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    • 5. 发明申请
    • METHOD FOR MACHINING A WORKPIECE
    • 加工工艺的方法
    • US20130218319A1
    • 2013-08-22
    • US13818017
    • 2011-08-19
    • Sean Holt
    • Sean Holt
    • G05B19/416B23Q15/12
    • G05B19/4163B23Q15/12G05B2219/43124G05B2219/45136G05B2219/49104G05B2219/49233G05B2219/49392Y10T82/10
    • An electronic control system is programmed to control movement of a cutting tool relative to a rotating workpiece. After engagement of the stock, the tool is controlled to follow a curved path until the cutting surface of the tool reaches a predetermined depth of cut in the stock. The tool is then controlled to follow a straight/linear path, with the cutting surface of the tool engaged with the stock at said predetermined depth of cut. The control system varies the feed rate as the tool rolls into cut along a known path of curvature, to control the thickness of the material which is removed as the tool rolls into cut, e.g. to induce fracture as the material begins to coil. The feed rate as the tool rolls into cut is programmed to vary in relation to an arc of engagement between a cutting surface of the cutting tool and the stock into which the cutting tool is being moved.
    • 编程电子控制系统以控制切削工具相对于旋转工件的运动。 在坯料接合之后,将工具控制成跟随弯曲的路径,直到刀具的切割表面达到预定的切削深度。 然后将该工具控制为遵循直线/线性路径,其中刀具的切割表面以所述预定切割深度与坯料接合。 控制系统随着工具沿着已知的曲率曲线进入切割而改变进给速度,以控制当工具卷入切割时被去除的材料的厚度。 在材料开始卷绕时引发断裂。 作为工具卷入切割的进给速度被编程为相对于切割工具的切割表面和切割工具移动到的坯料之间的接合弧而变化。
    • 8. 发明授权
    • Gauging system for sculptured surfaces
    • 雕刻表面的测量系统
    • US4355447A
    • 1982-10-26
    • US204693
    • 1980-11-06
    • Paul DiMatteoRobert SegniniPaul Rademacher
    • Paul DiMatteoRobert SegniniPaul Rademacher
    • B23C3/16B23Q33/00B23Q35/06B44B1/00B44C1/22B44C3/06G05B19/401G05B19/42B23Q35/02
    • B23Q35/06B23C3/16B23Q33/00B44B1/006B44C1/22B44C1/222B44C3/06G05B19/401G05B19/42G05B19/4207G05B2219/37572G05B2219/45212G05B2219/49008G05B2219/49233G05B2219/49235G05B2219/49237G05B2219/49238G05B2219/50071Y10T29/5107Y10T409/30112Y10T409/301736Y10T409/30224
    • An arrangement for removing excess material from an object surface, to provide a desired finished surface. Holes are drilled into the object so that the bottoms of the holes lie on the desired finished surface. The holes have a shape so that the observed hole diameter at the prevailing surface of the object is dependent on the hole depth and thereby dependent on the amount of material remaining to be removed between the prevailing surface and the desired finished surface. The prevailing surface is continuously observed and measured, and the depths of material to be removed in a sequence of steps is calculated dependent on the measurements of the prevailing surface and the coordinates of the desired finished surface. As a result of the calculations, the depth of material removed during each step is controlled, so that upon carrying out a sequence of such steps, the surface exposed on the object after the last step has been carried out, coincides with the desired finished surface. The accuracy of the material removal equipment may be substantially less than the accuracy of the finished surface. Grooves instead of circular holes are cut when the radius of curvature of both the prevailing and desired surfaces becomes sufficiently small, so as to provide sufficient definition of the desired surface. With the grooves, the observed parameter is groove width rather than hole diameter.
    • 用于从物体表面去除多余材料的装置,以提供所需的成品表面。 将孔钻入物体中,使得孔的底部位于所需的成品表面上。 这些孔具有这样的形状,使得在物体的主要表面处观察到的孔直径取决于孔深度,并且因此取决于在主要表面和期望的成品表面之间剩余的待除去的材料的量。 连续地观察和测量主要表面,并且根据主要表面的测量和所需成品表面的坐标来计算要按顺序排列的材料的深度。 作为计算的结果,控制在每个步骤期间去除的材料的深度,使得在执行一系列这样的步骤时,在最后一步之后暴露在物体上的表面已经被执行,与期望的成品表面重合 。 材料去除设备的精度可以显着小于成品表面的精度。 当主流和期望的表面的曲率半径变得足够小时,切割代替圆形孔的凹槽,以便提供所需表面的足够的定义。 对于凹槽,观察到的参数是凹槽宽度而不是孔直径。
    • 9. 发明公开
    • METHOD FOR MACHINING A WORKPIECE
    • VERFAHREN ZUR BEARBEITUNG EINESWERKSTÜCKS
    • EP2609474A2
    • 2013-07-03
    • EP11754467.6
    • 2011-08-19
    • SANDVIK LIMITED
    • HOLT, Sean
    • G05B19/416B23Q15/12
    • G05B19/4163B23Q15/12G05B2219/43124G05B2219/45136G05B2219/49104G05B2219/49233G05B2219/49392Y10T82/10
    • An electronic control system is programmed to control movement of a cutting tool relative to a rotating workpiece. After engagement of the stock, the tool is controlled to follow a curved path until the cutting surface of the tool reaches a predetermined depth of cut in the stock. The tool is then controlled to follow a straight/linear path, with the cutting surface of the tool engaged with the stock at said predetermined depth of cut. The control system varies the feed rate as the tool rolls into cut along a known path of curvature, to control the thickness of the material which is removed as the tool rolls into cut, e.g. to induce fracture as the material begins to coil. The feed rate as the tool rolls into cut is programmed to vary in relation to an arc of engagement between a cutting surface of the cutting tool and the stock into which the cutting tool is being moved.
    • 编程电子控制系统以控制切削工具相对于旋转工件的运动。 在坯料接合之后,将刀具控制成跟随弯曲的路径,直到刀具的切割表面达到预定的切削深度。 然后将工具控制成遵循直线/线性路径,其中刀具的切割表面以所述预定切割深度与坯料接合。 控制系统随着工具沿着已知的曲率曲线进入切割而改变进给速度,以控制当工具卷入切割时被去除的材料的厚度。 当材料开始卷绕时引发断裂。 作为工具卷入切割的进给速度被编程为相对于切割工具的切割表面与切割工具移动到的坯料之间的接合弧而变化。
    • 10. 发明申请
    • METHOD FOR MACHINING A WORKPIECE
    • 加工工件的方法
    • WO2012025741A2
    • 2012-03-01
    • PCT/GB2011051567
    • 2011-08-19
    • SANDVIK LTDHOLT SEAN
    • HOLT SEAN
    • G05B19/416
    • G05B19/4163B23Q15/12G05B2219/43124G05B2219/45136G05B2219/49104G05B2219/49233G05B2219/49392Y10T82/10
    • An electronic control system is programmed to control movement of a cutting tool relative to a rotating workpiece. After engagement of the stock, the tool is controlled to follow a curved path until the cutting surface of the tool reaches a predetermined depth of cut in the stock. The tool is then controlled to follow a straight/linear path, with the cutting surface of the tool engaged with the stock at said predetermined depth of cut. The control system varies the feed rate as the tool rolls into cut along a known path of curvature, to control the thickness of the material which is removed as the tool rolls into cut, e.g. to induce fracture as the material begins to coil. The feed rate as the tool rolls into cut is programmed to vary in relation to an arc of engagement between a cutting surface of the cutting tool and the stock into which the cutting tool is being moved.
    • 电子控制系统被编程为控制切割工具相对于旋转工件的运动。 在坯件接合之后,控制工具遵循弯曲路径,直到工具的切割表面达到坯料中的预定切割深度。 然后将工具控制成沿直线/直线路径行进,其中工具的切割表面在预定的切割深度与坯料接合。 当工具沿着已知的曲率路径滚入切割时,控制系统改变进给速率,以控制当工具滚入切割时被去除的材料的厚度,例如厚度。 当材料开始卷曲时引起断裂。 当工具滚入切割时的进给速率被编程为相对于切割工具的切割表面和切割工具正被移动到的坯料之间的接合弧而变化。