在模型上获得薄壁件的理论数据以便测量薄壁件的变形情况。 ( 一次只获得一个边缘点的坐标)

边界点适用于测量棱边的检测,常用于钣金件边缘的检测。



“ 模式” : 辅助点的测点数设置。 一个点辅助面测量一个点, 确定了边缘点的实际深度;两个点测量一条线, 确定了边缘点的实际深度和边缘点在其截面上的矢量方向; 三个点测量一个平面, 确定了边缘点的实际深度和边缘点的矢量方向。


$$ NET_DMIS_20160720
$$ MADE IN DE 2023-2-23 9:25:24
INCLUD/DMIS,'NET_DMIS_DEFINES.DMI'
INCLUD/DMIS,'VARDEFINE'
DMESW/COMAND,'PROBE_VAL/INIT'
UNITS/MM,ANGDEC
D(MACHINE)=DATSET/MCS
DMESW/COMAND,'COORDSYS/ALIGN'
WKPLAN/XYPLAN
PRCOMP/ON
PRCOMP/ON
FEDRAT/POSVEL,MMPS,300.0000
ACLRAT/POSACL,MMPSS,100.0000
FEDRAT/MESVEL,MMPS,20.0000
ACLRAT/MESACL,MMPSS,100.0000
SNSET/RETRCT,1.0000
SNSET/SEARCH,5.0000
SNSET/APPRCH,1.0000
DMESW/COMAND,'SNSET/MANRETRCT,1.0000'
DMESW/COMAND,'REPORT/CLEAR'
MODE/MAN
DID(D2L40)=DEVICE/STOR,'D2L40'
OPEN/DID(D2L40),SNS
S(A0B0)=SNSDEF/PROBE,INDEX,POL,0.0,0.0,0.0000,0.0000,1.0000,189.6500,2.0000
SNSLCT/SA(A0B0)
FEDRAT/MESVEL,MMPS,2.0000
SNSET/RETRCT,2.0000
SNSET/APPRCH,2.0000
DMESW/COMAND,'SNSET/MANRETRCT,2.0000'
GEOALG/PLANE,LSTSQR
F(平面1)=FEAT/PLANE,CART,31.2650,39.5919,0,0,0,1.00000000
MEAS/PLANE,F(平面1),4
PTMEAS/CART,3.7540,55.2894,0,0,0,1.00000000
PTMEAS/CART,2.7995,4.3170,0,0,0,1.00000000
PTMEAS/CART,60.3669,5.1633,0,0,0,1.00000000
PTMEAS/CART,58.1395,93.5981,0,0,0,1.00000000
ENDMES
SNSET/DEPTH,0
DMESW/COMAND,'CONST/SET_PROJ_VEC,FA(平面1),1'
F(直线1)=FEAT/LINE,UNBND,CART,3.6651,0,-2.2385,0.99998102,0,-0.00616102,0,-1.00000000,0
MEAS/LINE,F(直线1),2
PTMEAS/CART,3.6651,0,-2.4232,0,-1.00000000,0
PTMEAS/CART,63.6273,0,-2.4232,0,-1.00000000,0
ENDMES
F(点1)=FEAT/POINT,CART,0,4.3945,-2.5726,-1.00000000,0,0
MEAS/POINT,COMP,DME,F(点1),1
PTMEAS/CART,0,4.3945,-2.5726,-1.00000000,0,0
ENDMES
DATDEF/F(平面1),DAT(A_平面1)
D(坐标系1_S)=DATSET/DAT(A_平面1),ZDIR
D(坐标系1_R)=ROTATE/ZAXIS,FA(直线1),XDIR
D(坐标系1_T)=TRANS/ZORIG,FA(平面1)
D(坐标系1_T)=TRANS/YORIG,FA(直线1)
D(坐标系1_T)=TRANS/XORIG,FA(点1)
DMESW/COMAND,'COORDSYS/CAD=PART'
SAVE/DA(坐标系1)
MODE/AUTO,PROG,MAN
SNSET/RETRCT,1.0000
SNSET/APPRCH,1.0000
DMESW/COMAND,'CLEARP/ZDIR,10.0000,ZDIR,10.0000,ON'
F(平面2)=FEAT/PLANE,CART,32.4057,47.9193,0,0,0,1.00000000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_PLANEPOINTS_1006),AUTOFIGURE,F(平面2),PLANE,CART,LSTSQR,32.4057,47.9193,$
0,0,0,1.00000000,FALSE,FALSE,FALSE,0,"CUR",TRUE,FALSE,POINTS,'9,2.4645,6.4585,0,0,0,1.00000000,3.1419,$
59.2458,0,0,0,1.00000000,22.8566,94.6659,0,0,0,1.00000000,58.4447,96.4369,0,0,0,1.00000000,61.7202,66.2279,$
0,0,0,1.00000000,60.3207,4.3748,0,0,0,1.00000000,21.8357,6.4613,0,0,0,1.00000000,20.9073,50.4742,0,0,$
0,1.00000000,39.9595,46.9280,0,0,0,1.00000000',TOUCH,0.3000,XYPLAN
GEOALG/CIRCLE,LSTSQR
DMESW/COMAND,'CONST/SET_PROJ_VEC,FA(XY),1'
F(圆8)=FEAT/CIRCLE,INNER,CART,31.5000,31.5000,-3.0000,0,0,1.00000000,36.0000
CONST/CIRCLE,F(圆8),BF,FA(圆2),FA(圆3),FA(圆4),FA(圆5),FA(圆6),FA(圆7)
F(直线2)=FEAT/LINE,BND,CART,4.0000,0,-2.0000,63.0000,0,-2.0000,0,-1.00000000,0
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_LINE_1007),AUTOFIGURE,F(直线2),LINE_BND,CART,4.0000,0,-2.0000,1.00000000,$
0,0,59.0000,FALSE,FALSE,FALSE,0,"CUR",TRUE,FALSE,0,-1.00000000,0,4,0,0,0,TOUCH,0.3000,XYPLAN,0,0,LINE,$
"","","EXT1","EXT2","EXT3",ENDCAL
F(直线3)=FEAT/LINE,BND,CART,0,4.0000,-2.0000,0,58.0000,-2.0000,-1.00000000,0,0
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_LINE_1007),AUTOFIGURE,F(直线3),LINE_BND,CART,0,4.0000,-2.0000,0,1.00000000,$
0,54.0000,FALSE,FALSE,FALSE,0,"CUR",TRUE,FALSE,-1.00000000,0,0,4,0,0,0,TOUCH,0.3000,XYPLAN,0,0,LINE,"",$
"","EXT1","EXT2","EXT3",ENDCAL
F(点2)=FEAT/POINT,CART,0,0,-2.0000,0,0,-1.00000000
CONST/POINT,F(点2),INTOF,FA(直线2),FA(直线3)
DATDEF/F(平面2),DAT(A_平面2)
D(坐标系2_S)=DATSET/DAT(A_平面2),ZDIR
D(坐标系2_R)=ROTATE/ZAXIS,FA(直线2),XDIR
D(坐标系2_T)=TRANS/XORIG,FA(点2),YORIG,FA(点2)
D(坐标系2_T)=TRANS/ZORIG,FA(平面2)
SAVE/DA(坐标系2)
F(圆1)=FEAT/CIRCLE,INNER,CART,31.5000,31.5000,0,0,0,1.00000000,20.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆1),CIRCLE,INNER,CART,LSTSQR,31.5000,31.5000,$
0,0,0,1.00000000,20.0000,-1.00000000,0,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,$
FALSE,FALSE,0,"CUR",TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,$
5.0000',"EXT3",ENDCAL
F(圆2)=FEAT/CIRCLE,INNER,CART,31.5000,49.5000,0,0,0,1.00000000,10.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆2),CIRCLE,INNER,CART,LSTSQR,31.5000,49.5000,$
0,0,0,1.00000000,10.0000,-1.00000000,0,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,$
FALSE,FALSE,0,"CUR",TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,$
5.0000',"EXT3",ENDCAL
F(圆3)=FEAT/CIRCLE,INNER,CART,15.9115,40.5000,0,0,0,1,10.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆3),CIRCLE,INNER,CART,LSTSQR,15.9115,40.5000,$
0,0,0,1,10.0000,-0.5,-0.8660254,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,FALSE,$
FALSE,0,"CUR",TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,5.0000',$
"EXT3",ENDCAL
F(圆4)=FEAT/CIRCLE,INNER,CART,15.9115,22.5000,0,0,0,1,10.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆4),CIRCLE,INNER,CART,LSTSQR,15.9115,22.5000,$
0,0,0,1,10.0000,0.5,-0.8660254,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,FALSE,$
FALSE,0,"CUR",TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,5.0000',$
"EXT3",ENDCAL
F(圆5)=FEAT/CIRCLE,INNER,CART,31.5000,13.5000,0,0,0,1,10.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆5),CIRCLE,INNER,CART,LSTSQR,31.5000,13.5000,$
0,0,0,1,10.0000,1,0,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,FALSE,FALSE,0,"CUR",$
TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,5.0000',"EXT3",ENDCAL
F(圆6)=FEAT/CIRCLE,INNER,CART,47.0885,22.5000,0,0,0,1,10.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆6),CIRCLE,INNER,CART,LSTSQR,47.0885,22.5000,$
0,0,0,1,10.0000,0.5,0.8660254,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,FALSE,$
FALSE,0,"CUR",TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,5.0000',$
"EXT3",ENDCAL
F(圆7)=FEAT/CIRCLE,INNER,CART,47.0885,40.5000,0,0,0,1,10.0000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_CIRCLE_1007),AUTOFIGURE,F(圆7),CIRCLE,INNER,CART,LSTSQR,47.0885,40.5000,$
0,0,0,1,10.0000,-0.5,0.8660254,0,5,-3.0000,0,0,0,-180.0000,180.0000,TOUCH,CIRCLE,0.3000,0,FALSE,FALSE,$
FALSE,0,"CUR",TRUE,FALSE,0,FA(VECBLD),10.0000,2.5000,3,XYPLAN,"",'7,1,0,0,0,3.0000,0,10','0,1,0,5.0000',$
"EXT3",ENDCAL
F(点3)=FEAT/POINT,CART,81.2846,48.0055,-12.8864,0.52044052,0,0.85389793
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_POINT_1007),AUTOFIGURE,F(点3),POINT,CART,DME,81.2846,48.0055,-12.8864,$
0.52044052,0,0.85389793,0,0,0,FALSE,FALSE,FALSE,10.0000,"CUR",TRUE,FALSE,1,FA(VECBLD),2.0000,2.5000,3,$
XYPLAN,"","EXT1","EXT2","EXT3",ENDCAL
F(边缘点1)=FEAT/EDGEPT,CART,13.7088,85.0449,0,-0.86542734,0.50103446,0,0,0,1.00000000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_POINTEDGE_1006),AUTOFIGURE,F(边缘点1),EDGEPT,CART,13.7088,85.0449,0,-0.86542734,$
0.50103446,0,0,0,0,0,1.00000000,2.0000,2.0000,5.0000,5.0000,3,1.0000,XYPLAN
F(边缘点2)=FEAT/EDGEPT,CART,8.3980,75.8718,0,-0.86542734,0.50103446,0,0,0,1.00000000
CALL/EXTERN,DMIS,M(NETDMIS_AUTO_POINTEDGE_1006),AUTOFIGURE,F(边缘点2),EDGEPT,CART,8.3980,75.8718,0,-0.86542734,$
0.50103446,0,0,0,0,0,1.00000000,2.0000,2.0000,5.0000,5.0000,2,1.0000,XYPLAN

NETDMIS5.0边界点检测2023相关推荐

  1. NETDMIS5.0脱机编程2023

    NETDMIS5.0脱机编程功能,用户将测量机,数模,都导入软件中. 在使用导入 CAD 模型进行脱机或联机编程时, 使用虚拟找正功能, 将模型虚拟放置 在机器的某一位置, 方便脱机模拟运行程序. 1 ...

  2. NETDMIS5.0同轴度测量2023

    轴对轴的轴线间同轴度公差要求, 是指被测要素与基准要素均为外圆表面轴线, 其检测时均以其外圆表面体现基准要素和被测要素. 当图样上给出以公共轴线作为基准时, 其误差检测必须 用测量装置体现出公共基准轴 ...

  3. NETDMIS5.0端面圆跳动2023

    端面圆跳动公差带是在与基准同轴的任一半径位置的测量圆柱面上距离为t的两圆之间的区域: $$ NET_DMIS_20160720 $$ MADE IN DE 2023-2-23 9:25:24 INCL ...

  4. NETDMIS5.0自动测量圆柱2023

    对于圆柱的测量,则通过多层圆面采集特征数据. 通过圆柱第一层截面圆心坐标,直径,轴线方向的名义值去测量圆柱. 路径:[基本测量]→[特征测量]→[圆柱] 自动测量圆柱和自动测量圆有很多相同点,不同的是 ...

  5. NETDMIS5.0自动测量球2023

    与其它圆类特征测量不同,球体的特征测量则需要设置两对圆测量参数:球体上经线方 向的的起始角.终止角:球体上纬线方向的起始角.终止角. 经度: 起始角:球体上经度方向的起始角为0 终止角:球体上经度方向 ...

  6. NETDMIS5.0自动测量圆2023

    一自动测量几何元素理论数据的获取 自动测量几何元素需要具备被测元素的理论数据(理论值),得到理论值最方便的方法是直接在工件的CAD模型上进行选取. 对于没有CAD模型的工件,可以根据图样标注获得,将相 ...

  7. NETDMIS5.0手动测量2023

    几何特征(GeometricalFeature)又称几何元素或几何要素,简称特征(Feature)元素或要素,常规几何特征包括:点.直线.平面.圆.圆柱.圆锥.球. 三坐标测量的主要工作是测量各种几何 ...

  8. NETDMIS5.0 程序结构2023

    1 ,测量设置 手动模式.测头.接近/回退距离.触测/移动速度等 $$ NET_DMIS_20160720 $$ MADE IN DE 2023-2-23 9:25:24 INCLUD/DMIS,'N ...

  9. NETDMIS5.0螺纹孔测量2023

    三坐标测量机具有螺纹中心位置测量的功能,可选用柱形测针或球形测针来实现. 柱形测针测量过程简单,易操作,在手动机器和自动机器上均可实现.但在测量时要求测针的轴线方向与螺纹的轴线方向必须相一致,这对测针 ...

最新文章

  1. yii2多mysql配置文件_yii2使用多个数据库的案例
  2. 用来代替SQUID的软件VARNISH
  3. 梦断代码阅读笔记01
  4. tableau可视化数据分析60讲(七)-工作表操作(长篇干货建议收藏!)
  5. 数字图像处理:第二章 图象获取、显示、表示与处理
  6. html中index.css里面写什么,css中z-index是什么意思?
  7. sudo命令_如何在非 sudo 用户下运行 docker 命令?
  8. 搭建基础架构-Order
  9. 查询数量_免费送高粱seo原创排名查询工具,让更多seoer受益
  10. 前端试题-CSS试题(1)
  11. c ++创建二维数组_C ++中的二维数组
  12. 进化计算-遗传算法之史上最全选择策略
  13. linux 从github拉取更新_2020年的GitHub年度报告,我看出了这些不一样的点
  14. java后台实现批量打印功能
  15. 1031 Hello World for U
  16. 构建自己的GAFATA
  17. 如何在win10中安装jdk
  18. 【Numpy】选择特定行列
  19. R 编程中的 LOOCV(留一法交叉验证)
  20. 详解百度地图API之地图标注

热门文章

  1. C语言入门习题系列三(含答案)
  2. 用excel做logistic回归分析_怎样用SPSS做二项Logistic回归分析?结果如何解释?
  3. nrf51822蓝牙学习笔记三
  4. 本周大新闻|谷歌眼镜企业版正式停售;Meta重组大裁员
  5. PDF转换器用什么好?这款一定能够帮到你
  6. 今天见鬼了,奇怪,Mark一下!
  7. 【报告分享】2021小红书投放运营指南书-小红书(附下载)
  8. PC项目——vue 脚手架中实现阿里云人机滑动验证
  9. Qt QSS QSlider样式
  10. 前端练习--京东导航