACHINE HAVING A PLURALITY OF FINISHING HEADS, AND A METHOD OF FINISHING A BELT SEAM USING AN ABRASIVE FINISHING MACHINE HAVING FIRST, SECOND, THIRD AND FOURTH FINISHING HEADS | US10427327 | 2003-05-01 | US06848978B2 | 2005-02-01 | Paul F. Mastro; Daniel L. Coughlin, Jr.; Thomas L. DiGravio |
| An imageable belt includes a seam that is finished using an abrasive finishing machine. The seam comprises a seam width with adhesive material disposed thereon. The finishing process includes an abrasive finishing media with a finishing surface and a backer bar. The backer bar comprises a backer bar radius. The backer bar surface is positioned against the belt inner surface so that the belt outer surface contacts the finishing surface to define a finishing contact arc with respect to the backer bar radius. A tension, feed rate and pressure are applied to the finishing media. Using the finishing machine, the seam is then finished to remove the adhesive material. The finishing process results in a seam that is imageable. In one embodiment, the backer bar radius is adjusted so that the finishing contact arc covers the seam width. | ||||||
