User’s ManualCycle ProgrammingiTNC 530NC Software340 490-07, 606 420-02340 491-07, 606 421-02340 492-07340 493-07340 494-07, 606 424-02English (en)11/
10 New Cycle Functions of Software 340 49x-02New Cycle Functions of Software 340 49x-02 New machine parameter for defining the positioning speed (s
100 Fixed Cycles: Drilling3.10 SINGLE-FLUTED DEEP-HOLE DRILLING (Cycle 241, DIN/ISO: G241)3.10 SINGLE-FLUTED DEEP-HOLE DRILLING (Cycle 241, DIN/ISO:
HEIDENHAIN iTNC 530 1013.10 SINGLE-FLUTED DEEP-HOLE DRILLING (Cycle 241, DIN/ISO: G241)Cycle parametersU Set-up clearance Q200 (incremental): Distance
102 Fixed Cycles: Drilling3.10 SINGLE-FLUTED DEEP-HOLE DRILLING (Cycle 241, DIN/ISO: G241)U Rotat. dir. of entry/exit (3/4/5) Q426: Desired direction
HEIDENHAIN iTNC 530 1033.11 Programming Examples3.11 Programming ExamplesExample: Drilling cycles0 BEGIN PGM C200 MM1 BLK FORM 0.1 Z X+0 Y+0 Z-20Defin
6 L X+10 Y+10 R0 FMAX M3Approach hole 1, spindle ON7 CYCL CALLCycle call8 L Y+90 R0 FMAX M99Approach hole 2, call cycle9 L X+90 R0 FMAX M99Approach ho
HEIDENHAIN iTNC 530 1053.11 Programming ExamplesExample: Using drilling cycles in connection with PATTERN DEFThe drill hole coordinates are stored in
106 Fixed Cycles: Drilling3.11 Programming Examples6 CYCL DEF 240 CENTERINGCycle definition: CENTERINGQ200=2 ;SET-UP CLEARANCEQ343=0 ;SELECT DEPTH/DI
Fixed Cycles: Tapping / Thread Milling
108 Fixed Cycles: Tapping / Thread Milling4.1 Fundamentals4.1 FundamentalsOverviewThe TNC offers 8 cycles for all types of threading operations:Cycle
HEIDENHAIN iTNC 530 1094.2 TAPPING NEW with a Floating Tap Holder (Cycle 206, DIN/ISO: G206)4.2 TAPPING NEW with a Floating Tap Holder (Cycle 206, DIN
HEIDENHAIN iTNC 530 11 New Cycle Functions of Software 340 49x-03New Cycle Functions of Software 340 49x-03 New cycle for setting a datum in the cent
110 Fixed Cycles: Tapping / Thread Milling4.2 TAPPING NEW with a Floating Tap Holder (Cycle 206, DIN/ISO: G206)Cycle parametersU Set-up clearance Q20
HEIDENHAIN iTNC 530 1114.3 RIGID TAPPING without a Floating Tap Holder NEW (Cycle 207,DIN/ISO: G207)4.3 RIGID TAPPING without a Floating Tap Holder NE
112 Fixed Cycles: Tapping / Thread Milling4.3 RIGID TAPPING without a Floating Tap Holder NEW (Cycle 207,DIN/ISO: G207)Please note while programming:
HEIDENHAIN iTNC 530 1134.3 RIGID TAPPING without a Floating Tap Holder NEW (Cycle 207,DIN/ISO: G207)Cycle parametersU Set-up clearance Q200 (increment
114 Fixed Cycles: Tapping / Thread Milling4.4 TAPPING WITH CHIP BREAKING (Cycle 209, DIN/ISO: G209)4.4 TAPPING WITH CHIP BREAKING (Cycle 209, DIN/ISO
HEIDENHAIN iTNC 530 1154.4 TAPPING WITH CHIP BREAKING (Cycle 209, DIN/ISO: G209)Please note while programming:Machine and TNC must be specially prepar
116 Fixed Cycles: Tapping / Thread Milling4.4 TAPPING WITH CHIP BREAKING (Cycle 209, DIN/ISO: G209)Cycle parametersU Set-up clearance Q200 (increment
HEIDENHAIN iTNC 530 1174.5 Fundamentals of Thread Milling4.5 Fundamentals of Thread MillingPrerequisites Your machine tool should feature internal sp
118 Fixed Cycles: Tapping / Thread Milling4.5 Fundamentals of Thread MillingDanger of collision!Always program the same algebraic sign for the infeed
HEIDENHAIN iTNC 530 1194.6 THREAD MILLING (Cycle 262, DIN/ISO: G262)4.6 THREAD MILLING (Cycle 262, DIN/ISO: G262)Cycle run1 The TNC positions the tool
12 New Cycle Functions of Software 340 49x-04New Cycle Functions of Software 340 49x-04 New cycle for saving a machine's kinematic configurati
120 Fixed Cycles: Tapping / Thread Milling4.6 THREAD MILLING (Cycle 262, DIN/ISO: G262)Please note while programming:Program a positioning block for
HEIDENHAIN iTNC 530 1214.6 THREAD MILLING (Cycle 262, DIN/ISO: G262)Cycle parametersU Nominal diameter Q335: Nominal thread diameter. Input range 0 to
122 Fixed Cycles: Tapping / Thread Milling4.7 THREAD MILLING/ COUNTERSINKING (Cycle 263, DIN/ISO: G263)4.7 THREAD MILLING/ COUNTERSINKING (Cycle 263,
HEIDENHAIN iTNC 530 1234.7 THREAD MILLING/ COUNTERSINKING (Cycle 263, DIN/ISO: G263)Please note while programming:Before programming, note the followi
124 Fixed Cycles: Tapping / Thread Milling4.7 THREAD MILLING/ COUNTERSINKING (Cycle 263, DIN/ISO: G263)Cycle parametersU Nominal diameter Q335: Nomin
HEIDENHAIN iTNC 530 1254.7 THREAD MILLING/ COUNTERSINKING (Cycle 263, DIN/ISO: G263)U Workpiece surface coordinate Q203 (absolute): Coordinate of the
126 Fixed Cycles: Tapping / Thread Milling4.8 THREAD DRILLING/MILLING (Cycle 264, DIN/ISO: G264)4.8 THREAD DRILLING/MILLING (Cycle 264, DIN/ISO: G264
HEIDENHAIN iTNC 530 1274.8 THREAD DRILLING/MILLING (Cycle 264, DIN/ISO: G264)Please note while programming:Program a positioning block for the startin
128 Fixed Cycles: Tapping / Thread Milling4.8 THREAD DRILLING/MILLING (Cycle 264, DIN/ISO: G264)Cycle parametersU Nominal diameter Q335: Nominal thre
HEIDENHAIN iTNC 530 1294.8 THREAD DRILLING/MILLING (Cycle 264, DIN/ISO: G264)U Depth at front Q358 (incremental): Distance between tool tip and the to
HEIDENHAIN iTNC 530 13 New Cycle Functions of Software 340 49x-05New Cycle Functions of Software 340 49x-05 New machining cycle for single-lip deep-h
130 Fixed Cycles: Tapping / Thread Milling4.9 HELICAL THREAD DRILLING/MILLING (Cycle 265, DIN/ISO: G265)4.9 HELICAL THREAD DRILLING/MILLING (Cycle 26
HEIDENHAIN iTNC 530 1314.9 HELICAL THREAD DRILLING/MILLING (Cycle 265, DIN/ISO: G265)Please note while programming:Program a positioning block for the
132 Fixed Cycles: Tapping / Thread Milling4.9 HELICAL THREAD DRILLING/MILLING (Cycle 265, DIN/ISO: G265)Cycle parametersU Nominal diameter Q335: Nomi
HEIDENHAIN iTNC 530 1334.9 HELICAL THREAD DRILLING/MILLING (Cycle 265, DIN/ISO: G265)U Workpiece surface coordinate Q203 (absolute): Coordinate of the
134 Fixed Cycles: Tapping / Thread Milling4.10 OUTSIDE THREAD MILLING (Cycle 267, DIN/ISO: G267)4.10 OUTSIDE THREAD MILLING (Cycle 267, DIN/ISO: G267
HEIDENHAIN iTNC 530 1354.10 OUTSIDE THREAD MILLING (Cycle 267, DIN/ISO: G267)Please note while programming:Program a positioning block for the startin
136 Fixed Cycles: Tapping / Thread Milling4.10 OUTSIDE THREAD MILLING (Cycle 267, DIN/ISO: G267)Cycle parametersU Nominal diameter Q335: Nominal thre
HEIDENHAIN iTNC 530 1374.10 OUTSIDE THREAD MILLING (Cycle 267, DIN/ISO: G267)U Set-up clearance Q200 (incremental): Distance between tool tip and work
138 Fixed Cycles: Tapping / Thread Milling4.11 Programming Examples4.11 Programming ExamplesExample: Thread millingThe drill hole coordinates are sto
HEIDENHAIN iTNC 530 1394.11 Programming ExamplesQ204=0 ;2ND SET-UP CLEARANCE0 must be entered here, effective as defined in point tableQ211=0.2 ;DWELL
14 New Cycle Functions of Software 340 49x-06 and 606 42x-01New Cycle Functions of Software 340 49x-06 and 606 42x-01 New Cycle 275 "Trochoida
140 Fixed Cycles: Tapping / Thread Milling4.11 Programming ExamplesPoint table TAB1.PNTTAB1.PNTMMNRXYZ0+10+10+01+40+30+02+90+10+03+80+30+04+80+65+05+
Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling
142 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.1 Fundamentals5.1 FundamentalsOverviewThe TNC offers 6 cycles for machining pockets,
HEIDENHAIN iTNC 530 1435.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251)5.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251)Cycle runUse Cycle 251 RECTAN
144 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251)Please note while programming:With an
HEIDENHAIN iTNC 530 1455.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251)Cycle parametersU Machining operation (0/1/2) Q215: Define the machining opera
146 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251)U Depth Q201 (incremental): Distance b
HEIDENHAIN iTNC 530 1475.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251)U Path overlap factor Q370: Q370 x tool radius = stepover factor k. Input rang
148 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.3 CIRCULAR POCKET (Cycle 252, DIN/ISO: G252)5.3 CIRCULAR POCKET (Cycle 252, DIN/ISO:
HEIDENHAIN iTNC 530 1495.3 CIRCULAR POCKET (Cycle 252, DIN/ISO: G252)Please note while programming:With an inactive tool table you must always plunge
HEIDENHAIN iTNC 530 15 New Cycle Functions of Software 340 49x-07 and 606 42x-02New Cycle Functions of Software 340 49x-07 and 606 42x-02 New Cycle 2
150 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.3 CIRCULAR POCKET (Cycle 252, DIN/ISO: G252)Cycle parametersU Machining operation (0/
HEIDENHAIN iTNC 530 1515.3 CIRCULAR POCKET (Cycle 252, DIN/ISO: G252)U Set-up clearance Q200 (incremental): Distance between tool tip and workpiece su
152 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.4 SLOT MILLING (Cycle 253, DIN/ISO: G253)5.4 SLOT MILLING (Cycle 253, DIN/ISO: G253)C
HEIDENHAIN iTNC 530 1535.4 SLOT MILLING (Cycle 253, DIN/ISO: G253)Please note while programming:With an inactive tool table you must always plunge ver
154 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.4 SLOT MILLING (Cycle 253, DIN/ISO: G253)Cycle parametersU Machining operation (0/1/2
HEIDENHAIN iTNC 530 1555.4 SLOT MILLING (Cycle 253, DIN/ISO: G253)U Depth Q201 (incremental): Distance between workpiece surface and bottom of slot. I
156 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.4 SLOT MILLING (Cycle 253, DIN/ISO: G253)U Set-up clearance Q200 (incremental): Dista
HEIDENHAIN iTNC 530 1575.5 CIRCULAR SLOT (Cycle 254, DIN/ISO: G254)5.5 CIRCULAR SLOT (Cycle 254, DIN/ISO: G254)Cycle runUse Cycle 254 to completely ma
158 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.5 CIRCULAR SLOT (Cycle 254, DIN/ISO: G254)Please note while programming:With an inact
HEIDENHAIN iTNC 530 1595.5 CIRCULAR SLOT (Cycle 254, DIN/ISO: G254)Cycle parametersU Machining operation (0/1/2) Q215: Define the machining operation:
16 Cycle Functions Changed Since the Predecessor Versions 340 422-xx and340 423-xxCycle Functions Changed Since the Predecessor Versions 340 422-xx
160 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.5 CIRCULAR SLOT (Cycle 254, DIN/ISO: G254)U Stepping angle Q378 (incremental): Angle
HEIDENHAIN iTNC 530 1615.5 CIRCULAR SLOT (Cycle 254, DIN/ISO: G254)U Set-up clearance Q200 (incremental): Distance between tool tip and workpiece surf
162 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.6 RECTANGULAR STUD (Cycle 256, DIN/ISO: G256)5.6 RECTANGULAR STUD (Cycle 256, DIN/ISO
HEIDENHAIN iTNC 530 1635.6 RECTANGULAR STUD (Cycle 256, DIN/ISO: G256)Please note while programming:Pre-position the tool in the machining plane to th
164 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.6 RECTANGULAR STUD (Cycle 256, DIN/ISO: G256)Cycle parametersU First side length Q218
HEIDENHAIN iTNC 530 1655.6 RECTANGULAR STUD (Cycle 256, DIN/ISO: G256)U Feed rate for milling Q207: Traversing speed of the tool during milling in mm/
166 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.7 CIRCULAR STUD (Cycle 257, DIN/ISO: G257)5.7 CIRCULAR STUD (Cycle 257, DIN/ISO: G257
HEIDENHAIN iTNC 530 1675.7 CIRCULAR STUD (Cycle 257, DIN/ISO: G257)Please note while programming:Pre-position the tool in the machining plane to the s
168 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.7 CIRCULAR STUD (Cycle 257, DIN/ISO: G257)Cycle parametersU Finished part diameter Q2
HEIDENHAIN iTNC 530 1695.7 CIRCULAR STUD (Cycle 257, DIN/ISO: G257)U Depth Q201 (incremental): Distance between workpiece surface and bottom of stud.
HEIDENHAIN iTNC 530 17 Changed Cycle Functions of Software 340 49x-05Changed Cycle Functions of Software 340 49x-05 The cylindrical surface cycles 27
170 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.8 Programming Examples5.8 Programming ExamplesExample: Milling pockets, studs and slo
HEIDENHAIN iTNC 530 1715.8 Programming Examples7 CYCL DEF 256 RECTANGULAR STUDDefine cycle for machining the contour outsideQ218=90 ;FIRST SIDE LENGTH
172 Fixed Cycles: Pocket Milling / Stud Milling / Slot Milling5.8 Programming Examples12 TOLL CALL 2 Z S5000Call slotting mill13 CYCL DEF 254 CIRCULA
Fixed Cycles: Pattern Definitions
174 Fixed Cycles: Pattern Definitions6.1 Fundamentals6.1 FundamentalsOverviewThe TNC provides two cycles for machining point patterns directly:You ca
HEIDENHAIN iTNC 530 1756.2 CIRCULAR PATTERN (Cycle 220, DIN/ISO: G220)6.2 CIRCULAR PATTERN (Cycle 220, DIN/ISO: G220)Cycle run1 The TNC moves the tool
176 Fixed Cycles: Pattern Definitions6.2 CIRCULAR PATTERN (Cycle 220, DIN/ISO: G220)Cycle parametersU Center in 1st axis Q216 (absolute): Center of t
HEIDENHAIN iTNC 530 1776.2 CIRCULAR PATTERN (Cycle 220, DIN/ISO: G220)U Set-up clearance Q200 (incremental): Distance between tool tip and workpiece s
178 Fixed Cycles: Pattern Definitions6.3 LINEAR PATTERN (Cycle 221, DIN/ISO: G221)6.3 LINEAR PATTERN (Cycle 221, DIN/ISO: G221)Cycle run1 The TNC aut
HEIDENHAIN iTNC 530 1796.3 LINEAR PATTERN (Cycle 221, DIN/ISO: G221)Cycle parametersU Starting point 1st axis Q225 (absolute): Coordinate of the start
18 Changed Cycle Functions of Software 340 49x-06 and 606 42x-01Changed Cycle Functions of Software 340 49x-06 and 606 42x-01 The approach behavior
180 Fixed Cycles: Pattern Definitions6.4 Programming Examples6.4 Programming ExamplesExample: Circular hole patterns0 BEGIN PGM PATTERN MM1 BLK FORM
HEIDENHAIN iTNC 530 1816.4 Programming Examples7 CYCLE DEF 220 POLAR PATTERNDefine cycle for polar pattern 1, CYCL 200 is called automatically; Q200,
182 Fixed Cycles: Pattern Definitions6.4 Programming Examples
Fixed Cycles: Contour Pocket, Contour Trains
184 Fixed Cycles: Contour Pocket, Contour Trains7.1 SL Cycles7.1 SL CyclesFundamentalsSL cycles enable you to form complex contours by combining up t
HEIDENHAIN iTNC 530 1857.1 SL CyclesCharacteristics of the fixed cycles The TNC automatically positions the tool to the set-up clearance before a cyc
186 Fixed Cycles: Contour Pocket, Contour Trains7.1 SL CyclesOverviewEnhanced cycles:Cycle Soft key Page14 CONTOUR GEOMETRY (essential) Page 18720 CO
HEIDENHAIN iTNC 530 1877.2 CONTOUR GEOMETRY (Cycle 14, DIN/ISO: G37)7.2 CONTOUR GEOMETRY (Cycle 14, DIN/ISO: G37)Please note while programming:All sub
188 Fixed Cycles: Contour Pocket, Contour Trains7.3 Overlapping Contours7.3 Overlapping ContoursFundamentalsPockets and islands can be overlapped to
HEIDENHAIN iTNC 530 1897.3 Overlapping ContoursSubprograms: overlapping pocketsPockets A and B overlap.The TNC calculates the points of intersection S
HEIDENHAIN iTNC 530 19ContentsFundamentals / Overviews1Using Cycles2Fixed Cycles: Drilling3Fixed Cycles: Tapping / Thread Milling4Fixed Cycles: Pocket
190 Fixed Cycles: Contour Pocket, Contour Trains7.3 Overlapping ContoursArea of inclusionBoth surfaces A and B are to be machined, including the over
HEIDENHAIN iTNC 530 1917.3 Overlapping ContoursArea of exclusionSurface A is to be machined without the portion overlapped by B: Surface A must be a
192 Fixed Cycles: Contour Pocket, Contour Trains7.4 CONTOUR DATA (Cycle 20, DIN/ISO: G120)7.4 CONTOUR DATA (Cycle 20, DIN/ISO: G120) Please note whil
HEIDENHAIN iTNC 530 1937.4 CONTOUR DATA (Cycle 20, DIN/ISO: G120)Cycle parametersU Milling depth Q1 (incremental): Distance between workpiece surface
194 Fixed Cycles: Contour Pocket, Contour Trains7.5 PILOT DRILLING (Cycle 21, DIN/ISO: G121)7.5 PILOT DRILLING (Cycle 21, DIN/ISO: G121)Cycle run1 Th
HEIDENHAIN iTNC 530 1957.5 PILOT DRILLING (Cycle 21, DIN/ISO: G121)Cycle parametersU Plunging depth Q10 (incremental): Dimension by which the tool dri
196 Fixed Cycles: Contour Pocket, Contour Trains7.6 ROUGH-OUT (Cycle 22, DIN/ISO: G122)7.6 ROUGH-OUT (Cycle 22, DIN/ISO: G122)Cycle run1 The TNC posi
HEIDENHAIN iTNC 530 1977.6 ROUGH-OUT (Cycle 22, DIN/ISO: G122)Please note while programming:This cycle requires a center-cut end mill (ISO 1641) or pi
198 Fixed Cycles: Contour Pocket, Contour Trains7.6 ROUGH-OUT (Cycle 22, DIN/ISO: G122)Cycle parametersU Plunging depth Q10 (incremental): Infeed per
HEIDENHAIN iTNC 530 1997.6 ROUGH-OUT (Cycle 22, DIN/ISO: G122)U Feed rate factor in %: Q401: Percentage factor by which the TNC reduces the machining
200 Fixed Cycles: Contour Pocket, Contour Trains7.7 FLOOR FINISHING (Cycle 23, DIN/ISO: G123)7.7 FLOOR FINISHING (Cycle 23, DIN/ISO: G123)Cycle runTh
HEIDENHAIN iTNC 530 2017.8 SIDE FINISHING (Cycle 24, DIN/ISO: G124)7.8 SIDE FINISHING (Cycle 24, DIN/ISO: G124)Cycle runThe individual subcontours are
202 Fixed Cycles: Contour Pocket, Contour Trains7.8 SIDE FINISHING (Cycle 24, DIN/ISO: G124)Cycle parametersU Direction of rotation? Clockwise = –1 Q
HEIDENHAIN iTNC 530 2037.9 CONTOUR TRAIN DATA (Cycle 270, DIN/ISO: G270)7.9 CONTOUR TRAIN DATA (Cycle 270, DIN/ISO: G270)Please note while programming
204 Fixed Cycles: Contour Pocket, Contour Trains7.9 CONTOUR TRAIN DATA (Cycle 270, DIN/ISO: G270)Cycle parametersU Type of approach/departure Q390: D
HEIDENHAIN iTNC 530 2057.10 CONTOUR TRAIN (Cycle 25, DIN/ISO: G125)7.10 CONTOUR TRAIN (Cycle 25, DIN/ISO: G125)Cycle runIn conjunction with Cycle 14 C
206 Fixed Cycles: Contour Pocket, Contour Trains7.10 CONTOUR TRAIN (Cycle 25, DIN/ISO: G125)Cycle parametersU Milling depth Q1 (incremental): Distanc
HEIDENHAIN iTNC 530 2077.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)7.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)Cycle runIn conjunction with Cycl
208 Fixed Cycles: Contour Pocket, Contour Trains7.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)Roughing with closed slotsThe contour description of a
HEIDENHAIN iTNC 530 2097.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)Please note while programming:The algebraic sign for the cycle parameter DEPTH d
HEIDENHAIN iTNC 530 211.1 Introduction ... 461.2 Available Cycle Groups ... 47Overview of fixed cycles ... 47Overview of touch probe cycles ...
210 Fixed Cycles: Contour Pocket, Contour Trains7.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)Cycle parametersU Machining operation (0/1/2) Q215: De
HEIDENHAIN iTNC 530 2117.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)U Depth Q201 (incremental): Distance between workpiece surface and bottom of slo
212 Fixed Cycles: Contour Pocket, Contour Trains7.11 TROCHOIDAL SLOT (Cycle 275, DIN/ISO: G275)U Set-up clearance Q200 (incremental): Distance betwee
HEIDENHAIN iTNC 530 2137.12 THREE-D CONTOUR TRAIN (Cycle 276, DIN/ISO: G276)7.12 THREE-D CONTOUR TRAIN (Cycle 276, DIN/ISO: G276)Cycle runIn conjuncti
214 Fixed Cycles: Contour Pocket, Contour Trains7.12 THREE-D CONTOUR TRAIN (Cycle 276, DIN/ISO: G276)Please note while programming:The first block in
HEIDENHAIN iTNC 530 2157.12 THREE-D CONTOUR TRAIN (Cycle 276, DIN/ISO: G276)Cycle parametersU Milling depth Q1 (incremental): Distance between workpie
216 Fixed Cycles: Contour Pocket, Contour Trains7.13 Programming Examples7.13 Programming ExamplesExample: Roughing-out and fine-roughing a pocket0 B
HEIDENHAIN iTNC 530 2177.13 Programming Examples8 CYCL DEF 22 ROUGH-OUTCycle definition: Coarse roughingQ10=5 ;PLUNGING DEPTHQ11=100 ;FEED RATE FOR PL
218 Fixed Cycles: Contour Pocket, Contour Trains7.13 Programming ExamplesExample: Pilot drilling, roughing-out and finishing overlapping contours0 BE
HEIDENHAIN iTNC 530 2197.13 Programming Examples8 CYCL DEF 21 PILOT DRILLINGCycle definition: Pilot drillingQ10=5 ;PLUNGING DEPTHQ11=250 ;FEED RATE FO
222.1 Working with Fixed Cycles ... 50General information ... 50Machine-specific cycles ... 51Defining a cycle using soft keys ... 52Defining
220 Fixed Cycles: Contour Pocket, Contour Trains7.13 Programming Examples19 LBL 1Contour subprogram 1: left pocket20 CC X+35 Y+5021 L X+10 Y+50 RR22C
HEIDENHAIN iTNC 530 2217.13 Programming ExamplesExample: Contour train0 BEGIN PGM C25 MM1 BLK FORM 0.1 Z X+0 Y+0 Z-40Definition of workpiece blank2 BL
222 Fixed Cycles: Contour Pocket, Contour Trains7.13 Programming Examples10 LBL 1Contour subprogram11 L X+0 Y+15 RL12 L X+5 Y+2013 CT X+5 Y+7514LY+95
Fixed Cycles: Cylindrical Surface
224 Fixed Cycles: Cylindrical Surface8.1 Fundamentals8.1 FundamentalsOverview of cylindrical surface cyclesCycle Soft key Page27 CYLINDER SURFACE Pag
HEIDENHAIN iTNC 530 2258.2 CYLINDER SURFACE (Cycle 27, DIN/ISO: G127, Software Option 1)8.2 CYLINDER SURFACE (Cycle 27, DIN/ISO: G127, Software Option
226 Fixed Cycles: Cylindrical Surface8.2 CYLINDER SURFACE (Cycle 27, DIN/ISO: G127, Software Option 1)Please note while programming:The machine and T
HEIDENHAIN iTNC 530 2278.2 CYLINDER SURFACE (Cycle 27, DIN/ISO: G127, Software Option 1)Cycle parametersU Milling depth Q1 (incremental): Distance bet
228 Fixed Cycles: Cylindrical Surface8.3 CYLINDER SURFACE Slot Milling (Cycle 28, DIN/ISO: G128,Software Option 1)8.3 CYLINDER SURFACE Slot Milling (
HEIDENHAIN iTNC 530 2298.3 CYLINDER SURFACE Slot Milling (Cycle 28, DIN/ISO: G128,Software Option 1)Please note while programming:The machine and TNC
HEIDENHAIN iTNC 530 233.1 Fundamentals ... 74Overview ... 743.2 CENTERING (Cycle 240, DIN/ISO: G240) ... 75Cycle run ... 75Please note while p
230 Fixed Cycles: Cylindrical Surface8.3 CYLINDER SURFACE Slot Milling (Cycle 28, DIN/ISO: G128,Software Option 1)Cycle parametersU Milling depth Q1
HEIDENHAIN iTNC 530 2318.4 CYLINDER SURFACE Ridge Milling (Cycle 29, DIN/ISO: G129,Software Option 1)8.4 CYLINDER SURFACE Ridge Milling (Cycle 29, DIN
232 Fixed Cycles: Cylindrical Surface8.4 CYLINDER SURFACE Ridge Milling (Cycle 29, DIN/ISO: G129,Software Option 1)Please note while programming:The
HEIDENHAIN iTNC 530 2338.4 CYLINDER SURFACE Ridge Milling (Cycle 29, DIN/ISO: G129,Software Option 1)Cycle parametersU Milling depth Q1 (incremental):
234 Fixed Cycles: Cylindrical Surface8.5 CYLINDER SURFACE Outside Contour Milling (Cycle 39, DIN/ISO: G139,Software Option 1)8.5 CYLINDER SURFACE Out
HEIDENHAIN iTNC 530 2358.5 CYLINDER SURFACE Outside Contour Milling (Cycle 39, DIN/ISO: G139,Software Option 1)Please note while programming:The machi
236 Fixed Cycles: Cylindrical Surface8.5 CYLINDER SURFACE Outside Contour Milling (Cycle 39, DIN/ISO: G139,Software Option 1)Cycle parametersU Millin
HEIDENHAIN iTNC 530 2378.6 Programming Examples8.6 Programming ExamplesExample: Cylinder surface with Cycle 27Note: Machine with B head and C table
238 Fixed Cycles: Cylindrical Surface8.6 Programming Examples8 L C+0 R0 FMAX M13 M99Pre-position rotary table, spindle ON, call the cycle9 L Z+250 R0
HEIDENHAIN iTNC 530 2398.6 Programming ExamplesExample: Cylinder surface with Cycle 28Notes: Cylinder centered on rotary table Machine with B head a
244.1 Fundamentals ... 108Overview ... 1084.2 TAPPING NEW with a Floating Tap Holder (Cycle 206, DIN/ISO: G206) ... 109Cycle run ... 109Please
240 Fixed Cycles: Cylindrical Surface8.6 Programming Examples8 L C+0 R0 FMAX M3 M99Pre-position rotary table, spindle ON, call the cycle9 L Z+250 R0
Fixed Cycles: Contour Pocket with Contour Formula
242 Fixed Cycles: Contour Pocket with Contour Formula9.1 SL Cycles with Complex Contour Formula9.1 SL Cycles with Complex Contour FormulaFundamentals
HEIDENHAIN iTNC 530 2439.1 SL Cycles with Complex Contour FormulaProperties of the subcontours By default, the TNC assumes that the contour is a pock
244 Fixed Cycles: Contour Pocket with Contour Formula9.1 SL Cycles with Complex Contour FormulaSelecting a program with contour definitionsWith the S
HEIDENHAIN iTNC 530 2459.1 SL Cycles with Complex Contour FormulaDefining contour descriptionsWith the DECLARE CONTOUR function you enter in a program
246 Fixed Cycles: Contour Pocket with Contour Formula9.1 SL Cycles with Complex Contour FormulaEntering a complex contour formulaYou can use soft key
HEIDENHAIN iTNC 530 2479.1 SL Cycles with Complex Contour FormulaOverlapping contoursBy default, the TNC considers a programmed contour to be a pocket
248 Fixed Cycles: Contour Pocket with Contour Formula9.1 SL Cycles with Complex Contour FormulaContour description program 1: pocket AContour descrip
HEIDENHAIN iTNC 530 2499.1 SL Cycles with Complex Contour FormulaArea of exclusionSurface A is to be machined without the portion overlapped by B: Th
HEIDENHAIN iTNC 530 255.1 Fundamentals ... 142Overview ... 1425.2 RECTANGULAR POCKET (Cycle 251, DIN/ISO: G251) ... 143Cycle run ... 143Please
250 Fixed Cycles: Contour Pocket with Contour Formula9.1 SL Cycles with Complex Contour FormulaExample: Roughing and finishing superimposed contours
HEIDENHAIN iTNC 530 2519.1 SL Cycles with Complex Contour FormulaContour definition program with contour formula:Q11=100 ;FEED RATE FOR PLNGNGQ12=350
252 Fixed Cycles: Contour Pocket with Contour Formula9.1 SL Cycles with Complex Contour FormulaContour description programs:0 BEGIN PGM CIRCLE1 MMCon
HEIDENHAIN iTNC 530 2539.2 SL Cycles with Simple Contour Formula9.2 SL Cycles with Simple Contour FormulaFundamentalsSL cycles and the simple contour
254 Fixed Cycles: Contour Pocket with Contour Formula9.2 SL Cycles with Simple Contour FormulaCharacteristics of the fixed cycles The TNC automatica
HEIDENHAIN iTNC 530 2559.2 SL Cycles with Simple Contour FormulaEntering a simple contour formulaYou can use soft keys to interlink various contours i
256 Fixed Cycles: Contour Pocket with Contour Formula9.2 SL Cycles with Simple Contour Formula
Fixed Cycles: Multipass Milling
258 Fixed Cycles: Multipass Milling10.1 Fundamentals10.1 FundamentalsOverviewThe TNC offers four cycles for machining surfaces with the following cha
HEIDENHAIN iTNC 530 25910.2 RUN 3-D DATA (Cycle 30, DIN/ISO: G60)10.2 RUN 3-D DATA (Cycle 30, DIN/ISO: G60)Cycle run1 From the current position, the T
266.1 Fundamentals ... 174Overview ... 1746.2 CIRCULAR PATTERN (Cycle 220, DIN/ISO: G220) ... 175Cycle run ... 175Please note while programmin
260 Fixed Cycles: Multipass Milling10.2 RUN 3-D DATA (Cycle 30, DIN/ISO: G60)Cycle parametersU PGM name 3-D data: Enter the name of the program in wh
HEIDENHAIN iTNC 530 26110.3 MULTIPASS MILLING (Cycle 230, DIN/ISO: G230)10.3 MULTIPASS MILLING (Cycle 230, DIN/ISO: G230)Cycle run1 From the current p
262 Fixed Cycles: Multipass Milling10.3 MULTIPASS MILLING (Cycle 230, DIN/ISO: G230)Cycle parametersU Starting point in 1st axis Q225 (absolute): Min
HEIDENHAIN iTNC 530 26310.4 RULED SURFACE (Cycle 231, DIN/ISO: G231)10.4 RULED SURFACE (Cycle 231, DIN/ISO: G231)Cycle run1 From the current position,
264 Fixed Cycles: Multipass Milling10.4 RULED SURFACE (Cycle 231, DIN/ISO: G231)Cutting motionThe starting point, and therefore the milling direction
HEIDENHAIN iTNC 530 26510.4 RULED SURFACE (Cycle 231, DIN/ISO: G231)Cycle parametersU Starting point in 1st axis Q225 (absolute): Starting point coord
266 Fixed Cycles: Multipass Milling10.4 RULED SURFACE (Cycle 231, DIN/ISO: G231)U 4th point in 1st axis Q234 (absolute): Coordinate of point 4 in the
HEIDENHAIN iTNC 530 26710.5 FACE MILLING (Cycle 232, DIN/ISO: G232)10.5 FACE MILLING (Cycle 232, DIN/ISO: G232)Cycle runCycle 232 is used to face mill
268 Fixed Cycles: Multipass Milling10.5 FACE MILLING (Cycle 232, DIN/ISO: G232)Strategy Q389=13 The tool then advances to the stopping point 2 at the
HEIDENHAIN iTNC 530 26910.5 FACE MILLING (Cycle 232, DIN/ISO: G232)Cycle parametersU Machining strategy (0/1/2) Q389: Specify how the TNC is to machin
HEIDENHAIN iTNC 530 277.1 SL Cycles ... 184Fundamentals ... 184Overview ... 1867.2 CONTOUR GEOMETRY (Cycle 14, DIN/ISO: G37) ... 187Please not
270 Fixed Cycles: Multipass Milling10.5 FACE MILLING (Cycle 232, DIN/ISO: G232)U Maximum plunging depth Q202 (incremental value): Maximum amount that
HEIDENHAIN iTNC 530 27110.5 FACE MILLING (Cycle 232, DIN/ISO: G232)U Set-up clearance Q200 (incremental): Distance between tool tip and the starting p
272 Fixed Cycles: Multipass Milling10.6 Programming Examples10.6 Programming ExamplesExample: Multipass milling0 BEGIN PGM C230 MM1 BLK FORM 0.1 Z X+
HEIDENHAIN iTNC 530 27310.6 Programming Examples7 L X+-25 Y+0 R0 FMAX M3Pre-position near the starting point8 CYCL CALLCycle call9 L Z+250 R0 FMAX M2R
274 Fixed Cycles: Multipass Milling10.6 Programming Examples
Cycles: Coordinate Transformations
276 Cycles: Coordinate Transformations11.1 Fundamentals11.1 FundamentalsOverviewOnce a contour has been programmed, you can position it on the workpi
HEIDENHAIN iTNC 530 27711.2 DATUM SHIFT (Cycle 7, DIN/ISO: G54)11.2 DATUM SHIFT (Cycle 7, DIN/ISO: G54)EffectA DATUM SHIFT allows machining operations
278 Cycles: Coordinate Transformations11.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO: G53)11.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO:
HEIDENHAIN iTNC 530 27911.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO: G53)Please note while programming:Danger of collision!Datums from a datum
287.10 CONTOUR TRAIN (Cycle 25, DIN/ISO: G125) ... 205Cycle run ... 205Please note while programming: ... 205Cycle parameters ... 2067.11 TROC
280 Cycles: Coordinate Transformations11.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO: G53)Cycle parametersU Datum shift: Enter the number of th
HEIDENHAIN iTNC 530 28111.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO: G53)Editing the datum table in the Programming and Editing mode of operat
282 Cycles: Coordinate Transformations11.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO: G53)Editing a datum table in a Program Run operating mode
HEIDENHAIN iTNC 530 28311.3 DATUM SHIFT with datum tables (Cycle 7, DIN/ISO: G53)Configuring the datum tableIn the second and third soft-key rows you
284 Cycles: Coordinate Transformations11.4 DATUM SETTING (Cycle 247, DIN/ISO: G247)11.4 DATUM SETTING (Cycle 247, DIN/ISO: G247)EffectWith the Cycle
HEIDENHAIN iTNC 530 28511.5 MIRROR IMAGE (Cycle 8, DIN/ISO: G28)11.5 MIRROR IMAGE (Cycle 8, DIN/ISO: G28)EffectThe TNC can machine the mirror image of
286 Cycles: Coordinate Transformations11.5 MIRROR IMAGE (Cycle 8, DIN/ISO: G28)Cycle parametersU Mirrored axis?: Enter the axis to be mirrored. You c
HEIDENHAIN iTNC 530 28711.6 ROTATION (Cycle 10, DIN/ISO: G73)11.6 ROTATION (Cycle 10, DIN/ISO: G73)EffectThe TNC can rotate the coordinate system abou
288 Cycles: Coordinate Transformations11.6 ROTATION (Cycle 10, DIN/ISO: G73)Cycle parametersU Rotation: Enter the rotation angle in degrees (°). Inpu
HEIDENHAIN iTNC 530 28911.7 SCALING (Cycle 11, DIN/ISO: G72)11.7 SCALING (Cycle 11, DIN/ISO: G72)EffectThe TNC can increase or reduce the size of cont
HEIDENHAIN iTNC 530 298.1 Fundamentals ... 224Overview of cylindrical surface cycles ... 2248.2 CYLINDER SURFACE (Cycle 27, DIN/ISO: G127, Softwar
290 Cycles: Coordinate Transformations11.7 SCALING (Cycle 11, DIN/ISO: G72)Cycle parametersU Scaling factor?: Enter the scaling factor SCL. The TNC m
HEIDENHAIN iTNC 530 29111.8 AXIS-SPECIFIC SCALING (Cycle 26)11.8 AXIS-SPECIFIC SCALING (Cycle 26)EffectWith Cycle 26 you can account for shrinkage and
292 Cycles: Coordinate Transformations11.8 AXIS-SPECIFIC SCALING (Cycle 26)Cycle parametersU Axis and scaling factor: Select the coordinate axis/axes
HEIDENHAIN iTNC 530 29311.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)11.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Eff
294 Cycles: Coordinate Transformations11.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)The axes are always rotated in the same sequence
HEIDENHAIN iTNC 530 29511.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Cycle parametersU Rotary axis and tilt angle?: Enter the axes of
296 Cycles: Coordinate Transformations11.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Positioning the axes of rotationManual positionin
HEIDENHAIN iTNC 530 29711.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Automatic positioning of rotary axesIf the rotary axes are positi
298 Cycles: Coordinate Transformations11.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Position display in the tilted systemOn activatio
HEIDENHAIN iTNC 530 29911.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Combining coordinate transformation cyclesWhen combining coordina
HEIDENHAIN iTNC 530 3 About this ManualAbout this ManualThe symbols used in this manual are described below.Would you like any changes, or have you fo
309.1 SL Cycles with Complex Contour Formula ... 242Fundamentals ... 242Selecting a program with contour definitions ... 244Defining contour des
300 Cycles: Coordinate Transformations11.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)Procedure for working with Cycle 19 WORKING PLANE
HEIDENHAIN iTNC 530 30111.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1)4 Preparations in the operating modeManual OperationUse the 3-D R
302 Cycles: Coordinate Transformations11.10 Programming Examples11.10 Programming ExamplesExample: Coordinate transformation cyclesProgram sequence
HEIDENHAIN iTNC 530 30311.10 Programming Examples18 L Z+250 R0 FMAX M2Retract in the tool axis, end program19 LBL 1Subprogram 120 L X+0 Y+0 R0 FMAXDef
304 Cycles: Coordinate Transformations11.10 Programming Examples
Cycles: Special Functions
306 Cycles: Special Functions12.1 Fundamentals12.1 FundamentalsOverviewThe TNC provides various cycles for the following special purposes:Cycle Soft
HEIDENHAIN iTNC 530 30712.2 DWELL TIME (Cycle 9, DIN/ISO: G04)12.2 DWELL TIME (Cycle 9, DIN/ISO: G04)FunctionThis causes the execution of the next blo
308 Cycles: Special Functions12.3 PROGRAM CALL (Cycle 12, DIN/ISO: G39)12.3 PROGRAM CALL (Cycle 12, DIN/ISO: G39)Cycle functionRoutines that you have
HEIDENHAIN iTNC 530 30912.3 PROGRAM CALL (Cycle 12, DIN/ISO: G39)Cycle parametersU Program name: Enter the name of the program you want to call and, i
HEIDENHAIN iTNC 530 3110.1 Fundamentals ... 258Overview ... 25810.2 RUN 3-D DATA (Cycle 30, DIN/ISO: G60) ... 259Cycle run ... 259Please note
310 Cycles: Special Functions12.4 ORIENTED SPINDLE STOP (Cycle 13, DIN/ISO: G36)12.4 ORIENTED SPINDLE STOP (Cycle 13, DIN/ISO: G36)Cycle functionThe
HEIDENHAIN iTNC 530 31112.5 TOLERANCE (Cycle 32, DIN/ISO: G62)12.5 TOLERANCE (Cycle 32, DIN/ISO: G62)Cycle functionWith the entries in Cycle 32 you ca
312 Cycles: Special Functions12.5 TOLERANCE (Cycle 32, DIN/ISO: G62)Influences of the geometry definition in the CAM system The most important factor
HEIDENHAIN iTNC 530 31312.5 TOLERANCE (Cycle 32, DIN/ISO: G62)Please note while programming:With very small tolerance values the machine cannot cut th
314 Cycles: Special Functions12.5 TOLERANCE (Cycle 32, DIN/ISO: G62)Cycle parametersU Tolerance value T: Permissible contour deviation in mm (or inch
HEIDENHAIN iTNC 530 31512.6 ENGRAVING (Cycle 225, DIN/ISO: G225)12.6 ENGRAVING (Cycle 225, DIN/ISO: G225)Cycle runThis cycle is used to engrave texts
316 Cycles: Special Functions12.6 ENGRAVING (Cycle 225, DIN/ISO: G225)Cycle parametersU Engraving text QS500: Text to be engraved. Allowed entry char
HEIDENHAIN iTNC 530 31712.6 ENGRAVING (Cycle 225, DIN/ISO: G225)Allowed engraving charactersThe following special characters are allowed in addition t
318 Cycles: Special Functions12.7 INTERPOLATION TURNING (Software Option, Cycle 290, DIN/ISO: G290)12.7 INTERPOLATION TURNING (Software Option, Cycle
HEIDENHAIN iTNC 530 31912.7 INTERPOLATION TURNING (Software Option, Cycle 290, DIN/ISO: G290)Please note while programming:You can use a turning tool
3211.1 Fundamentals ... 276Overview ... 276Effect of coordinate transformations ... 27611.2 DATUM SHIFT (Cycle 7, DIN/ISO: G54) ... 277Effect
320 Cycles: Special Functions12.7 INTERPOLATION TURNING (Software Option, Cycle 290, DIN/ISO: G290)Cycle parametersU Set-up clearance Q200 (increment
HEIDENHAIN iTNC 530 32112.7 INTERPOLATION TURNING (Software Option, Cycle 290, DIN/ISO: G290)U Diameter at contour start Q491 (absolute): Corner of st
322 Cycles: Special Functions12.7 INTERPOLATION TURNING (Software Option, Cycle 290, DIN/ISO: G290)Contour millingYou can mill the surfaces by enteri
Using Touch Probe Cycles
324 Using Touch Probe Cycles13.1 General Information about Touch Probe Cycles13.1 General Information about Touch Probe CyclesMethod of functionWhene
HEIDENHAIN iTNC 530 32513.1 General Information about Touch Probe CyclesCycles in the Manual and El. Handwheel modesIn the Manual Operation and El. Ha
326 Using Touch Probe Cycles13.1 General Information about Touch Probe CyclesDefining the touch probe cycle in the Programming and Editing mode of op
HEIDENHAIN iTNC 530 32713.2 Before You Start Working with Touch Probe Cycles13.2 Before You Start Working with Touch Probe CyclesTo make it possible t
328 Using Touch Probe Cycles13.2 Before You Start Working with Touch Probe CyclesConsider a basic rotation in the Manual Operation mode: MP6166Set MP
HEIDENHAIN iTNC 530 32913.2 Before You Start Working with Touch Probe CyclesTouch trigger probe, probing feed rate: MP6120In MP6120 you define the fee
HEIDENHAIN iTNC 530 3311.9 WORKING PLANE (Cycle 19, DIN/ISO: G80, Software Option 1) ... 293Effect ... 293Please note while programming: ... 294
330 Using Touch Probe Cycles13.2 Before You Start Working with Touch Probe CyclesExecuting touch probe cyclesAll touch probe cycles are DEF active. T
Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment
332 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.1 Fundamentals14.1 FundamentalsOverviewThe TNC provides five cycles that en
HEIDENHAIN iTNC 530 33314.1 FundamentalsCharacteristics common to all touch probe cycles for measuring workpiece misalignmentFor Cycles 400, 401 and 4
334 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.2 BASIC ROTATION (Cycle 400, DIN/ISO: G400)14.2 BASIC ROTATION (Cycle 400,
HEIDENHAIN iTNC 530 33514.2 BASIC ROTATION (Cycle 400, DIN/ISO: G400)Cycle parametersU 1st meas. point 1st axis Q263 (absolute): Coordinate of the fir
336 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.2 BASIC ROTATION (Cycle 400, DIN/ISO: G400)U Traversing to clearance height
HEIDENHAIN iTNC 530 33714.3 BASIC ROTATION from Two Holes (Cycle 401, DIN/ISO: G401)14.3 BASIC ROTATION from Two Holes (Cycle 401, DIN/ISO: G401)Cycle
338 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.3 BASIC ROTATION from Two Holes (Cycle 401, DIN/ISO: G401)Cycle parametersU
HEIDENHAIN iTNC 530 33914.3 BASIC ROTATION from Two Holes (Cycle 401, DIN/ISO: G401)U Preset number in table Q305: Enter the preset number in the tabl
3412.1 Fundamentals ... 306Overview ... 30612.2 DWELL TIME (Cycle 9, DIN/ISO: G04) ... 307Function ... 307Cycle parameters ... 30712.3 PROGR
340 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.4 BASIC ROTATION over Two Studs (Cycle 402, DIN/ISO: G402)14.4 BASIC ROTATI
HEIDENHAIN iTNC 530 34114.4 BASIC ROTATION over Two Studs (Cycle 402, DIN/ISO: G402)Cycle parametersU 1st stud: Center in 1st axis (absolute): Center
342 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.4 BASIC ROTATION over Two Studs (Cycle 402, DIN/ISO: G402)U Traversing to c
HEIDENHAIN iTNC 530 34314.5 BASIC ROTATION Compensation via Rotary Axis (Cycle 403,DIN/ISO: G403)14.5 BASIC ROTATION Compensation via Rotary Axis (Cyc
344 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.5 BASIC ROTATION Compensation via Rotary Axis (Cycle 403,DIN/ISO: G403)Plea
HEIDENHAIN iTNC 530 34514.5 BASIC ROTATION Compensation via Rotary Axis (Cycle 403,DIN/ISO: G403)Cycle parametersU 1st meas. point 1st axis Q263 (abso
346 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.5 BASIC ROTATION Compensation via Rotary Axis (Cycle 403,DIN/ISO: G403)U Cl
HEIDENHAIN iTNC 530 34714.6 SET BASIC ROTATION (Cycle 404, DIN/ISO: G404)14.6 SET BASIC ROTATION (Cycle 404, DIN/ISO: G404)Cycle runWith Touch Probe C
348 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.7 Compensating Workpiece Misalignment by Rotating the C Axis(Cycle 405, DIN
HEIDENHAIN iTNC 530 34914.7 Compensating Workpiece Misalignment by Rotating the C Axis(Cycle 405, DIN/ISO: G405)Please note while programming:Danger o
HEIDENHAIN iTNC 530 3513.1 General Information about Touch Probe Cycles ... 324Method of function ... 324Cycles in the Manual and El. Handwheel mo
350 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.7 Compensating Workpiece Misalignment by Rotating the C Axis(Cycle 405, DIN
HEIDENHAIN iTNC 530 35114.7 Compensating Workpiece Misalignment by Rotating the C Axis(Cycle 405, DIN/ISO: G405)U Measuring height in the touch probe
352 Touch Probe Cycles: Automatic Measurement of Workpiece Misalignment14.7 Compensating Workpiece Misalignment by Rotating the C Axis(Cycle 405, DIN
Touch Probe Cycles: Automatic Datum Setting
354 Touch Probe Cycles: Automatic Datum Setting15.1 Fundamentals15.1 FundamentalsOverviewThe TNC offers twelve cycles for automatically finding refer
HEIDENHAIN iTNC 530 35515.1 FundamentalsCharacteristics common to all touch probe cycles for datum settingDatum point and touch probe axisFrom the tou
356 Touch Probe Cycles: Automatic Datum Setting15.1 FundamentalsSaving the calculated datumIn all cycles for datum setting you can use the input para
HEIDENHAIN iTNC 530 35715.2 SLOT CENTER REF PT (Cycle 408, DIN/ISO: G408, FCL 3 Function)15.2 SLOT CENTER REF PT (Cycle 408, DIN/ISO: G408, FCL 3 Func
358 Touch Probe Cycles: Automatic Datum Setting15.2 SLOT CENTER REF PT (Cycle 408, DIN/ISO: G408, FCL 3 Function)Please note while programming:Cycle
HEIDENHAIN iTNC 530 35915.2 SLOT CENTER REF PT (Cycle 408, DIN/ISO: G408, FCL 3 Function)U Traversing to clearance height Q301: Definition of how the
3614.1 Fundamentals ... 332Overview ... 332Characteristics common to all touch probe cycles for measuring workpiece misalignment ... 33314.2 BAS
360 Touch Probe Cycles: Automatic Datum Setting15.2 SLOT CENTER REF PT (Cycle 408, DIN/ISO: G408, FCL 3 Function)U Probe in TS axis Q381: Specify whe
HEIDENHAIN iTNC 530 36115.3 RIDGE CENTER REF PT (Cycle 409, DIN/ISO: G409, FCL 3 function)15.3 RIDGE CENTER REF PT (Cycle 409, DIN/ISO: G409, FCL 3 fu
362 Touch Probe Cycles: Automatic Datum Setting15.3 RIDGE CENTER REF PT (Cycle 409, DIN/ISO: G409, FCL 3 function)Cycle parametersU Center in 1st axi
HEIDENHAIN iTNC 530 36315.3 RIDGE CENTER REF PT (Cycle 409, DIN/ISO: G409, FCL 3 function)U Measured-value transfer (0, 1) Q303: Specify whether the d
364 Touch Probe Cycles: Automatic Datum Setting15.4 DATUM FROM INSIDE OF RECTANGLE (Cycle 410, DIN/ISO: G410)15.4 DATUM FROM INSIDE OF RECTANGLE (Cyc
HEIDENHAIN iTNC 530 36515.4 DATUM FROM INSIDE OF RECTANGLE (Cycle 410, DIN/ISO: G410)Please note while programming:Cycle parametersU Center in 1st axi
366 Touch Probe Cycles: Automatic Datum Setting15.4 DATUM FROM INSIDE OF RECTANGLE (Cycle 410, DIN/ISO: G410)U Traversing to clearance height Q301: D
HEIDENHAIN iTNC 530 36715.4 DATUM FROM INSIDE OF RECTANGLE (Cycle 410, DIN/ISO: G410)U Probe in TS axis Q381: Specify whether the TNC should also set
368 Touch Probe Cycles: Automatic Datum Setting15.5 DATUM FROM OUTSIDE OF RECTANGLE (Cycle 411, DIN/ISO: G411)15.5 DATUM FROM OUTSIDE OF RECTANGLE (C
HEIDENHAIN iTNC 530 36915.5 DATUM FROM OUTSIDE OF RECTANGLE (Cycle 411, DIN/ISO: G411)Please note while programming:Cycle parametersU Center in 1st ax
HEIDENHAIN iTNC 530 3715.1 Fundamentals ... 354Overview ... 354Characteristics common to all touch probe cycles for datum setting ... 35515.2 SL
370 Touch Probe Cycles: Automatic Datum Setting15.5 DATUM FROM OUTSIDE OF RECTANGLE (Cycle 411, DIN/ISO: G411)U Traversing to clearance height Q301:
HEIDENHAIN iTNC 530 37115.5 DATUM FROM OUTSIDE OF RECTANGLE (Cycle 411, DIN/ISO: G411)U Probe in TS axis Q381: Specify whether the TNC should also set
372 Touch Probe Cycles: Automatic Datum Setting15.6 DATUM FROM INSIDE OF CIRCLE (Cycle 412, DIN/ISO: G412)15.6 DATUM FROM INSIDE OF CIRCLE (Cycle 412
HEIDENHAIN iTNC 530 37315.6 DATUM FROM INSIDE OF CIRCLE (Cycle 412, DIN/ISO: G412)Please note while programming:Cycle parametersU Center in 1st axis Q
374 Touch Probe Cycles: Automatic Datum Setting15.6 DATUM FROM INSIDE OF CIRCLE (Cycle 412, DIN/ISO: G412)U Measuring height in the touch probe axis
HEIDENHAIN iTNC 530 37515.6 DATUM FROM INSIDE OF CIRCLE (Cycle 412, DIN/ISO: G412)U Probe in TS axis Q381: Specify whether the TNC should also set the
376 Touch Probe Cycles: Automatic Datum Setting15.7 DATUM FROM OUTSIDE OF CIRCLE (Cycle 413, DIN/ISO: G413)15.7 DATUM FROM OUTSIDE OF CIRCLE (Cycle 4
HEIDENHAIN iTNC 530 37715.7 DATUM FROM OUTSIDE OF CIRCLE (Cycle 413, DIN/ISO: G413)Please note while programming:Cycle parametersU Center in 1st axis
378 Touch Probe Cycles: Automatic Datum Setting15.7 DATUM FROM OUTSIDE OF CIRCLE (Cycle 413, DIN/ISO: G413)U Measuring height in the touch probe axis
HEIDENHAIN iTNC 530 37915.7 DATUM FROM OUTSIDE OF CIRCLE (Cycle 413, DIN/ISO: G413)U Probe in TS axis Q381: Specify whether the TNC should also set th
3815.10 DATUM CIRCLE CENTER (Cycle 416, DIN/ISO: G416) ... 389Cycle run ... 389Please note while programming: ... 390Cycle parameters ... 3901
380 Touch Probe Cycles: Automatic Datum Setting15.8 DATUM FROM OUTSIDE OF CORNER (Cycle 414, DIN/ISO: G414)15.8 DATUM FROM OUTSIDE OF CORNER (Cycle 4
HEIDENHAIN iTNC 530 38115.8 DATUM FROM OUTSIDE OF CORNER (Cycle 414, DIN/ISO: G414)Please note while programming:XYXYXYXYABCD123213123213Before a cycl
382 Touch Probe Cycles: Automatic Datum Setting15.8 DATUM FROM OUTSIDE OF CORNER (Cycle 414, DIN/ISO: G414)Cycle parametersU 1st meas. point 1st axis
HEIDENHAIN iTNC 530 38315.8 DATUM FROM OUTSIDE OF CORNER (Cycle 414, DIN/ISO: G414)U Traversing to clearance height Q301: Definition of how the touch
384 Touch Probe Cycles: Automatic Datum Setting15.8 DATUM FROM OUTSIDE OF CORNER (Cycle 414, DIN/ISO: G414)U Probe in TS axis Q381: Specify whether t
HEIDENHAIN iTNC 530 38515.9 DATUM FROM INSIDE OF CORNER (Cycle 415, DIN/ISO: G415)15.9 DATUM FROM INSIDE OF CORNER (Cycle 415, DIN/ISO: G415)Cycle run
386 Touch Probe Cycles: Automatic Datum Setting15.9 DATUM FROM INSIDE OF CORNER (Cycle 415, DIN/ISO: G415)Please note while programming:Cycle paramet
HEIDENHAIN iTNC 530 38715.9 DATUM FROM INSIDE OF CORNER (Cycle 415, DIN/ISO: G415)U Traversing to clearance height Q301: Definition of how the touch p
388 Touch Probe Cycles: Automatic Datum Setting15.9 DATUM FROM INSIDE OF CORNER (Cycle 415, DIN/ISO: G415)U Probe in TS axis Q381: Specify whether th
HEIDENHAIN iTNC 530 38915.10 DATUM CIRCLE CENTER (Cycle 416, DIN/ISO: G416)15.10 DATUM CIRCLE CENTER (Cycle 416, DIN/ISO: G416)Cycle runTouch Probe Cy
HEIDENHAIN iTNC 530 3916.1 Fundamentals ... 408Overview ... 408Recording the results of measurement ... 409Measurement results in Q parameters .
390 Touch Probe Cycles: Automatic Datum Setting15.10 DATUM CIRCLE CENTER (Cycle 416, DIN/ISO: G416)Please note while programming:Cycle parametersU Ce
HEIDENHAIN iTNC 530 39115.10 DATUM CIRCLE CENTER (Cycle 416, DIN/ISO: G416)U Datum number in table Q305: Enter the number in the datum or preset table
392 Touch Probe Cycles: Automatic Datum Setting15.10 DATUM CIRCLE CENTER (Cycle 416, DIN/ISO: G416)U Probe in TS axis Q381: Specify whether the TNC s
HEIDENHAIN iTNC 530 39315.11 DATUM IN TOUCH PROBE AXIS (Cycle 417, DIN/ISO: G417)15.11 DATUM IN TOUCH PROBE AXIS (Cycle 417, DIN/ISO: G417)Cycle runTo
394 Touch Probe Cycles: Automatic Datum Setting15.11 DATUM IN TOUCH PROBE AXIS (Cycle 417, DIN/ISO: G417)Cycle parametersU 1st meas. point 1st axis Q
HEIDENHAIN iTNC 530 39515.12 DATUM AT CENTER OF 4 HOLES (Cycle 418, DIN/ISO: G418)15.12 DATUM AT CENTER OF 4 HOLES (Cycle 418, DIN/ISO: G418)Cycle run
396 Touch Probe Cycles: Automatic Datum Setting15.12 DATUM AT CENTER OF 4 HOLES (Cycle 418, DIN/ISO: G418)Please note while programming:Cycle paramet
HEIDENHAIN iTNC 530 39715.12 DATUM AT CENTER OF 4 HOLES (Cycle 418, DIN/ISO: G418)U Datum number in table Q305: Enter the number in the datum or prese
398 Touch Probe Cycles: Automatic Datum Setting15.12 DATUM AT CENTER OF 4 HOLES (Cycle 418, DIN/ISO: G418)U Probe in TS axis Q381: Specify whether th
HEIDENHAIN iTNC 530 39915.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)15.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)Cycle runTouch Probe Cycle
4 TNC Model, Software and FeaturesTNC Model, Software and FeaturesThis manual describes functions and features provided by TNCs as of the following
4016.10 MEASURE RIDGE WIDTH (Cycle 426, DIN/ISO: G426) ... 439Cycle run ... 439Please note while programming: ... 439Cycle parameters ... 4401
400 Touch Probe Cycles: Automatic Datum Setting15.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)Cycle parametersU 1st meas. point 1st axis Q263 (abs
HEIDENHAIN iTNC 530 40115.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)U Traverse direction Q267: Direction in which the probe is to approach the wo
402 Touch Probe Cycles: Automatic Datum Setting15.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)Example: Datum setting in center of a circular segme
HEIDENHAIN iTNC 530 40315.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)2 TCH PROBE 413 DATUM OUTSIDE CIRCLEQ321=+25 ;CENTER IN 1ST AXISCenter of cir
404 Touch Probe Cycles: Automatic Datum Setting15.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)Example: Datum setting on top surface of workpiece a
HEIDENHAIN iTNC 530 40515.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)3 TCH PROBE 416 DATUM CIRCLE CENTERQ273=+35 ;CENTER IN 1ST AXISCenter of the
406 Touch Probe Cycles: Automatic Datum Setting15.13 DATUM IN ONE AXIS (Cycle 419, DIN/ISO: G419)
Touch Probe Cycles: Automatic Workpiece Inspection
408 Touch Probe Cycles: Automatic Workpiece Inspection16.1 Fundamentals16.1 FundamentalsOverviewThe TNC offers twelve cycles for measuring workpieces
HEIDENHAIN iTNC 530 40916.1 FundamentalsRecording the results of measurementFor all cycles in which you automatically measure workpieces (with the exc
HEIDENHAIN iTNC 530 4117.1 Fundamentals ... 458Overview ... 45817.2 CALIBRATE TS (Cycle 2) ... 459Cycle run ... 459Please note while programmi
410 Touch Probe Cycles: Automatic Workpiece Inspection16.1 FundamentalsExample: Measuring log for Touch Probe Cycle 421:Measuring log for Probing Cyc
HEIDENHAIN iTNC 530 41116.1 FundamentalsMeasurement results in Q parametersThe TNC saves the measurement results of the respective touch probe cycle i
412 Touch Probe Cycles: Automatic Workpiece Inspection16.1 FundamentalsTolerance monitoringFor most of the cycles for workpiece inspection you can ha
HEIDENHAIN iTNC 530 41316.1 FundamentalsTool breakage monitoringThe TNC will output an error message and stop program run if the measured deviation is
414 Touch Probe Cycles: Automatic Workpiece Inspection16.2 REF. PLANE (Cycle 0, DIN/ISO: G55)16.2 REF. PLANE (Cycle 0, DIN/ISO: G55)Cycle run1 The to
HEIDENHAIN iTNC 530 41516.3 POLAR REFERENCE PLANE (Cycle 1)16.3 POLAR REFERENCE PLANE (Cycle 1)Cycle runTouch Probe Cycle 1 measures any position on t
416 Touch Probe Cycles: Automatic Workpiece Inspection16.3 POLAR REFERENCE PLANE (Cycle 1)Cycle parametersU Probing axis: Enter the probing axis with
HEIDENHAIN iTNC 530 41716.4 MEASURE ANGLE (Cycle 420, DIN/ISO: G420)16.4 MEASURE ANGLE (Cycle 420, DIN/ISO: G420)Cycle runTouch Probe Cycle 420 measur
418 Touch Probe Cycles: Automatic Workpiece Inspection16.4 MEASURE ANGLE (Cycle 420, DIN/ISO: G420)Cycle parametersU 1st meas. point 1st axis Q263 (a
HEIDENHAIN iTNC 530 41916.4 MEASURE ANGLE (Cycle 420, DIN/ISO: G420)U Traverse direction 1 Q267: Direction in which the probe is to approach the workp
4218.1 Kinematics Measurement with TS Touch Probes (KinematicsOpt Option) ... 474Fundamentals ... 474Overview ... 47418.2 Prerequisites ... 47
420 Touch Probe Cycles: Automatic Workpiece Inspection16.5 MEASURE HOLE (Cycle 421, DIN/ISO: G421)16.5 MEASURE HOLE (Cycle 421, DIN/ISO: G421)Cycle r
HEIDENHAIN iTNC 530 42116.5 MEASURE HOLE (Cycle 421, DIN/ISO: G421)Cycle parametersU Center in 1st axis Q273 (absolute): Center of the hole in the ref
422 Touch Probe Cycles: Automatic Workpiece Inspection16.5 MEASURE HOLE (Cycle 421, DIN/ISO: G421)U Measuring height in the touch probe axis Q261 (ab
HEIDENHAIN iTNC 530 42316.5 MEASURE HOLE (Cycle 421, DIN/ISO: G421)U Measuring log Q281: Definition of whether the TNC is to create a measuring log: 0
424 Touch Probe Cycles: Automatic Workpiece Inspection16.6 MEAS. CIRCLE OUTSIDE (Cycle 422, DIN/ISO: G422)16.6 MEAS. CIRCLE OUTSIDE (Cycle 422, DIN/I
HEIDENHAIN iTNC 530 42516.6 MEAS. CIRCLE OUTSIDE (Cycle 422, DIN/ISO: G422)Cycle parametersU Center in 1st axis Q273 (absolute): Center of the stud in
426 Touch Probe Cycles: Automatic Workpiece Inspection16.6 MEAS. CIRCLE OUTSIDE (Cycle 422, DIN/ISO: G422)U Measuring height in the touch probe axis
HEIDENHAIN iTNC 530 42716.6 MEAS. CIRCLE OUTSIDE (Cycle 422, DIN/ISO: G422)U Measuring log Q281: Definition of whether the TNC is to create a measurin
428 Touch Probe Cycles: Automatic Workpiece Inspection16.7 MEAS. RECTAN. INSIDE (Cycle 423, DIN/ISO: G423)16.7 MEAS. RECTAN. INSIDE (Cycle 423, DIN/I
HEIDENHAIN iTNC 530 42916.7 MEAS. RECTAN. INSIDE (Cycle 423, DIN/ISO: G423)Please note while programming:Cycle parametersU Center in 1st axis Q273 (ab
HEIDENHAIN iTNC 530 4319.1 Fundamentals ... 506Overview ... 506Differences between Cycles 31 to 33 and Cycles 481 to 483 ... 507Setting the mach
430 Touch Probe Cycles: Automatic Workpiece Inspection16.7 MEAS. RECTAN. INSIDE (Cycle 423, DIN/ISO: G423)U Set-up clearance Q320 (incremental): Addi
HEIDENHAIN iTNC 530 43116.7 MEAS. RECTAN. INSIDE (Cycle 423, DIN/ISO: G423)U Measuring log Q281: Definition of whether the TNC is to create a measurin
432 Touch Probe Cycles: Automatic Workpiece Inspection16.8 MEAS. RECTAN. OUTSIDE (Cycle 424, DIN/ISO: G424)16.8 MEAS. RECTAN. OUTSIDE (Cycle 424, DIN
HEIDENHAIN iTNC 530 43316.8 MEAS. RECTAN. OUTSIDE (Cycle 424, DIN/ISO: G424)Please note while programming:Cycle parametersU Center in 1st axis Q273 (a
434 Touch Probe Cycles: Automatic Workpiece Inspection16.8 MEAS. RECTAN. OUTSIDE (Cycle 424, DIN/ISO: G424)U Set-up clearance Q320 (incremental): Add
HEIDENHAIN iTNC 530 43516.8 MEAS. RECTAN. OUTSIDE (Cycle 424, DIN/ISO: G424)U Measuring log Q281: Definition of whether the TNC is to create a measuri
436 Touch Probe Cycles: Automatic Workpiece Inspection16.9 MEASURE INSIDE WIDTH (Cycle 425, DIN/ISO: G425)16.9 MEASURE INSIDE WIDTH (Cycle 425, DIN/I
HEIDENHAIN iTNC 530 43716.9 MEASURE INSIDE WIDTH (Cycle 425, DIN/ISO: G425)Cycle parametersU Starting point in 1st axis Q328 (absolute): Starting poin
438 Touch Probe Cycles: Automatic Workpiece Inspection16.9 MEASURE INSIDE WIDTH (Cycle 425, DIN/ISO: G425)U Measuring log Q281: Definition of whether
HEIDENHAIN iTNC 530 43916.10 MEASURE RIDGE WIDTH (Cycle 426, DIN/ISO: G426)16.10 MEASURE RIDGE WIDTH (Cycle 426, DIN/ISO: G426)Cycle runTouch Probe Cy
44
440 Touch Probe Cycles: Automatic Workpiece Inspection16.10 MEASURE RIDGE WIDTH (Cycle 426, DIN/ISO: G426)Cycle parametersU 1st meas. point 1st axis
HEIDENHAIN iTNC 530 44116.10 MEASURE RIDGE WIDTH (Cycle 426, DIN/ISO: G426)U Measuring log Q281: Definition of whether the TNC is to create a measurin
442 Touch Probe Cycles: Automatic Workpiece Inspection16.11 MEASURE COORDINATE (Cycle 427, DIN/ISO: G427)16.11 MEASURE COORDINATE (Cycle 427, DIN/ISO
HEIDENHAIN iTNC 530 44316.11 MEASURE COORDINATE (Cycle 427, DIN/ISO: G427)Cycle parametersU 1st meas. point 1st axis Q263 (absolute): Coordinate of th
444 Touch Probe Cycles: Automatic Workpiece Inspection16.11 MEASURE COORDINATE (Cycle 427, DIN/ISO: G427)U Measuring log Q281: Definition of whether
HEIDENHAIN iTNC 530 44516.12 MEAS. BOLT HOLE CIRC. (Cycle 430, DIN/ISO: G430)16.12 MEAS. BOLT HOLE CIRC. (Cycle 430, DIN/ISO: G430)Cycle runTouch Prob
446 Touch Probe Cycles: Automatic Workpiece Inspection16.12 MEAS. BOLT HOLE CIRC. (Cycle 430, DIN/ISO: G430)Cycle parametersU Center in 1st axis Q273
HEIDENHAIN iTNC 530 44716.12 MEAS. BOLT HOLE CIRC. (Cycle 430, DIN/ISO: G430)U Measuring height in the touch probe axis Q261 (absolute): Coordinate of
448 Touch Probe Cycles: Automatic Workpiece Inspection16.12 MEAS. BOLT HOLE CIRC. (Cycle 430, DIN/ISO: G430)U Measuring log Q281: Definition of wheth
HEIDENHAIN iTNC 530 44916.13 MEASURE PLANE (Cycle 431, DIN/ISO: G431)16.13 MEASURE PLANE (Cycle 431, DIN/ISO: G431)Cycle runTouch Probe Cycle 431 find
Fundamentals / Overviews
450 Touch Probe Cycles: Automatic Workpiece Inspection16.13 MEASURE PLANE (Cycle 431, DIN/ISO: G431)Please note while programming:Before a cycle defi
HEIDENHAIN iTNC 530 45116.13 MEASURE PLANE (Cycle 431, DIN/ISO: G431)Cycle parametersU 1st meas. point 1st axis Q263 (absolute): Coordinate of the fir
452 Touch Probe Cycles: Automatic Workpiece Inspection16.13 MEASURE PLANE (Cycle 431, DIN/ISO: G431)U Set-up clearance Q320 (incremental): Additional
HEIDENHAIN iTNC 530 45316.14 Programming Examples16.14 Programming ExamplesExample: Measuring and reworking a rectangular studProgram sequence: Rough
454 Touch Probe Cycles: Automatic Workpiece Inspection16.14 Programming ExamplesQ285=0 ;MIN. LIMIT 1ST SIDEQ286=0 ;MAX. LIMIT 2ND SIDEQ287=0 ;MIN. LI
HEIDENHAIN iTNC 530 45516.14 Programming ExamplesExample: Measuring a rectangular pocket and recording the results0 BEGIN PGM BSMEAS MM1 TOOL CALL 1 Z
456 Touch Probe Cycles: Automatic Workpiece Inspection16.14 Programming ExamplesQ284=90.15;MAX. LIMIT 1ST SIDEMaximum limit in XQ285=89.95;MIN. LIMIT
Touch Probe Cycles: Special Functions
458 Touch Probe Cycles: Special Functions17.1 Fundamentals17.1 FundamentalsOverviewThe TNC provides seven cycles for the following special purposes:C
HEIDENHAIN iTNC 530 45917.2 CALIBRATE TS (Cycle 2)17.2 CALIBRATE TS (Cycle 2)Cycle runTouch Probe Cycle 2 automatically calibrates a touch trigger pro
46 Fundamentals / Overviews1.1 Introduction1.1 IntroductionFrequently recurring machining cycles that comprise several working steps are stored in th
460 Touch Probe Cycles: Special Functions17.3 CALIBRATE TS LENGTH (Cycle 9)17.3 CALIBRATE TS LENGTH (Cycle 9)Cycle runTouch Probe Cycle 9 automatical
HEIDENHAIN iTNC 530 46117.4 MEASURING (Cycle 3)17.4 MEASURING (Cycle 3)Cycle runTouch Probe Cycle 3 measures any position on the workpiece in a select
462 Touch Probe Cycles: Special Functions17.4 MEASURING (Cycle 3)Cycle parametersU Parameter number for result: Enter the number of the Q parameter t
HEIDENHAIN iTNC 530 46317.5 MEASURING IN 3-D (Cycle 4, FCL 3 function)17.5 MEASURING IN 3-D (Cycle 4, FCL 3 function)Cycle runTouch Probe Cycle 4 meas
464 Touch Probe Cycles: Special Functions17.5 MEASURING IN 3-D (Cycle 4, FCL 3 function)Cycle parametersU Parameter number for result: Enter the numb
HEIDENHAIN iTNC 530 46517.6 MEASURE AXIS SHIFT (Touch Probe Cycle 440, DIN/ISO: G440)17.6 MEASURE AXIS SHIFT (Touch Probe Cycle 440, DIN/ISO: G440)Cyc
466 Touch Probe Cycles: Special Functions17.6 MEASURE AXIS SHIFT (Touch Probe Cycle 440, DIN/ISO: G440)Please note while programming:Before running C
HEIDENHAIN iTNC 530 46717.6 MEASURE AXIS SHIFT (Touch Probe Cycle 440, DIN/ISO: G440)Cycle parametersU Operation: 0=calibr., 1=measure? Q363: Specify
468 Touch Probe Cycles: Special Functions17.7 FAST PROBING (Cycle 441, DIN/ISO: G441, FCL 2 Function)17.7 FAST PROBING (Cycle 441, DIN/ISO: G441, FCL
HEIDENHAIN iTNC 530 46917.7 FAST PROBING (Cycle 441, DIN/ISO: G441, FCL 2 Function)Cycle parametersU Positioning feed rate Q396: Define the feed rate
HEIDENHAIN iTNC 530 471.2 Available Cycle Groups1.2 Available Cycle GroupsOverview of fixed cyclesU The soft-key row shows the available groups of cyc
470 Touch Probe Cycles: Special Functions17.8 CALIBRATE TS (Cycle 460, DIN/ISO: G460)17.8 CALIBRATE TS (Cycle 460, DIN/ISO: G460)Cycle runWith Cycle
HEIDENHAIN iTNC 530 47117.8 CALIBRATE TS (Cycle 460, DIN/ISO: G460)Cycle parametersU Exact calibration sphere radius Q407: Enter the exact radius of t
472 Touch Probe Cycles: Special Functions17.8 CALIBRATE TS (Cycle 460, DIN/ISO: G460)
Touch Probe Cycles: Automatic Kinematics Measurement
474 Touch Probe Cycles: Automatic Kinematics Measurement18.1 Kinematics Measurement with TS Touch Probes (KinematicsOpt Option)18.1 Kinematics Measur
HEIDENHAIN iTNC 530 47518.2 Prerequisites18.2 PrerequisitesThe following are prerequisites for using the KinematicsOpt option: The software options 4
476 Touch Probe Cycles: Automatic Kinematics Measurement18.3 SAVE KINEMATICS (Cycle 450, DIN/ISO: G450; Option)18.3 SAVE KINEMATICS (Cycle 450, DIN/I
HEIDENHAIN iTNC 530 47718.3 SAVE KINEMATICS (Cycle 450, DIN/ISO: G450; Option)Cycle parametersU Mode (0/1/2) Q410: Specify whether to save or restore
478 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)18.4 MEASURE KINEMATICS (Cycle 451,
HEIDENHAIN iTNC 530 47918.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)4 The TNC automatically measures all three axes successively in the r
48 Fundamentals / Overviews1.2 Available Cycle GroupsOverview of touch probe cyclesU The soft-key row shows the available groups of cycles.U If requi
480 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Positioning directionThe positionin
HEIDENHAIN iTNC 530 48118.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Machines with Hirth-coupled axesThe measuring positions are calculate
482 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Choice of number of measuring point
HEIDENHAIN iTNC 530 48318.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Notes on the accuracyThe geometrical and positioning error of the mac
484 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Notes on various calibration method
HEIDENHAIN iTNC 530 48518.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)BacklashBacklash is a small amount of play between the rotary or angl
486 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Please note while programming:Note
HEIDENHAIN iTNC 530 48718.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Cycle parametersU Mode (0/1/2) Q406: Specify whether the TNC should c
488 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)U Feed rate for pre-positioning Q25
HEIDENHAIN iTNC 530 48918.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)U Start angle C axis Q419 (absolute): Starting angle in the C axis at
Using Fixed Cycles
490 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Various modes (Q406) Test mode Q40
HEIDENHAIN iTNC 530 49118.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Log functionAfter running Cycle 451, the TNC creates a measuring log
492 Touch Probe Cycles: Automatic Kinematics Measurement18.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Notes on log data Error outputsIn
HEIDENHAIN iTNC 530 49318.4 MEASURE KINEMATICS (Cycle 451, DIN/ISO: G451; Option)Measurement uncertainty of anglesThe TNC always indicates measurement
494 Touch Probe Cycles: Automatic Kinematics Measurement18.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)18.5 PRESET COMPENSATION (Cycle 45
HEIDENHAIN iTNC 530 49518.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)If it is possible to leave the calibration sphere clamped to the mac
496 Touch Probe Cycles: Automatic Kinematics Measurement18.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)Please note while programming:In o
HEIDENHAIN iTNC 530 49718.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)Cycle parametersU Exact calibration sphere radius Q407: Enter the ex
498 Touch Probe Cycles: Automatic Kinematics Measurement18.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)U End angle B axis Q416 (absolute)
HEIDENHAIN iTNC 530 49918.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)Adjustment of interchangeable headsThe goal of this procedure is for
HEIDENHAIN iTNC 530 5 TNC Model, Software and FeaturesMany machine manufacturers, as well as HEIDENHAIN, offer programming courses for the TNCs. We re
50 Using Fixed Cycles2.1 Working with Fixed Cycles2.1 Working with Fixed CyclesGeneral informationIf you transfer NC programs from old TNC controls o
500 Touch Probe Cycles: Automatic Kinematics Measurement18.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)U Insert the second interchangeabl
HEIDENHAIN iTNC 530 50118.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)Drift compensationDuring machining various machine components are su
502 Touch Probe Cycles: Automatic Kinematics Measurement18.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)U Measure the drift of the axes at
HEIDENHAIN iTNC 530 50318.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)Log functionAfter running Cycle 452, the TNC creates a measuring log
504 Touch Probe Cycles: Automatic Kinematics Measurement18.5 PRESET COMPENSATION (Cycle 452, DIN/ISO: G452, Option)
Touch Probe Cycles: Automatic Tool Measurement
506 Touch Probe Cycles: Automatic Tool Measurement19.1 Fundamentals19.1 FundamentalsOverviewIn conjunction with the TNC’s tool measurement cycles, th
HEIDENHAIN iTNC 530 50719.1 FundamentalsDifferences between Cycles 31 to 33 and Cycles 481 to 483The features and the operating sequences are absolute
508 Touch Probe Cycles: Automatic Tool Measurement19.1 FundamentalsMP6507 determines the calculation of the probing feed rate:MP6507=0: The measuring
HEIDENHAIN iTNC 530 50919.1 FundamentalsEntries in the tool table TOOL.TInput examples for common tool typesAbbr. Inputs DialogCUT Number of teeth (20
HEIDENHAIN iTNC 530 512.1 Working with Fixed CyclesMachine-specific cyclesIn addition to the HEIDENHAIN cycles, many machine tool builders offer their
510 Touch Probe Cycles: Automatic Tool Measurement19.1 FundamentalsDisplay of the measurement resultsYou can display the results of tool measurement
HEIDENHAIN iTNC 530 51119.2 Calibrating the TT (Cycle 30 or 480, DIN/ISO: G480)19.2 Calibrating the TT (Cycle 30 or 480, DIN/ISO: G480)Cycle runThe TT
512 Touch Probe Cycles: Automatic Tool Measurement19.3 CALIBRATING THE WIRELESS TT 449 (Cycle 484, DIN/ISO: G484)19.3 CALIBRATING THE WIRELESS TT 449
HEIDENHAIN iTNC 530 51319.4 Measuring the Tool Length (Cycle 31 or 481, DIN/ISO: G481)19.4 Measuring the Tool Length (Cycle 31 or 481, DIN/ISO: G481)C
514 Touch Probe Cycles: Automatic Tool Measurement19.4 Measuring the Tool Length (Cycle 31 or 481, DIN/ISO: G481)Please note while programming:Cycle
HEIDENHAIN iTNC 530 51519.5 Measuring the Tool Radius (Cycle 32 or 482, DIN/ISO: G482)19.5 Measuring the Tool Radius (Cycle 32 or 482, DIN/ISO: G482)C
516 Touch Probe Cycles: Automatic Tool Measurement19.5 Measuring the Tool Radius (Cycle 32 or 482, DIN/ISO: G482)Cycle parametersU Measure tool=0 / C
HEIDENHAIN iTNC 530 51719.6 Measuring Tool Length and Radius (Cycle 33 or 483, DIN/ISO: G483)19.6 Measuring Tool Length and Radius (Cycle 33 or 483, D
518 Touch Probe Cycles: Automatic Tool Measurement19.6 Measuring Tool Length and Radius (Cycle 33 or 483, DIN/ISO: G483)Cycle parametersU Measure too
HEIDENHAIN iTNC 530 519 OverviewOverviewFixed cyclesCycle number Cycle designationDEF activeCALL activePage7 Datum shift Page 2778 Mirror image Pa
52 Using Fixed Cycles2.1 Working with Fixed CyclesDefining a cycle using soft keysU The soft-key row shows the available groups of cyclesU Press the
520 Overview204 Back boring Page 89205 Universal pecking Page 93206 Tapping with a floating tap holder, new Page 109207 Rigid tapping, new P
HEIDENHAIN iTNC 530 521 OverviewTouch probe cyclesCycle number Cycle designationDEF activeCALL activePage0 Reference plane Page 4141 Polar datum P
522 Overview420 Workpiece—measure angle Page 417421 Workpiece—measure hole (center and diameter of hole) Page 420422 Workpiece—measure circle fr
HEIDENHAIN iTNC 530 523IndexSymbole3-D contour train ... 2133-D data, running ... ... 2593-D touch probes ... 46, 324CalibratingTriggering ... 459, 46
524 IndexPPattern definition ... 61Pecking ... 93, 100Deepened starting point ... 96, 101Point patternCircular ... 175Linear ... 178Overview ... 174P
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HEIDENHAIN iTNC 530 532.1 Working with Fixed CyclesCalling cyclesThe following cycles become effective automatically as soon as they are defined in th
54 Using Fixed Cycles2.1 Working with Fixed CyclesCalling a cycle with CYCL CALL POSThe CYCL CALL POS function calls the most recently defined fixed
HEIDENHAIN iTNC 530 552.1 Working with Fixed CyclesWorking with the secondary axes U/V/WThe TNC performs infeed movements in the axis that was defined
56 Using Fixed Cycles2.2 Program Defaults for Cycles2.2 Program Defaults for CyclesOverviewAll Cycles 20 to 25, as well as all of those with numbers
HEIDENHAIN iTNC 530 572.2 Program Defaults for CyclesEntering GLOBAL DEFU Select the Programming and Editing operating modeU Press the Special Functio
58 Using Fixed Cycles2.2 Program Defaults for CyclesGlobal data valid everywhereU Set-up clearance: Distance between tool tip and workpiece surface f
HEIDENHAIN iTNC 530 592.2 Program Defaults for CyclesGlobal data for milling operations with pocket cycles 25xU Overlap factor: The tool radius multip
6 TNC Model, Software and FeaturesSoftware optionsThe iTNC 530 features various software options that can be enabled by you or your machine tool bui
60 Using Fixed Cycles2.2 Program Defaults for CyclesGlobal data for probing functionsU Set-up clearance: Distance between stylus and workpiece surfac
HEIDENHAIN iTNC 530 612.3 Pattern Definition PATTERN DEF2.3 Pattern Definition PATTERN DEFApplicationYou use the PATTERN DEF function to easily define
62 Using Fixed Cycles2.3 Pattern Definition PATTERN DEFEntering PATTERN DEFU Select the Programming and Editing operating modeU Press the special fun
HEIDENHAIN iTNC 530 632.3 Pattern Definition PATTERN DEFDefining individual machining positionsU X coord. of machining position (absolute): Enter X co
64 Using Fixed Cycles2.3 Pattern Definition PATTERN DEFDefining a single rowU Starting point in X (absolute): Coordinate of the starting point of the
HEIDENHAIN iTNC 530 652.3 Pattern Definition PATTERN DEFDefining a single patternU Starting point in X (absolute): Coordinate of the starting point of
66 Using Fixed Cycles2.3 Pattern Definition PATTERN DEFDefining individual framesU Starting point in X (absolute): Coordinate of the starting point o
HEIDENHAIN iTNC 530 672.3 Pattern Definition PATTERN DEFDefining a full circleU Bolt-hole circle center X (absolute): Coordinate of the circle center
68 Using Fixed Cycles2.3 Pattern Definition PATTERN DEFDefining a circular arcU Bolt-hole circle center X (absolute): Coordinate of the circle center
HEIDENHAIN iTNC 530 692.4 Point Tables2.4 Point TablesFunctionYou should create a point table whenever you want to run a cycle, or several cycles in s
HEIDENHAIN iTNC 530 7 TNC Model, Software and FeaturesAdditional conversational language software optionDescriptionFunction for enabling the conversat
70 Using Fixed Cycles2.4 Point TablesHiding single points from the machining processIn the FADE column of the point table you can specify if the defi
HEIDENHAIN iTNC 530 712.4 Point TablesSelecting a point table in the programIn the Programming and Editing mode of operation, select the program for w
72 Using Fixed Cycles2.4 Point TablesCalling a cycle in connection with point tablesIf you want the TNC to call the last defined fixed cycle at the p
Fixed Cycles: Drilling
74 Fixed Cycles: Drilling3.1 Fundamentals3.1 FundamentalsOverviewThe TNC offers 9 cycles for all types of drilling operations:Cycle Soft key Page240
HEIDENHAIN iTNC 530 753.2 CENTERING (Cycle 240, DIN/ISO: G240)3.2 CENTERING (Cycle 240, DIN/ISO: G240)Cycle run1 The TNC positions the tool in the spi
76 Fixed Cycles: Drilling3.2 CENTERING (Cycle 240, DIN/ISO: G240)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool tip and
HEIDENHAIN iTNC 530 773.3 DRILLING (Cycle 200)3.3 DRILLING (Cycle 200)Cycle run1 The TNC positions the tool in the spindle axis at rapid traverse FMAX
78 Fixed Cycles: Drilling3.3 DRILLING (Cycle 200)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool tip and workpiece surfa
HEIDENHAIN iTNC 530 793.4 REAMING (Cycle 201, DIN/ISO: G201)3.4 REAMING (Cycle 201, DIN/ISO: G201)Cycle run1 The TNC positions the tool in the tool ax
8 TNC Model, Software and FeaturesFeature content level (upgrade functions)Along with software options, significant further improvements of the TNC
80 Fixed Cycles: Drilling3.4 REAMING (Cycle 201, DIN/ISO: G201)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool tip and w
HEIDENHAIN iTNC 530 813.5 BORING (Cycle 202, DIN/ISO: G202)3.5 BORING (Cycle 202, DIN/ISO: G202)Cycle run1 The TNC positions the tool in the spindle a
82 Fixed Cycles: Drilling3.5 BORING (Cycle 202, DIN/ISO: G202)Please note while programming:Machine and TNC must be specially prepared by the machine
HEIDENHAIN iTNC 530 833.5 BORING (Cycle 202, DIN/ISO: G202)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool tip and workpi
84 Fixed Cycles: Drilling3.5 BORING (Cycle 202, DIN/ISO: G202)U Disengaging direction (0/1/2/3/4) Q214: Determine the direction in which the TNC retr
HEIDENHAIN iTNC 530 853.6 UNIVERSAL DRILLING (Cycle 203, DIN/ISO: G203)3.6 UNIVERSAL DRILLING (Cycle 203, DIN/ISO: G203)Cycle run1 The TNC positions t
86 Fixed Cycles: Drilling3.6 UNIVERSAL DRILLING (Cycle 203, DIN/ISO: G203)Please note while programming:Program a positioning block for the starting
HEIDENHAIN iTNC 530 873.6 UNIVERSAL DRILLING (Cycle 203, DIN/ISO: G203)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool ti
88 Fixed Cycles: Drilling3.6 UNIVERSAL DRILLING (Cycle 203, DIN/ISO: G203)U No. of breaks before retracting Q213: Number of chip breaks after which t
HEIDENHAIN iTNC 530 893.7 BACK BORING (Cycle 204, DIN/ISO: G204)3.7 BACK BORING (Cycle 204, DIN/ISO: G204)Cycle runThis cycle allows holes to be bored
HEIDENHAIN iTNC 530 9 TNC Model, Software and FeaturesIntended place of operationThe TNC complies with the limits for a Class A device in accordance w
90 Fixed Cycles: Drilling3.7 BACK BORING (Cycle 204, DIN/ISO: G204)Please note while programming:Machine and TNC must be specially prepared by the ma
HEIDENHAIN iTNC 530 913.7 BACK BORING (Cycle 204, DIN/ISO: G204)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool tip and w
92 Fixed Cycles: Drilling3.7 BACK BORING (Cycle 204, DIN/ISO: G204)U Workpiece surface coordinate Q203 (absolute): Coordinate of the workpiece surfac
HEIDENHAIN iTNC 530 933.8 UNIVERSAL PECKING (Cycle 205, DIN/ISO: G205)3.8 UNIVERSAL PECKING (Cycle 205, DIN/ISO: G205)Cycle run1 The TNC positions the
94 Fixed Cycles: Drilling3.8 UNIVERSAL PECKING (Cycle 205, DIN/ISO: G205)Please note while programming:Program a positioning block for the starting p
HEIDENHAIN iTNC 530 953.8 UNIVERSAL PECKING (Cycle 205, DIN/ISO: G205)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool tip
96 Fixed Cycles: Drilling3.8 UNIVERSAL PECKING (Cycle 205, DIN/ISO: G205)U Infeed depth for chip breaking Q257 (incremental): Depth at which the TNC
HEIDENHAIN iTNC 530 973.9 BORE MILLING (Cycle 208)3.9 BORE MILLING (Cycle 208)Cycle run1 The TNC positions the tool in the spindle axis at rapid trave
98 Fixed Cycles: Drilling3.9 BORE MILLING (Cycle 208)Please note while programming:Program a positioning block for the starting point (hole center) i
HEIDENHAIN iTNC 530 993.9 BORE MILLING (Cycle 208)Cycle parametersU Set-up clearance Q200 (incremental): Distance between tool lower edge and workpiec
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