公开(公告)号：US06836698B2

公开(公告)日：2004-12-28

申请号：US10802744

申请日：2004-03-18

申请人： Makoto Fujishima ,  Masahiro Komatsu ,  Akio Karyu ,  Kingo Maeda ,  Yuichi Nakazawa ,  Shizuo Nishikawa

发明人： Makoto Fujishima ,  Masahiro Komatsu ,  Akio Karyu ,  Kingo Maeda ,  Yuichi Nakazawa ,  Shizuo Nishikawa

IPC分类号： G06F1900

CPC分类号： G05B19/4065 ,  G05B23/0283 ,  G05B2219/32226 ,  G05B2219/32235 ,  G05B2219/37252 ,  Y02P90/14 ,  Y02P90/18 ,  Y02P90/20 ,  Y02P90/205 ,  Y02P90/86

摘要： The invention relates to a maintenance system for machine tool. In the maintenance, system 1, a user management apparatus 10 connected to a numerical control section of a machine tool 15, and a manufacturer management apparatus 20 disposed on a side of a manufacturer are connected to each other via Internet 5. The user management apparatus 10 collects data relating to an operating condition of each driving mechanism of the machine tool 15, and accumulates the data. When a predetermined transmission condition is satisfied, the user management apparatus 10 transmits the accumulated operating condition data to the manufacturer management apparatus 20 in the form of an electronic mail. The manufacturer management apparatus 20 evaluates the consumption degree of each driving mechanism based on the received operating condition data, and outputs an alarm when the consumption degree exceeds a reference value.

摘要翻译： 本发明涉及一种机床维护系统。 在维护中，系统1，连接到机床15的数控部分的用户管理装置10和设置在制造商侧的制造商管理装置20经由互联网5彼此连接。用户管理装置 10收集与机床15的各驱动机构的运转状况有关的数据，并积累数据。 当满足预定的传输条件时，用户管理装置10以电子邮件的形式将累积的操作条件数据发送到制造商管理装置20。 制造商管理装置20基于接收到的操作条件数据来评价各驱动机构的消耗程度，并且当消耗度超过参考值时，输出报警。

公开(公告)号：US08534169B2

公开(公告)日：2013-09-17

申请号：US12777267

申请日：2010-05-11

申请人： Satoshi Miyamoto ,  Ryuichi Fujiwara ,  Shizuo Nishikawa ,  Hisayoshi Morita

发明人： Satoshi Miyamoto ,  Ryuichi Fujiwara ,  Shizuo Nishikawa ,  Hisayoshi Morita

IPC分类号： B23B3/06 ,  G05B19/401

CPC分类号： B23B5/08 ,  B23B2260/092 ,  B23B2270/48 ,  B23Q1/76 ,  B23Q17/20 ,  B23Q17/2266 ,  B23Q17/24 ,  G05B19/404 ,  G05B2219/37374 ,  G05B2219/49186

摘要： The present invention relates to a machining system etc. capable of highly accurately machining a workpiece even in a case where the workpiece is deflected. A machining system 1 is configured with a lathe 10 having end portion supporting mechanisms 13, 15 for supporting both end portions of an elongated workpiece W horizontally, a tool rest 20 for holding a tool, a feed mechanism for moving the tool rest 20 in three orthogonal directions, and a control device 25 for controlling the feed mechanism, and a non-contact measuring device 30 for measuring the deflection shape of the workpiece W when the workpiece W is rotated. The control device 25 moves the tool along the deflection shape measured by the non-contact measuring device 30.

摘要翻译： 本发明涉及即使在工件被偏转的情况下也能够高精度地加工工件的加工系统等。 机械加工系统1具有车床10，车床10具有用于水平地支撑细长工件W的两端部的端部支撑机构13,15，用于保持工具的刀架20，用于将刀架20移动到三个中的进给机构 以及用于控制进给机构的控制装置25和用于在工件W旋转时测量工件W的偏转形状的非接触测量装置30。 控制装置25沿着由非接触测量装置30测量的偏转形状移动工具。

公开(公告)号：US08077327B2

公开(公告)日：2011-12-13

申请号：US12410761

申请日：2009-03-25

申请人： Makoto Fujishima ,  Keizo Kashihara ,  Shizuo Nishikawa

发明人： Makoto Fujishima ,  Keizo Kashihara ,  Shizuo Nishikawa

IPC分类号： G01B11/14

CPC分类号： G05B19/402 ,  B23Q17/2485

摘要： Relative movement in X, Y and Z axis directions is made between a main spindle and a table 6 for application in a machine tool in which a work is machined. An emitting element 12 for irradiating laser beam 11 and a photosensitive element 13 are disposed on the table 6. A measuring tool 8 with its top end being shaped as a cone form is attached to the main spindle 4. The laser beam 11 is interrupted with the cone form portion 15 of the measuring tool 8 through relative movement between the table 6 and measuring tool 8 before and after machining a work. Detection signal of interruption is generated at the moment of interruption, position is detected, operation processing is performed so that difference in X, Y and Z axes before and after machining is obtained along with values for correction. Positional coordinate values for three axis directions are detected simultaneously with a measuring device of a simple constitution by use of laser beam and values for correction such as of thermal displacement is obtained by operation processing of displacement values.

摘要翻译： 在主轴和工作台6之间进行X，Y和Z轴方向的相对运动，以用于加工工件的机床。 用于照射激光束11和感光元件13的发光元件12设置在台面6上。其顶端成锥形的测量工具8安装在主轴4上。激光束11被中断 通过在加工工件之前和之后在工作台6和测量工具8之间的相对运动，测量工具8的锥形部分15。 在中断时产生中断检测信号，检测位置，进行运算处理，使得加工前后的X，Y，Z轴的差异与校正值一起获得。 通过使用激光束与简单结构的测量装置同时检测三轴方向的位置坐标值，并且通过位移值的操作处理获得热位移等校正值。

公开(公告)号：US20100288089A1

公开(公告)日：2010-11-18

申请号：US12777267

申请日：2010-05-11

申请人： Satoshi Miyamoto ,  Ryuichi Fujiwara ,  Shizuo Nishikawa ,  Hisayoshi Morita

发明人： Satoshi Miyamoto ,  Ryuichi Fujiwara ,  Shizuo Nishikawa ,  Hisayoshi Morita

IPC分类号： B23B3/06 ,  G05B19/401

CPC分类号： B23B5/08 ,  B23B2260/092 ,  B23B2270/48 ,  B23Q1/76 ,  B23Q17/20 ,  B23Q17/2266 ,  B23Q17/24 ,  G05B19/404 ,  G05B2219/37374 ,  G05B2219/49186

摘要： The present invention relates to a machining system etc. capable of highly accurately machining a workpiece even in a case where the workpiece is deflected. A machining system 1 is configured with a lathe 10 having end portion supporting mechanisms 13, 15 for supporting both end portions of an elongated workpiece W horizontally, a tool rest 20 for holding a tool, a feed mechanism for moving the tool rest 20 in three orthogonal directions, and a control device 25 for controlling the feed mechanism, and a non-contact measuring device 30 for measuring the deflection shape of the workpiece W when the workpiece W is rotated. The control device 25 moves the tool along the deflection shape measured by the non-contact measuring device 30.

摘要翻译： 本发明涉及即使在工件被偏转的情况下也能够高精度地加工工件的加工系统等。 机械加工系统1具有车床10，车床10具有用于水平地支撑细长工件W的两端部的端部支撑机构13,15，用于保持工具的刀架20，用于将刀架20移动到三个中的进给机构 以及用于控制进给机构的控制装置25和用于在工件W旋转时测量工件W的偏转形状的非接触测量装置30。 控制装置25沿着由非接触测量装置30测量的偏转形状移动工具。

公开(公告)号：US20100288088A1

公开(公告)日：2010-11-18

申请号：US12776447

申请日：2010-05-10

申请人： SATOSHI MIYAMOTO ,  RYUICHI FUJIWARA ,  SHIZUO NISHIKAWA ,  HISAYOSHI MORITA

发明人： SATOSHI MIYAMOTO ,  RYUICHI FUJIWARA ,  SHIZUO NISHIKAWA ,  HISAYOSHI MORITA

IPC分类号： B23B1/00 ,  B23B7/00

CPC分类号： B23Q1/76 ,  B23Q17/22 ,  Y10T82/10 ,  Y10T82/2502 ,  Y10T82/2571

摘要： A machining system 1 comprises a lathe 10 having end portion supporting mechanisms 13, 15 for supporting an elongated workpiece W horizontally, center rests 21 for supporting the middle portion of the workpiece W, an adjustment mechanism for adjusting the supported position of the workpiece W by adjusting the height positions of the center rests 21, a tool rest 20, and a control device 25, and a non-contact measuring device 30 for measuring the deflection amount of the workpiece W at portions thereof supported by the center rests 21 when the workpiece W is rotated. The control device 25 is configured to adjust the height positions of the center rests 21 by controlling the adjustment mechanism on the basis of the measured deflection amount, so that the height positions of both end portions of the workpiece W being rotated and the middle portion thereof become the same.

摘要翻译： 加工系统1包括车床10，车床10具有用于水平地支撑细长工件W的端部支撑机构13,15，用于支撑工件W的中间部分的中心支架21，用于通过以下方式调节工件W的支撑位置的调节机构 调整中心支架21的高度位置，工具架20和控制装置25以及非接触式测量装置30，用于在工件W的部分由中心支架21支撑时，测量工件W的偏转量 W旋转。 控制装置25通过基于测定的偏转量控制调整机构来调整中心支架21的高度位置，使得工件W的两端部的高度位置与其中间部分 变得相同