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·T· Model (Soft V16.3x) CNC 8035
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INDEX About the product ...........
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CHAPTER 10 PROBING 9.4 G81. Turning
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Basic characteristics. ABOUT THE PR
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VERSION HISTORY (T) (lathe model) H
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Software V12.01 August 2005 List of
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Software V16.31 January 2009 List o
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SAFETY CONDITIONS Read the followin
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Protections of the unit itself Cen
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Initial warranty WARRANTY TERMS All
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MATERIAL RETURNING TERMS When sendi
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ADDITIONAL REMARKS Mount the CNC aw
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FAGOR DOCUMENTATION OEM manual It i
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GENERAL CONCEPTS 1 The CNC can be p
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Operations that may be carried out
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1.3 Communication protocol via DNC
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CREATING A PROGRAM 2 A CNC program
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2.1.1 Block header The block header
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2.1.3 End of block The end of block
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AXES AND COORDINATE SYSTEMS 3 Given
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3.2 Plane selection (G16, G17, G18,
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3.4 Absolute/incremental programmin
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3.6 Coordinate programming The CNC
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3.6.2 Polar coordinates In the even
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3.6.3 Angle and one Cartesian coord
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3.8 Work zones The CNC provides fou
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3.8.2 Using the work zones Within e
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REFERENCE SYSTEMS 4.1 Reference poi
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4.3 Programming with respect to mac
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- Page 65 and 66: Using absolute zero offsets: G54 ;
- Page 67 and 68: ISO CODE PROGRAMMING A block progra
- Page 69 and 70: Function M D V Meaning Section G76
- Page 71 and 72: 5.2.1 Feedrate in mm/min or inches/
- Page 73 and 74: 5.3 Spindle speed (S) The turning s
- Page 75 and 76: 5.3.2 Spindle speed in rpm (G97) Wh
- Page 77 and 78: Tool length and radius compensation
- Page 79 and 80: 5.5.1 M00. Program stop When the CN
- Page 81 and 82: 5.5.3 M02. End of program This code
- Page 83 and 84: 5.5.5 M03 Clockwise spindle rotatio
- Page 85 and 86: 5.5.7 M05. Spindle stop We recommen
- Page 87 and 88: 5.5.9 M19. Spindle orientation With
- Page 89 and 90: PATH CONTROL 6 The CNC allows you t
- Page 91 and 92: 6.2 Linear interpolation (G01) The
- Page 93 and 94: Cartesian coordinates The coordinat
- Page 95 and 96: If the general machine parameter "P
- Page 97 and 98: 6.5 Arc tangent to previous path (G
- Page 99 and 100: 6.7 Tangential entry at the beginni
- Page 101 and 102: 6.8 Tangential exit at the end of a
- Page 103 and 104: 6.10 Chamfer (G39) In machining ope
- Page 105 and 106: Programming examples In the followi
- Page 107 and 108: 6.12 Withdrawal of axes when interr
- Page 109 and 110: 6.13 Variable pitch threads (G34) T
- Page 111 and 112: 6.15 Feedrate "F" as an inverted fu
- Page 113: ADDITIONAL PREPARATORY FUNCTIONS 7.
- Page 117 and 118: 7.3 Working with square (G07) and r
- Page 119 and 120: 7.3.3 Controlled round corner (G50)
- Page 121 and 122: If any of the circumstances listed
- Page 123 and 124: 7.4.2 Look-ahead operation with Fag
- Page 125 and 126: 7.5 Mirror image (G10, G11. G12, G1
- Page 127 and 128: 7.6.1 Scaling factor applied to all
- Page 129 and 130: If a scaling factor equal to 360/2R
- Page 131 and 132: TOOL COMPENSATION 8.1 Tool length c
- Page 133 and 134: 8.2.1 The location code of the tool
- Page 135 and 136: Programming manual TOOL COMPENSATIO
- Page 137 and 138: Facing straight walls. When facing
- Page 139 and 140: 8.2.4 Beginning of tool radius comp
- Page 141 and 142: STRAIGHT-CURVED path Programming m
- Page 143 and 144: 8.2.6 Cancellation of tool radius c
- Page 145 and 146: CURVED-STRAIGHT path Programming m
- Page 147 and 148: 8.2.7 Temporary cancellation of too
- Page 149 and 150: 8.2.8 Change of type of tool radius
- Page 151 and 152: 8.3 Collision detection (G41 N, G42
- Page 153 and 154: CANNED CYCLES This CNC offers the f
- Page 155 and 156: A1 It defines the main machining ax
- Page 157 and 158: 9.1.1 Basic operation Each pass is
- Page 159 and 160: 9.1.2 Profile programming syntax Wh
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- Page 163 and 164: 9.2.1 Basic operation The machining
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Last finishing pass If a finishing
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9.3 G69. Z axis roughing canned cyc
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S4 Defines the label number of the
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9.3.1 Basic operation The machining
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Last finishing pass If a finishing
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9.4 G81. Turning canned cycle for s
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9.4.1 Basic operation The canned cy
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9.5 G82. Facing canned cycle for st
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9.5.1 Basic operation The canned cy
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9.6 G83. Axial drilling and tapping
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9.6.1 Basic operation Drilling 1. R
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D 5.5 It sets the safety distance t
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9.7.1 Basic operation The canned cy
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9.8 G85. Facing canned cycle for cu
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K±5.5 Defines the distance from th
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Considerations The machining condit
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B±5.5 Defines the depth of the thr
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W±5.5 Optional. Its meaning depend
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9.10 G87. Face threading canned cyc
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L±5.5 Defines the finishing pass C
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M±5.5 It defines the thread pitch
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9.11 G88. X axis grooving canned cy
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9.12 G89. Z axis grooving canned cy
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PROBING 10 The CNC has two probe in
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HIGH-LEVEL LANGUAGE PROGRAMMING 11.
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11.2 Variables The CNC has a number
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11.2.1 General purpose parameters o
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11.2.2 Variables associated with to
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CUTAn TLFDn TLFFn TLFNn TLFRn TMZTn
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ORG(X-C)n PLCOF(X-C) Read-and-write
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11.2.5 Variables associated with wo
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11.2.6 Variables associated with fe
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11.2.7 Variables associated with co
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11.2.8 Variables associated with el
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11.2.9 Variables associated with fe
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SSO DNCSSO PLCSSO CNCSSO SLIMIT DNC
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11.2.11 PLC related variables PLCMS
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11.2.12 Variables associated with l
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71 = CNC status. 80 = PLC file edit
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MIRROR SCALE SCALE(X-C) PRBST CLOCK
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KEYSRC ANAOn SELPRO DIAM PRBMOD Thi
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11.4 Operators An operator is a sym
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11.5 Expressions An expression is a
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11.5.2 Relational expressions These
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PROGRAM CONTROL INSTRUCTIONS 12 The
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12.2 Display instructions (ERROR in
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12.4 Flow control instructions The
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12.5 Subroutine instructions A subr
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(PCALL (expression), (assignment in
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12.6 Interruption-subroutine instru
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(OPEN P(expression), (destination d
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12.8 Screen customizing instruction
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When using the binary format, the d
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Sets the softkeys to access the var
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ANGULAR TRANSFORMATION OF AN INCLIN
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13.1 Turning angular transformation
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APPENDIX A. ISO code programming...
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Programming manual A. APPENDIX ISO
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Programming manual B. APPENDIX Prog
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Programming manual C. APPENDIX Summ
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Programming manual C. APPENDIX Summ
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Programming manual D. APPENDIX Key
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Programming manual E. APPENDIX CNC
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Programming manual E. CNC 8035 ·T