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    • 1. 发明申请
    • NUMERICAL CONTROL DEVICE AND CONTROL METHOD OF NUMERICAL CONTROL DEVICE
    • 数控装置的数控装置及其控制方法
    • US20120330456A1
    • 2012-12-27
    • US13583509
    • 2010-03-08
    • Takeshi TsudaTomonori SatoShunro OnoDaisuke Fujino
    • Takeshi TsudaTomonori SatoShunro OnoDaisuke Fujino
    • G05B19/19
    • G05B19/4061G05B2219/49147
    • A numerical control device includes a retraction-direction decision unit that decides a retracting direction of the tool when determining that the tool deviates from the movable range, and a tool-locus correction unit that corrects a locus of the tool based on this retracting direction so that a distance between the tool and a rotation center of a table while retracting is equal to or larger than a distance between the tool and the rotation center of the table at a time of either the start of rotation of the table or the end of the rotation of the table. According to the present invention, it is possible to avoid a stroke-over while avoiding interference between the tool and a workpiece when a table rotation command that possibly causes a stroke-over on the linear axis is issued while executing a control on a coordinate system other than a machine coordinate system.
    • 数值控制装置包括退回方向决定单元,该判定单元在确定该工具偏离可移动范围时决定该工具的缩回方向;以及刀具轨迹校正单元,其基于该缩回方向校正该工具的轨迹, 在工具与工作台的旋转中心之间的距离在缩回时等于或大于在工作台与桌子的旋转中心之间的距离,或者在工作台的旋转开始时 表的旋转。 根据本发明,当在坐标系上执行控制时可以发出可能导致在线性轴上的冲程的台面旋转命令时,避免冲程,同时避免工具与工件之间的干涉 而不是机器坐标系。
    • 2. 发明授权
    • Numerical control device, method of controlling the same, and system program therefor
    • 数控装置及其控制方法及其系统程序
    • US08831768B2
    • 2014-09-09
    • US13133443
    • 2009-02-17
    • Shunro OnoKotaro NagaokaTomonori SatoDaisuke Fujino
    • Shunro OnoKotaro NagaokaTomonori SatoDaisuke Fujino
    • G06F19/00G05B19/04G05B19/18G05B19/41G05B19/25G05B19/4093G05B19/4103
    • G05B19/4093G05B19/4103G05B2219/33269Y02P90/265
    • A CPU 41 reads a next block (S1), and then determines whether the read block is a TCP (tool center point) control finish command “G49” or not (S2). If it is determined to be the TCP control finish command “G49”, the TCP control is finished. If it is determined not to be the TCP control finish command “G49”, whether the read block is a coordinate-system transformation command “P1” or not is determined (S3). Next, if it is determined not to be the coordinate-system transformation command “P1”, the TCP control is performed, without transforming the coordinate system, in accordance with a command of the block (S11). Next, the process returns to S1, and then the process after S1 is executed. If it is determined to be the coordinate-system transformation command “P1”, a start point (xs, ys, zs, bs, cs) and an end point (xe, ye, ze, be, ce) in a non-machine coordinate system, of the block are transformed into a start point (Xs, Ys, Zs, Bs, Cs) and an end point (Xe, Ye, Ze, Be, Ce) in a machine coordinate system, respectively (S4).
    • CPU41读取下一个块(S1),然后确定读取块是否是TCP(工具中心点)控制完成命令“G49”(S2)。 如果确定为TCP控制完成命令“G49”,则TCP控制完成。 如果确定不是TCP控制完成命令“G49”,则确定读块是否是坐标系变换命令“P1”(S3)。 接下来,如果确定不是坐标系变换命令“P1”,则根据块的命令(S11)不进行坐标系变换,执行TCP控制。 接下来,处理返回到S1,然后执行S1之后的处理。 如果确定为坐标系变换命令“P1”,则在非机器中的起始点(xs,ys,zs,bs,cs)和终点(xe,ye,ze,be,ce) (Xs,Ys,Zs,Bs,Cs)和机器坐标系中的终点(Xe,Ye,Ze,Be,Ce)(S4)。
    • 3. 发明申请
    • NUMERICAL CONTROL DEVICE, METHOD OF CONTROLLING THE SAME, AND SYSTEM PROGRAM THEREFOR
    • 数字控制装置,其控制方法及其系统程序
    • US20110238204A1
    • 2011-09-29
    • US13133443
    • 2009-02-17
    • Shunro OnoKotaro NagaokaTomonori SatoDaisuke Fujino
    • Shunro OnoKotaro NagaokaTomonori SatoDaisuke Fujino
    • G06F19/00
    • G05B19/4093G05B19/4103G05B2219/33269Y02P90/265
    • A CPU 41 reads a next block (S1), and then determines whether the read block is a TCP (tool center point) control finish command “G49” or not (S2). If it is determined to be the TCP control finish command “G49”, the TCP control is finished. If it is determined not to be the TCP control finish command “G49”, whether the read block is a coordinate-system transformation command “P1” or not is determined (S3). Next, if it is determined not to be the coordinate-system transformation command “P1”, the TCP control is performed, without transforming the coordinate system, in accordance with a command of the block (S11). Next, the process returns to S1, and then the process after S1 is executed. If it is determined to be the coordinate-system transformation command “P1”, a start point (xs, ys, zs, bs, cs) and an end point (xe, ye, ze, be, ce) in a non-machine coordinate system, of the block are transformed into a start point (Xs, Ys, Zs, Bs, Cs) and an end point (Xe, Ye, Ze, Be, Ce) in a machine coordinate system, respectively (S4).
    • CPU41读取下一个块(S1),然后确定读取块是否是TCP(工具中心点)控制完成命令“G49”(S2)。 如果确定为TCP控制完成命令“G49”,则TCP控制完成。 如果确定不是TCP控制完成命令“G49”,则确定读块是否是坐标系变换命令“P1”(S3)。 接下来,如果确定不是坐标系变换命令“P1”,则根据块的命令(S11)不进行坐标系变换,执行TCP控制。 接下来,处理返回到S1,然后执行S1之后的处理。 如果确定为坐标系变换命令“P1”,则在非机器中的起始点(xs,ys,zs,bs,cs)和终点(xe,ye,ze,be,ce) (Xs,Ys,Zs,Bs,Cs)和机器坐标系中的终点(Xe,Ye,Ze,Be,Ce)(S4)。
    • 4. 发明授权
    • Numerical controller
    • 数控机
    • US09280150B2
    • 2016-03-08
    • US13511848
    • 2009-11-26
    • Tomonori SatoNaoki NakamuraTakeshi TsudaShunro Ono
    • Tomonori SatoNaoki NakamuraTakeshi TsudaShunro Ono
    • G05B19/19G05B19/416
    • G05B19/4166G05B2219/43156
    • A numerical controller obtains a position of each driving shaft of a machine performing determination of a feeding speed, interpolation and coordinate conversion according to a relative instruction path and an instruction speed of a tool tip point relative to a work instructed to a processing program. When determining the feeding speed, a reference point is provided on a tool or a table, a translation speed of the reference point viewed from a mechanical coordinate system is set to an observation target speed, a reference feeding speed is obtained so that the observation target speed is a predetermined reference speed, and the smaller of the reference feeding speed and the instruction feeding speed is set to the feeding speed.
    • 数值控制器根据相对指令路径和工具提示点相对于向处理程序指示的作业的指令速度,获取进给速度,插补和坐标转换的确定的机器的每个驱动轴的位置。 当确定进给速度时,在工具或工作台上设置参考点,将从机械坐标系观察的参考点的平移速度设定为观察目标速度,获得基准进给速度,使得观察目标 速度是预定的基准速度,并且基准进给速度和指令进给速度中的较小者被设定为进给速度。
    • 5. 发明申请
    • NUMERICAL CONTROLLER
    • 数控系统
    • US20120271446A1
    • 2012-10-25
    • US13511848
    • 2009-11-26
    • Tomonori SatoNaoki NakamuraTakeshi TsudaShunro Ono
    • Tomonori SatoNaoki NakamuraTakeshi TsudaShunro Ono
    • G05B19/19
    • G05B19/4166G05B2219/43156
    • When performing the processing while changing the position and the posture of the tool relative to the work, if the speed of the tool tip point relative to the work is regularly controlled while greatly changing the tool posture, the speed of each driving shaft of the machine is increased, whereby the interference may be generated. In order to solve the problem, in the numerical controller which obtains the position of each driving shaft of the machine performing the determination of the feeding speed, the interpolation and the coordinate conversion according to the relative instruction path and the instruction speed of the tool tip point relative to the work instructed to the processing program, when determining the feeding speed, the reference point is provided on the tool or the table, the translation speed of the reference point viewed from the mechanical coordinate system is set to the observation target speed, the reference feeding speed is obtained so that the observation target speed is a predetermined reference speed, and the smaller of the reference feeding speed and the instruction feeding speed is set to the feeding speed.
    • 当在改变工具相对于工件的位置和姿态的同时进行处理时,如果在大大改变工具姿势的同时,相对于工件的刀尖点的速度被定期地控制,则机器的每个驱动轴的速度 从而可能产生干扰。 为了解决这个问题,在获得进给速度确定的机器的每个驱动轴的位置的数值控制器中,根据相对指令路径和刀尖指令速度的插值和坐标转换 相对于处理程序指示的工作点,当确定进给速度时,将参考点设置在工具或工作台上,将从机械坐标系观察到的参考点的平移速度设定为观察目标速度, 获得基准进给速度,使得观察目标速度为预定的基准速度,并且将基准进给速度和指令进给速度的较小值设定为进给速度。
    • 6. 发明授权
    • Numerical control apparatus
    • 数控装置
    • US09494928B2
    • 2016-11-15
    • US14362546
    • 2012-02-06
    • Yukihiro IuchiDaisuke FujinoShunro Ono
    • Yukihiro IuchiDaisuke FujinoShunro Ono
    • G05B19/19G05B19/4155
    • G05B19/19G05B19/4155G05B2219/32105G05B2219/36361
    • A numerical control apparatus includes a program analyzing unit configured to pre-fetch a tool replacement command and a post-replacement positioning command from a machining program and output these commands, a tool-replacement-command output unit configured to cause, based on the tool replacement command, a machine tool to execute a tool replacing operation, and a movement-command determining unit and an interpolating unit configured to start, when the post-replacement positioning command is an axis component command for positioning an axis related to the tool replacing operation, control of the axis based on the axis component command, after waiting for completion of the tool replacing operation, and start, when the post-replacement positioning command is an axis component command for positioning an axis unrelated to the tool replacing operation, control of the axis based on the axis component command, without waiting for the same.
    • 数值控制装置包括:程序分析单元,被配置为从加工程序预取刀具替换命令和替换后定位命令并输出这些命令;刀具替换命令输出单元,其被配置为基于所述刀具 更换指令,执行刀具替换操作的机床;以及移动指令判定单元和内插单元,被配置为当所述替换后定位命令是用于定位与所述刀具更换操作相关的轴的轴分量命令时,开始 在等待刀具更换操作完成之后,基于轴分量指令控制轴,并且当替换后定位命令是用于定位与刀具更换操作无关的轴的轴分量命令时,开始控制 轴基于轴分量命令,无需等待相同。
    • 7. 发明申请
    • NUMERICAL CONTROL DEVICE
    • 数控装置
    • US20120323373A1
    • 2012-12-20
    • US13581124
    • 2010-02-25
    • Ryuta SatoShunro OnoNaoki NakamuraDaisuke Fujino
    • Ryuta SatoShunro OnoNaoki NakamuraDaisuke Fujino
    • G05B19/19
    • G05B19/404G05B2219/49344G05B2219/50152G05B2219/50297
    • A numerical control device including: a linear axis dependent position correction amount calculating unit which calculates a position correction amount of the linear axis from a translation error and an attitude error dependent on movement of the linear axis; a rotary axis dependent position correction amount calculating unit which calculates a position correction amount of the linear axis from a translation error and an attitude error dependent on movement of the rotary axis; a rotary axis angle correction amount calculating unit which calculates an angle correction amount of the rotary axis from a part of the attitude error dependent on movement of the linear axis and a part of the attitude error dependent on movement of the rotary axis; and a position addition correction amount calculating unit which calculates a position correction amount of the linear axis corresponding to the rotary axis correction amount.
    • 一种数控装置,包括:线性轴相关位置校正量计算单元,其根据平移误差计算线性轴的位置校正量,以及根据线性轴的移动来计算姿态误差; 旋转轴相关位置校正量计算单元,其从平移误差计算线性轴的位置校正量和依赖于旋转轴的移动的姿态误差; 旋转轴角度校正量计算单元,其根据取决于所述直线轴的移动的姿态误差的一部分和取决于所述旋转轴的移动的所述姿态误差的一部分来计算所述旋转轴的角度校正量; 以及位置附加校正量计算单元,其计算与旋转轴校正量相对应的线性轴的位置校正量。
    • 8. 发明申请
    • NUMERICAL CONTROL APPARATUS
    • 数控装置
    • US20150134105A1
    • 2015-05-14
    • US14362546
    • 2012-02-06
    • Yukihiro IuchiDaisuke FujinoShunro Ono
    • Yukihiro IuchiDaisuke FujinoShunro Ono
    • G05B19/19
    • G05B19/19G05B19/4155G05B2219/32105G05B2219/36361
    • A numerical control apparatus includes a program analyzing unit configured to pre-fetch a tool replacement command and a post-replacement positioning command from a machining program and output these commands, a tool-replacement-command output unit configured to cause, based on the tool replacement command, a machine tool to execute a tool replacing operation, and a movement-command determining unit and an interpolating unit configured to start, when the post-replacement positioning command is an axis component command for positioning an axis related to the tool replacing operation, control of the axis based on the axis component command, after waiting for completion of the tool replacing operation, and start, when the post-replacement positioning command is an axis component command for positioning an axis unrelated to the tool replacing operation, control of the axis based on the axis component command, without waiting for the same.
    • 数值控制装置包括:程序分析单元,被配置为从加工程序预取刀具替换命令和替换后定位命令并输出这些命令;刀具替换命令输出单元,其被配置为基于所述刀具 更换指令,执行刀具替换操作的机床;以及移动指令判定单元和内插单元,被配置为当所述替换后定位命令是用于定位与所述刀具更换操作相关的轴的轴分量命令时,开始 在等待刀具更换操作完成之后,基于轴分量指令控制轴,并且当替换后定位命令是用于定位与刀具更换操作无关的轴的轴分量命令时,开始控制 轴基于轴分量命令,无需等待相同。
    • 9. 发明申请
    • ERROR DISPLAY DEVICE AND ERROR DISPLAY METHOD
    • 错误显示设备和错误显示方法
    • US20130291661A1
    • 2013-11-07
    • US13977958
    • 2011-01-26
    • Ryuta SatoKotaro NagaokaShunro Ono
    • Ryuta SatoKotaro NagaokaShunro Ono
    • B23Q17/00
    • B23Q17/00G05B19/408G05B2219/49195G05B2219/49203
    • An error display device is a device for displaying a translation error and an attitude error associated with a rectilinear motion of a machine element, and includes a reference-motion-trajectory display unit that displays a design motion trajectory, and an error magnification/display unit that magnifies the translation error and the attitude error and displays the magnified errors, wherein the error magnification/display unit calculates a translation error vector including a magnified translation error obtained by multiplying the translation error by a predetermined magnification factor, draws a translation error trajectory including the design motion trajectory and the translation error vector added thereto, calculates an attitude error matrix including a magnified attitude error obtained by multiplying the attitude error by a predetermined magnification factor, and draws a predetermined shape with coordinates transformed using the attitude error matrix and the translation error vector.
    • 误差显示装置是用于显示与机器元件的直线运动相关联的平移误差和姿态误差的装置,并且包括显示设计运动轨迹的基准运动轨迹显示单元和误差放大/显示单元 其放大了平移误差和姿态误差,并显示放大误差,其中误差放大/显示单元计算包括通过将平移误差乘以预定放大系数而获得的放大翻译误差的平移误差矢量,绘制平移误差轨迹,包括 设计运动轨迹和向其添加的平移误差矢量,计算包括通过将姿态误差乘以预定放大系数而获得的放大姿态误差的姿态误差矩阵,并且绘制具有使用姿态误差矩阵和平移变换的坐标的预定形状 误差 r。
    • 10. 发明申请
    • ERROR MEASURMENT DEVICE AND ERROR MEASUREMENT METHOD
    • 错误测量设备和错误测量方法
    • US20130282328A1
    • 2013-10-24
    • US13977781
    • 2011-01-24
    • Ryuta SatoYukihiro IuchiShunro Ono
    • Ryuta SatoYukihiro IuchiShunro Ono
    • G05B19/401
    • G05B19/401B23Q17/2291
    • The present invention has a rotation-axis geometric-deviation measuring step of measuring a position and a tilt of a rotation-axis center line by measuring a position of a point on a surface of a workpiece fixed to a rotation axis, a geometric-deviation-parameter setting step of setting a correction amount of the measured position and tilt of the rotation-axis center line in a numerical control device, a workpiece-installation-error measuring step of measuring an installation position and a tilt of the workpiece with reference to the position of the rotation-axis center line, and a workpiece-installation-error parameter setting step of setting the measured installation position and tilt of the workpiece in the numerical control device, and accordingly enables measurement of a position and a tilt of the rotation axis center by measuring the position of a point on the workpiece surface in a state where the workpiece is fixed to the rotation axis.
    • 本发明的旋转轴几何偏差测量步骤,通过测量固定在旋转轴上的工件的表面上的点的位置,测量旋转轴中心线的位置和倾斜,几何偏差 - 参数设定步骤,用于设定数控装置中的旋转轴中心线的测量位置和倾斜的校正量,工件安装误差测量步骤,测量工件的安装位置和倾斜,参考 旋转轴中心线的位置和工件安装误差参数设定步骤,用于设定在数控装置中测量的工件的安装位置和倾斜度,因此能够测量旋转的位置和倾斜 通过在工件固定到旋转轴的状态下测量工件表面上的点的位置来测量轴心。