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RationalDMIS 7.1环形零件壁厚差快速检测

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对于环形零件壁厚差,其实是内外圆相对应点之间的距离。



1.平面,圆  建立零件坐标系。




2.自动测量外圆,内圆。



(3)评价内外圆相对应触测点距离。


   内外圆测量完毕后,分别评价外圆的点1到内圆的点1之间的距离,然后评价外圆点2到内圆点2之间的距离…依此类推直至最后一点即可评价出环形零件壁厚差。



第一步,快速取出测量元素的测量点。


   双击元素,在元素的属性页中拖放到点元素节点下,也可以直接拖放输出测量点(属性页中显示的数据是没有经过测头补偿的,而在点节点下是经过测头补偿的)。



第二步:评价时是内外圆的点与点之间的对应。


$$/*  Header

DMISMN/'Created by [爱科腾瑞科技(北京)有限公司-091520-DEMO] on 星期四, 五月 14, 2020', 4.0

UNITS/MM, ANGDEC, MMPS

WKPLAN/XYPLAN

PRCOMP/ON

TECOMP/ON

FLY/1.0000

MODE/MAN

SNSET/APPRCH, 2.0000

SNSET/RETRCT, 2.0000

SNSET/DEPTH, 0.0000

SNSET/SEARCH, 10.0000

SNSET/CLRSRF, 20.0000

RECALL/D(MCS)

SNSLCT/S(L20-D2.0)

GEOALG/BF, LSTSQR

GEOALG/ANGLB, DEFALT

GEOALG/CIRCLE, LSTSQR

GEOALG/ARC, LSTSQR

GEOALG/PLANE, LSTSQR

$$

$$

$$*/

MODE/MAN

F(PLN1)=FEAT/PLANE,CART,0.5399,-2.7834,0.0000,0.0000,0.0000,1.0000

$$ Measurement points are created through actual points

MEAS/PLANE, F(PLN1), 4

  PTMEAS/CART, -12.9454,  16.2044, -0.0000, 0.0000, 0.0000, 1.0000

  PTMEAS/CART, -15.1920, -14.3728, -0.0000, 0.0000, 0.0000, 1.0000

  PTMEAS/CART,  10.0229, -18.5494, -0.0000, 0.0000, 0.0000, 1.0000

  PTMEAS/CART,  20.2739,   5.5841, -0.0000, 0.0000, 0.0000, 1.0000

ENDMES

D(CRD1) = DATSET/FA(PLN1), ZDIR

D(CRD1) = TRANS/ZORIG, FA(PLN1)

F(CIR1)=FEAT/CIRCLE,INNER,CART,0.0000,0.0000,-2.1950,0.0000,0.0000,1.0000, 39.0000

$$ Measurement points are created through actual points

MEAS/CIRCLE, F(CIR1), 4

  PTMEAS/CART,   4.8289,  18.8926, -2.1950, -0.2476, -0.9689, -0.0000

  PTMEAS/CART,  18.3782,  -6.5185, -2.1950, -0.9425,  0.3343, -0.0000

  PTMEAS/CART,  -8.0859, -17.7445, -2.1950,  0.4147,  0.9100, -0.0000

  PTMEAS/CART, -19.3196,   2.6465, -2.1950,  0.9907, -0.1357, -0.0000

ENDMES

D(CRD2) = TRANS/XORIG, FA(CIR1), YORIG, FA(CIR1)

MODE/PROG,MAN

$$ MACRO: EASI_CLEARPLN_GOTO

$$ FUNCTION: CLEARANCE SURFACE IMPLEMENTATION

$$      Move machine CLEAR SURFACE DIST above the current clear surface 

$$ plane and then move machine parallel to the clear surface plane 

$$ ALL Macro parameters are in PCS and Current UNITS

$$ Last update: 3-1-04 Add mode checking. only works in PROG MODE

$$ Last update: 8-24-04 Clear position is based on the surface of

$$

$$ This sample DMIS Macro is provided by External-Array Software, Inc.

$$ It should be modified for your own use. There is no guarantee for

$$ the quality of this Macro. November, 2003


M(EASI_CLEARPLN_GOTO) = MACRO/ISNOM, TARX, TARY, TARZ

DECL/LOCAL, REAL, CCX, CCY, CCZ, CCI, CCJ, CCK

DECL/LOCAL, REAL, CURX, CURY, CURZ, TD, CLRDIST, SDIAM

DECL/LOCAL, CHAR, 255, CLRLABEL, FLABEL, MMODE, SNAME


MMODE = VALUE/MODE

CLRLABEL = VALUE/SNSET, CLRSRF

IF/ ( (LEN(CLRLABEL) .GT. 0) .AND. (MMODE .EQ. 'PROG,MAN') )

CLRDIST = VALUE/SNSET, CLRSRF, DIST

FLABEL = ASSIGN/'FA'

IF/ ISNOM .EQ. 0

FLABEL = ASSIGN/'F'

ENDIF

CCX = OBTAIN/FLABEL(@CLRLABEL), 3

CCY = OBTAIN/FLABEL(@CLRLABEL), 4

CCZ = OBTAIN/FLABEL(@CLRLABEL), 5

CCI = OBTAIN/FLABEL(@CLRLABEL), 6

CCJ = OBTAIN/FLABEL(@CLRLABEL), 7

CCK = OBTAIN/FLABEL(@CLRLABEL), 8

SNAME = VALUE/SNSLCT

SDIAM = OBTAIN/SS(SNAME), 8

CCX = ASSIGN/CCX + CCI * SDIAM/2

CCY = ASSIGN/CCY + CCJ * SDIAM/2

CCZ = ASSIGN/CCZ + CCK * SDIAM/2


CURX = VALUE/GOTOM, XAXIS

CURY = VALUE/GOTOM, YAXIS

CURZ = VALUE/GOTOM, ZAXIS

TD = ASSIGN/(CURX - CCX) * CCI + (CURY - CCY) * CCJ + (CURZ - CCZ) * CCK

IF/ TD .LT. CLRDIST

TD = ASSIGN/(CLRDIST - TD)

GOTO/CURX+CCI*TD, CURY+CCJ*TD, CURZ+CCK*TD

ENDIF

TD = ASSIGN/(TARX - CCX) * CCI + (TARY - CCY) * CCJ + (TARZ - CCZ) * CCK

IF/ TD .LT. CLRDIST

TD = ASSIGN/(CLRDIST - TD)

GOTO/TARX+CCI*TD, TARY+CCJ*TD, TARZ+CCK*TD

ENDIF

ENDIF

ENDMAC

SNSET/APPRCH, 2.0000

SNSET/RETRCT, 2.0000

SNSET/DEPTH, 0.0000

SNSET/SEARCH, 10.0000

SNSET/CLRSRF, FA(PLN1), 20.0000

F(CIR2)=FEAT/CIRCLE,OUTER,CART,0.0000,0.0000,-4.0000,0.0000,0.0000,1.0000, 45.0000

$$ Measurement points are created through nominal points

$$ CALL/M(EASI_CLEARPLN_GOTO), 1, 18.0312, -18.0312, 21.0000

MEAS/CIRCLE, F(CIR2), 8

  GOTO/CART,    18.0312, -18.0312, 21.0000

  GOTO/CART,    25.5000,   0.0000, 21.0000

  GOTO/CART,    25.5000,   0.0000, 16.0000

  PTMEAS/CART,  22.5000,   0.0000, -4.0000,  1.0000,  0.0000, 0.0000

  GOTO/CART,    23.5589,   9.7584, -4.0000

  PTMEAS/CART,  15.9099,  15.9099, -4.0000,  0.7071,  0.7071, 0.0000

  GOTO/CART,     9.7584,  23.5589, -4.0000

  PTMEAS/CART,   0.0000,  22.5000, -4.0000,  0.0000,  1.0000, 0.0000

  GOTO/CART,    -9.7584,  23.5589, -4.0000

  PTMEAS/CART, -15.9099,  15.9099, -4.0000, -0.7071,  0.7071, 0.0000

  GOTO/CART,   -23.5589,   9.7584, -4.0000

  PTMEAS/CART, -22.5000,   0.0000, -4.0000, -1.0000,  0.0000, 0.0000

  GOTO/CART,   -23.5589,  -9.7584, -4.0000

  PTMEAS/CART, -15.9099, -15.9099, -4.0000, -0.7071, -0.7071, 0.0000

  GOTO/CART,    -9.7584, -23.5589, -4.0000

  PTMEAS/CART,   0.0000, -22.5000, -4.0000,  0.0000, -1.0000, 0.0000

  GOTO/CART,     9.7584, -23.5589, -4.0000

  PTMEAS/CART,  15.9099, -15.9099, -4.0000,  0.7071, -0.7071, 0.0000

  GOTO/CART,    18.0312, -18.0312, 16.0000

ENDMES

F(CIR3)=FEAT/CIRCLE,INNER,CART,0.0000,0.0000,-4.0000,0.0000,0.0000,1.0000, 39.0000

$$ Measurement points are created through nominal points

$$ CALL/M(EASI_CLEARPLN_GOTO), 1, 18.0312, -18.0312, 21.0000

MEAS/CIRCLE, F(CIR3), 8

  GOTO/CART,    18.0312, -18.0312, 21.0000

  GOTO/CART,    16.5000,   0.0000, 21.0000

  GOTO/CART,    16.5000,   0.0000, 16.0000

  PTMEAS/CART,  19.5000,   0.0000, -4.0000, -1.0000,  0.0000,  0.0000

  GOTO/CART,    15.2440,   6.3143, -4.0000

  PTMEAS/CART,  13.7886,  13.7886, -4.0000, -0.7071, -0.7071, -0.0000

  GOTO/CART,     6.3143,  15.2440, -4.0000

  PTMEAS/CART,   0.0000,  19.5000, -4.0000, -0.0000, -1.0000, -0.0000

  GOTO/CART,    -6.3143,  15.2440, -4.0000

  PTMEAS/CART, -13.7886,  13.7886, -4.0000,  0.7071, -0.7071,  0.0000

  GOTO/CART,   -15.2440,   6.3143, -4.0000

  PTMEAS/CART, -19.5000,   0.0000, -4.0000,  1.0000,  0.0000,  0.0000

  GOTO/CART,   -15.2440,  -6.3143, -4.0000

  PTMEAS/CART, -13.7886, -13.7886, -4.0000,  0.7071,  0.7071,  0.0000

  GOTO/CART,    -6.3143, -15.2440, -4.0000

  PTMEAS/CART,   0.0000, -19.5000, -4.0000,  0.0000,  1.0000,  0.0000

  GOTO/CART,     6.3143, -15.2440, -4.0000

  PTMEAS/CART,  13.7886, -13.7886, -4.0000, -0.7071,  0.7071,  0.0000

  GOTO/CART,    11.6673, -11.6673, 16.0000

ENDMES

F(CR1-1)=FEAT/POINT,CART,22.5000,0.0000,-4.0000,1.0000,0.0000,0.0000


$$ This sample DMIS Macro is provided by External-Array Software, Inc.

$$ It should be modified for your own use. There is no guarantee for

$$ the quality of this Macro. July, 2009

$$ Last update: March 7, 2010

$$ When PINDEX = 0, define POINT through feature's

$$ characteristic point


$$ FUNCION: The function retrieves the X,Y,Z,I,J,K of measurement

$$ point from feature 'FEATLABEL' at index PINDEX.

$$ The X,Y,Z,I,J,K are used to define a new point of 'POINTLABEL'

$$ DERR is 0 if the PINDEX is in valid range and point actual

$$ is defined. If DERR is 1, the PINDEX is greater than the

$$ maximum index range.


M(EASI_DEFINE_INDEXED_POINT) = MACRO/'FEATLABEL', 'POINTLABEL', PINDEX, DERR

DECL/LOCAL, REAL, PX, PY, PZ, PI, PJ, PK

DECL/LOCAL, INTGR, PSIZE, INDEX1

DECL/LOCAL, CHAR, 255, FNAME

PSIZE = VALUE/FA(@FEATLABEL), PTDATA

DERR = ASSIGN/1

IF/( PINDEX .EQ. 0 )

CALL/M(EASI_GETX_INDEX), FEATLABEL, INDEX1

PX = OBTAIN/FA(@FEATLABEL),INDEX1

PY = OBTAIN/FA(@FEATLABEL),INDEX1+1

PZ = OBTAIN/FA(@FEATLABEL),INDEX1+2

FNAME = OBTAIN/F(@FEATLABEL), 1

IF/( (FNAME .EQ. 'ELLIPS') .OR. (FNAME .EQ. 'SPHERE') )

PI = ASSIGN/0

PJ = ASSIGN/0

PK = ASSIGN/1

ELSE

PI = OBTAIN/FA(@FEATLABEL),INDEX1+3

PJ = OBTAIN/FA(@FEATLABEL),INDEX1+4

PK = OBTAIN/FA(@FEATLABEL),INDEX1+5

ENDIF

FA(@POINTLABEL) = FEAT/POINT, CART, PX, PY, PZ, PI, PJ, PK

DERR = ASSIGN/0

ELSE

IF/( PSIZE .GE. PINDEX )

PX = OBTAIN/FA(@FEATLABEL)[PINDEX], 2

PY = OBTAIN/FA(@FEATLABEL)[PINDEX], 3

PZ = OBTAIN/FA(@FEATLABEL)[PINDEX], 4

PI = OBTAIN/FA(@FEATLABEL)[PINDEX], 5

PJ = OBTAIN/FA(@FEATLABEL)[PINDEX], 6

PK = OBTAIN/FA(@FEATLABEL)[PINDEX], 7

FA(@POINTLABEL) = FEAT/POINT, CART, PX, PY, PZ, PI, PJ, PK

DERR = ASSIGN/0

ENDIF

ENDIF

ENDMAC



CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-1), 1, KNPTR1

F(CR1-2)=FEAT/POINT,CART,15.9099,15.9099,-4.0000,0.7071,0.7071,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-2), 2, KNPTR1

F(CR1-3)=FEAT/POINT,CART,0.0000,22.5000,-4.0000,0.0000,1.0000,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-3), 3, KNPTR1

F(CR1-4)=FEAT/POINT,CART,-15.9099,15.9099,-4.0000,-0.7071,0.7071,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-4), 4, KNPTR1

F(CR1-5)=FEAT/POINT,CART,-22.5000,0.0000,-4.0000,-1.0000,0.0000,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-5), 5, KNPTR1

F(CR1-6)=FEAT/POINT,CART,-15.9099,-15.9099,-4.0000,-0.7071,-0.7071,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-6), 6, KNPTR1

F(CR1-7)=FEAT/POINT,CART,0.0000,-22.5000,-4.0000,0.0000,-1.0000,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR2), (CR1-7), 7, KNPTR1

F(CR1-8)=FEAT/POINT,CART,15.9099,-15.9099,-4.0000,0.7071,-0.7071,0.0000

F(CR2-1)=FEAT/POINT,CART,19.5000,0.0000,-4.0000,-1.0000,0.0000,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-1), 1, KNPTR1

F(CR2-2)=FEAT/POINT,CART,13.7886,13.7886,-4.0000,-0.7071,-0.7071,-0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-2), 2, KNPTR1

F(CR2-3)=FEAT/POINT,CART,0.0000,19.5000,-4.0000,-0.0000,-1.0000,-0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-3), 3, KNPTR1

F(CR2-4)=FEAT/POINT,CART,-13.7886,13.7886,-4.0000,0.7071,-0.7071,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-4), 4, KNPTR1

F(CR2-5)=FEAT/POINT,CART,-19.5000,0.0000,-4.0000,1.0000,0.0000,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-5), 5, KNPTR1

F(CR2-6)=FEAT/POINT,CART,-13.7886,-13.7886,-4.0000,0.7071,0.7071,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-6), 6, KNPTR1

F(CR2-7)=FEAT/POINT,CART,0.0000,-19.5000,-4.0000,0.0000,1.0000,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-7), 7, KNPTR1

F(CR2-8)=FEAT/POINT,CART,13.7886,-13.7886,-4.0000,-0.7071,0.7071,0.0000

CALL/M(EASI_DEFINE_INDEXED_POINT), (CIR3), (CR2-8), 8, KNPTR1

T(TDST1)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-1),FA(CR2-1),TA(TDST1)

T(TDST2)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-2),FA(CR2-2),TA(TDST2)

T(TDST3)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-3),FA(CR2-3),TA(TDST3)

T(TDST4)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-4),FA(CR2-4),TA(TDST4)

T(TDST5)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-5),FA(CR2-5),TA(TDST5)

T(TDST6)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-6),FA(CR2-6),TA(TDST6)

T(TDST7)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-7),FA(CR2-7),TA(TDST7)

T(TDST8)=TOL/DISTB,NOMINL,3.0000,0.0000,0.0050,PT2PT,AVG

OUTPUT/FA(CR1-8),FA(CR2-8),TA(TDST8)

 

来源:RationalDMIS测量技术
Marc
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首次发布时间:2023-07-11
最近编辑:1年前
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