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    • 3. 发明专利
    • Grinding machine
    • 磨床
    • JP2011098428A
    • 2011-05-19
    • JP2009256286
    • 2009-11-09
    • Shigiya Machinery Works Ltd株式会社シギヤ精機製作所
    • YOSHIZAWA MASUNORIYAMAMOTO MASARUMURAKAMI KAZUFUMI
    • B24B5/04B24B41/00
    • PROBLEM TO BE SOLVED: To provide a grinding machine that allows a planar-view space for the machine installation to be kept relatively small and achieves space saving in a factory. SOLUTION: The grinding machine includes a column 101 extruding upward from a bed 100, a table 102 formed to be turnable around a pair of upper and lower vertically directed support shafts 11, 12 disposed between an upper side shaft support part 101b of the column 101 and a lower side shaft support part c1 located just below the shaft support part 101b, a workpiece holding means 103 rotatably supporting a workpiece disposed on the table 102 via a main spindle 23 which is coaxial thereof, and a grinding wheel mechanism part 104 rotatably supporting the grinding wheel 43 for grinding the workpiece held by the workpiece holding means 103. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种使机器安装的平面视野空间保持较小并在工厂中节省空间的研磨机。 解决方案:研磨机包括从床100向上挤出的柱101,形成为围绕一对上下垂直指向的支撑轴11,12可转动的工作台102,该上部和下部垂直指向的支撑轴11,12设置在 柱101和位于轴支撑部101b正下方的下侧轴支撑部c1,经由同轴的主轴23可转动地支撑设置在工作台102上的工件的工件保持机构103,以及砂轮机构部 104可旋转地支撑砂轮43,用于研磨由工件保持装置103保持的工件。版权所有(C)2011,JPO&INPIT
    • 5. 发明专利
    • Grinder, control method for grinder, and control program for grinder
    • 研磨机,研磨机的控制方法和研磨机的控制程序
    • JP2009066671A
    • 2009-04-02
    • JP2007234766
    • 2007-09-10
    • Olympus Corpオリンパス株式会社
    • OGUCHI YUKINARI
    • B24B47/00B24B13/04B24B41/00
    • PROBLEM TO BE SOLVED: To provide a grinding technique in which grinding work can be performed, forming an ideal machining track without separately requiring corrective grinding work or the like.
      SOLUTION: The grinder 100 performs grinding work to a grinding object 1 by relatively displacing a grinding tool 3 supported by an oscillating shaft 4 to the grinding object 1 supported by a workpiece holder 2 that is driven by a lateral shaft 8 and an upper shaft 6 based on machining data 33 stored in a non-volatile memory 32 by means of a control logic 31 of a servo controller 30. Error generated at each shaft to a lateral shaft servo command 9a, an upper shaft servo command 7a, and an oscillating shaft servo command 5a is preliminarily measured as lateral shaft correction quantity 10, upper shaft correction quantity 13, and oscillating shaft correction quantity 16 to be stored in the non-volatile memory 32. In grinding work, each servo command is corrected based on the correction quantity, so that the ideal machining track of the grinding tool 3 is provided to the grinding object 1. Machining precision is thus improved, while eliminating need of separately conducting correcting work.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供可以进行磨削加工的磨削技术,形成理想的加工轨道,而不需要单独地需要校正磨削加工等。 解决方案:研磨机100通过将由摆动轴4支撑的研磨工具3相对移动到被由侧向轴8驱动的工件保持器2支撑的研磨对象1而对研磨对象1进行研磨作业, 上轴6基于通过伺服控制器30的控制逻辑31存储在非易失性存储器32中的加工数据33.在每个轴处产生的横轴伺服指令9a,上轴伺服指令7a和 作为横轴校正量10,上轴校正量13和摆动轴校正量16,预先测定摆动轴伺服指令5a,存储在非易失性存储器32中。在研磨作业中,基于 校正量,从而将研磨工具3的理想加工轨迹提供给研磨对象1.因此提高了加工精度,同时不需要单独进行校正w ork。 版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Device for simultaneously grinding both surfaces of discoid workpiece
    • 用于同时研磨发现工件的两面的装置
    • JP2007105877A
    • 2007-04-26
    • JP2007012695
    • 2007-01-23
    • Siltronic Agジルトロニック アクチエンゲゼルシャフトSiltronic AG
    • JUNGE JOACHIMROBERT WEISS
    • B24B7/17B24B41/00B24B41/047B24B49/00B24B49/08H01L21/304
    • B24B37/08B24B41/061B24B49/08H01L21/02013
    • PROBLEM TO BE SOLVED: To provide an improved hydro pad, and to obtain an improved work geometry after grinding by using the hydro pad in a double-disc grinding device. SOLUTION: The device is provided with two almost circular grinding wheels, whose grinding surfaces are positioned so as to face each other in the axial direction. The two devices positioned so as to face each other support a discoid workpiece 1 with a hydrostatic way. In these devices, each surface facing to the workpiece of the hydrostatic type two bearing devices is not formed to be flat in the type having at least respective one hydrostatic bearing part and at least respective one hydrodynamic nozzle to measure the distance between the workpiece and the hydrostatic type bearing device, namely, the interval between the surface and the workpiece becomes minimum at the edge part facing to the grinding wheel of the hydrostatic type bearing device, and the interval increases as the distance to the grinding wheel becomes large. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供改进的液压垫,并且通过在双盘磨削装置中使用液压垫在研磨之后获得改进的工作几何形状。 解决方案:该装置设置有两个几乎圆形的砂轮,其研磨表面被定位成在轴向方向上彼此面对。 以彼此相对定位的两个装置以静液压方式支撑盘状工件1。 在这些装置中,流体静力型两个轴承装置的面向工件的每个表面的形状不是平坦的,具有至少相应的一个静压轴承部分和至少相应的一个流体动力喷嘴的类型,以测量工件和 静液压轴承装置即表面与工件之间的间隔在与液压静力型轴承装置的砂轮相对的边缘部分处变得最小,随着与砂轮的距离变大,间隔增加。 版权所有(C)2007,JPO&INPIT
    • 10. 发明专利
    • Device for simultaneously grinding both surfaces of disklike workpiece
    • 用于同时研磨抛光工件的两个表面的装置
    • JP2005254449A
    • 2005-09-22
    • JP2005067636
    • 2005-03-10
    • Siltronic Agジルトロニック アクチエンゲゼルシャフトSiltronic AG
    • JUNGE JOACHIMROBERT WEISS
    • B24B7/17B24B41/00B24B41/047B24B49/00H01L21/304
    • B24B37/08B24B41/061B24B49/08H01L21/02013
    • PROBLEM TO BE SOLVED: To provide a device for grinding both surfaces where a workpiece is not curvedly ground in grinding both surfaces of a disklike workpiece. SOLUTION: The device is provided with two almost circular grinding wheels 2, 3, whose grinding surfaces are positioned facing to each other in the axial direction, and the two devices positioned facing to each other to support a disklike workpiece 1 with a hydrostatic way. In these devices, each surface facing to the workpiece of the hydrostatic type two bearing devices is not formed to be flat in the type having at least respective one hydrostatic bearing part 2 and at least respective one hydrodynamic nozzle 4 to measure the distance between the workpiece and the hydrostatic type bearing device, namely, the interval between the surface and the workpiece becomes minimum at the edge part facing to the grinding wheel of the hydrostatic type bearing device, and the interval increases as the distance to the grinding wheel becomes large. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种用于研磨工件在盘状工件的两个表面上不被弯曲地研磨的两个表面的装置。 解决方案:该装置设置有两个近似圆形的砂轮2,3,其研磨表面在轴向方向上彼此面对,并且两个装置相对定位以支撑盘状工件1, 静水法。 在这些装置中,流体静力式两个轴承装置的面向工件的每个表面的形状没有形成为具有至少相应的一个静压轴承部件2和至少相应的一个流体动力喷嘴4的类型的平面,以测量工件之间的距离 静液压轴承装置即表面与工件之间的间隔在与液压静力型轴承装置的砂轮相对的边缘部分处变得最小,随着与砂轮的距离变大,间隔增大。 版权所有(C)2005,JPO&NCIPI