Heidenhain TNC 426B (280 472) Touch Probe Cycles User Manual

Touch Probe CyclesTNC 426TNC 430NC Software280 472-xx280 473-xx280 474-xx280 475-xx280 476-xx280 477-xxUser’s ManualEnglish (en)6/2003

VIII3.3 Automatic Workpiece Measurement ... 68Overview ... 68Recording the results of measurement ... 69Measurement results in Q parameters ...

88 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE INSIDE WIDTH (touch probe cycle 425, ISO: G425)To

HEIDENHAIN TNC 426, TNC 430 893.3 Automatic Workpiece MeasurementUUUU Starting point in 1st axis Q328 (absolute): starting point for probing in the re

90 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE RIDGE WIDTH (touch probe cycle 426, ISO: G426)Tou

HEIDENHAIN TNC 426, TNC 430 913.3 Automatic Workpiece MeasurementUUUU Measuring axis Q272: axis in the working plane in which the measurement is to be

92 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE COORDINATE (touch probe cycle 427, ISO: G427)Touc

HEIDENHAIN TNC 426, TNC 430 933.3 Automatic Workpiece MeasurementUUUU First measuring point in the 1st axis Q263 (absolute): coordinate of the first t

94 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE BOLT HOLE CIRCLE (touch probe cycle 430, ISO: G43

HEIDENHAIN TNC 426, TNC 430 953.3 Automatic Workpiece MeasurementUUUU Center of 1st axis Q273 (absolute): bolt hole circle center (nominal value) in t

96 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementUUUU Measuring log Q281: definition of whether the TNC is

HEIDENHAIN TNC 426, TNC 430 973.3 Automatic Workpiece MeasurementMEASURE PLANE (touch probe cycle 431, ISO: G431)Touch probe cycle 431 finds the angle

HEIDENHAIN TNC 426, TNC 430 IX4.1 Tool Measurement with the TT Tool Touch Probe ... 110Overview ... 110Setting the machine parameters ... 110Dis

98 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementUUUU First measuring point in the 1st axis Q263 (absolute

HEIDENHAIN TNC 426, TNC 430 993.3 Automatic Workpiece MeasurementExample: Measuring and reworking a rectangular studProgram sequence:- Roughing with 0

100 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece Measurement Q287=0 ;MIN. LIMIT 2ND SIDE Q279=0 ;TOLERAN

HEIDENHAIN TNC 426, TNC 430 1013.3 Automatic Workpiece MeasurementExample: Measuring a rectangular pocket and recording the results0 BEGIN PGM BSMEAS

102 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMeasuring log (file TCPR423.TXT)4 L Z+100 R0 F MAX M2Ret

HEIDENHAIN TNC 426, TNC 430 1033.4 Special Cycles3.4 Special CyclesOverviewThe TNC provides three cycles for the following special purposes:Cycle Soft

104 3 Touch Probe Cycles for Automatic Workpiece Inspection3.4 Special CyclesCALIBRATE TS (touch probe cycle 2)Touch probe cycle 2 automatically calib

HEIDENHAIN TNC 426, TNC 430 1053.4 Special CyclesMEASURING (touch probe cycle 3, available as of NC software 280 474-xx)Touch probe cycle 3 measures a

106 3 Touch Probe Cycles for Automatic Workpiece Inspection3.4 Special CyclesMEASURE AXIS SHIFT (touch probe cycle 440, ISO: G440, available as of NC

HEIDENHAIN TNC 426, TNC 430 1073.4 Special CyclesUUUU Direction: 0=Calibrate, 1=Measuring?: Definition of whether you want to calibrate or make a cont

X

4Touch Probe Cycles for Automatic Tool Measurement

110 4 Touch Probe Cycles for Automatic Tool Measurement4.1 Tool Measurement with the TT Tool Touch Probe4.1 Tool Measurement with the TT Tool Touch Pr

HEIDENHAIN TNC 426, TNC 430 1114.1 Tool Measurement with the TT Tool Touch ProbeMP6507 determines the calculation of the probing feed rate:MP6507=0: T

112 4 Touch Probe Cycles for Automatic Tool Measurement4.2 Available Cycles4.2 Available CyclesOverviewYou can program the cycles for tool measurement

HEIDENHAIN TNC 426, TNC 430 1134.2 Available CyclesCalibrating the TTThe TT is calibrated automatically with the measuring cycle TCH PROBE 30 or TCH P

114 4 Touch Probe Cycles for Automatic Tool Measurement4.2 Available CyclesMeasuring the tool lengthBefore measuring a tool for the first time, enter

HEIDENHAIN TNC 426, TNC 430 1154.2 Available CyclesDefine cycleUUUU Measure tool=0 / Check tool=1: Select whether the tool is to be measured for the f

116 4 Touch Probe Cycles for Automatic Tool Measurement4.2 Available CyclesMeasuring the tool radiusBefore measuring a tool for the first time, enter

HEIDENHAIN TNC 426, TNC 430 1174.2 Available CyclesDefine cycleUUUU Measure tool=0 / Check tool=1: Select whether the tool is to be measured for the f

1Introduction

118 4 Touch Probe Cycles for Automatic Tool Measurement4.2 Available CyclesMeasuring tool length and radiusBefore measuring a tool for the first time,

HEIDENHAIN TNC 426, TNC 430 1194.2 Available CyclesDefine cycleUUUU Measure tool=0 / Check tool=1: Select whether the tool is to be measured for the f

5Digitizing

122 5 Digitizing5.1 Digitizing with Triggering or Measuring Touch Probe (Option)5.1 Digitizing with Triggering or Measuring Touch Probe (Option)Overvi

HEIDENHAIN TNC 426, TNC 430 1235.1 Digitizing with Triggering or Measuring Touch Probe (Option)FunctionThe touch probe scans a 3-D surface point for p

124 5 Digitizing5.2 Programming Digitizing Cycles5.2 Programming Digitizing CyclesSelecting digitizing cyclesUUUU press the TOUCH PROBE key.UUUU Use s

HEIDENHAIN TNC 426, TNC 430 1255.2 Programming Digitizing CyclesDefining the digitizing range in a specific shape (only available with measuring touch

126 5 Digitizing5.2 Programming Digitizing CyclesPoint TablesWhen you are working with a measuring touch probe, you can generate point tables in the P

HEIDENHAIN TNC 426, TNC 430 1275.2 Programming Digitizing CyclesIf you want to transfer the points manually by teach-in programming, proceed as follow

2 1 Introduction1.1 General Information on Touch Probe Cycles1.1 General Information on Touch Probe CyclesFunctionWhenever the TNC runs a touch probe

128 5 Digitizing5.2 Programming Digitizing CyclesIf you want to have the TNC generate the points automatically, proceed as follows: UUUU To transfer p

HEIDENHAIN TNC 426, TNC 430 1295.3 Types of Digitizing5.3 Types of DigitizingMeander digitizingn Triggering touch probe: Digitizing Cycle 6 MEANDERn M

130 5 Digitizing5.3 Types of DigitizingDigitizing parametersThe parameters marked with an (M) apply to measuring touch probes, those marked with an (S

HEIDENHAIN TNC 426, TNC 430 1315.3 Types of DigitizingContour line digitizingn Triggering touch probe: Digitizing Cycle 7 CONTOUR LINESn Measuring tou

132 5 Digitizing5.3 Types of DigitizingDigitizing parametersThe parameters marked with an (M) apply to measuring touch probes, those marked with an (S

HEIDENHAIN TNC 426, TNC 430 1335.3 Types of DigitizingUUUU Tolerance (M): The TNC stores only those digitized positions whose distance from a straight

134 5 Digitizing5.3 Types of DigitizingStarting positionn Positive or negative range limit of the programmed line direction (depending on the digitizi

HEIDENHAIN TNC 426, TNC 430 1355.3 Types of DigitizingUUUU Max. probe point interval (M, S): Maximum spacing between consecutive digitized positions.

136 5 Digitizing5.3 Types of DigitizingDigitizing with rotary axesIf you are using a triggering touch probe, the digitizing feature supports rotary ax

HEIDENHAIN TNC 426, TNC 430 1375.3 Types of DigitizingMeasuring touch probe: LINE cycle with a rotary axisIf you enter a linear axis (e.g. X) in the i

HEIDENHAIN TNC 426, TNC 430 31.1 General Information on Touch Probe CyclesTouch Probe Cycles in the Manual and Electronic Handwheel ModesIn the Manual

138 5 Digitizing5.3 Types of DigitizingTriggering touch probe: MEANDER cycle with a rotary axisIf you enter a linear axis (e.g. X) in the input parame

HEIDENHAIN TNC 426, TNC 430 1395.3 Types of DigitizingCONTOUR LINES cycle with a rotary axisDefine the starting point in a linear axis and in a rotary

140 5 Digitizing5.4 Using Digitized Data in a Part Program5.4 Using Digitized Data in a Part ProgramResulting NC blocks of a file containing data that

HEIDENHAIN TNC 426, TNC 430 1415.4 Using Digitized Data in a Part ProgramTo execute a part program from digitized data, you can:n Use fixed cycle 30 i

HEIDENHAIN TNC 426, TNC 430 143Symbole3-D touch probes ... 2calibratingmeasuring ... 16triggering ... 13, 104Manage different calibration data ... 15s

Ve 0 0329 203-26 · 6/2003 · pdf · Subject to change without noticeDR. JOHANNES HEIDENHAIN GmbHDr.-Johannes-Heidenhain-Straße 583301 Traunreut, Germany

4 1 Introduction1.1 General Information on Touch Probe CyclesDefining the touch probe cycle in the Programming and Editing operation modeUUUU The soft

HEIDENHAIN TNC 426, TNC 430 51.2 Before You Start Working with Touch Probe Cycles!1.2 Before You Start Working with Touch Probe Cycles!To make it poss

6 1 Introduction1.2 Before You Start Working with Touch Probe Cycles!Touch trigger probe, probing feed rate: MP6120In MP6120 you define the feed rate

HEIDENHAIN TNC 426, TNC 430 71.2 Before You Start Working with Touch Probe Cycles!Running touch probe cyclesAll touch probe cycles are DEF active. Thi

2Touch Probe Cycles in the Manual and Electronic Handwheel Modes

10 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.1 Introduction2.1 IntroductionOverviewThe following touch probe cycles are avail

HEIDENHAIN TNC 426, TNC 430 112.1 IntroductionRecording Measured Values from the Probe CyclesAfter executing any selected probe cycle, the TNC display

12 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.1 IntroductionWriting the measured values from probe cycles in datum tablesWith

HEIDENHAIN TNC 426, TNC 430 132.2 Calibrating a Touch Trigger Probe2.2 Calibrating a Touch Trigger ProbeIntroductionThe touch probe must be calibrated

14 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.2 Calibrating a Touch Trigger ProbeCalibrating the effective radius and compensa

HEIDENHAIN TNC 426, TNC 430 152.2 Calibrating a Touch Trigger ProbeDisplaying calibration valuesThe TNC stores the effective length and radius, as wel

16 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.3 Calibrating a Measuring Touch Probe2.3 Calibrating a Measuring Touch ProbeIntr

HEIDENHAIN TNC 426, TNC 430 172.3 Calibrating a Measuring Touch ProbeDisplaying calibration valuesThe compensation factors and force ratios are stored

HEIDENHAIN TNC 426, TNC 430 ITNC Model, Software and FeaturesThis manual describes functions and features provided by TNCs as of the following NC soft

18 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.4 Compensating Workpiece Misalignment2.4 Compensating Workpiece MisalignmentIntr

HEIDENHAIN TNC 426, TNC 430 192.4 Compensating Workpiece MisalignmentDisplaying a basic rotationThe angle of the basic rotation appears after ROTATION

20 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.5 Setting the Datum with a 3-D Touch Probe2.5 Setting the Datum with a 3-D Touch

HEIDENHAIN TNC 426, TNC 430 212.5 Setting the Datum with a 3-D Touch ProbeCorner as datum—using points that were already probed for a basic rotation (

22 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.5 Setting the Datum with a 3-D Touch ProbeCircle center as datumWith this functi

HEIDENHAIN TNC 426, TNC 430 232.5 Setting the Datum with a 3-D Touch ProbeSetting datum points using holes/cylindrical studsA second soft-key row prov

24 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.6 Measuring Workpieces with a 3-D Touch Probe2.6 Measuring Workpieces with a 3-D

HEIDENHAIN TNC 426, TNC 430 252.6 Measuring Workpieces with a 3-D Touch ProbeMeasuring workpiece dimensionsUUUU Select the probing function by pressin

26 2 Touch Probe Cycles in the Manual and Electronic Handwheel Modes2.6 Measuring Workpieces with a 3-D Touch ProbeTo find the angle between the angle

HEIDENHAIN TNC 426, TNC 430 273Touch Probe Cycles forAutomatic WorkpieceInspection

II New features of the NC software 280 476-xxn Management of an arbitrary number of calibration data with the TS triggering touch probe (see “Managin

28 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece Misalignment3.1 Measuring Workpiece MisalignmentOverviewThe TNC prov

HEIDENHAIN TNC 426, TNC 430 293.1 Measuring Workpiece MisalignmentBASIC ROTATION (touch probe cycle 400, ISO: G400)Touch probe cycle 400 determines a

30 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece MisalignmentUUUU First measuring point in the 1st axis Q263 (absolut

HEIDENHAIN TNC 426, TNC 430 313.1 Measuring Workpiece MisalignmentBASIC ROTATION from two holes (touch probe cycle 401, ISO: G401)The touch probe cycl

32 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece MisalignmentUUUU First hole: Center in 1st axis Q268 (absolute): cen

HEIDENHAIN TNC 426, TNC 430 333.1 Measuring Workpiece MisalignmentBASIC ROTATION over two studs (touch probe cycle 402, ISO: G402)The touch probe cycl

34 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece MisalignmentUUUU First stud: Center in 1st axis Q268 (absolute): cen

HEIDENHAIN TNC 426, TNC 430 353.1 Measuring Workpiece MisalignmentBASIC ROTATION compensation via rotary axis (touch probe cycle 403, ISO: G403)Touch

36 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece MisalignmentUUUU First measuring point in the 1st axis Q263 (absolut

HEIDENHAIN TNC 426, TNC 430 373.1 Measuring Workpiece MisalignmentSET BASIC ROTATION (touch probe cycle 404, ISO: G404, available as of NC software 28

HEIDENHAIN TNC 426, TNC 430 IIIContentsIntroduction1Touch Probe Cycles in the Manual and Electronic Handwheel Modes2Touch Probe Cycles for Automatic W

38 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece MisalignmentCompensating workpiece misalignment by rotating the C ax

HEIDENHAIN TNC 426, TNC 430 393.1 Measuring Workpiece MisalignmentUUUU Center in 1st axis Q321 (absolute value): Center of the pocket in the reference

40 3 Touch Probe Cycles for Automatic Workpiece Inspection3.1 Measuring Workpiece MisalignmentUUUU Measuring height in the touch probe axis Q261 (abso

HEIDENHAIN TNC 426, TNC 430 413.1 Measuring Workpiece MisalignmentExample: Determining a basic rotation from two holes0 BEGIN PGM CYC401 MM1 TOOL CAL

42 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum Setting3.2 Automatic Datum SettingOverviewThe TNC provides nine cycles f

HEIDENHAIN TNC 426, TNC 430 433.2 Automatic Datum SettingCharacteristics common to all touch probe cycles for datum settingDatum point and touch probe

44 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM FROM INSIDE OF RECTANGLE (touch probe cycle 410, ISO: G410)

HEIDENHAIN TNC 426, TNC 430 453.2 Automatic Datum SettingUUUU Center in 1st axis Q321 (absolute value): Center of the pocket in the reference axis of

46 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM FROM OUTSIDE OF RECTANGLE (touch probe cycle 411, ISO: G411

HEIDENHAIN TNC 426, TNC 430 473.2 Automatic Datum SettingUUUU Center in 1st axis Q321 (absolute value): Center of the stud in the reference axis of th

48 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM FROM INSIDE OF CIRCLE (touch probe cycle 412, ISO: G412)Tou

HEIDENHAIN TNC 426, TNC 430 493.2 Automatic Datum SettingUUUU Center in 1st axis Q321 (absolute value): Center of the pocket in the reference axis of

50 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM FROM OUTSIDE OF CIRCLE (touch probe cycle 413, ISO: G413)To

HEIDENHAIN TNC 426, TNC 430 513.2 Automatic Datum SettingUUUU Center in 1st axis Q321 (absolute value): Center of the stud in the reference axis of th

52 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM FROM OUTSIDE OF CORNER (touch probe cycle 414, ISO: G414)To

HEIDENHAIN TNC 426, TNC 430 533.2 Automatic Datum SettingUUUU First measuring point in the 1st axis Q263 (absolute): coordinate of the first touch poi

54 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingUUUU Datum number in table Q305: Enter the datum number in the ta

HEIDENHAIN TNC 426, TNC 430 553.2 Automatic Datum SettingDATUM FROM INSIDE OF CORNER (touch probe cycle 415, ISO: G415)Touch probe cycle 415 finds the

56 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingUUUU First measuring point in the 1st axis Q263 (absolute): coord

HEIDENHAIN TNC 426, TNC 430 573.2 Automatic Datum SettingUUUU Datum number in table Q305: Enter the datum number in the table in which the TNC is to s

HEIDENHAIN TNC 426, TNC 430 V1.1 General Information on Touch Probe Cycles ... 2Function ... 2Touch Probe Cycles in the Manual and Electronic Hand

58 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM CIRCLE CENTER (touch probe cycle 416, ISO: G416)Touch probe

HEIDENHAIN TNC 426, TNC 430 593.2 Automatic Datum SettingUUUU Center of 1st axis Q273 (absolute): bolt hole circle center (nominal value) in the refer

60 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingDATUM IN TOUCH PROBE AXIS (touch probe cycle 417, ISO: G417)Touch

HEIDENHAIN TNC 426, TNC 430 613.2 Automatic Datum SettingDATUM AT CENTER BETWEEN 4 HOLES (touch probe cycle 418, ISO: G418)Touch probe cycle 418 calcu

62 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingUUUUFirst center in 1st axis Q268 (absolute): center of the 1st h

HEIDENHAIN TNC 426, TNC 430 633.2 Automatic Datum SettingUUUU Datum number in table: Enter the datum number in the table in which the TNC is to save t

64 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingExample: Datum setting on top surface of workpiece and in center

HEIDENHAIN TNC 426, TNC 430 653.2 Automatic Datum Setting3 TCH PROBE 413 DATUM OUTSIDE CIRCLE Q321=+25 ;CENTER IN 1ST AXISCenter of circle: X coor

66 3 Touch Probe Cycles for Automatic Workpiece Inspection3.2 Automatic Datum SettingExample: Datum setting on top surface of workpiece and in center

HEIDENHAIN TNC 426, TNC 430 673.2 Automatic Datum Setting3 TCH PROBE 416 DATUM CIRCLE CENTER Q273=+35 ;CENTER 1ST AXISCenter of the bolt hole circ

VI2.1 Introduction ... 10Overview ... 10Selecting probe cycles ... 10Recording Measured Values from the Probe Cycles ... 11Writing the measure

68 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece Measurement3.3 Automatic Workpiece MeasurementOverviewThe TNC offers

HEIDENHAIN TNC 426, TNC 430 693.3 Automatic Workpiece MeasurementRecording the results of measurementFor all cycles in which you automatically measure

70 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMeasurement results in Q parametersThe TNC saves the meas

HEIDENHAIN TNC 426, TNC 430 713.3 Automatic Workpiece MeasurementTool monitoringFor some cycles for workpiece inspection you can have the TNC conduct

72 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementREFERENCE PLANE (touch probe cycle 0, ISO: G55)1 The touc

HEIDENHAIN TNC 426, TNC 430 733.3 Automatic Workpiece MeasurementDATUM PLANE (touch probe cycle 1)Touch probe cycle 1 measures any position on the wor

74 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE ANGLE (touch probe cycle 420, ISO: G420)Touch pro

HEIDENHAIN TNC 426, TNC 430 753.3 Automatic Workpiece MeasurementUUUU Traverse direction 1 Q267: direction in which the probe is to approach the workp

76 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE HOLE (touch probe cycle 421, ISO: G421)Touch prob

HEIDENHAIN TNC 426, TNC 430 773.3 Automatic Workpiece MeasurementUUUU Center in 1st axis Q273 (absolute value): center of the hole in the reference ax

HEIDENHAIN TNC 426, TNC 430 VII3.1 Measuring Workpiece Misalignment ... 28Overview ... 28Characteristics common to all touch probe cycles for meas

78 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementUUUU Measuring log Q281: definition of whether the TNC is

HEIDENHAIN TNC 426, TNC 430 793.3 Automatic Workpiece MeasurementMEASURE CIRCLE OUTSIDE (touch probe cycle 422, ISO: G422)Touch probe cycle 422 measur

80 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementUUUU Center in 1st axis Q273 (absolute value): Center of

HEIDENHAIN TNC 426, TNC 430 813.3 Automatic Workpiece MeasurementUUUU Measuring log Q281: definition of whether the TNC is to create a measuring log:

82 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementMEASURE RECTANGLE FROM INSIDE (touch probe cycle 423, ISO

HEIDENHAIN TNC 426, TNC 430 833.3 Automatic Workpiece MeasurementUUUU Center in 1st axis Q273 (absolute value): Center of the pocket in the reference

84 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementUUUU Measuring log Q281: definition of whether the TNC is

HEIDENHAIN TNC 426, TNC 430 853.3 Automatic Workpiece MeasurementMEASURE RECTANGLE FROM OUTSIDE (touch probe cycle 424, ISO: G424)Touch probe cycle 42

86 3 Touch Probe Cycles for Automatic Workpiece Inspection3.3 Automatic Workpiece MeasurementUUUU Center in 1st axis Q273 (absolute value): Center of

HEIDENHAIN TNC 426, TNC 430 873.3 Automatic Workpiece MeasurementUUUU Measuring log Q281: definition of whether the TNC is to create a measuring log: