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    • 57. 发明申请
    • Method for producing microstructures
    • 生产微结构的方法
    • US20070101836A1
    • 2007-05-10
    • US11584390
    • 2006-10-20
    • Heinrich Ostendarp
    • Heinrich Ostendarp
    • B23B3/00
    • B23Q5/027B23Q1/34B23Q1/36G05B2219/41344G05B2219/49382Y10T82/10Y10T82/147Y10T82/25Y10T82/2502
    • The invention discloses a device and a method for producing microstructures with a spindle, which is adapted to be driven for rotation about its longitudinal axis and which is provided with a fixture for clamping a workpiece, having an actuator provided with a fast drive, in particular a piezo drive, adapted to produce fast movement of a tool in a direction substantially perpendicular to the workpiece surface, which actuator can be positioned along a workpiece surface to be worked with the aid of an additional drive adapted to produce a linear feed motion in a first direction, the fast drive being coupled with the tool via guide means that allow feeding of the tool in axial direction of the fast drive, against the action of a restoring force, and that is highly rigid in a plane perpendicular to that direction. The control technology used permits microstructures to be produced precisely and reproducibly utilizing the dynamic properties of the system.
    • 本发明公开了一种用于生产具有主轴的微结构的装置和方法,其适于被驱动以围绕其纵向轴线旋转,并且其具有用于夹紧工件的夹具,具有具有快速驱动器的致动器,特别是 压电驱动器,其适于在大致垂直于工件表面的方向上产生工具的快速移动,所述致动器可以借助于附加驱动器沿着待加工的工件表面定位,所述附加驱动器适于在 第一方向,快速驱动器通过导向装置与工具联接,该导向装置允许工具沿着快速驱动器的轴向方向抵抗恢复力的作用,并且在垂直于该方向的平面中是高度刚性的。 使用的控制技术允许使用系统的动态特性精确地和可重复地生产微结构。
    • 60. 发明授权
    • Method of and apparatus for machining a contoured surface
    • 加工轮廓表面的方法和设备
    • US4077285A
    • 1978-03-07
    • US664672
    • 1976-03-08
    • Paul Duliba
    • Paul Duliba
    • B23Q27/00B23B3/28B23Q35/08B23Q35/10B23B1/00
    • B23Q35/08Y10T82/10Y10T82/135Y10T82/147
    • A method of and apparatus for machining a pre-selected contour in a surface of a workpiece, such as an end face of the workpiece. The workpiece is rotated on a lathe about its longitudinal axis and a cutting tool, mounted on a movable cross slide of the lathe, is positioned parallel to the longitudinal axis of the workpiece for cutting a contour into the workpiece end face. A probe, also mounted on the cross slide, is positioned perpendicular to the longitudinal axis of a pattern for continual contact with the outer surface of the pattern, which is being rotated about its longitudinal axis. Upon rotation of the pattern and workpiece and movement of the cross slide, the probe moves towards and away from the longitudinal axis of the pattern in accordance with a change in the distance from the point of probe contact with the pattern outer surface to the longitudinal axis of the pattern. A command potentiometer detects the distance and direction of probe movement and an electrohydraulic servo system moves the cutting tool in response to direction from the potentiometer a proportional distance towards and away from the end face of the workpiece, whereby the cutting tool cuts a contour in the workpiece end face.
    • 在工件的表面(例如工件的端面)中加工预选轮廓的方法和装置。 工件围绕其纵向轴线在车床上旋转,并且安装在车床的可移动十字滑块上的切削工具平行于工件的纵向轴线定位,以将轮廓切割成工件端面。 还安装在十字滑块上的探针定位成垂直于图案的纵向轴线,以与图案的外表面持续接触,该外表面围绕其纵向轴线旋转。 当图案和工件旋转并且十字滑块的移动时,探针根据与探针接触图案外表面到纵向轴线的距离的变化而朝向和远离图案的纵向轴线移动 的模式。 指令电位器检测探头移动的距离和方向,电动液压伺服系统响应于来自电位计的方向移动切割工具,与工件的端面成比例的距离,从而切割工具在 工件端面。