Contents - Preface
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Description of workpiece points
- Definition of workpiece positions
- Polar coordinates
- Incremental dimension
- Plane designations
- Position of zero points
- Position of coordinate systems
- Machine coordinate system
- Basic coordinate system
- Workpiece coordinate system
- Frame system
- Assignment of workpiece coordinate system to machine axes
- Current workpiece coordinate system
- Main axes/Geometry axes
- Special axes
- Channel axes
- Synchronized axes
- Command axes
- Lead link axes
- Coordinate systems and workpiece machining
- Structure and contents of an NC program
- Language elements of the programming language
- Programming a sample workpiece
- First programming example for milling application
- Second programming example for milling application
- Programming example for turning application
- General notes
- Absolute/relative dimensions
- Incremental dimensions (G91, X=IC)
- Absolute dimension for rotary axes (DC, ACP, ACN)
- Dimensions inch/metric, (G70/G700, G71/G710)
- Special turning functions
- Position of workpiece
- Zero offset frame, (G54 to G57, G505 to G599, G53, G500/SUPA
- Selection of working plane (G17 to G19)
- Working area limitation in BCS (G25/G26, WALIMON, WALIMOF)
- Working area limitation in WCS/SZS (WALCS0 ... WALCS10)
- Reference point approach (G74)
- Travel commands with polar coordinates, polar angle, polar radius
- Traversing commands with polar coordinates, (G0, G1, G2, G3 AP=..., RP=...)
- Rapid traverse movement (G0, RTLION, RTLIOF)
- Linear interpolation (G1)
- Circular interpolation types, (G2/G3, CIP, CT)
- Circular interpolation with center point and end point (G2/G3, I=, J=, K=AC...)
- Circular interpolation with radius and end point (G2/G3, CR)
- Circular interpolation with arc angle and center point (G2/G3, AR=)
- Circular interpolation with polar coordinates (G2/G3, AP=, RP=)
- Circular interpolation with intermediate and end points (CIP)
- Circular interpolation with tangential transition (CT)
- Helical interpolation (G2/G3, TURN=)
- Involute interpolation (INVCW, INVCCW)
- Contour definitions
- Two straight lines (ANG1, X3... Z3... ANG2)
- Three straight lines (ANG1, X3... Z3... ANG2, X4... Z4...)
- End point programming with angle
- Thread cutting with constant lead (G33)
- Programmable run-in and run-out paths (DITS, DITE)
- Linear progressive/degressive thread pitch change (G34, G35)
- Tapping without compensating chuck (G331, G332)
- Tapping with compensating chuck (G63)
- Stop with thread cutting (LFOF, LFON, LFTXT, LFWP, LFPOS)
- Lifting on retraction (LFTXT, LFWP, LFPOS, POLF, POLFMASK; POLFMLIN)
- Approaching a fixed point (G75)
- Travel to fixed stop (FXS, FXST, FXSW)
- Chamfer, rounding (CHF, CHR, RND, RNDM, FRC, FRCM)
- Exact stop (G60, G9, G601, G602, G603)
- Continuous-path mode (G64, G641, G642, G643, G644)
- Acceleration behavior
- Influence of acceleration on following axes (VELOLIMA, ACCLIMA, JERKLIMA)
- Technology G group (DYNNORM, DYNPOS, DYNROUGH, DYNSEMIFIN, DYNFINISH)
- Smoothing the path velocity
- Traversing with feedforward control, FFWON, FFWOF
- Contour accuracy, CPRECON, CPRECOF
- Dwell time, delay (G4, WRTPR)
- Internal preprocessing stop
- General
- Frame instructions
- Programmable zero offset
- Axial zero offset (G58, G59)
- Programmable rotation (ROT, AROT, RPL)
- Programmable frame rotations with solid angles (ROTS, AROTS, CROTS)
- Programmable scale factor (SCALE, ASCALE)
- Programmable mirroring (MIRROR, AMIRROR)
- Frame generation according to tool orientation (TOFRAME, TOROT, PAROT)
- Deselect frame (G53, G153, SUPA, G500)
- Deselect DRF (handwheel) offsets, overlaid motions (DRFOF, CORROF)
- Feedrate (G93, G94, G95 or F..., FGROUP, FGREF)
- Traversing positioning axes (POS, POSA, POSP, FA, WAITP, WAITMC)
- Position-controlled spindle operation (SPCON, SPCOF)
- Positioning spindles (SPOS, M19 and SPOSA, WAITS)
- Feedrate for positioning axes/spindles (FA, FPR, FPRAON, FPRAOF)
- Percentage feedrate override (OVR, OVRA)
- Feedrate with handwheel override (FD, FDA)
- Percentage acceleration override (ACC option)
- Feedrate optimization for curved path sections (CFTCP, CFC, CFIN)
- Spindle speed (S), direction of spindle rotation (M3, M4, M5)
- Constant cutting rate (G96/G961/G962, G97/G971/G972, G973, LIMS, SCC[AX])
- Constant grinding wheel peripheral speed (GWPSON, GWPSOF)
- Programmable spindle speed limitation (G25, G26)
- Multiple feedrate values in one block (F.., ST=.., SR=.., FMA.., STA
- Blockwise feed (FB...)
- Tool offsets in the control's offset memory
- List of tool types
- Tool selection/tool call T
- Tool change with M06 (mill)
- Tool offset D
- Tool selection T with tool management
- Turning machine with circular magazine (T selection)
- Milling machine with chain magazine (T selection)
- Tool offset call D with tool management
- Milling machine with chain magazine (D call)
- Activating the active tool offset immediately
- Contour approach and retraction (NORM, KONT, KONTC, KONTT)
- Compensation at the outside corners (G450, G451)
- Smooth approach and retraction
- Approach and retraction with enhanced retraction strategies (G460, G461, G462)
- Collision monitoring (CDON, CDOF, CDOF2)
- D tool compensation (CUT2D, CUT2DF)
- Tool length compensation for orientable toolholders (TCARR, TCOABS, TCOFR)
- Grinding-specific tool monitoring in parts programs (TMON, TMOF)
- Additive offsets
- Select offsets (via DL numbers)
- Specify wear and setup values ($TC_SCPxy[t,d], $TC_ECPxy[t,d])
- Delete additive offsets (DELDL)
- Special handling of tool offsets
- Mirroring of tool lengths
- Wear sign evaluation
- Tool length and plane change
- Tools with a relevant cutting edge length
- Special functions
- M functions
- H functions
- Arithmetic Parameters and Program Jumps
- Unconditional program jumps
- Conditional program jumps (IF, GOTOB, GOTOF, GOTO, GOTOC)
- Program section repetition
- Tables
- List of addresses
- List of G functions/preparatory functions
- List of predefined subprograms
- Predefined subroutine calls in motion-synchronous actions
- Predefined functions
- Data types
- A Appendix
- A.1 List of abbreviations
- A.2 List of abbreviations
- A.2.2 Overview
- Glossary
- Index
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Tool offsets8.15 Grinding-specific tool monitoring in parts programs (TMON, TMOF)Fundamentals392 Programming Manual, 11/2006, 6FC5398-1BP10-2BA0NoteWhen transferring angular values to a standard or measuring cycle, the following should becarefully observed:Values less than the calculation resolution of the NC should be rounded-off to zero!The calculation resolution of the NC for angular positions is defined in the machine data:MD10210 $MN_INT_INCR_PER_DEG8.15 Grinding-specific tool monitoring in parts programs (TMON, TMOF)FunctionThe command TMON is used to activate geometry and speed monitoring for grinding tools(types 400-499) in the NC parts program. Monitoring remains active until it is deactivated inthe parts program with TMOF.Machine manufacturerSee machine manufacturer's specificationsProgrammingTMON (T no.)OrTMOF (T no.) PreviousNext |