Jump to content

Welcome to eMastercam

Register now to participate in the forums, access the download area, buy Mastercam training materials, post processors and more. This message will be removed once you have signed in.

Use your display name or email address to sign in:

Search the Community

Showing results for tags 'renishaw probing cycle'.

  • Search By Tags

    Type tags separated by commas.
  • Search By Author

Content Type


Forums

  • Mastercam Forums
    • Industrial Forum
    • Post Processor Development Forum
    • Educational Forum
    • Woodworking Forum
    • Machining, Tools, Cutting & Probing
    • 3D Printing

Categories

  • Mastercam Demo Software
  • Files Referenced in Books and Videos
    • Instructor Files
    • Mastercam X7
    • Mastercam X6
    • Mastercam X5
    • Mastercam X4
    • Mastercam X3
    • Mastercam X2
    • STEM
  • Free Book Samples
    • Mastercam 2020
    • Mastercam 2019
    • Mastercam 2018
    • Mastercam 2017
    • Mastercam X9
    • Mastercam X8
    • Mastercam X7
    • Mastercam X6
    • Mastercam X5
    • Mastercam X4
    • Mastercam X3
    • STEM Curriculum
  • Mastercam eBooks (PDF)
    • Mastercam 2023
    • Mastercam 2022
    • Mastercam 2021
    • Mastercam 2020
    • Mastercam 2019
    • Mastercam 2018
    • Mastercam 2017
    • Mastercam X9
    • Mastercam X8
    • Mastercam X7
    • Mastercam X6
    • Mastercam X5
    • Mastercam X4
  • Mastercam Documentation
    • Brochures
    • Press Releases
    • Tips & Guides
  • Tools
  • Post Processors
    • Post Processor 'How To' Info
    • Mpmaster (all versions)
    • Mplmaster (all versions)
    • Application Specific Posts
    • Educational Post Processors
    • Post Processor Request Forms
    • Post Processor Feature Checklist Forms

Product Groups

  • Sitewide Subscription
  • Books
    • Older Versions (No Demo Software)
  • eBooks (PDF)
    • Mastercam 2023
    • Older Versions (No Demo Software)
  • Multimedia
    • Older Versions (No Demo Software)
  • Clearance
  • eCourses
  • eCourses

Categories

  • General Mastercam
    • Hasp / Sim License Articles
    • Nethasp
  • Lathe
  • Toolpaths
    • FBM Drill
    • FBM Mill
    • Dynamic Milling
    • Contour
    • Drill
    • Pocket
    • Face
    • 2D Highspeed
    • Engraving
    • Surface Rough
    • Surface Finish
    • Surface High Speed
    • Curve 5 axis
    • Drill 5 Axis
    • Swarf 5 Axis
    • Multisurface 5 Axis
    • Flow 5 Axis
    • Rotary 4 Axis
    • Port 5 axis
    • Advanced Multiaxis
    • Circle Paths
    • Circle 5 Axis
  • Wire EDM
  • Art
  • Post-Processing
  • Editors & DNC
  • Add-ons + Chooks & Nethooks
  • Windows, PC & Hardware Troubleshooting
    • Windows Issues
    • Videocards
    • Network & Filesharing
  • Multiaxis
  • eBooks

Blogs

  • Mastercam Training Solutions
  • eMastercam Community
  • Reseller Blog
  • Future of CNC Manufacturing Education
  • Mastercam Xtras
  • Latest News

Find results in...

Find results that contain...


Date Created

  • Start

    End


Last Updated

  • Start

    End


Filter by number of...

Joined

  • Start

    End


Group


Interests


Location


Mastercam SIM Number


AIM


MSN

Found 2 results

  1. Hello Mastercam Community. I shared this when I originally developed this back in 2007. I keep getting requests about it so I thought I would share it again. There were many people who helped me back then to make it what it is so I cannot take al the credit for it. Robert Brunsen (Zoober) had a big hand in this. Please use at your own risk. <!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!> <!><!><!><!><!><!><!><!> Make a Backup of your Post before attempting any of this <!><!><!><!><!><!><!><!> <!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!><!> I defined all the variables I wanted to use in the drilling section of the post right before the custom drill cycles: # --------------------------------------------------------------------- # Macro Variables as I need them # --------------------------------------------------------------------- sequal : "=" #Equal Sign spound : "#" #Pound Sign sminus : "-" #Minus Sign sadd : "+" #Addition Sign sdivide : "/" #Division Sign smultiply : "*" #Multiply Sign seq : "EQ" #Equal Call sne : "NE" #Not Equal To Call sgt : "GT" #Greater Than to Call slt : "LT" #Less Than Call sge : "GE" #Is Great than or Equal to Call sle : "LE" #Is Less than or Equal to Call sin : "SIN" #Sine Math scos : "COS" #Cosine Math stan : "TAN" #Tangent Math satan : "ATAN" #ArcTangent Math sacos : "ACOS" #ArcCosine Math sqrt : "SQRT" #Sqaure Root Math sabs : "ABS" #Absoulte Value sbin : "BIN" #Bin sbcd : "BCD" #Bcd sround : "ROUND" #Round to the Nearest Whole Number sfix : "FIX" #Use for Cutting away any Decimal Numbers sfup : "FUP" #Counting Decimal Digits as one's sln : "LN" #Natural Logarithm sexp : "EXP" #Exponent sbracketopen : "[" #Open Bracket sbracketclose : "]" #Close Bracket sif : "IF" #If Call sgoto : "GOTO" #Goto Call swhile : "WHILE" #While Call sdo : "DO" #Do Call sor : "OR" #Or Call sand : "AND" #And Call smod : "MOD" #Surplus Math sdprint : "DPRNT" #Data Output in from Probing Cycles sm100 : "100" #Macro Varaible 100 for Spindle Tranfer Operation sm150 : "150" #Macro Variable 150 for Math Functions in C Axis Aling Macro sm151 : "151" #Macro Variable 151 for Math Functions in C Axis Aling Macro sm152 : "152" #Macro Variable 152 Math Functions in C Axis Aling Macro sm5021 : "5021" #Machine Postion X Axis Variable sm5022 : "5022" #Machine Postion Y Axis Variable sm5023 : "5023" #Machine Postion Z Axis Variable sm5024 : "5024" #Machine Postion B Axis Variable sm5025 : "5025" #Machine Postion C Axis Varaible for Main Spindle sm5026 : "5026" #Machine Postion W Axis Varaible for Sub Spindle sm5027 : "5027" #Machine Postion U Axis Varaible for Sub Spindle sm5221 : "5221" #Workoffset Machine Postion X Axis Variable sm5222 : "5222" #Workoffset Machine Postion Y Axis Variable sm5223 : "5223" #Workoffset Machine Postion Z Axis Variable sm5224 : "5224" #Workoffset Machine Postion B Axis Variable sm5225 : "5225" #Workoffset Machine Postion C Axis Varaible for Main Spindle sm5226 : "5226" #Workoffset Machine Postion W Axis Varaible for Sub Spindle sm5227 : "5227" #Workoffset Machine Postion U Axis Varaible for Sub Spindle # -------------------------------------------------------------------------- # Probing String Varaibles Put here to keep post cleaner # -------------------------------------------------------------------------- strg659530 : "G65P9530" #Printing Macro Call for B90 strg659532 : "G65P9532" #Offset Update Macro for B90 strg659610 : "G65P9610" #Probe Protect Cycle for B90 strg659611 : "G65P9611" #XYZ Single Surface Measure B90 strg659612 : "G65P9612" #Web / Pocket Measure B90 strg659614 : "G65P9614" #Bore / Boss B90 strg659618 : "G65P9618" #C Axis Measure - Vertical B90 strg659619 : "G65P9619" #Bore / Boss on PCD B90 strg659621 : "G65P9621" #Angle Single Surface Measure B90 strg659622 : "G65P9622" #Angle Web / Pocket Measure B90 strg659623 : "G65P9623" #3-Point Bore / Boss Measure B90 strg659634 : "G65P9634" #Feature to Feature Measure B90 strg659650 : "G65P9650" #C-Axis Measure - Vertical B90 strg659730 : "G65P9730" #Printing Macro Call for B0 strg659732 : "G65P9732" #Offset Update Macro for B0 strg659810 : "G65P9810" #Probe Protect Cycle for B0 strg659811 : "G65P9811" #XYZ Single Surface Measure B0 strg659812 : "G65P9812" #Web / Pocket Measure B0 strg659814 : "G65P9814" #Bore / Boss B0 strg659818 : "G65P9818" #C Axis Measure - Horizontal B0 strg659819 : "G65P9819" #Bore / Boss on PCD B0 strg659821 : "G65P9821" #Angle Single Surface Measure B0 strg659822 : "G65P9822" #Angle Web / Pocket Measure B0 strg659823 : "G65P9823" #3-Point Bore / Boss Measure B0 strg659834 : "G65P9834" #Feature to Feature Measure B0 strg659850 : "G65P9850" #C-Axis Measure - Horizontal B0 zsinsurf : 0 #P9811 Z Axis Single Surface Use at B0,B90,B180 xsinsurf : 0 #P9811 X Axis Single Surface Use at B0,B90,B180 ysinsurf : 0 #P9811 Y Axis Single Surface Use At B0,B90,B180 drl_prm2$ : 0 drl_prm3$ : 0 drl_prm4$ : 0 # -------------------------------------------------------------------------- # Macro Force Start Amounts # -------------------------------------------------------------------------- m5225 : 5225 m5227 : 5227 # -------------------------------------------------------------------------- # Probe 90 deg Format Statements # -------------------------------------------------------------------------- fmt "X" 2 prorefht #B90 X clearence for Protect Cycle fmt "D" 2 diadwell #B90 P9614 Bore/Boss Measurement Dia call out fmt "Y" 2 cyspan #Used for Across Distance # -------------------------------------------------------------------------- # Probe 90 deg Varabiles # -------------------------------------------------------------------------- prorefht = refht$ #B90 X clearence for Protect Cycle diadwell = dwell$ #B90 P9614 Bore/Boss Measurement Dia call out cyspan = dwell$ #Used for Across Distance # -------------------------------------------------------------------------- # Probe 0 deg Format Statements # -------------------------------------------------------------------------- fmt "Z" 2 prnrefht #B0 X clearence for Protect Cycle fmt "D" 2 diedwell #B0 P9814 Bore/Boss Measurement # -------------------------------------------------------------------------- # Probe 0 deg Varabiles # -------------------------------------------------------------------------- prnrefht = refht$ #B0 Z clearence for Protect Cycle diedwell = dwell$ #B90 P9814 Bore/Boss Measurement Dia call out # -------------------------------------------------------------------------- # Probe Shared Index deg Format Statements # -------------------------------------------------------------------------- fmt "S" 4 offupdate #Used to Fixture Offsets fmt "H" 2 feattoler #Tolerance of Feature being Measured fmt "M" 2 trueposzone #True Position Tolerenance Zone fmt "B" 2 cangtoler #C axis Tolerance for C-Axis Align Cycle fmt "Q" 2 covertrav #C Axis Overtravel for Probe Amount fmt 2 drl_prm1$ #Tolerance Vaule for Repeat Loop in Post fmt "W" 4 drl_prm2$ #Print Variable for Increment or Reset fmt "N" 30 ngoto #GOTO statement Number to use in Header fmt 30 ngoto2 #GOTO statement Number to use in Probing Routine fmt 30 m5225 #Format for correct Number Values fmt 30 m5227 #Format for correct Number Values fmt "X" 2 xsinsurf #Single Surface for X fmt "Y" 2 ysinsurf #Single Surface for Y fmt "Z" 2 zsinsurf #Single Surface for Z # -------------------------------------------------------------------------- # Probe Shared Index deg Varabiles # -------------------------------------------------------------------------- offupdate = workofs$ #Used for Probing cycles to update workoffset fixed to used offset for operation. trueposzone = peck2$ #Used for the True Position amount cangtoler = peck1$ #Used for Angle Tolerance on C Axis Align Cycle covertrav = peck2$ #Used for Amount of Overtravel allowed for C Axis Align Cycle feattoler = peck1$ #Used for Tolerance of Feature being Measured ngoto = retr$ #Used for Goto Call in C Axis Align Macro in Header ngoto2 = retr$ #Used for Goto Call in C Axis Align Macro in Probing Routine zsinsurf = depth$ #P9811 Z Axis Single Surface Use at B0,B90,B180 xsinsurf = depth$ #P9811 X Axis Single Surface Use at B0,B90,B180 ysinsurf = depth$ #P9811 Y Axis Single Surface Use At B0,B90,B180 pdrlcst$ #Custom drill cycles 8 - 19 (user option) Then here is how I defined all the custom drill cycles with Logic to support B0, B90 and B180 probing. pdrlcst$ #Custom drill cycles 8 - 19 (user option) #Use this postblock to customize drilling cycles 8 - 19 if drillcyc$ = 8, #XYZ Single Surface Measure B0/B90/B180 [ pdrlcommonb if babs = 180, [ if drl_prm2$ <> 0 & drl_prm3$ = 0, #X Axis Single Surface Probing [ xsinsurf = (xabs + drl_prm2$) pbld, n$, *strg659810, *xsinsurf, e$ pbld, n$, *strg659810, *prnrefht, e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659811, pfxout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659810, *xsinsurf, e$ pbld, n$, *strg659810, *prnrefht, e$ ] if drl_prm3$ <> 0 & drl_prm2$ = 0, #Y Axis Single Surface Probing [ ysinsurf = (yabs + drl_prm3$) pbld, n$, *strg659810, *ysinsurf, e$ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659811, pfyout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659810, *ysinsurf, e$ pbld, n$, *strg659810, *prnrefht, e$ ] if drl_prm2$ = 0 & drl_prm3$ = 0, #Z Axis Single Surface Probing [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659811, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] ] if babs = 90, #Single Surface B90 Probing with approach Logic using additonal Drill Parameters. [ if drl_prm4$ <> 0 & drl_prm3$ = 0, #Z Axis Single Surface Probing [ zsinsurf = (zabs + drl_prm2$) pbld, n$, *strg659610, *zsinsurf, e$ pbld, n$, *strg659610, *prorefht, e$ pbld, n$, *strg659610, *zsinsurf, e$ pbld, n$, *strg659611, pfxout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *zsinsurf, e$ pbld, n$, *strg659610, *xsinsurf, e$ pbld, n$, *strg659610, *prorefht, e$ ] if drl_prm3$ <> 0 & drl_prm4$ = 0, #Y Axis Single Surface Probing [ ysinsurf = (yabs + drl_prm3$) pbld, n$, *strg659610, *ysinsurf, e$ pbld, n$, *strg659610, prorefht, e$ pbld, n$, *strg659610, *zsinsurf, e$ pbld, n$, *strg659611, pfyout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *zsinsurf, e$ pbld, n$, *strg659610, *ysinsurf, e$ pbld, n$, *strg659610, *prorefht, e$ ] if drl_prm3$ = 0 & drl_prm4$ = 0, #X Axis Single Surface Probing [ pbld, n$, *strg659610, prorefht, e$ pbld, n$, *strg659611, pfxout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] ] if babs = 0, [ if drl_prm2$ <> 0 & drl_prm3$ = 0, #X Axis Single Surface Probing [ xsinsurf = (xabs + drl_prm2$) pbld, n$, *strg659810, *xsinsurf, e$ pbld, n$, *strg659810, *prnrefht, e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659811, pfxout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659810, *xsinsurf, e$ pbld, n$, *strg659810, *prnrefht, e$ ] if drl_prm3$ <> 0 & drl_prm2$ = 0, #Y Axis Single Surface Probing [ ysinsurf = (yabs + drl_prm3$) pbld, n$, *strg659810, *ysinsurf, e$ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659811, pfyout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *zsinsurf, e$ pbld, n$, *strg659810, *ysinsurf, e$ pbld, n$, *strg659810, *prnrefht, e$ ] if drl_prm2$ = 0 & drl_prm3$ = 0, #Z Axis Single Surface Probing [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659811, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] ] pcom_movea ] if drillcyc$ = 9, #Web/Pocket Measure B0/B90/B180 [ pdrlcommonb if babs = 180, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659612, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prnrefht, e$ ] if babs = 90, [ pbld, n$, *strg659610, prorefht, e$ pbld, n$, *strg659612, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659812, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 10, #Bore/Boss B0/B90/B180 [ pdrlcommonb if babs = 180, [ pbld, n$, *strg659810, *prnrefht, e$ pbld, n$, *strg659814, *diedwell, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, *strg659610, *prorefht, e$ pbld, n$, *strg659614, *diadwell, pfxout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, *strg659810, *prnrefht, e$ pbld, n$, *strg659814, *diedwell, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 11, #C Axis Measure - Vertical B0/B90/B180 [ pdrlcommonb if babs = 180, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659818, *cyspan, pfxout, *offupdate,[if cangtoler > 0, *cangtoler], [if drl_prm2$ > 0, *drl_prm2$], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, *strg659610, prorefht, e$ pbld, n$, *strg659618, *cyspan, pfxout, *offupdate, [if cangtoler > 0, *cangtoler], [if drl_prm2$ > 0, *drl_prm2$], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659818, *cyspan, pfxout, *offupdate, [if cangtoler > 0, *cangtoler], [if drl_prm2$ > 0, *drl_prm2$], e$ pbld, n$, *strg659810, *prnrefht, e$ ] *sg00 ,*sg91, sg30_3, "X0", e$ *sg00, *sg90, [if workofs$ > 53, *g_wcs], [if workofs$ < 49 , "G54.1", *p_wcs],[if spindle_no$ = 0, "C20."],[if spindle_no$ = 1, "U20."],e$ *sg00, *sg90, [if spindle_no$ = 0, "C0"],[if spindle_no$ = 1, "U0"], e$ spaces$ = 0 sif,sbracketopen,spound,sm152,sgt,drl_prm1$,sbracketclose,sgoto,ngoto2, e$ spaces$ = 1 pcom_movea ] if drillcyc$ = 12, #Bore/Boss on PCD B0/B90/B180 [ pdrlcommonb if babs = 180, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659819, diedwell, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, *strg659610, prorefht, e$ pbld, n$, *strg659619, diadwell, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659819, diedwell, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 13, [ pdrlcommonb if babs = 180, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659818, diedwell, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, *strg659610, prorefht, e$ pbld, n$, *strg659818, diadwell, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, *strg659810, prnrefht, e$ pbld, n$, *strg659818, diedwell, pfyout, pfzout, [if peckclr$ > 0,*offupdate], [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] pdrlcst_2$ #Custom drill cycles 8 - 19 (user option) #Use this postblock to customize drilling cycles 8 - 19 if drillcyc$ = 8, [ pdrlcommonb if babs = 180, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, *strg659811, pfyout, pfzout, [if peck2$ > 0, *trueposzone], e$ pbld, n$, *strg659810, *prorefht, e$ ] if babs = 90, [ pbld, n$, `strg659610, `prnrefht, e$ pbld, n$, *strg659611, pfyout, pfzout, [if peck2$ > 0, *trueposzone], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, *strg659811, pfyout, pfzout, [if peck2$ > 0, *trueposzone], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 9, #Web/Pocket Measure B0/B90 [ pdrlcommonb if babs = 180, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, *strg659812, diadwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, `strg659610, `prorefht, e$ pbld, n$, *strg659612, diadwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, *strg659812, diedwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 10, #Bore/Boss B0/B90 [ pdrlcommonb if babs = 180, [ pbld, n$, *strg659810, pyout, pxout, e$ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, *strg659814, *diadwell, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, *strg659610, pyout, pxout, e$ pbld, n$, `strg659610, `prorefht, e$ pbld, n$, *strg659614, *diadwell, pfxout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, *strg659810, pyout, pxout, e$ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, *strg659814, *diedwell, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 11, [ result = mprint(sperror), exitpost$ ] if drillcyc$ = 12, [ pdrlcommonb if babs = 180, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, "G65P9618", diadwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, `strg659610, `prorefht, e$ pbld, n$, "G65P9618", diadwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, "G65P9818", diedwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] if drillcyc$ = 13, [ pdrlcommonb if babs = 180, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, "G65P9618", diadwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] if babs = 90, [ pbld, n$, `strg659610, `prorefht, e$ pbld, n$, "G65P9618", diadwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659610, *prorefht, e$ ] if babs = 0, [ pbld, n$, `strg659810, `prnrefht, e$ pbld, n$, "G65P9818", diedwell, pfyout, pfzout, [if peck2$ > 0, *trueposzone], [if feattoler > 0, *feattoler], e$ pbld, n$, *strg659810, *prnrefht, e$ ] pcom_movea ] Here is how the text was defined to be used through the Mastercam Control Definition. This must be done through the Mastercam Control Definition not through just copying and pasting into a Post. This is extremely important since this section of the post is an XML format that can be corrupted very easily if someone goes hacking this section of a post. Why it is best to make these changes through the Mastercam Control Definition. [drill cycle 9 custom parameters] 1. "Additional Probing" 2. "Feat to Feat[0=N,1=Y]" 3. "X Axis App Amount +/-" 4. "Y Axis App Amount +/-" 5. "Z Axis App Amount +/-" 6. "" 7. "" 8. "" 9. "" 10. "" 11. "" [drill cycle 10 custom parameters] 1. "Additional Probing" 2. "Feat to Feat [0=No,1=Yes]" 3. "Z axis Distance to Measure" 4. "X axis Distance to Measure" 5. "Y axis Distance to Measure " 6. "Angle XY Plane " [drill cycle 11 custom parameters] 1. "Additional Probing" 2. "Feat to Feat [0=No,1=Yes]" 3. "Z axis Distance to Measure" 4. "X axis Distance to Measure" 5. "Y axis Distance to Measure " 6. "Angle XY Plane " [drill cycle 12 custom parameters] 1. "Additional Probing" 2. "Tolerance for Repeat " 3. "Data Print [1=Increm,2= Reset]" 4. "" 5. "" 6. "" 7. "" 8. "" 9. "" 10. "" 11. "" [drill cycle 13 custom parameters] 1. "Additional Probing" 2. "Feat to Feat [0=No,1=Yes]" 3. "Z axis Distance to Measure" 4. "X axis Distance to Measure" 5. "Y axis Distance to Measure " 6. "Angle XY Plane " [drill cycle 14 custom parameters] 1. "Additional Probing" 2. "Feat to Feat [0=No,1=Yes]" 3. "Z axis Distance to Measure" 4. "X axis Distance to Measure" 5. "Y axis Distance to Measure " 6. "Angle XY Plane " [drill cycle 15 custom parameters] 1. "Additional Probing" 2. "Feat to Feat [0=No,1=Yes]" 3. "Z axis Distance to Measure" 4. "X axis Distance to Measure" 5. "Y axis Distance to Measure " 6. "Angle XY Plane " [drill cycle 16 custom parameters] 1. "Custom Drill Parameters 16" [drill cycle 17 custom parameters] 1. "Custom Drill Parameters 17" [drill cycle 18 custom parameters] 1. "Custom Drill Parameters 18" [drill cycle 19 custom parameters] 1. "Custom Drill Parameters 19" [drill cycle 20 custom parameters] 1. "Custom Drill Parameters 20" [drill cycle descriptions] 1. "Standard Drill - G81/G82" 2. "Peck Drill - G83" 3. "Chip Break - G83" 4. "Tap - G84/G74" 5. "Reaming - G85" 6. "Gundrill - longhand" 9. "XYZ Single Face Probing" 10. "Web/Pocket Probing" 11. "Bore/Boss Probing" 12. "Angle Single Surface Probing" 13. "Angle Web/Pocket Probing" 14. "3-Point Bore/Boss Probing" Error Message if trying to use a probing cycle for repeated features: # -------------------------------------------------------------------------- # Error message strings # -------------------------------------------------------------------------- sperror :"ONLY USE THIS PROBING CYCLE ON ONE FEATURE AT A TIME"
  2. I have been running forged AR15 lower receivers for a few years now and we have always segregated the parts by thickness in groups of a .003 total tolerance. We would then set up the machine to run a certain lot size then move our work offset up in z for the two vice ops and over in x for the indexer op. Since our program is based off of centerline and we have probing capabilities I know there is a way to have a known z location (bottom of fixture parts rest on ) and a known x location (side of fixture in the indexer the part bolts to) then we can probe top of part in the vice and take the middle between the known z and our new probed z and make that our Z work offset and same thing goes for the X on the indexer. I just don't know how to properly code a probing cycle to do just that. I have used the probing cycles that the has machines spit out when you want to pick up work offsets but there is nothing for centerline on a known z to a new probed z or x. I've also looked at renishaws probing cycle book and it all just seems jibberish to me.

Join us!

eMastercam - your online source for all things Mastercam.

Together, we are the strongest Mastercam community on the web with over 56,000 members, and our online store offers a wide selection of training materials for all applications and skill levels.

Follow us

×
×
  • Create New...