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    • 1. 发明授权
    • Method of animation plotting of NC machining program
    • NC加工程序动画绘图方法
    • US5610842A
    • 1997-03-11
    • US240734
    • 1994-05-11
    • Masaki SekiTeruyuki MatsumuraSatoru Shinozaki
    • Masaki SekiTeruyuki MatsumuraSatoru Shinozaki
    • G05B19/4069G06F15/16G05B19/18
    • G05B19/4069G05B2219/35315G05B2219/45136Y10T82/2502
    • A method of animation plotting by an NC machining program on an NC lathe having a multiplicity of tool rests. The method provides animation plotting for Y-axis machining such as engraving. A display screen of a CRT/MDI provides first display areas "a1" to "an" for simulating a machining process of a workpiece projected in an axial direction of a tool. A second display area is also provided for simulating a machining process of the workpiece projected in the direction of a Y-axis orthogonal to an X-axis and a Z-axis. For each rotational positioning point .theta.i (i=1 to n) of the spindle, Y-axis machining is simulated by simultaneously displaying the movement path of the tool and the shape of the tool within the first display area "ai" and the second display area.
    • PCT No.PCT / JP93 / 01182 Sec。 371日期:1994年5月11日 102(e)日期1994年5月11日PCT提交1993年8月24日PCT公布。 公开号WO94 / 07189 日期1994年5月31日一种NC加工程序在具有多个刀架的NC车床上进行动画绘制的方法。 该方法为Y轴加工(如雕刻)提供动画绘图。 CRT / MDI的显示屏提供用于模拟沿工具的轴向投影的工件的加工过程的第一显示区域“a1”至“an”。 还提供了第二显示区域,用于模拟沿与X轴和Z轴正交的Y轴方向投影的工件的加工过程。 对于主轴的每个旋转定位点θi(i = 1至n),通过同时显示工具的移动路径和第一显示区域“ai”内的工具的形状,并且第二 显示区域。
    • 2. 发明授权
    • Animated plotting method in NC apparatus for multi-system lathe
    • 多系统车床数控装置动画绘图方法
    • US5359530A
    • 1994-10-25
    • US984411
    • 1993-03-03
    • Teruyuki MatsumuraSatoru Shinozaki
    • Teruyuki MatsumuraSatoru Shinozaki
    • G05B19/18G05B19/4069G06F15/46
    • G05B19/4069Y02P90/265Y10T82/2502
    • An animated plotting method in which an actual machining action is accurately simulated even if a tool rest is moved to another main spindle not directly associated therewith for cutting, or a single workpiece loaded on a main spindle is subjected to cutting operations by means of a plurality of tool rests. By virtue of a range specification command G10 for specifically setting a plottable range of each tool rest, a plottable range is imparted to each of the tool rests (S3, S4), and then the plottable range for each of the tool rests is displayed on either the left half (13a) or the right half (13b) of the display screen (13) depending on the operating position of each tool rest, or depending on whether each tool rest lies on the side of a first main spindle (14) or on the side of a second main spindle (16), thereby accurately simulating a path of the tool performing an actual machining operation and the state of cutting.
    • PCT No.PCT / JP92 / 00890 Sec。 371日期1993年3月3日 102(e)1993年3月3日PCT 1997年7月10日PCT公布。 出版物WO93 / 01536 日期:1993年1月21日。一种动画绘制方法,其中即使将刀架移动到与其直接相关的另一个主轴进行切割,也可以精确地模拟实际加工动作,或者将负载在主轴上的单个工件 通过多个刀架进行切割操作。 通过用于专门设定每个刀架的可绘制范围的量程指定指令G10,向每个刀架(S3,S4)赋予可绘制的范围,然后将每个刀架的可绘制范围显示在 取决于每个刀架的操作位置,或者根据每个刀架是否位于第一主轴(14)的侧面上,显示屏(13)的左半部(13a)或右半部(13b) 或第二主轴(16)的一侧,从而精确地模拟执行实际加工操作的刀具的路径和切割状态。
    • 3. 发明授权
    • Machining program checking method for a numerical control device
    • 数控装置加工程序检验方法
    • US06157869A
    • 2000-12-05
    • US244633
    • 1994-06-06
    • Teruyuki MatsumuraSatoru ShinozakiTakahiko Endo
    • Teruyuki MatsumuraSatoru ShinozakiTakahiko Endo
    • B23Q15/00G05B19/4069G06F19/00
    • G05B19/4069G05B2219/35306G05B2219/35316G05B2219/37237G05B2219/45141G05B2219/50291
    • A machining program checking method is provided for a numerical control device which controls an NC lathe for performing a machining operation with a plurality of tools simultaneously mounted on a turret thereof, wherein interference of the tools with a workpiece or with various parts of the lathe can be surely detected before the machining operation is actually executed. During creation or simulation of a machining program, all tools n defined and mounted on the turret A are detected the relationship of relative position between a tool m currently in use and each of the other tools n is obtained the current position of each of the tools n is obtained based on the machining program defined with respect to the tool m and the relationship of relative position a determination is made as to whether each of the tools n interferes with the region of the workpiece B or chuck C, and an alarm or the like is displayed in accordance with the result of the determination, thereby checking the interference of the tools before the machining operation is carried out.
    • PCT No.PCT / JP93 / 01419 Sec。 371日期:1994年6月6日 102(e)日期1994年6月6日PCT提交1993年10月4日PCT公布。 公开号WO94 / 07649 日期1994年04月14日提供了一种数控装置的加工程序检查方法,该数控装置通过同时安装在其转台上的多个工具来控制NC车床进行加工操作,其中工具与工件或各种 在实际执行加工操作之前,可以确定检测车床的零件。 在加工程序的创建或模拟过程中,检测到在刀塔A上定义和安装的所有刀具n被检测到当前正在使用的刀具m和每个其他刀具之间的相对位置的关系n被获得每个刀具的当前位置 n基于相对于工具m定义的加工程序和相对位置的关系获得,确定每个工具n是否干扰工件B或卡盘C的区域,以及报警或 根据确定结果显示,从而在进行加工操作之前检查工具的干扰。
    • 7. 发明授权
    • Machining limit area specifying method and manuel feed machining method using numerical control unit
    • 加工极限区域指定方法和使用数控单元的手动进给加工方法
    • US06269283B1
    • 2001-07-31
    • US09077096
    • 1998-05-19
    • Satoru ShinozakiSusumu Nagayama
    • Satoru ShinozakiSusumu Nagayama
    • G06F1900
    • G05B19/4061G05B19/409G05B2219/33004G05B2219/33008G05B2219/36314G05B2219/49137G05B2219/49157
    • A machining limit area specifying method and a manual feed machining method using a numerical control unit capable of easily performing machining in a desired shape by manual feed. In specifying a machining limit area on an X-Y plane, a desired machining shape is defined by shaping data or a combination of some shaping data on the X-Y plane at a predetermined Z-coordinate, and the desired machining shape defined by the shaping data is specified as a machining limit area in which movement of a tool is permitted on the X-Y plane in manual machining using the numerical control unit. In specifying a machining limit area in the Z-axis direction, an inverse function using an X- or Y-coordinate value as a parameter is obtained based on a function for specifying the machining limit area on the X-Y plane on condition that a Z-coordinate value is used as a parameter, and the machining limit area in the Z-axis direction is specified based on the inverse function.
    • 使用能够通过手动进给容易地进行所需形状的加工的数控单元的加工限制区域指定方法和手动进给加工方法。 在XY平面上指定加工限制区域时,通过在XY平面上以预定的Z坐标成形数据或某些成形数据的组合来定义所需的加工形状,并且指定由成形数据定义的期望的加工形状 作为在使用数字控制单元的手动加工中在XY平面上允许工具移动的加工限制区域。 在指定Z轴方向的加工限制区域时,基于用于指定XY平面上的加工极限区域的功能,获得使用X或Y坐标值作为参数的反函数,条件是Z- 坐标值用作参数,并且基于反函数来指定Z轴方向上的加工限制区域。