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    • 7. 发明申请
    • Zero centerline toolholder assembly
    • 零中心线刀架总成
    • US20050160887A1
    • 2005-07-28
    • US10766396
    • 2004-01-28
    • Robert Erickson
    • Robert Erickson
    • B23B1/00B23B9/00B23B27/16B23B31/16
    • B23B1/00B23B27/16B23B2200/28Y10T82/2508Y10T82/2541Y10T82/2585
    • A zero centerline toolholder assembly includes a cutting insert mounted to a toolholder. The center, RC, of the nose radius of the cutting insert is aligned with or lies on a centerline, LT, of the toolholder. The centerline, LT, of the toolholder may be also aligned with a rotational axis, CT2, of a tool spindle. The tool spindle is tilted at an angle with respect to an axis, P, that is substantially perpendicular to a longitudinal axis, LW, of a work piece. As a result of the zero centerline configuration, the radial component of the torque load on the toolholder is virtually eliminated. In addition, the toolholder assembly has a shorter tool length, thereby reducing deflection load on the toolholder.
    • 零中心线刀架组件包括安装到刀夹的切削刀片。 切削刀片的刀头半径的中心RC与刀夹的中心线LT对齐或位于刀夹的中心线LT上。 刀架的中心线LT也可以与刀具主轴的旋转轴线CT 2对齐。 工具主轴相对于基本上垂直于工件的纵向轴线LW的轴线P倾斜一定角度。 作为零中心线配置的结果,实际上消除了刀夹上的扭矩负载的径向分量。 此外,刀架组件具有较短的刀具长度,从而减少刀架上的偏转负载。
    • 8. 发明授权
    • Adjustable toolholder
    • 可调刀架
    • US6082234A
    • 2000-07-04
    • US104571
    • 1998-06-25
    • John L. PetersonCarl E. HerbertFred E. ChaffinJohn D. HargisMark G. Charleton
    • John L. PetersonCarl E. HerbertFred E. ChaffinJohn D. HargisMark G. Charleton
    • B23B29/04B23B21/00B23B1/00
    • B23B29/04Y10T82/10Y10T82/2541Y10T82/2577Y10T82/2585Y10T82/2591
    • An adjustable toolholder apparatus includes a base plate having a planar supporting surface. A holder body includes a bottom planar supported surface which slideably engages and rests upon the supporting surface of the base plate. A linear position adjuster provides a linear sliding motion of the holder body upon the base plate. An angular position adjuster provides a rotational sliding motion of the holder body upon the base plate. The holder body has a wedge shaped recess within which is received a wedge shaped carrier block. A vertically adjustable column supports the wedge shaped carrier block from the base plate to adjust a height of the cutting tool. After linear and angular adjustment of the cutting tool relative to the base plate, the wedge shaped carrier block is clamped to the holder body, and the holder body and base plate are clamped to a cross slide to fix the cutting tool in its final desired position.
    • 一种可调刀架设备,包括具有平面支撑表面的基板。 保持器主体包括可滑动地接合并搁置在基板的支撑表面上的底部平面支撑表面。 线性位置调节器提供保持器主体在基板上的线性滑动运动。 角位置调节器提供保持器主体在基板上的旋转滑动运动。 保持器主体具有楔形凹槽,在该楔形凹槽内容纳楔形载体块。 一个垂直调节的支柱,从基板上支撑楔形承载块,以调整切割工具的高度。 在切割工具相对于基板进行线性和角度调节之后,楔形承载块被夹持到保持器主体,并且保持器本体和基板被夹紧到十字滑块以将切割工具固定在其最终期望位置 。
    • 9. 发明授权
    • Lathe with an auxiliary transverse table
    • 车床辅助横向工作台
    • US5546836A
    • 1996-08-20
    • US269384
    • 1994-06-30
    • Young S. Choi
    • Young S. Choi
    • B23B3/06B23B21/00B23Q1/76B23Q5/40
    • B23Q1/766B23B3/06B23Q5/404Y10T82/2531Y10T82/2541Y10T82/2549Y10T82/2585Y10T82/2595
    • A lathe includes an auxiliary transverse table at an opposite side to a transverse table. The auxiliary transverse table includes an auxiliary tool carrying an abrasive on one end thereof positioned at the opposite side to a machining tool of the transverse table. A workpiece is machined in a high straightness degree since the auxiliary tool of the auxiliary transverse table supports the workpiece on the opposite side to the tool of the transverse table which performs machining the workpiece. In addition, the machining time period as well as the number of machining processes on the workpiece can be reduced since the abrasive on one end of the auxiliary tool gives final touches to the workpiece during machining.
    • 车床包括与横向工作台相对的一侧的辅助横向工作台。 辅助横向工作台包括一个辅助工具,该辅助工具的一端位于与横向工作台的机械加工工具相反的一侧。 由于辅助横向工作台的辅助工具在与进行加工工件的横向工作台的工具相反的一侧上支撑工件,所以工件被高度平直度地加工。 另外,由于在辅助工具的一端上的研磨剂在加工过程中对工件进行最终接触,所以加工时间以及工件上的加工工艺数量可以减少。
    • 10. 再颁专利
    • CNC turning machine
    • USRE33910E
    • 1992-05-05
    • US645346
    • 1991-01-23
    • Ronald E. Compton
    • Ronald E. Compton
    • G05B19/18G05B19/23H02K41/035
    • H02K41/0356G05B19/184G05B19/231Y10T82/13Y10T82/2502Y10T82/2541
    • A turning machine is characterized by a new and improved control and mechanism for positioning the turning tool on the head. A CNC control issues command signals for selectively positioning the tool on the head. These signals are developed from an encoder which provides the instantaneous position of the rotating part being turned and from a program in the CNC containing information about the part. A closed loop control system receives these command signals and converts same into a control current for a linear motor which is the prime mover controlling the positioning of the tool on the head. The linear motor operates a carriage on the head and the cutting tool mounts on the carriage opposite the connection of the linear motor to the carriage. The carriage is a hollow bar guided on the head by sets of rollers which are cooperatively arranged to provide yieldably forceful constraint of the bar. The rolling action of the bar on the head provides a low friction, low inertia construction enabling rapid response to CNC commands. The head also contains various sensors providing position and velocity feedback information for use by the closed loop control. The closed loop control contains various circuit components organized and arranged to provide fast and faithful response to command signals. The machine has the ability to accurately turn complex parts where position information is being rapidly updated, often in the tens of kilohertz frequency range. Different parts can be turned by merely changing the CNC program.The questions raised in reexamination request No. 90/001,657, filed Dec. 1, 1988, have been considered and the results thereof are reflected in this reissue patent which constitutes the reexamination certificate required by 35 U.S.C. 307 as provided in 37 CFR 1.570(e).