PROGRAMMER S MANUAL CNC Lathes Equipped with the GE Fanuc 18T Control

Transcription

1 PROGRAMMER S MANUAL TP1421 CNC Lathes Equipped with the GE Fanuc 18T Control Revised: September 28, 1999 Manual No. M-320A Litho in U.S.A. Part No. M A April, 1997

2 - NOTICE - Damage resulting from misuse, negligence, or accident is not covered by the Hardinge Machine Warranty. Information in this manual is subject to change without notice. This manual covers the programming of Hardinge CONQUEST T42 series lathes equipped with the GE Fanuc 18T control and absolute encoders. In no event will Hardinge Inc. be responsible for indirect or consequential damage resulting from the use or application of the information in this manual. Reproduction of this manual, in whole or in part, without written permission of Hardinge Inc. is prohibited. CONVENTIONS USED IN THIS MANUAL - WARNINGS - Warnings must be followed carefully to avoid the possibility of personal injury or damage to the machine, tooling, or workpiece. - CAUTIONS - Cautions must be followed carefully to avoid the possibility of damage to the machine, tooling, or workpiece. - NOTES - Notes contain supplemental information. Hardinge Inc. One Hardinge Drive P.O. Box 1507 Elmira, New York Telephone: (607) FAX: (607) , Hardinge Inc. M-320A

3 READ COMPLETE INSTRUCTIONS CAREFULLY BEFORE OPERATING MACHINE When this instruction book was printed, the information given was current. However, since we are constantly improving the design of our machine tools, it is possible that the illustrations and descriptions may vary from the machine you received. - WARNING - Occupational Safety and Health Administration (OSHA) Hazard Communication Standard , effective September 23, 1987, and various state employee right-to-know laws require that information regarding chemicals used with this equipment be supplied to you. A complete list of the chemicals used with this machine, their reference data sheet numbers, and their suppliers appears as an insertion at the end of this manual. Refer to the applicable section of the Material Safety Data Sheets supplied with your machine when handling, storing, or disposing of chemicals. Machine should only be used with a bar feed approved by Hardinge Inc. HARDINGE SAFETY RECOMMENDATIONS Your Hardinge machine is designed and built for maximum ease and safety of operation. However, some previously accepted shop practices may not reflect current safety regulations and procedures, and should be re-examined to insure compliance with the current safety and health standards. Hardinge Inc. recommends that all shop supervisors, maintenance personnel, and machine tool operators be advised of the importance of safe maintenance, setup, and operation of all equipment. Our recommendations are described below. READ THESE SAFETY RECOM- MENDATIONS BEFORE PROCEEDING ANY FURTHER. READ THE APPROPRIATE MANUAL OR INSTRUCTIONS before attempting operation or maintenance of the machine. Make sure you understand all instructions. CONSULT YOUR SUPERVISOR when in doubt as to the correct way to do a job. DON T OPERATE EQUIPMENT unless proper maintenance has been regularly performed and the equipment is known to be in good working order. DON T REMOVE any warning or instruction tags from machine. DON T OPERATE EQUIPMENT if unusual or excessive heat, noise, smoke, or vibration occurs. Report any excessive or unusual vibration, sounds, smoke, or heat as well as any damaged parts. MAKE SURE equipment is properly grounded. Consult National Electric Code and all local codes. DISCONNECT MAIN ELECTRICAL POWER before attempting repair or maintenance. DON T REACH into any control or power case area unless electrical power if OFF. DON T TOUCH ELECTRICAL EQUIPMENT when hands are wet or when standing on a wet surface. M-320A i

4 ALLOW ONLY AUTHORIZED PERSONNEL to have access to enclosures containing electrical equipment. DON T ALLOW the operation or repair of equipment by untrained personnel. REPLACE BLOWN FUSES with fuses of the same size and type as originally furnished. ASCERTAIN AND CORRECT cause of a shutdown caused by overload heaters before starting machine. WEAR SAFETY GLASSES AND PROPER FOOT PROTECTION at all times. When necessary, wear respirator, helmet, gloves, and ear muffs or plugs. KEEP AREA THE AROUND THE MACHINE well lighted and dry. KEEP CHEMICAL AND FLAMMABLE MATERIAL away from electrical or operating equipment. HAVE THE CORRECT TYPE OF FIRE EXTINGUISHER handy when machining combustible material and keep chips clear of the work area. DON T USE a toxic or flammable substance as a solvent cleaner or coolant. MAKE SURE PROPER GUARDING is in place and all doors are closed and secured. TO REMOVE OR REPLACE the collet closer it is necessary to remove the guard door at left end of the machine. Make certain the guard door is replaced before starting the machine. DON T ALTER THE MACHINE to bypass any interlock, overload, disconnect, or other safety device. DON T OPEN GUARD DOORS while any machine component is in motion. Make certain that all people in the area are clear of the machine when opening the guard door. MAKE SURE chucks, closers, fixture plates, and all other spindle-mounted work-holding devices are properly mounted and secured before starting machine. MAKE CERTAIN all tools are securely clamped in position before starting machine. REMOVE ANY LOOSE PARTS OR TOOLS left on machine or in the work area before operating machine. Always check machine and work area for loose tools and parts especially after work has been done by maintenance personnel. REMOVE CHUCK WRENCHES before starting the machine. BEFORE PRESSING THE CYCLE START PUSH BUTTON, make certain that proper functions are programmed and that all controls are set in the desired modes. KNOW WHERE ALL stop push buttons are located in case of an emergency. ii M-320A

5 CHECK THE LUBRICATION OIL LEVEL and the status of indicator lights before operating the machine. MAKE CERTAIN that all guards are in good condition and are functioning properly before operating the machine. INSPECT ALL SAFETY DEVICES AND GUARDS to make certain that they are in good condition and are functioning properly before the cycle is started. CHECK THE TURRET POSITION before pressing the Cycle Start push button. CHECK SETUP, TOOLING AND SECURITY OF WORKPIECE if the machine has been OFF for any length of time. DRY CYCLE a new setup to check for programming errors. MAKE CERTAIN you are clear of any pinch point created by moving slides before starting the machine. DON T OPERATE any equipment while any part of the body is in the proximity of a potentially hazardous area. DON T REMOVE CHIPS with hands. Use a hook or similar device and make certain that all machine movements have ceased. BE CAREFUL of sharp edges when handling newly machined workpieces. DON T REMOVE OR LOAD workpieces while any part of the machine is in motion. DON T OPERATE ANY MACHINE while wearing rings, watches, jewelry, loose clothing, neckties, or long hair not contained by a net or shop cap. DON T ADJUST tooling or coolant hoses while the machine is running. DON T LEAVE tools, workpieces or other loose items where they can come in contact with a moving component of the machine. DON T CHECK finishes or dimensions of workpiece near running spindle or moving slides. DON T JOG SPINDLE in either direction when checking threads with a thread gage. DON T ATTEMPT to brake or slow the machine with hands or any makeshift device. ANY ATTACHMENT, TOOL, OR MACHINE MODIFICATION not obtained from Hardinge Inc., must be reviewed by a qualified safety engineer before installation. USE CAUTION around exposed mechanisms and tooling especially when setting up. Be careful of sharp edges on tools. DON T USE worn or defective hand tools. Use the proper size and type for job being performed. M-320A iii

6 USE ONLY a soft-faced hammer on turret tools and fixtures. DON T USE worn or broken tooling on machine. MAKE CERTAIN that all tool mounting surfaces are clean before mounting tools. INSPECT ALL CHUCKING DEVICES daily to make sure they are in good operating condition. REPLACE DEFECTIVE CHUCK before starting machine. USE MAXIMUM ALLOWABLE gripping pressure on the chuck. Consider weight, shape and balance of workpiece. USE LIGHTER THAN NORMAL feedrates and depth of cut when machining a workpiece diameter that is larger than the gripping diameter. DON T EXCEED the rated capacity of machine. DON T LEAVE the machine unattended while it is operating. DON T CLEAN the machine with an air hose. DON T OVERFILL tote pans. KEEP TOTE PANS a safe distance from machine. DON T LET STOCK project past the back end of the collet closer or machine spindle without being adequately covered and properly supported. FOLLOW each bar feed manufacturer s guidelines. For performance and safe application, size and use feed tube bushings, pushers, and spindle liners according to bar feed information. MAKE CERTAIN that any bar feed mechanism is properly aligned with spindle. If floormounted type, it must be securely bolted to floor. UNLESS OTHERWISE NOTED, all operating and maintenance procedures are to be performed by one person. To avoid injury to yourself and others, be sure that all personnel are clear of the machine when opening or closing the coolant guard door and any access covers. FOR YOUR PROTECTION - WORK SAFELY iv M-320A

7 - Contents - CHAPTER 1 - PART PROGRAM LANGUAGE Introduction Programming the GE Fanuc 18T Control Legal Programming Characters Special Programming Characters Programming Format Programming Sequence Tape Programming Sequence Keyboard Programming Sequence Program Number X and Z Axes Decimal Point Programming Data Word Descriptions O Word N Word G Word G00 Positioning G01 Linear Interpolation G02 Clockwise Arc G03 Counter-Clockwise Arc G04 Dwell G10 Offset Value Setting G17 Work Plane Selection [Option] G18 Work Plane Selection [Option] G19 Work Plane Selection [Option] G20 Inch Data Input G21 Metric Data Input G22 Stored Stroke Limits ON [Option] G23 Stored Stroke Limits OFF [Option] G32 Threadcutting (Constant Lead) G34 Variable Lead Threadcutting [Option] G40 Cancel Tool Nose Radius Compensation G41 Tool Nose Radius Compensation - Workpiece Right of Tool G42 Tool Nose Radius Compensation - Workpiece Left of Tool G50 Maximum RPM Limit G65 Macro Call G70 Automatic Finishing Cycle G71 Automatic Rough Turning Cycle G72 Automatic Rough Facing Cycle G73 Automatic Rough Pattern Repeat Cycle G74 Automatic Drilling Cycle (Constant Depth Increments) G75 Automatic Grooving Cycle G76 Automatic Threading Cycle G80 Cancel Face Machining Cycle G81 Single Pass Face Drilling Cycle G83 Peck Face Drilling Cycle G84 Face Tapping Cycle M-320A v

8 G90 Canned Turning Cycle G92 Canned Threading Cycle G94 Canned Facing Cycle G96 Constant Surface Speed G97 Direct RPM Programming (Constant Surface Speed Cancel) G98 Inches/Millimeter per Minute Feedrate G99 Inches/Millimeter per Revolution Feedrate G100 End of End-Working Turret Sub-Routine [Option] G101 Beginning of End-Working Turret Sub-Routine #1 [Option] G102 Beginning of End-Working Turret Sub-Routine #2 [Option] G103 Beginning of End-Working Turret Sub-Routine #3 [Option] G107 Cylindrical Interpolation [Option] G112 Polar Interpolation [Option] G113 Cancel Polar Interpolation [Option] X Word U Word Z Word W Word Y Word V Word B Word C Word I Word K Word Circular Interpolation (G02/G03) Variable Lead Threading (G34) [Option] R Word Linear Interpolation (G01) Circular Interpolation (G02/G03) Tool Nose Radius Compensation (G41/G42) Defining Tapers P Word Q Word F Word S Word T Word M Word M00 Program Stop M01 Optional Stop M02 End of Program M03 Main Spindle Forward M04 Main Spindle Reverse M05 Main Spindle Stop/Coolant OFF M07 Sub-Spindle Phase Sync with Main Spindle [Option] M08 Coolant ON M09 Coolant OFF M10 High Pressure Coolant ON [Option] M11 High Pressure Coolant OFF [Option] M13 Main Spindle Forward/Coolant ON M14 Main Spindle Reverse/Coolant ON vi M-320A

9 M17 Headwall Coolant ON M18 Headwall Coolant OFF M21 Open Collet M22 Close Collet M23 Activate Contouring Mode [Option] M24 Cancel Contouring Mode [Option] M25 Part Catcher Retract [Option] Machines without End-Working Turret Machines with End-Working Turret M26 Part Catcher Extend [Option] Machines without End-Working Turret Machines with End-Working Turret M28 External Chucking Mode M29 Internal Chucking Mode M30 End of Program M31 Program Rewind and Restart M32 Sub-Spindle Sync with Main Spindle [Option] M33 Sub-Spindle Forward [Option] M34 Sub-Spindle Reverse [Option] M35 Sub-Spindle Stop [Option] M36 Main Spindle Air Blast ON [Option] M37 Main Spindle Air Blast OFF [Option] M38 Automatic Guard Door Open [Option] M39 Automatic Guard Door Close [Option] M42 No Corner Rounding - Exact Stop M43 Corner Rounding M44 Enable Main Turret Bi-Directional Index M45 Disable Main Turret Bi-Directional Index M46 Sub-Spindle Wiper Air ON [Option] M47 Sub-Spindle Wiper Air OFF [Option] M48 Enable Feedrate and Spindle Override M49 Disable Feedrate and Spindle Override M51 Rotational Direction Command/Coolant OFF [Option] M52 Rotational Direction Command/Coolant OFF [Option] M53 Rotational Direction Command/Coolant ON [Option] M54 Rotational Direction Command/Coolant ON [Option] M55 Stop RPM/Coolant OFF [Option] M56 Sub-Spindle Collet Open [Option] M57 Sub-Spindle Collet Close [Option] M60 Synchronization Code [Option] M66 Sub-Spindle Drive OFF [Option] M67 Sub-Spindle Drive Low Torque [Option] M68 Sub-Spindle Drive Normal Torque [Option] M69 Sub-Spindle External Chucking Mode [Option] M70 Sub-Spindle Internal Chucking Mode [Option] M78 Enable Lower Axis Feedrate Override [Option] M79 Disable Lower Axis Feedrate Override [Option] M81 Execute End-Working Turret Sub-Routine #1 [Option] M82 Execute End-Working Turret Sub-Routine #2 [Option] M83 Execute End-Working Turret Sub-Routine #3 [Option] M84 Tailstock/Sub-Spindle Forward M85 Tailstock/Sub-Spindle Retract M-320A vii

10 M86 Tailstock Home M88 Thermal Compensation M93 Steady Rest Open [Option] M94 Steady Rest Closed [Option] M98 Subprogram Call M99 Subprogram End Diameter Programming Programming Notes General Program Format CHAPTER 2 - TOOL NOSE RADIUS COMPENSATION Introduction Tool Orientation Number Activating Tool Nose Radius Compensation Entering and Exiting the Workpiece with Tool Nose Radius Compensation Active To Switch G41/G42 Code with Tool Nose Radius Compensation Active Axis Reversals with Tool Nose Radius Compensation Active Modes in which Tool Nose Radius Compensation is not Performed Multiple Repetitive Cycles with Tool Nose Radius Compensation Active Canned Turning and Facing Cycles with Tool Nose Radius Compensation Active G90 Canned Turning Cycle G94 Canned Facing Cycle Tool Moved away from the Workpiece with Tool Nose Radius Compensation Active. 2-8 Tool Nose Radius Compensation Related Alarms Alarm Alarm Alarm Alarm Alarm Alarm Alarm Deactivating Tool Nose Radius Compensation Tool Nose Radius Compensation Programming Rules CHAPTER 3 - LINEAR AND CIRCULAR INTERPOLATION Feedrate Absolute and Incremental Programming Interpolation Linear Interpolation Insert Chamfer or Corner Radius Insert Chamfer Insert Corner Radius Alarm Messages for Insert Chamfer/Insert Corner Radius Circular Interpolation G02 Clockwise Arc G03 Counter-Clockwise Arc Sample Part Program Programming Notes for Circular Interpolation viii M-320A Revised: September 28, 1999

11 CHAPTER 4 - WORK SHIFT AND TOOL OFFSETS Work Shift (Zero Offset) Storing a Work Shift Offset from the Part Program Tooling (Main Turret) Square Shank Tools Qualified Tool Holders Tool Offsets Entering Tool Nose Radius Value and Orientation To Store Tool Offsets from the Part Program Activating Tool Offsets CHAPTER 5 - WORK COORDINATE SYSTEM How the Control Positions the Slides X and Z Axes Rectangular Coordinates Coordinate System Reference Positions Axis Reference Position Machine Zero Position Main Turret Reference Location End-Working Turret Reference Location Sub-Spindle Reference Location Position Registers Machine Position Registers Absolute Position Registers CHAPTER 6 - MACHINING CYCLES Canned Turning Cycle (G90) Example 1: G90 Straight Turning Example 2: G90 Taper Turning Automatic Multiple Repetitive Rough and Finish Turning (G71/G70) G71/G70 Standard Turning Example 3: G71/G70 Standard Turning Cycle G71 Standard Turning Programming Rules G71/G70 Pocket Turning [Option] Example 4: G71/G70 Pocket Turning Cycle G71 Pocket Turning Programming Rules Canned Facing Cycle (G94) Example 5: G94 Straight Facing Example 6: G94 Taper Facing Automatic Multiple Repetitive Rough and Finish Facing (G72/G70) G72 Programming Notes Automatic G73/G70 Rough and Finish Pattern Repeat G73 Programming Notes Automatic Finishing Cycle (G70) G70 Programming Notes Automatic Drilling Cycles Constant Depth Increment Auto Drilling Cycle (G74) Block Format Q Word Programming G74 Auto Drilling Sample Program M-320A ix

12 Variable Depth Increment Auto Drilling Cycle Block Format Positioning the Drill Calculating the Drill Pass Increments Example Optional Z Word Example G75 Auto Grooving Cycle Block Format P and Q Word Programming Tool Movement Sequence G75 Auto Grooving Sample Program CHAPTER 7 - THREADING CYCLE Introduction Single Block Threadcutting To Establish A Start Point For Threading G32 Programming Example 1: G32 Straight Threads Example 2: G32 Tapered Threads G92 Programming Example 3: G92 Straight Threads Example 4: G92 Tapered Threads Plunge Infeed Threading Compound Infeed Threading Automatic Multiple Repetitive Threading Cycle (G76) Block Format Example 5: G76 Straight Threads Example 6: G76 Tapered Threads G76 Parameters P Word (First G76 Block) Q Word (First G76 Block) R Word (First G76 Block) G76 Execution Line P Word (Second G76 Block) Q Word (Second G76 Block) F Word (Second G76 Block) X Word (Second G76 Block) Z Word (Second G76 Block) R Word (Second G76 Block) G76 Programming Notes Variable Lead Threadcutting [Option] Tapping Example Sample Program Segment Left-Hand Threads x M-320A

13 CHAPTER 8 - BLUEPRINT PROGRAMMING Blueprint Programming Description Angle Definition Blueprint Programming Examples Example 1: Two Points Example 2: Three Points Example 3: Three Points with a Radius Method # Method # Example 4: Three Points with a Chamfer Method # Method # Example 5: Four Points with Two Radii Method # Method # Example 6: Four Points with Two Chamfers Method # Method # Example 7: Four Points with One Radius and Chamfer Method # Method # Example 8: Four Points with One Chamfer and Radius Method # Method # Blueprint Programming Sample Program Blueprint Programming Notes CHAPTER 9 - MISCELLANEOUS Constant Surface Speed Subprograms Manual Data Input Keyboard Entry Tape or Floppy Disk Entry Subprogram Call Safe Start Subprograms Inch Mode Hardinge Permanent Macro Programs Macro 9112: Safe Tool Offset Macro 9136: Deep Hole Drilling Tailstock Programming Tailstock Traverse Rates Tailstock Positioning M84 - Tailstock Forward M85 - Tailstock Retract M86 - Tailstock Home Tailstock Programming Recommendations English/Metric Mode Establishing English/Metric Mode M-320A xi

14 CHAPTER 10 - TOOL LIFE MANAGEMENT [Option] General Information Introduction Tool Life Measurement Units Number of Parts Amount of Machining Time Tool Life Management Program Bar Feed Operation Operation Determining Maximum Groups and Group Sizes To Verify Maximum Groups and Group Sizes To Set Maximum Groups and Group Sizes Determining the Measurement Unit To Verify the Measurement Unit To Switch the Measurement Unit Resetting a Tool Group Counter Programming Tool Life Management Program Program Format Data Word Definitions P Word - Tool Group Number L Word - Tool Life Value Data Word T Word - Turret Station and Offset Number Sample Tool Life Management Program Data Block Definitions Part Program Tool Commands Sample Part Program Structure using Tool Life Management Combining Tool Commands Sample Part Program Structure using Combined Tool Commands Programming Notes CHAPTER 11 - LIVE TOOLING [Option] Live Tooling M Codes M51 Rotational Direction Command/Coolant OFF M52 Rotational Direction Command/Coolant OFF M53 Rotational Direction Command/Coolant ON M54 Rotational Direction Command/Coolant ON M55 Stop RPM/Coolant OFF Determining Rotational Direction B Word - Spindle Orient Command Determining Spindle Orientation Direction of Orientation Programming Spindle Orient Live Tooling Programming Format Deactivating Live Tooling Live Tooling Programming Notes Sample Live Tooling Program xii M-320A

15 CHAPTER 12 - C AXIS PROGRAMMING [Option] Introduction Data Word Descriptions C Axis Spindle Orient Live Tooling Program Format with C Axis Sample Live Tooling Program with C Axis Live Tooling Codes Program Polar Coordinate Interpolation Coordinate System Polar Coordinate Interpolation Guidelines Program Format for Polar Coordinate Interpolation Tool Nose Radius Compensation and Circular Interpolation used with G112 Polar Coordinate Interpolation Program Examples Example 2 - Polar Coordinate Interpolation - Square Example 3 - Polar Coordinate Interpolation - Hexagon Example 4 - Polar Coordinate Interpolation - Triangle Example 5 - Polar Coordinate Interpolation - Tongue Example 6 - Polar Interpolation - Radius Diamond Cylindrical Interpolation Live Tooling Codes used for Cylindrical Interpolation Program Format for Cylindrical Interpolation Cylindrical Interpolation Guidelines Tool Nose Radius Compensation and Circular Interpolation used with G107 Cylindrical Interpolation C Axis Alarms CHAPTER 13 - END-WORKING TURRET [Option] Introduction Tooling Tooling Types Tooling Range Programming Program Structure Valid Programming Data Words F Word G Word (Preparatory Codes) M Word (Miscellaneous Codes) T Word Index on the Fly Y Word Programmable Work Coordinate Systems Programming Format Activating a Work Coordinate System Sub-Routines Executing a Sub-Routine G110 One-Shot Command Synchronization Code M-320A xiii

16 End-Working Turret Part Catcher M25 (Part Catcher Retract) M26 (Part Catcher Extend) Single Block Mode Machining Cycles G80 Cycle Cancel G81 Single Pass Drilling Cycle Command Line Format Machining Sequence Sample Program Segment G83 Peck Drilling Cycle Command Line Format Machining Sequence Sample Program Segment G84 Tapping Cycle Command Line Format Machining Sequence Sample Program Segment Alarm Messages PMC Alarms CNC Alarms CHAPTER 14 - THERMAL GROWTH COMPENSATION Introduction Programming the Compensation Feature Command Structure Examples Operator Information Part Program Interruption Limit Values Alarm Message Enabling Machine Operation CHAPTER 16 - SUB-SPINDLE [Option] (Hydraulic Axis Drive) Introduction Travel Specifications Sub-Spindle G Codes Circular Interpolation (G02/G03) Tool Nose Radius Compensation (G41/G42) Sub-Spindle M Codes M07 Sub-Spindle Phase Sync with Main Spindle M32 Sub-Spindle Sync with Main Spindle M33 Sub-Spindle Forward Rotation (No Coolant) M34 Sub-Spindle Reverse Rotation (No Coolant) M35 Sub-Spindle Stop M46 Sub-Spindle Wiper Air ON M47 Sub-Spindle Wiper Air OFF M56 Sub-Spindle Open M57 Sub-Spindle Close M69 External Chucking Mode M70 Internal Chucking Mode xiv M-320A

17 M84 Sub-Spindle Forward M85 Sub-Spindle Home Sub-Spindle Work Shift Offset Programming Axis Motion U/X Axis Motion W/Z Axis Motion Tool Offsets Tool Geometry Offsets Tool Wear Offsets X Axis Tool Wear Offsets Z Axis Tool Wear Offsets Sub-Spindle Safe Start and Safe End Subprograms Inch Mode Subprogram Descriptions Metric Mode Sub-Spindle Programming Formats Running the Sub-Spindle Alone Sub-Spindle Sync with the Main Spindle Workpiece Transfer Macro Program O Block Format Transferring from Main Spindle to Sub-spindle Bar Job Transfer from Main Spindle to Sub-Spindle (Using Standard Programming) Bar Job Transfer from Main Spindle to Sub-Spindle (Using Macro Program O9170) Slug Job Transfer from Main Spindle to Sub-Spindle (Using Standard Programming) Slug Job Transfer from Main Spindle to Sub-Spindle (Using Macro Program O9170) Transferring from Sub-Spindle to Main Spindle Slug Job Transfer from Sub-Spindle to Main Spindle (Using Standard Programming) Slug Job Transfer from Sub-Spindle to Main Spindle (Using Macro Program O9170) Sub-Spindle Sample Program Basic Sequence of Operations Sample Program Sub-Spindle Safety Interlocks Sub-Spindle Programming Rules CHAPTER 16 - SUB-SPINDLE [Option] (Ball Screw Axis Drive) Introduction Programming Axis Motion X/U Axis Motion Y/V Axis Motion Y Axis Position Verification Z/W Axis Motion Feedrate Travel Specifications Sub-Spindle G Codes M-320A xv

18 Circular Interpolation (G02/G03) Tool Nose Radius Compensation (G41/G42) Sub-Spindle M Codes M07 Sub-Spindle Phase Sync with Main Spindle M32 Sub-Spindle Sync with Main Spindle M33 Sub-Spindle Forward Rotation (No Coolant) M34 Sub-Spindle Reverse Rotation (No Coolant) M35 Sub-Spindle Stop M46 Sub-Spindle Wiper Air ON M47 Sub-Spindle Wiper Air OFF M56 Sub-Spindle Open M57 Sub-Spindle Close M66 Sub-Spindle Drive OFF M67 Sub-Spindle Drive Low Torque Mode M68 Sub-Spindle Drive Normal Torque Mode M69 External Chucking Mode M70 Internal Chucking Mode Part Catcher Operation Sub-Spindle Work Shift Offset Tool Offsets Tool Geometry Offsets Tool Wear Offsets X Axis Tool Wear Offsets Z Axis Tool Wear Offsets Sub-Spindle Safe Start and Safe End Subprograms Inch Mode Subprogram Descriptions Metric Mode Sub-Spindle Programming Formats Running the Sub-Spindle Alone Sub-Spindle Sync with the Main Spindle Workpiece Transfer Transferring From Main Spindle To Sub-spindle Bar Job Transfer from Main Spindle to Sub-Spindle Collet Stock Stop Not Installed in Sub-Spindle Collet Collet Stock Stop Installed in Sub-Spindle Collet Slug Job Transfer from Main Spindle to Sub-Spindle Transferring from Sub-Spindle to Main Spindle Slug Job Transfer from Sub-Spindle to Main Spindle Sub-Spindle Sample Program Basic Sequence of Operations Sample Program Sub-Spindle Programming Rules xvi M-320A

19 APPENDIX ONE Turret Travel Specifications CONQUEST T42 and T42SP Super-Precision Machines A1-1 CONQUEST T42-L Machines A1-2 Turret Top Plate Dimensions 12 Station Top Plate (3/4" Tooling) A Station Top Plate (20mm Tooling) A Station Top Plate (3/4" Tooling) A Station Top Plate (20mm Tooling) A1-6 Tailstock Travel Specifications CONQUEST T42 and T42SP Super-Precision Machines A1-7 CONQUEST T42-L Machines A1-7 Sub-Spindle Travel Specifications Hydraulic Axis Drive A1-8 Ball Screw Axis Drive (1.60 Offset) A1-9 Ball Screw Axis Drive (0.46 Offset) A1-10 End-Working Turret Travel Specifications A1-11 Work Envelope with 16C Collet A1-12 with 16C Master Step Chuck and Extra-Depth Step Chuck A1-13 with 16C HQC -42 Quick Change Collet A1-14 with 16C Thru-Hole Jaw Chuck A1-15 with 20C Collet A1-16 with 20C Master Step Chuck and Extra-Depth Step Chuck A1-17 with 20C HQC-42 Quick Change Collet A1-18 with 20C Thru-Hole Jaw Chuck A1-19 Spindle Torque / Horsepower Curves Main Spindle - 10HP Standard Torque A1-20 Main Spindle - 10HP High Torque A1-20 Main Spindle - 15HP High Torque A1-21 Main Spindle - 15HP High Speed A1-21 Sub-Spindle - 5HP Standard Torque A1-22 APPENDIX TWO G Codes A2-1 Standard M Codes A2-2 Optional M Codes A2-3 PMC Generated Alarms A2-5 PMC Generated Messages A2-9 M-320A xvii

20 - NOTES - xviii M-320A

21 CHAPTER 1 - PART PROGRAM LANGUAGE INTRODUCTION A part program is an ordered set of instructions which define slide and spindle motion as well as auxiliary functions. These instructions are written in a part program language consisting of a series of data blocks. Each data block contains adequate information for the machine tool to perform one or more machine functions. A data block consists of one or more data words, which are treated together as a unit. Each data word consists of a word address followed by a numerical value. A word address is a letter which specifies the meaning of the data word. The value of the number that follows the word address has a format which specifies the number of characters the word contains as well as the range these values must fall within. These formats are outlined in each of the data word descriptions and are also listed in the tables on pages 1-2 and 1-3. PROGRAMMING THE GE FANUC 18T CONTROL Programming Hardinge CONQUEST T42 series lathes equipped with the GE Fanuc 18T control requires an understanding of the machine, tooling, and control. Extreme care must be exercised when writing a part program or punching a tape since all machine movements will be executed as programmed. A miscalculation or selection of an incorrect function can result in an incorrect motion. The basic unit for part program input is the Block. Normally, one line or block of information represents one describable operation or several describable operations that are independent of each other. (For example, axis movement and spindle speed changes are independent operations which may be programmed in the same block.) A block may contain any or all of the following: 1. Slash code (/) 2. Sequence number (N Function) 3. Preparatory Functions (G Functions) 4. Axis Movement Instructions (X or U, Y or V, and Z or W Functions) 5. Feedrate Command (F Function) 6. Spindle Speed Command (S Function) 7. Turret Station (T Function) 8. Miscellaneous Functions (M Functions) A block MUST contain a valid End of Block character. M-320A 1-1

22 FUNCTION (Word) PREPARATORY COMMANDS INCH MODE (G20) METRIC MODE (G21) Format Min. Max. Format Min. Max. O (Prog. #) N (Block #) G (Command) M (Command) P (Block #) P (Dwell) Q (Block #) O4 N4 G3 M2 P4 P8 Q O4 N4 G3 M2 P4 P8 Q U (Coordinate) U (Dwell) V (Coordinate) 9 W (Coordinate) X (Coordinate) 7 X (Coordinate) 8 X (Dwell) Y (Coordinate) 1 Y (Coordinate) 9 Y (Coordinate) 10 Z (Coordinate) 11 Z (Coordinate) 12 G00, G01, G02, G03 G04 G00, G01 G00, G01, G02, G03 G00, G01, G02, G03 G00, G01, G02, G03 G04 G00, G01 G00, G01 G00, G01 G00, G01, G02, G03 G00, G01, G02, G03 U±2.4 U5.3 V±2.4 W±2.4 X±2.4 X±2.4 X5.3 Y±2.4 Y±2.4 Y±2.4 Z±2.4 Z± U±3.3 U5.3 V±3.3 W±3.3 X±3.3 X±3.3 X5.3 Y±3.3 Y±3.3 Y±3.3 Z±3.3 Z± X (Tool Offset) X (Wear Offset) X (Zero Offset) Y (Tool Offset) Y (Wear Offset) Z (Tool Offset) Z (Wear Offset) Z (Zero Offset) G10 G10 G10 G10 G10 G10 G10 G10 X±2.4 X±0.4 X±2.4 Y±2.4 Y±0.4 Z±2.4 Z±0.4 Z± X±3.3 X±2.3 X±3.3 Y±3.3 Y±2.3 Z±3.3 Z±2.3 Z± I (Circ. Inter.) K (Circ. Inter.) K (Lead Change) G02, G03 G02, G03 G34 I±3.4 K±3.4 K± I±4.3 K±4.3 K± F (per min) [X/U] 11 F (per min) [X/U] 12 F (per min) [Z/W] 11 F (per min) [Z/W] 12 F (per min) [Y/V] F (per rev) F (Thread Lead) G98 G98 G98 G98 G98 G99 G32, G33, G34 F3.2 F3.2 F3.2 F3.2 F3.2 F1.6 F F5.0 F5.0 F5.0 F5.0 F5.0 F3.4 F S (Spindle rpm) 2 S (Spindle rpm) 3 S (Spindle rpm) 4 S (Spindle rpm) 5 S (Live Tooling) 6 S (Surface Speed) G50, G97 G50, G97 G50, G97 G50, G97 G97 G96 S4 S4 S4 S4 S4 S S4 S4 S4 S4 S4 S B (Spin. Orient) C(CAxis) - - B3 C± B3 C± T (Tool Function) - T T A (Angle),C (Chamfer) R (Radius),R (Radius) G00, G01 G01 G02, G03 G01 A3.4,C2.4 R2.4,R A3.4,C3.3 R3.3,R Table Data Word Formats and Min/Max Increments (CONQUEST T42 and T42-L CNC Lathes) Reference: 1 - Lathes equipped with optional end-working turret. 2 - Lathes equipped with the standard spindle drive. 3 - Lathes equipped with the 10HP [7.5 KW] Hi-Torque spindle option. 4 - Lathes equipped with the 15HP [11 KW] Hi-Torque spindle option or Big Bore 20C spindle option. 5 - Lathes equipped with the Hi-Speed spindle option. 6 - Lathes equipped with the Live Tooling option. 1-2 M-320A