| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于制造薄弱区、特别是用于气囊出口孔的预定断裂点的方法、部件和设备 | CN200680042761.7 | 2006-10-20 | CN101309821B | 2012-09-12 | M·利博特; D·伦纳; H·哈尼施 |
| 一种用于在承载部件(6)中产生薄弱区(3)的方法,特别是产生用于气囊出口孔的预定断裂点(4),承载部件在可视侧上配备有装饰材料(8),特别是皮革饰件(9),承载部件(6)根据本发明使用第一装置设置了薄弱部分,并且装饰材料(8)的弱化是使用另外的装置通过承载部件的所述薄弱部分进行的,承载部件的弱化和装饰材料的弱化在时间上彼此接近地进行,优选同时进行。另外,本发明涉及用于进行该方法的一个部件和一个设备。 | ||||||
| 2 | 用于制造薄弱区、特别是用于气囊出口孔的预定断裂点的方法、部件和设备 | CN200680042761.7 | 2006-10-20 | CN101309821A | 2008-11-19 | M·利博特; D·伦纳; H·哈尼施 |
| 一种用于在承载部件(6)中产生薄弱区(3)的方法,特别是产生用于气囊出口孔的预定断裂点(4),承载部件在可视侧上配备有装饰材料(8),特别是皮革饰件(9),承载部件(6)根据本发明使用第一装置设置了薄弱部分,并且装饰材料(8)的弱化是使用另外的装置通过承载部件的所述薄弱部分进行的,承载部件的弱化和装饰材料的弱化在时间上彼此接近地进行,优选同时进行。另外,本发明涉及用于进行该方法的一个部件和一个设备。 | ||||||
| 3 | Weakening region of the airbag outlet opening, in particular, to a method for producing a predetermined breaking point, components and equipment | JP2008540478 | 2006-10-20 | JP2009515758A | 2009-04-16 | ハルムト ハーニッヒ、; マーティン リパート、; ディーエター レナー、 |
| 可視面上に装飾材料(8)、特に皮革装飾(9)が装備される担持部品(6)に、エアバッグ出口開口用の脆弱化域(3)、特に所定の破断点(4)を作製するための方法において、本発明に従い第1の手段を使用して担持部品(6)に脆弱化部分が設けられるとともに、別の手段を使用して担持部品(6)の脆弱化部分を通じて装飾材料(8)の脆弱化が実施され、担持部品(6)の脆弱化及び装飾材料(8)の脆弱化が時間的に互いに近接して、特に同時に行われる。 さらに本発明は、本方法を実行するための構成部品及び装置に関する。 | ||||||
| 4 | System for identifying and duplicating master keys | US15728074 | 2017-10-09 | US09987715B2 | 2018-06-05 | Richard L Gardner; Bradford Shayne Cooley; David Kortbawi |
| A system for duplicating a master key includes a mechanism for receiving and positioning a master key. The master key defines a major key axis and an intermediate key axis along which a key blade variably extends, and a minor key axis along a key thickness. Optical path components direct a light beam along the minor key axis. The light beam impinges upon the key blade. A portion of the light beam traverses the key blade. A detector receives the portion of the light beam that traverses the key blade. An apparatus imparts relative motion along the major key axis between the light beam and the master key. The light beam scans along the major key axis of the master key. A processor receives a signal from the detector as the beam scans along the major key axis and generates information usable for defining the machining of a duplicate key. | ||||||
| 5 | System for identifying and duplicating master keys | US15191071 | 2016-06-23 | US09808900B2 | 2017-11-07 | Richard L. Gardner; Bradford Shayne Cooley; David Kortbawi |
| A system for duplicating a master key includes a mechanism for receiving and positioning a master key. The master key defines a major key axis and an intermediate key axis along which a key blade variably extends, and a minor key axis along a key thickness. Optical path components direct a light beam along the minor key axis. The light beam impinges upon the key blade. A portion of the light beam traverses the key blade. A detector receives the portion of the light beam that traverses the key blade. An apparatus imparts relative motion along the major key axis between the light beam and the master key. The light beam scans along the major key axis of the master key. A processor receives a signal from the detector as the beam scans along the major key axis and generates information usable for defining the machining of a duplicate key. | ||||||
| 6 | System for Identifying and Duplicating Master Keys | US15191071 | 2016-06-23 | US20160377418A1 | 2016-12-29 | Richard L. Gardner; Bradford Shayne Cooley; David Kortbawi |
| A system for duplicating a master key includes a mechanism for receiving and positioning a master key. The master key defines a major key axis and an intermediate key axis along which a key blade variably extends, and a minor key axis along a key thickness. Optical path components direct a light beam along the minor key axis. The light beam impinges upon the key blade. A portion of the light beam traverses the key blade. A detector receives the portion of the light beam that traverses the key blade. An apparatus imparts relative motion along the major key axis between the light beam and the master key. The light beam scans along the major key axis of the master key. A processor receives a signal from the detector as the beam scans along the major key axis and generates information usable for defining the machining of a duplicate key. | ||||||
| 7 | Laser-assisted machining device | US14510544 | 2014-10-09 | US09364931B2 | 2016-06-14 | Yin Chuang; Chao-Yung Yeh; Chung-Li Tsai; Yu-Ting Lyu |
| A laser-assisted machining device includes a spindle, a beam splitting module and a cutting tool. The spindle has a chamber, and multiple exit holes. The beam splitting module is disposed in the spindle and includes a beam splitter for splitting a main laser beam into a plurality of secondary laser beams that are directed into the chamber, and an outer reflecting unit mounted in the chamber for reflecting the secondary laser beams out of the spindle through the exit holes. The cutting tool is fixedly mounted on the spindle, for machining a workpiece, and includes multiple cutting teeth. The secondary laser beams maintain constant irradiation on multiple areas of the workpiece during rotation of the spindle. | ||||||
| 8 | Method for producing a weakened zone, in particular a predetermined breaking point for an airbag exit opening, component and apparatus | US12094246 | 2006-10-20 | US07938437B2 | 2011-05-10 | Martin Lippert; Dieter Renner; Hartmut Harnisch |
| In a method for producing a weakened zone, in particular a predetermined breaking point for an airbag exit opening, in a carrier part equipped on the visible side with a decorative material, in particular a leather decoration, the carrier part is provided with a weakened section using first process, and weakening of the decorative material is performed through the weakened section of the carrier part using a second process. The weakening of the carrier part and the weakening of the decorative material taking place temporally close to one another, in particular at the same time. Furthermore, the invention relates to a component and an apparatus for carrying out the method. | ||||||
| 9 | AUTOMATED SYSTEM AND METHOD TO MANUFACTURE AERONAUTIC JUNCTION PARTS | US15335202 | 2016-10-26 | US20180113425A1 | 2018-04-26 | Megumi NAKASHIMA; Erik Spada DA SILVA; Lincoln José LEPRI; Pércio Roiz SAITO |
| Every junction part for an airplane wing is manufactured with overmaterial. Each part is measured with a laser based interferometer or other scanning technique and the “as built” measurements are compared with a model to generate a new trajectory milling program to fill or prevent gaps between parts using a points cloud and B-Spline algorithm to generate a new surface to be milled. Once the program is generated (new trajectories) and post processed, it is sent to a milling machine to perform overmaterial milling on already milled parts with overmaterial. This technique can be used to eliminate gaps between junction parts and the corresponding need for shims. | ||||||
| 10 | System for Identifying and Duplicating Master Keys | US15728074 | 2017-10-09 | US20180065226A1 | 2018-03-08 | Richard L. Gardner; Bradford Shayne Cooley; David Kortbawi |
| A system for duplicating a master key includes a mechanism for receiving and positioning a master key. The master key defines a major key axis and an intermediate key axis along which a key blade variably extends, and a minor key axis along a key thickness. Optical path components direct a light beam along the minor key axis. The light beam impinges upon the key blade. A portion of the light beam traverses the key blade. A detector receives the portion of the light beam that traverses the key blade. An apparatus imparts relative motion along the major key axis between the light beam and the master key. The light beam scans along the major key axis of the master key. A processor receives a signal from the detector as the beam scans along the major key axis and generates information usable for defining the machining of a duplicate key. | ||||||
| 11 | CUTTING TOOL AND METHOD AND APPARATUS FOR MANUFACTURING THE SAME | US13882928 | 2011-09-16 | US20140054275A1 | 2014-02-27 | Kazuo Nakamae; Hiroyuki Murase; Katsuko Yamamoto; Mamoru Ono; Katsuyuki Tanaka; Toshimitsu Sakata; Teruhiro Enami; Yutaka Kobayashi |
| Provided is a technology for manufacturing cutting tools that is capable of providing cutting tools that have a cut surface whose surface is uniformly smooth and that have a stable performance. Provided are a cutting tool manufacturing method in which a cutting tool material is cut by using, as a laser beam, a laser beam formed by combining two linearly polarized laser beams so that the directions of polarization of the two linearly polarized laser beams are at right angles to each other; a cutting tool manufacturing method in which a circularly polarized laser beam is used as a laser beam; a cutting tool manufacturing method in which a randomly polarized laser beam is used as a laser beam; a cutting tool manufactured by the manufacturing method; a cutting tool manufacturing apparatus that includes means for generating a combined laser beam formed of two linearly polarized laser beams, the directions of polarization of the two linearly polarized laser beams being at right angles to each other and an optical system that guides the combined laser beam to the cutting tool material; a cutting tool manufacturing apparatus that includes means for generating a circularly polarized laser beam; and a cutting tool manufacturing apparatus that includes means for generating a randomly polarized laser beam. | ||||||
| 12 | METHOD FOR PRODUCING A WEAKENED ZONE, IN PARTICULAR A PREDETERMINED BREAKING POINT FOR AN AIRBAG EXIT OPENING, COMPONENT AND APPARATUS | US12094246 | 2006-10-20 | US20090302579A1 | 2009-12-10 | Martin Lippert; Dieter Renner; Hartmut Harnisch |
| In a method for producing a weakened zone, in particular a predetermined breaking point for an airbag exit opening, in a carrier part equipped on the visible side with a decorative material, in particular a leather decoration, the carrier part is provided with a weakened section using first process, and weakening of the decorative material is performed through the weakened section of the carrier part using a second process. The weakening of the carrier part and the weakening of the decorative material taking place temporally close to one another, in particular at the same time. Furthermore, the invention relates to a component and an apparatus for carrying out the method. | ||||||
| 13 | System for Identifying and Duplicating Master Keys | US15971142 | 2018-05-04 | US20180250785A1 | 2018-09-06 | Richard L. Gardner; Bradford Shayne Cooley; David Kortbawi |
| A system for duplicating a master key includes a mechanism for receiving and positioning a master key. The master key defines a major key axis and an intermediate key axis along which a key blade variably extends, and a minor key axis along a key thickness. Optical path components direct a light beam along the minor key axis. The light beam impinges upon the key blade. A portion of the light beam traverses the key blade. A detector receives the portion of the light beam that traverses the key blade. An apparatus imparts relative motion along the major key axis between the light beam and the master key. The light beam scans along the major key axis of the master key. A processor receives a signal from the detector as the beam scans along the major key axis and generates information usable for defining the machining of a duplicate key. | ||||||
| 14 | Laser-Transmitting Tooling | US15653019 | 2017-07-18 | US20180015578A1 | 2018-01-18 | Deepak VM Ravindra; Sai Kumar Kode |
| A laser-transmitting machining tool is disclosed. The laser-transmitting machining tool has a plurality of faces including an entrance face, a rake face, a flank face connected to the rake face, a rake side face extending between the entrance face and the rake face, and a flank side face extending between the entrance face and the flank face. The connection of the rake face to the flank face defines a cutting edge. The rake face extends away from the rake side face to define a rake angle. The entrance face is configured to receive and refract a laser beam to the rake face, the flank face, and the cutting edge for causing the laser beam to refract into and heat the workpiece at a compression region extending proximate at least the rake face and a tensile region extending proximate the flank face. A system for machining a workpiece is disclosed. A method for machining a workpiece is also disclosed. | ||||||
| 15 | Cutting tool and method and apparatus for manufacturing the same | US13882928 | 2011-09-16 | US09415466B2 | 2016-08-16 | Kazuo Nakamae; Hiroyuki Murase; Katsuko Yamamoto; Mamoru Ono; Katsuyuki Tanaka; Toshimitsu Sakata; Teruhiro Enami; Yutaka Kobayashi |
| Provided is a technology for manufacturing cutting tools that is capable of providing cutting tools that have a cut surface whose surface is uniformly smooth and that have a stable performance. Provided are a cutting tool manufacturing method in which a cutting tool material is cut by using, as a laser beam, a laser beam formed by combining two linearly polarized laser beams so that the directions of polarization of the two linearly polarized laser beams are at right angles to each other; a cutting tool manufacturing method in which a circularly polarized laser beam is used as a laser beam; a cutting tool manufacturing method in which a randomly polarized laser beam is used as a laser beam; a cutting tool manufactured by the manufacturing method; a cutting tool manufacturing apparatus that includes means for generating a combined laser beam formed of two linearly polarized laser beams, the directions of polarization of the two linearly polarized laser beams being at right angles to each other and an optical system that guides the combined laser beam to the cutting tool material; a cutting tool manufacturing apparatus that includes means for generating a circularly polarized laser beam; and a cutting tool manufacturing apparatus that includes means for generating a randomly polarized laser beam. | ||||||
| 16 | LASER-ASSISTED MACHINING DEVICE | US14510544 | 2014-10-09 | US20160101492A1 | 2016-04-14 | Yin CHUANG; Chao-Yung YEH; Chung-Li TSAI; Yu-Ting LYU |
| A laser-assisted machining device includes a spindle, a beam splitting module and a cutting tool. The spindle has a chamber, and multiple exit holes. The beam splitting module is disposed in the spindle and includes a beam splitter for splitting a main laser beam into a plurality of secondary laser beams that are directed into the chamber, and an outer reflecting unit mounted in the chamber for reflecting the secondary laser beams out of the spindle through the exit holes. The cutting tool is fixedly mounted on the spindle, for machining a workpiece, and includes multiple cutting teeth. The secondary laser beams maintain constant irradiation on multiple areas of the workpiece during rotation of the spindle. | ||||||
| 17 | Multi-Function cutting machine with working depth measurement | US12155698 | 2008-06-09 | US20090196697A1 | 2009-08-06 | Chia-Lung Kuo; Jr-Shiang You |
| A multi-function cutting machine includes a cutting tool for cutting a workpiece, a feeder for selectively feeding a gas or fluid to through a longitudinal passage of the cutting tool to the workpiece to carry away cutting chips from the workpiece, a first laser beam and a second laser beam respectively projected through the passage of the cutting tool onto the workpiece, and a detection control device for receiving the reflective light wave of the second laser beam reflected by the workpiece for measuring the working depth of the cutting tool. | ||||||
| 18 | WERKZEUGMASCHINE | EP15759825.1 | 2015-09-11 | EP3092106A1 | 2016-11-16 | FEUCHT, Florian; KETELAER, Jens |
| The invention relates to a machine tool (1) comprising a frame (2) with two opposite frame sections, a plurality of leg elements (9) on the frame, a first carriage (4) which has a first linear axis, is guided on the two opposite sections of the frame (2) and can slide in a direction X, a second carriage (5) which has a second linear axis, is guided on the first carriage (4) and can slide in a direction Y, a tower element (6) which has a third linear axis and is retained on the second carriage (5), a machining element (12) which is retained on the tower element (6) and can slide in a direction Z, and a tool spindle (13) on the machining element (12) for accommodating a tool (15); the frame has a monolithic frame element (2) which is made of a fiber-reinforced plastic, especially a carbon-fiber-reinforced plastic, and which comprises the two opposite frame sections. | ||||||
| 19 | Verfahren zum Planfräsen von Werkstückoberflächen | EP09161743.1 | 2009-06-03 | EP2130630B1 | 2011-03-09 | Knode, Burkhard; Foley, David |
| 20 | Verfahren zum Planfräsen von Werkstückoberflächen | EP09161743.1 | 2009-06-03 | EP2130630B2 | 2018-01-24 | Knode, Burkhard; Foley, David |
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