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    • 1. 发明申请
    • PROCESS INTEGRATION DETERMINING SYSTEM AND METHOD
    • 过程集成确定系统和方法
    • US20100324714A1
    • 2010-12-23
    • US12820321
    • 2010-06-22
    • Toshiyuki OKITAYoshimasa KuwanoKazunari Teramoto
    • Toshiyuki OKITAYoshimasa KuwanoKazunari Teramoto
    • G05B19/4097
    • G05B19/40938G05B2219/31407G05B2219/32257G05B2219/36284G05B2219/36357G05B2219/36362G05B2219/36365Y02P90/265
    • An optimal process determining system executes a step of calculating a temporary process that includes information of a plurality of individual processes. According to an example, each process includes a tooling including of a tool, a holder, a tool projection length, and a sequence of the plurality of individual processes. A similarity between the toolings of two individual processes is calculated. In addition, a calculation is performed relating to a plurality of integrated processes for which the tooling of one of the individual processes having a high similarity is integrated into the tooling of the other one of the individual processes. In addition, an optimal process is determined from the plurality of integrated processes on the basis of an actual machining time in each of the integrated processes, a unit integration reduction time reduced as one of the toolings of the individual processes is integrated, and the number of the individual processes integrated.
    • 最优处理确定系统执行计算包括多个单独处理的信息的临时处理的步骤。 根据示例,每个过程包括工具,其包括工具,保持器,工具突出长度以及多个单独过程的顺序。 计算两个单独过程的工具之间的相似性。 此外,执行关于多个集成处理的计算,其中具有高相似性的单个处理中的一个的工具被集成到另一个单独处理的工具中。 另外,根据各集成处理中的实际加工时间,从多个综合处理中确定最佳处理,在将各个处理的工具之一整合时减少的单位积分减少时间减少, 的个别流程整合。
    • 2. 发明授权
    • Process integration determining system and method
    • 过程集成确定系统和方法
    • US08428765B2
    • 2013-04-23
    • US12820321
    • 2010-06-22
    • Toshiyuki OkitaYoshimasa KuwanoKazunari Teramoto
    • Toshiyuki OkitaYoshimasa KuwanoKazunari Teramoto
    • G06F19/00
    • G05B19/40938G05B2219/31407G05B2219/32257G05B2219/36284G05B2219/36357G05B2219/36362G05B2219/36365Y02P90/265
    • An optimal process determining system executes a step of calculating a temporary process that includes information of a plurality of individual processes. According to an example, each process includes a tooling including of a tool, a holder, a tool projection length, and a sequence of the plurality of individual processes. A similarity between the toolings of two individual processes is calculated. In addition, a calculation is performed relating to a plurality of integrated processes for which the tooling of one of the individual processes having a high similarity is integrated into the tooling of the other one of the individual processes. In addition, an optimal process is determined from the plurality of integrated processes on the basis of an actual machining time in each of the integrated processes, a unit integration reduction time reduced as one of the toolings of the individual processes is integrated, and the number of the individual processes integrated.
    • 最优处理确定系统执行计算包括多个单独处理的信息的临时处理的步骤。 根据示例,每个过程包括工具,其包括工具,保持器,工具突出长度以及多个单独过程的顺序。 计算两个单独过程的工具之间的相似性。 此外,执行关于多个集成处理的计算,其中具有高相似性的单个处理中的一个的工具被集成到另一个单独处理的工具中。 另外,根据各集成处理中的实际加工时间,从多个综合处理中确定最佳处理,在将各个处理的工具之一整合时减少的单位积分减少时间减少, 的个别流程整合。
    • 3. 发明授权
    • Process integration determining system and method
    • 过程集成确定系统和方法
    • US08301293B2
    • 2012-10-30
    • US12820282
    • 2010-06-22
    • Toshiyuki OkitaYoshimasa KuwanoKazunari Teramoto
    • Toshiyuki OkitaYoshimasa KuwanoKazunari Teramoto
    • G06F19/00
    • G05B19/40938G05B19/4097G05B2219/36289G05B2219/36296G05B2219/36352G05B2219/36357Y02P90/265
    • A machined shape determining step of determining a machined shape machined by a basic tooling or basic tooling template of each machining efficiency group from a material shape (S19), a tooling determining step of determining an optimal tooling comprising a combination of a tool, a holder and a tool projection length on the basis of information of the tools and the holders, stored in a tool holder information storage unit, the combination having a maximum machining efficiency and being able to form the material shape into a corresponding one of the machined shapes without interfering with the machined shape (S20), a process candidate determining step of determining an optimal process candidate using the optimal tooling of each machining efficiency group (S21), and a process determining step of determining an optimal process on the basis of the optimal process candidate of each machining efficiency group (S10), are executed.
    • 一种加工形状确定步骤,用于从材料形状确定由每个加工效率组的基本加工或基本加工模板加工的加工形状(S19);加工确定步骤,确定最佳模具,其包括工具,夹持器 以及工具投影长度,其基于存储在工具架信息存储单元中的工具和保持器的信息,该组合具有最大加工效率,并且能够将材料形状形成为相应的一个加工形状,而没有 干扰加工的形状(S20),使用每个加工效率组的最佳加工来确定最佳过程候选的过程候选确定步骤(S21)以及基于最佳过程来确定最佳过程的过程确定步骤 执行每个加工效率组的候选(S10)。
    • 4. 发明申请
    • PROCESS INTEGRATION DETERMINING SYSTEM AND METHOD
    • 过程集成确定系统和方法
    • US20100324713A1
    • 2010-12-23
    • US12820282
    • 2010-06-22
    • Toshiyuki OKITAYoshimasa KuwanoKazunari Teramoto
    • Toshiyuki OKITAYoshimasa KuwanoKazunari Teramoto
    • G05B19/4097
    • G05B19/40938G05B19/4097G05B2219/36289G05B2219/36296G05B2219/36352G05B2219/36357Y02P90/265
    • A machined shape determining step of determining a machined shape machined by a basic tooling or basic tooling template of each machining efficiency group from a material shape (S19), a tooling determining step of determining an optimal tooling comprising a combination of a tool, a holder and a tool projection length on the basis of information of the tools and the holders, stored in a tool holder information storage unit, the combination having a maximum machining efficiency and being able to form the material shape into a corresponding one of the machined shapes without interfering with the machined shape (S20), a process candidate determining step of determining an optimal process candidate using the optimal tooling of each machining efficiency group (S21), and a process determining step of determining an optimal process on the basis of the optimal process candidate of each machining efficiency group (S10), are executed.
    • 一种加工形状确定步骤,用于从材料形状确定由每个加工效率组的基本加工或基本加工模板加工的加工形状(S19);加工确定步骤,确定最佳模具,其包括工具,夹持器 以及工具投影长度,其基于存储在工具架信息存储单元中的工具和保持器的信息,该组合具有最大加工效率,并且能够将材料形状形成为相应的一个加工形状,而没有 干扰加工的形状(S20),使用每个加工效率组的最佳加工来确定最佳过程候选的过程候选确定步骤(S21)以及基于最佳过程来确定最佳过程的过程确定步骤 执行每个加工效率组的候选(S10)。
    • 5. 发明授权
    • Data processing device for three dimensional surface machining
    • 用于三维表面加工的数据处理装置
    • US4945487A
    • 1990-07-31
    • US225815
    • 1988-07-29
    • Rokuro KimuraKizo HayakawaKazutaka OgoKazunari TeramotoIsao ItoAkihiro GotoYoshimasa Kuwano
    • Rokuro KimuraKizo HayakawaKazutaka OgoKazunari TeramotoIsao ItoAkihiro GotoYoshimasa Kuwano
    • G05B19/18B23Q15/00G05B19/404G05B19/41
    • G05B19/41G05B2219/35158G05B2219/49243G05B2219/50336G05B2219/50339G05B2219/50353Y10T407/1964
    • A data processing device for machining a three dimensional surface includes a tool locus data generator providing tool shape and dimension indicative information of a machining tool and machining route information, calculating information selected from a curvature, a normal line and a tangential line at a machining point of the three dimensional surface, and calculating the optimum shape of a machining tool and/or controlling condition of the tool based on the calculated information; a device for checking the tool locus data of a machining tool based on a predetermined pattern; and a processor for converting the checked tool locus data into data which is to be inputted into a machine which conducts three dimensional surface machining. The machining tool to be used with the data processing device has a plurality of machining portions with various curvatures and the most suitable machining portion of the tool is selected by the data processing device in response to variations in the curvature of the three dimensional surface. Machining accuracy and efficiency are greatly improved when using the device of this invention, and various modifications are achievable to provide wide applicability.
    • 用于加工三维表面的数据处理装置包括工具轨迹数据发生器,其提供加工工具的刀具形状和尺寸指示信息以及加​​工路线信息,计算从加工点的曲率,法线和切线中选择的信息 并且基于所计算的信息计算加工工具的最佳形状和/或控制工具的状态; 用于基于预定图案检查加工工具的刀具轨迹数据的装置; 以及用于将所检查的工具轨迹数据转换成要输入到进行三维表面加工的机器的数据的处理器。 与数据处理装置一起使用的加工工具具有多个具有各种曲率的加工部,并且响应于三维表面的曲率的变化,数据处理装置选择工具的最适合的加工部分。 当使用本发明的装置时,加工精度和效率大大提高,可以实现各种修改以提供广泛的适用性。
    • 6. 发明授权
    • System for integrally generating NC data
    • 用于整体生成NC数据的系统
    • US07392109B2
    • 2008-06-24
    • US10333908
    • 2001-07-31
    • Kazunari TeramotoYoshimasa Kuwano
    • Kazunari TeramotoYoshimasa Kuwano
    • G06F19/00
    • G05B19/4097G05B2219/35167G05B2219/35216Y02P90/265
    • To complete a CAM operation without requiring manual operations for generating NC data, which enables accurate and rapid machining, through organized integration of each means and increase in the speed to determine conditions. To achieve this, the present invention comprises a shape input means 1 for inputting a shape of a work piece; a machining planning means 2 for planning a machining method of the work piece; an NC data generating means 3 for generating NC data used for machining the work piece; an NC data verifying and editing means 4 for verifying and editing the NC data; and an NC data output means 5 for outputting the NC data, wherein the NC data is integrally generated based on the shape data of the work piece as the work piece successively passes through these means.
    • 完成CAM操作,无需手动操作生成NC数据,从而实现精确快速的加工,通过有组织地整合各种手段,提高速度以确定条件。 为了实现这一点,本发明包括用于输入工件形状的形状输入装置1; 用于规划工件的加工方法的加工规划装置2; NC数据生成装置3,用于产生用于加工工件的NC数据; 用于验证和编辑NC数据的NC数据验证和编辑装置4; 以及用于输出NC数据的NC数据输出装置5,其中当工件依次通过这些装置时,基于工件的形状数据一体地生成NC数据。
    • 7. 发明申请
    • MACHINING PARAMETER OPTIMIZING APPARATUS, METHOD FOR OPTIMIZING MACHINING PARAMETER AND PROGRAM THEREFOR
    • 加工参数优化装置,优化加工参数的方法及其程序
    • US20100036519A1
    • 2010-02-11
    • US12511716
    • 2009-07-29
    • Yoshihiko YAMADAToshiyuki OkitaYoshimasa Kuwano
    • Yoshihiko YAMADAToshiyuki OkitaYoshimasa Kuwano
    • G05B19/4061G05B13/04
    • G05B19/40937G05B2219/35316G05B2219/35346G05B2219/36252Y02P90/265
    • It is an object of the present invention to provide a machining parameter optimizing apparatus deciding a tool axis attitude and a machining zone and deciding a tooling having high stiffness for any profile of a finished workpiece.A tool axis attitude deciding member 21 decides one or plural tool axis attitude. An interference dangerous zone deciding member 23 decides as an interference dangerous zone a zone possible to interfere between a tool or a tool holder and a workpiece during machining by the decided tool axis attitude. A machining simulation member 25 executes a machining simulation based on the interference dangerous zone by the decided tool axis attitude and generates the virtual tool holder in which there is no any interference, and also decides a machining zone in a way of avoiding the interference dangerous zone. A non-interference tooling deciding member 27 deciding the tooling included in a range of a profile of the virtual tool holder, the tooling is a combination of the tool and the tool holder having the highest stiffness.
    • 本发明的目的是提供一种确定工具轴姿态和加工区域的加工参数优化装置,并且确定对于成品工件的任何轮廓具有高刚度的加工。 刀具姿势决定部件21决定一个或多个刀具轴姿态。 干扰危险区域判定构件23通过所决定的工具轴姿态,将可能在工具或工具架与工件之间干涉的区域判定为干涉危险区域。 加工模拟部件25通过决定的工具轴姿态,基于干扰危险区域进行加工模拟,生成没有干涉的虚拟刀架,并且以避免干扰危险区域的方式决定加工区域 。 决定包括在虚拟刀架的轮廓范围内的刀具的非干涉加工判定部件27是工具和具有最高刚度的刀架的组合。
    • 8. 发明授权
    • Machining parameter optimizing apparatus, method for optimizing machining parameter and program therefor
    • 加工参数优化装置,优化加工参数及其程序的方法
    • US08200360B2
    • 2012-06-12
    • US12511716
    • 2009-07-29
    • Yoshihiko YamadaToshiyuki OkitaYoshimasa Kuwano
    • Yoshihiko YamadaToshiyuki OkitaYoshimasa Kuwano
    • G06F19/00G06F7/48
    • G05B19/40937G05B2219/35316G05B2219/35346G05B2219/36252Y02P90/265
    • It is an object of the present invention to provide a machining parameter optimizing apparatus deciding a tool axis attitude and a machining zone and deciding a tooling having high stiffness for any profile of a finished workpiece. A tool axis attitude deciding member 21 decides one or plural tool axis attitude. An interference dangerous zone deciding member 23 decides as an interference dangerous zone a zone possible to interfere between a tool or a tool holder and a workpiece during machining by the decided tool axis attitude. A machining simulation member 25 executes a machining simulation based on the interference dangerous zone by the decided tool axis attitude and generates the virtual tool holder in which there is no any interference, and also decides a machining zone in a way of avoiding the interference dangerous zone. A non-interference tooling deciding member 27 deciding the tooling included in a range of a profile of the virtual tool holder, the tooling is a combination of the tool and the tool holder having the highest stiffness.
    • 本发明的目的是提供一种确定工具轴姿态和加工区域的加工参数优化装置,并且确定对于成品工件的任何轮廓具有高刚度的加工。 刀具姿势决定部件21决定一个或多个刀具轴姿态。 干扰危险区域判定构件23通过所决定的工具轴姿态,将可能在工具或工具架与工件之间干涉的区域判定为干涉危险区域。 加工模拟部件25通过决定的工具轴姿态,基于干扰危险区域进行加工模拟,生成没有干涉的虚拟刀架,并且以避免干扰危险区域的方式决定加工区域 。 决定包括在虚拟刀具架的轮廓范围内的加工件的非干涉加工判定部件27,工具是具有最高刚度的刀具和刀架的组合。