About the Manual
This manual provides installation and maintenance guidelines for the MAXMILL
that performs drilling, boring, reaming, pocketing, roughing, chamfering, tapping of
circular and rectangular work pieces, using CNC programming and operating software.
The MAXMILL is specifically designed according to industrial standards. It is
capable of cutting resistant materials and is totally enclosed by high visibility guard.
If you have any doubts and/or questions regarding the specifications and features of the
machine, please contact Service personnel at MTAB
Copyright©
No part of this publication may be reproduced in any form, without the prior
permission of MTAB. MTAB holds the right to modify or change any part of the
document without any notification. The authorized user of this manual shall acquire
no rights in respect of trademarks or other intellectual property rights referred to
herein which are and shall remain the property of the owner thereof.
MTAB ENGINEERS (P) LTD.
# 17/1, Thanikachalam Road,
T.Nagar, Chennai – 600017, India.
Tel: 24345867/24340738/24348590
Fax: 91-44-24344826/24337655
E-mail: [email protected]
Website:www.mtabindia.com
MECHANICAL MANUAL
Table of Contents
1. Safety Precaution…………………………………………………………….1
2. Introduction………………………………………………………………….2
3. Machine Specification………………………………………………………. 4
4. Machine Installation…………………………………………………………8
Lifting up a machine………………………………………………………8
Unpacking the Machine…………………………………………………...8
Electrical wire Connection………………………………………………..9
5. Machine Construction………………………………………………………10
Machine Body…………………………………………………………….10
Coolant System........………………………………………………………12
Full Machine Layout …..............…………………………………………13
Ball Screw Assembly…...............………………………………………...15
Saddle Assembly…...............……………………………………………..19
Base Assembly…...............……………………………………………….22
Column Assembly…...............……………………………………………24
Tool-Magazine and ATC…………………………………………………26
6. Lubrication…………………………………………………………………..33
Base………………………………………………………………………34
Column……………………………………………………………………35
Saddle…………………………………………………………………….36
7. Coordinate System…………………………………………………………..37
Machine Zero Point (M)…………………………………………………. 39
Work piece Zero Point (W) ……………………………………………....40
Tool Reference Point.……………………………………………………. 41
Machine working Coordination…………………………………………...43
8. Maintenance of MAXMILL ………………………………………………...44
Safety Precautions
1. Safety Precautions
� There are high voltage terminals on the electrical control panel, motors and
other equipments. DO NOT touch any of them under any circumstances.
� Never touch a rotating part under any circumstances.
� Take care not to touch any of the switches accidentally while the machine is in
operation.
� Always switch off the isolator and the main circuit breaker before leaving
the machine.
� Switch off the main power breaker immediately during a power failure.
� Do not subject the CNC unit, operation panel or electrical control panel to
strong vibrations or shocks.
� Do not open any door or safety cover while the machine is in operation.
� When loading workpiece blank or unloading the finished product from the
machine, make sure that the spindle is not rotating and the tools are far away
from the work area.
� Ensure that the workpiece / tool are secured firmly in the holding device.
� Always stop the machine to clear the chips on the workpiece. Never wipe the
workpiece with a bare hand, use a brush.
� Always switch off the main power breaker before carrying out any
maintenance work. Do not start the machine until all the covers removed for
maintenance have been refitted.
� Always provide sufficient working place and clear access to the machine.
� Remove water and oil spills from the floor around the machine and dry the
floor to prevent accidents.
� Never wear loose or baggy clothes.
� Always use safety shoes whenever you are around the machine and during
machine operations.
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Introduction
2. Introduction
MAXMILL is a numerically controlled machine tool used for machining
parts in every industrial field, featuring high speed, high accuracy, and high
productivity.
MAXMILL performs drilling, parting, boring, roughing, chamfering,
tapping of circular and rectangular work pieces, using CNC programming and
operating software.
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Standard Equipments:
� MAXMILL 3 axis CNC milling machine with Fanuc Oi Mate MC Controller.
� Machine Operator Panel.
� Central Automatic Lubrication system.
� Flood Coolant system.
Optional Equipments:
� ATC (Automatic Tool Changer).
� Pneumatic Vice.
� Panel Cooler.
� Auto Door.
� Servo Stabilizer.
Maintenance Tools:
� Allen Key (1.5, 2, 2.5, 3, 4, 5, 6, 8 mm) 1 Set
� Screwdriver 1 Set
� Double Ended Spanner
� 10 x 11 mm 1 No.
� 12 x 13 mm 1 No.
� 16 x 17 mm 1 No.
� Oilcan with oil 1 No.
� Grease gun 1 No.
� 63 mm Brush 1 No.
� Control Box key 1 Set
� Fanuc Fuse 1 Set
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Machine Specifications
3. Machine Specifications
Machine Dimensions
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Machine specifications
X Axis travel (Longitudinal Travel) 300 mm
Y Axis travel (Cross Travel) 250 mm
Z Axis travel (Vertical Travel) 250 mm
Table Dimension
Clamping surface 500 x 350 mm
T-Slots (No. x Size ) 3 x14 mm
Accuracy
Repeatability ± 0.005 mm
Positional Accuracy 0.010 mm
Coolant
Coolant Motor RKM 02505 (Rajamane)
Motor Power 0. 37 kW
Tank Capacity 110 ltr ( Filter & Tray)
X– Axis drive data
Table size 500 x 350 mm
Weight of the table 35 kg
Load on Table 200 kg
Rapid Feed 10 m /min
Stroke 300 mm
T Slots 14– 3 Nos
Ball Screw R20-5B2-FDW (Hiwin)
Bearings BSB 017047 DUMP3 (RHP)
Servo Motor FANUC � 4/4000i s
L M Guide HGH 20 HA (Hiwin)
Coupling SFC- SA -050 -14H7-15H7
(Mikipulley)
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Y – Axis drive data
Saddle size 468 x 350 mm
Weight of the Saddle 50 kg
Load on Saddle 300 kg
Rapid Feed 10 m / min
Stroke 250 mm
Ball Screw R20-5B2-FDW (Hiwin)
Bearings BSB 025062 DUMP3 (RHP)
Servo Motor FANUC � 4/4000i s
L M Guide HGH 20 HA (Hiwin)
Coupling SFC- SA -050 -14H7-15H7 (Mikipulley)
Z – Axis drive data
Column size 400 x 363 x 850 mm
Rapid Feed 10 m / min
Stroke 250 mm
Ball Screw R25-5B2-FDW (Hiwin)
Bearings BSB 020047 (RHP)
Servo Motor FANUC � 4/4000i s
L M Guide HGH 25 HA (Hiwin)
Coupling SFC- SA -050 -14H7-15H7 (Mikipulley)
Electrical Specification
Power ratings 415V, 3�, 15kVA
Axes motor Fanuc Servo Motor � 4i Series
Spindle motor Fanuc Spindle Motor � 3i Series
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Spindle motor
Model FANUC � 3/10000i
Cont. rated 3.7 kW Rated Output
15min rated
60min rated
5. 5 kW
3.7 kW
Cont. rated 2000 rpm Base speed
15min rated
60 min rated
Cont. rated
15min rated
Power
const.
Range 60min rated
1500 rpm
4500 rpm
2000 rpm
Speed
Max. Speed 10000 rpm
ATC make MACO
Tool Type BT 30
Control System
3 Axis continuous path system Fanuc Oi Mate MC
Lubrication
Automatic centralized lubrication for
slides and ball screws
DMCLS – 2800 DX (Dropco)
Axis Drive
Motor model FANUC � 4/4000i s
Rated Output 0.75 kW
Stalling Torque 3.5 Nm
X, Y & Z
Axis
Max. Speed 4000 rpm
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Machine Installation
4. Machine Installation
The installation procedures should be followed precisely to ensure that the MAXMILL is installed
securely. Qualified personnel should carry out all the installation work.
Lifting up a machine:
Use a Fork-lift to lift the machine. Machine should be lifted by a fork-lift from the base of the machine.
Unpacking the MAXMILL:
� Once the machine has been sited to connect electrically, protective coatings must be removed
to prepare the machine for running.
� The protective coating applied to the slideways and bright surfaces can be removed using a
kerosene-based solvent. The coating must be removed from the slideways before any attempt
is made to move it.
� Once the protective coat is removed, all untreated surfaces should be coated with a light
smear of machine oil.
� The protective plastic sheet on the windows should be removed and the glass and Perspex
should then be cleaned with an anti-static cleaner.
� Optimal working temperature in that location should be between 30°C and 45°C.
Cleaning:
After unpacking remove corrosion preventative which is applied on metallic sections of the machine,
using non-flammable wash oil.
Removal of Axis Lock Plates:
The axis lock plates are used during the transportation of the machine. Be sure to remove them
before operation.
Note:
It is highly recommended to operate the machine in a conditioned atmosphere for better and constant
accuracies. Don’t operate the machine before cleaning.
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Electrical wire Connection:
Layout of the Controller
Electrical Connection
Description of Connections
� Unlock and open electrical control box.
� Isolator is found on the control box.
� The machine is usually delivered with the main cable connected with 3 metres of cable to
which a 32A plug should be fitted.
� Connect the power cable from the control box to rear portion of the MAXMILL machine as
shown in the above diagram.
� Connect the RS 232 cable from the control box to the control panel.
� Connect the control box mains supply (415v, 3Ø) to power supply point on the Stabilizer.
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Machine Construction
5. Machine Construction
Description of the MAXMILL
MAXMILL consists of the following parts. This section gives a description of the
basic configuration of the machine.
Basic configuration:
1. Vertical spindle head.
2. X and Y axes: Table traverse.
3. Z axis: Spindle head feed.
4. Shortest path random access mechanism and ATC mechanism allowing quick tool
change.
5. Integrated control unit on the back of the machine minimizing floor space
required for installation.
MAXMILL consists of the following parts:
1. Machine Body
2. CNC System and Electrical Cabinet
3. Coolant System
4. Tool-Magazine
5. Table
6. Splash Guard
1. Machine Body:
The machine body consisting of Base on which the Saddle move in Y-axis over
which a table moves towards X- axis. Headstock moves on the column which is bolted
onto the Base.
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All these movements take place on linear motion guide ways. The table or Saddle
or milling head moves by Linear Motion Guide ways and ground ball screws driven by a
servo motor through a Servo flex coupling.
The main spindle runs on precision angular contact ball bearing which is inserted
into the Headstock. It is rotated by a spindle motor through a direct coupling.
Machine parts:
CONTROL
PANEL
ELECTRICAL
CABINET
GUARD
COOLANT
TANK
Head Stock:
Main parts of Headstock Assembly of a machining center are
1. Spindle
2. Headstock
3. Spindle motor
4. Automatic tool changer
5. Spindle Column
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Spindle:
The rotational accuracy of the spindle has a direct effect on the machining
accuracy. These spindles are generally made hollow with self-releasing 7/24 taper hole at
the front end. The spindles are generally made of case hardening or nitriding steel
hardened to 60 HRC or more.
Headstock:
Headstock is made of Cast Iron Grade 25. Headstock is adequately ribbed
to absorb vibrations. Both Horizontal & Vertical ribs are added to give more strength.
Headstock is mounted to the column by Linear Motion Guides.
Column:
Column is made of Cast Iron Grade 25. Horizontal ribs are added to take
care of torsion and Vertical ribs are added to take care of Bending moments. Automatic
tool changer is fixed on the side of the column. Bearing housing and rear housing are
fixed to the column.
2. Coolant system:
Coolant tank is having a capacity of 110 litres. Chip tray is placed on the
Coolant tank. A sieve is welded to the chip tray which filters the chips. Chips have to be
removed periodically to prevent accumulation of chips. Always check the coolant level
which is visible in the Coolant level indicator.
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Machine Construction
Full Machine Layout:
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Sl. No. Description Quantity
1. BASE 1
2. SADDLE 1
3. WORKTABLE 1
4. COLUMN 1
5. HEADSTOCK 1
6. MOTOR HOUSING 1
7. SPINDLE MOTOR 1
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Ball Screw assembly
X & Y-Axis Assembly
11
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Sl. No. Description Quantity
1. LOCK NUT (MR17 X 1 PITCH) 1
2. COUPLING 1
3. BEARING 2
4. INNER SPACER 1
5. BEARING CAP 1
6. OUTER SPACER 1
7. GAP SPACER 1
8. AXIS MOTOR 1
9. BALL SCREW 1
10. REAR HOUSING 1
11 BEARING HOUSING 1
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Z-Axis Ball Screw assembly:
11
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Sl. No. Description Quantity
1. LOCK NUT (MR20 X 1 PITCH) 1
2. COUPLING 1
3. BEARING 2
4. INNER SPACER 1
5. BEARING CAP 1
6. OUTER SPACER 1
7. GAP SPACER 1
8. AXIS MOTOR 1
9. BALL SCREW 1
10. REAR HOUSING 1
11 BEARING HOUSING 1
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Saddle Assembly:
LM Blocks are mounted to the bottom of the saddle and it is assembled to the
machine base. The bearing housing is fixed to the rear side of the base and the rear
housing is fixed to the other end. In the bearing housing bearings and spacers are
assembled with preload.
The Y-Axis Ball Screw Nut is inserted to the bore of the Saddle. The front end
of the Ball Screw is inserted to the bearing housing and the lock nut is fixed. Servo flex
Coupling is fixed to the Servo motor and assembled to connect the ball screw shaft and
motor shaft.
Alignment is checked while assembling the coupling. Then the motor is fixed to
the bearing housing. Rear end of Ball Screw is inserted to rear housing.
LM Rails are mounted on the Saddle. The bearing housing is fixed to one end of
the saddle and the rear housing is fixed to the other end. In the bearing housing bearings
and spacers are assembled with preload. The worktable is bolted to the LM guides. The
X-Axis Ball Screw Nut is inserted to the bore of the Worktable.
The front end of the Ball Screw is inserted to the bearing housing and lock nut
is fixed. Servo flex Coupling is fixed to the Servo motor and assembled to connect the
ball screw shaft and motor shaft.
Alignment is checked while assembling the coupling. Then the motor is fixed to
the bearing housing. Rear end of Ball Screw is inserted to rear housing.
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Saddle Assembly
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Sl.No Description Quantity
1. X- AXIS MOTOR 1
2. BEARING HOUSING 1
3. LM RAIL 2
4. LM BLOCK 4
5. X - AXIS BALL SCREW 1
6. REAR HOUSING 1
7. SADDLE 1
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Base Assembly
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Sl.No Description Quantity
1. Y- AXIS MOTOR 1
2. BEARING HOUSING 1
3. LM RAIL 2
4. LM BLOCK 4
5. BALL SCREW 1
6. REAR HOUSING 1
7. BASE1
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Column Assembly
Column is a single piece Cast Iron Grade 25 material. It is of hollow
structure and it is heavily ribbed. Horizontal ribs are added to take care of twisting
moments and vertical ribs are added to take care of bending moments. LM rails are
mounted on the column. Headstock which is assembled with Catridge Spindle is fixed to
the column by LM guides.
Column Assembly
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Sl.No Description Quantity
1. COLUMN 1
2. REAR HOUSING 1
3. LM RAIL 2
4. BALL SCREW 1
5. LM BLOCK 4
6. BEARING HOUSING 1
7. SERVO MOTOR 1
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Coolant:
Coolant is showered from the end face of the spindle while the tool is being changed to
prevent chips adhering to the taper.
Cautions:
1. Depending on the type of coolant and its method of use, bubbles may be
generated in the coolant within the tank. In this case, use deforming agent or
reduce the amount of discharge.
2. For the chip flow, use water soluble coolant only. If non water soluble coolant
is used, sufficient coolant will not supplied to the machining tools due to
viscosity.
3. Some types of coolant may cause rust in parts within the guide section due to
their material. Further, there are types of coolant that tend to cause corrosion.
Please check with the coolant manufacturer for coolant characteristics before
use. Move each axis one full stroke at least once a day to lubricate the guide
and ball screw, and prevent rust. Performing this before and after operation is
the most effective.
4. Select the coolant after checking the lubrication and bubble formation. The
chemical solution type should be avoided (Synthetic type).
5. Water soluble coolant will corrode the machine, avoid using the rot coolant.
Water soluble coolant causes rusting and is environment worse. Machine may
rust and corrosion occurs, by changing the nature of coolant. It may damage
the machine.
4. Tool Magazine:
The machine is provided with the tool magazine at the side of the column. This tool
magazine is used to indexing the tool during the rotation.
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Cautions on work piece and Tool Setting:
� Do not touch the edge of the tool. Always hold the holder of the tool.
� If you operate the machine without the work piece secured, the work piece may
spring out, resulting injury. Secure the work piece.
� The milling inserts may come off the tool, resulting in serious injury. Firmly
secure the milling insert tip on the tool. Check that the milling inserts are secured
before mounting the tool to the machine.
� Work piece and tools to be mounted are subject to certain dimensional limitations
such as work piece and jig height, tool length, tool holder setting.
� Check these limitations following the procedure below, before setting a work
piece or tool.
Main Features:
This section describes the features of the MAXMILL.
ATC (Automatic Tool Changer)
1. The sliding rod type armless ATC mechanism allows simple and quick tool
change, thus reducing non-cutting time.
2. The magazine indexes fast and takes the shorter way to reach the tool
searched.
3. X and Y- axis positioning, which is made while the magazine rotates, reduces
non-cutting time.
Setting and removing a tool on and from the Magazine:
� Do not put the finger in the clearance between the tool or the tool holder and the
ATC magazine.
� When attaching and detaching tool holder, you may cut your hand on the edge
on a tool or hit your hands against the machine. Do not hold the edge of the tool.
Wear leather gloves.
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� Tools, tool holder whose weight and size exceed the specified limit may spring
out while and sizes are within the specified limit. For the limit of the tools see
the tool label attached on the machine.
� If the ATC magazine rotates, tools may hit machined work piece, jigs, or the
machine, and may be broken. Set the tool length so that the tools do not contact
machined work pieces, jigs, and other machine even if the ATC magazine
rotates.
Removing a tool from the magazine:
1. Move the magazine number to switch the tool mounted to the replacement
positioned, for magazine rotation; refer to setting a tool on the magazine.
2. Remove the tool from the magazine. To remove a tool from the machine
withdraw tool holder in the direction of the arrow as shown figure.
Note:
1. To remove the tool, use the leather gloves.
2. Be carefully not to hold the tool blade.
3. Incorrect tool attached may causes the tool to drop.
Table:
Table is used to place the JOB & fixtures.
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5. Splash Guard (Cover):
Prevents chip splash during the operation, therefore protects operators. Do not
perform machine operation with the protection cover removed.
The machine is provided with total guard sliding doors on the front. The guard is
fitted onto the base and can be lifted/ transported along with structure as single unit.
Control Box (Electrical Cabinet) is placed on the side of Column. Wires are taken to the
Control Box by means of ducts. Control Panel is placed in the front side of the Guard,
which is user friendly and easy to operate.
6. Air filter, Regulator & Lubricator:
Air filter, regulator and Lubricator are used for highly efficient filtering & precise
controls of compressed air lines in machine tools. FRL ensures filtered ®ulator air
supply in air consumptions and provides a long life.
It will provide the sensitivity, accuracy, low, output drop, drift free setting and immunity
to pressure variation required for process.
FRL Unit
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Lubrication unit:
Panel Cooler:
A panel cooler is used in the MAXMILL in order to eliminate the heat generated by the
drives.
Turning ON &OFF
Warning before Turning on the Power:
� When chips scatter and get into the eyes, you may damage your eyeballs and lose
eyesight. Wear safety goggles against the chips. Do not blow the chips by air.
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� If you touch chips with bare hands, you may have your hands cut or burnt. Do not
touch chips with bare hands. Do not touch ships with bare hands. Do not touch
sharp edges of work pieces. Use a brush to remove chips.
� When coolant, oil or chips are scattered, you may slip and fall down or hit
yourself against something, resulting in an injury. Turn off the power of the
machine, clean inside and the surroundings of the machine, and then start
operation.
� If you forget to mount the splash guard side cover, you may get caught in the
machine, resulting in injury.
� Before turning on the power, visually check that the cover is mounted, report it to
the supervisor.
� When removing the cover, turn off the main power breaker and padlock it so that
the main power breaker cannot be turned on.
� The supervisor must instruct the operator to mount the cover.
Preliminary Checks:
� Check that the main power breaker handle is on OFF.
� Check that the machine and its surroundings are free from obstacles.
� Check that nothing is left on the table and saddle. Check that the door of the CNC
is firmly closed.
� Check that the taper on the spindle is clean and without damaged. Check that the
taper of the tools are clean, without pitching and wear and that pull studs are
securely mounted in magazine.
� Check that tools are securely mounted in magazine clippers. Check that no chip is
left in the splash guard. Check that no chip is left in the chip pan.
� Check that oil level is with in the marks. Check that coolant amount is sufficient.
� Check that the air supply is connected and the pressure gage indicates the
appropriate.
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Turning on the power:
� Plug the power supply cord firmly in to the primary power supply receptacle and
turn on the primary power supply.
� Set the main breaker handle on the operation panel comes ON.
� Check that the POWER lamp on the operation panel comes ON.
� Handle of the main power breaker set to ON position Diagram. Turn on the power
supply to the operation panel. When the POWER is switched is pressed, the green
lamp comes on and the initial screen will appear on the display.
� At the same time, the fan of the CNC unit starts working and the X-, Y- and Z-
motors are servo-locked.
� When the power is once turned off, wait at least for 3 seconds before turning it on
again. When turning on the power to the CNC unit and operation panel, make sure
that the fan on the CNC unit works.
� Uncertain cases, depending on machine status, the power-on screen may appear
some 15 seconds after turning on the power. (POWER switch lamp blinks.)
Check Items:
� Check that the magazine rotates smoothly and that tools are properly mounted are
removed.
� Check that the CNC unit and the cooling fan function proper.
� Check that the spindle does not give off unusual noise.
� Check that the spindle is properly oriented.
Turning Off the Power:
This section describes about the power-off procedure:
Check before turning off the power:
� Check that the mobile parts are stopped.
� Check that all the operations such as program edit, data modification, I/O from
and to external equipments, have completed.
MAXMILLMachine Construction
Turning off the power supply:
� When the POWER switch on the operation panel is pressed, the green lamp will
stop glowing and the LCD display screen will disappear.
� Turn off the handle of the main power breaker on the control unit at the back of
the machine.
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Lubrication
6. Lubrication
All oiling points have been fitted prior to the dispatch of the machine. Initially, before
running the machine, oil the ball screws and carry out the routine maintenance and
lubrication according to schedule.
Lubrication is an important factor to assure a long life for the best performance of the
machine. The following attention should be paid for the purpose:-
1. Use oil type whose quality is specified by us. If any non-specified oil or an excess
quality is used, it may cause some trouble.
2. Before supplying oil, clean up oil supply inlets of lubrication pump and so on.
3. Pour oil through a filter, to take dust and other foreign objects off. If a filter is not
available, Use a wire mesh finer than 150 microns.
4. New oil should be used each time. Never mix regenerated or used oil with new
one.
5. Even if oil is poured from newly opened can, do not use all of it. There may be
some impurities at the bottom of the can.
MAXMILL
Lubrication unit:
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Lubrication:
Sl.no. Lubricating part Specification of
Lubrication
1.
2.
A) X-axis guide ways
( Left and Right)
B) Y-axis guide ways
( Front and Rear)
C) Z-axis guide ways
(Top + Bottom)
A) X-axis Ball lead screw
B) Y-axis Ball lead screw
C) Z-axis Ball lead screw
Sliding surface oil/
Turbine oil ISOVG ~ 68
Sliding surface oil/
Turbine oil ISOVG ~ 68
Sliding surface oil/
Turbine oil ISOVG ~ 68
Sliding surface oil/
Turbine oil ISOVG ~ 68
MAXMILLLubrication
Base:
Sl.No Name Quantity
1. LM Block 4
2. Inlet from Saddle 3
3. Ball screw 1
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Column:
Sl.No Name Quantity
1. LM Block 4
2. Manifold fixed to head stock 1
3. Ball screw 1
4. Inlet of lubrication unit 1
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Y – Axis Lubrication:
MAXMILL Saddle Assembly
Sl. No Name Quantity
1. Manifold fixed to bottom of work table 1
2. LM BLOCK 4
3. Manifold fixed to bottom of saddle 1
4. Inlet from lubrication 1
5. Inlet taken to Y _ Axis 2
6. Ball Screw 1
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Coordinate System
7. Coordinate System
Machining of a work piece by NC program requires a coordinate system
to be applied to the machine tool. As all machine tools have more than one coordinate, it
is important that each coordinate is identified individually. There are three planes in
which movement can take place.
� Longitudinal
� Vertical
� Transverse
Each plane is assigned a letter and is referred to as an axis, i.e.
� Axis X
� Axis Y
� Axis Z
The three axes are identified by upper case letters X, Y and Z and the direction
of movement along each axis is specified as either PLUS (+) or MINUS (-). The Z-axis
is always parallel to the main spindle of the machine. The X-axis is always parallel to the
work holding surface, and always at right angles to the Z-axis. The Y-axis is at right
angles to both Z and X-axis.
Coordinate System
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Whenever the fingers of the right hand are aligned with the positive x-axis and are then
rotated (through the smaller angle toward the positive Y axis), then the thumb of the right
hand points in the direction of the positive Z-axis.
+
Right-hand coordinate system
In programming it must be assumed that the work piece is stationery and the
tools move in the coordinate system. The work piece is positioned within the coordinate
system so that the Z-axis coincides with the work spindle axis or runs parallel to it.
Some machining operations require programming angles of rotations about
one or several coordinate axis. Rotation about the coordinate axes is identified by the
angles of rotation A, B, and C as shown in below fig
MAXMILLCoordinate System
The direction is positive (+) when the direction of rotation is clockwise as seen from the
coordinate zero point looking in the direction of the positive axis.
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Machine Zero Point (M)
This is specified by the manufacturer of the machine and is the zero point
for the coordinate system and reference points in the machine. The machine zero point
can be the centre of the table or a point along the edge of the traverse range as shown in
below fig.
(The position of the machine zero point generally varies from manufacturer to
manufacturer)
MAXMILLCoordinate System
Basic Movements
X - X+
Z-
Y -
Y+
Z +
Basic movements
The precise position of the machine zero points as well as the axis direction
must therefore be taken from the operating instructions provided for each individual
machine.
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Reference Point (R)
This point serves for calibrating and for controlling the measuring system of
the slides and tool traverses. The position of the reference point as shown in fig is
accurately predetermined in every traverse axis by the trip dogs and limit switches.
Therefore, the reference point coordinates always have the same, precisely known
numerical value in relation to the machine zero point.
MAXMILLCoordinate System
After initiating the control system, the reference point must always be approached from
all axes to calibrate the traverse measuring system.
If current slide and tool position data should be lost in the control system as, for example,
through an electrical failure, the machine must again be positioned to the reference point
to re-establish the proper positioning values.
Work piece Zero Point (W)
This point determines the work piece coordinate system in relation to the
machine zero point. The work piece zero point is chosen by the programmer and input
into the Fanuc system when setting up the machine. The position of the work piece zero
point can be freely chosen by the programmer within the work piece envelope of the
machine. It is, however, advisable to place the work piece zero point in such a manner
that the dimensions in the work piece drawing can be conveniently converted into
coordinate values.
For milled parts, it is generally advisable to use an extreme corner point as
the “Work Piece Zero Point” as shown in FIG. Occasionally, the work piece zero point is
also called the ‘program zero point’.
Position of Work piece Zero Point on a Milling Machine
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Tool Reference Point
When machining a work piece, it is essential to control the tool point or the
tool cutting edges in precise relationship to the work piece along the machining path.
Since tools have difference shapes and dimensions, precise tool dimensions have to be
established beforehand and input into the control system. The tool dimensions are related
to a fixed tool setting point during pre-setting.
The tool setting point E is located at certain point on the tool holder as shown
in Fig. This setting point permits measuring of tools away from the CNC machine. The
data thus measured such as tool length, tool point offset or tool radius, are input into the
tool data storage (memory) of the control system. The mate of the tool setting point is the
socket point N on the tool carrier. When the tool or tool holder is inserted into the tool
carrier (e.g., turret), the setting point and the tool socket point coincide.
When programming a work piece contour, it is always the traverse of the tool
cutting edge that is of significance. The tool carrier, e.g., the main spindle on a milling
machine, must then move in a way that the tool cutting edge follows precisely in the
desired contour.
Position of Tool Reference Point on a Milling Machine
Absolute Dimension System
The data in absolute dimension system always refer to a fixed reference point.
This point has the function of a coordinate zero point. The dimension lines run parallel to
the coordinate axes and always start at the reference point. Absolute dimensions are also
called as 'Reference dimensions'
MAXMILLCoordinate System
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Incremental Dimension System
When using Incremental Dimension system, every measurement refers to
previously dimensioned position Incremental dimensions as distance between adjacent
points. These distances are converted into incremental coordinates by accepting the last
dimension point as the coordinate origin for the new point. This may be compared to a
small coordinate system, i.e., shifted consequently from point-to-point (P1...P2... to P9).
Incremental dimensions are also frequently called 'Relative dimensions' or ‘Chain
dimensions'.
Advantages of Incremental Dimension System
1. If manual programming is used with incremental system, the inspection of the part program is
easy. Since the endpoint, when machining a part, is identical to the starting point, the sum of the
position commands (for each axis separately) must be zero. A nonzero sum indicates an error.
2. The performance of the incremental system can be checked by a closed-loop tape. The last
position command on the tape causes the table to return to the initial position.
3. Mirror-image programming is facilitated with incremental systems.
4. Incremental dimension programming is advantageous as certain individual partial contours in
a work piece are repeated several times and the associated program sections can be employed
several times without a coordinate shift.
MAXMILLCoordinate System
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Machine working Coordination:
1. Machine zero point
The machine zero point is the reference point on the machine.
2. Machine Coordinate system:
The coordinate system with the machine zero point as its reference point is called the
machine coordinate system. Each has its own coordinate system.
Working coordinate system:
The working coordinate system is used to specify a tool motion for each work piece.
A coordinate system previously set in the “Data Bank”, once selected programming
can be easily done by specifying that coordinate system. Each coordinate system is
set by using an offset amount from the zero point to the working zero position.
MAXMILLCoordinate System
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Maintenance
8. Maintenance
The Mill inspection and maintenance must be carried out according to the following
schedule.
Period Maintenance required
Daily� Lubricate the oil nipples
� Clean the slides and coat with a thin film oil
� Clean out the swarf
Weekly� Clean the mill thoroughly
� Check the screws and nuts for tightness
� Lubricate both the ball screws
Six Months � Check the adjustment of the saddle and the cross
slide strips
� Grease the headstock bearing
Annually� Check the mill alignments and accuracy
� Call the service engineer to have a complete check
Note:
Regular maintenance of the MAXMILL increases its life and performance.
MAXMILL
Lubrication
All oiling and greasing points have been fitted prior to dispatch. Before
running the machine initially, oil the ball screws and carry out the routine maintenance
and lubrication according to schedule.
Maintenance of Coolant
1. Discard the chips gathered from the chip tray daily. If the chips are collected
effectively, coolant may be splash around.
2. Clean the filter. Double filters are used in the 110L tank.
3. To maintain the coolant and coolant tank, replace the entire coolant when needed.
44 of 48
ELECTRICAL MANUAL
Table of Contents
1. Introduction …………………………………………………………….1
2. Control Panel Description……………………………………………...3
4. Error Diagnosis………………………………………………………....52
5. Program Logic Controller……………………………………………...62
6. Input Output Details……………………………………………………220
7. Electrical Drawing……………………………………………………...224
8. CNC Parameter…………………………………………………………280
3. Operating Procedure……………………………………………….......13
3.1 Step for Machine Startup…………………………………………..13
3.2 Homing the Machine……………………………………………….13
3.3 Manual Operation…………………………………………………..14
3.4 Automatic operation………………………………………………..18
3.5 Test Operation……………………………………………………...27
3.6 Data input/output Procedure…………………………......................31
3.7 Editing Programs………………….…………………………..........41
3.8 Creating Programs………………………………………………….50
Introduction MAXMILL
1. Introduction
MAXMILL is a numerically controlled machine tool used for machining parts
in every industrial field, featuring high speed, high accuracy, and high productivity.
This manual provides Electrical details, Operating Panel descriptions and
Panel Operating Procedure for the MAXMILL that performs turning, boring,
reaming, roughing and chamfering operations using CNC programming and Fanuc
series oi Mate-MC operating software.
Procedure to switch ON the machine:
1. Switch ON the Main Isolator switch
2. Press “CNC ON “ button
4. Release Emergency
Procedure to switch OFF the machine:
1. Press Emergency push button
2. Press “CNC OFF”
3. Switch OFF the Isolator switch
Input voltage to the machine:
Give 415vac, 3ph, (+6% -10%) 50 Hz 14 KVA stabilized supply to the machine.
Earthen of the machine and control cabinet should be proper.
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3. Fanuc system boots up
Introduction MAXMILL
Machine panel control:
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Control Panel Description MAXMILL
Auto
Edit
MDI
JOG
2. Control Panel Description
By pressing this key, Auto mode is selected. Part program can be
executed in Auto mode. Select the program and press cycle start
to execute the part program.
Precondition:
1. Machine not in Emergency condition.
By pressing this key, Edit mode is selected. The following
operations are possible in edit mode;
1. Inserting, altering, deleting part programs.
2. By using extended part program editing function it is possible
to copy, move, and merge programs.
3. Entering offset data, parameter, pitch error compensation data
and custom macro common variable.
4. Data In/Out of part program, offset data, parameter, pitch.
5. Error compensation data, common variables to a PC/ MCARD
or any other I/O device.
Precondition:
Machine not in Emergency condition.
By pressing this key, MDI mode is selected. One block of part
program can be executed in MDI mode. Enter the block and press
cycle start to execute the block.
Precondition:
1. Machine not in Emergency condition.
Following are the conditions for Program to get executed;
1. Feed Hold signal G8.5 is ON
2. No Alarm condition.
By pressing this key, Jog mode is selected. Adjust the Feed rate
override switch to the required value with the help of Rotary
switch.
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Control Panel Description MAXMILL
Single Block
Block Delete
Optional Stop
Dry Run
Move the axis in the required direction.
Precondition:
Machine should not in Emergency condition.
By Pressing the Single Block switch on the machine operator’s
panel, the execution of the program is stopped after the current
block is executed. Press the cycle start button to execute the next
block. The tool stops after the block is executed.
Precondition:
1. Machine should not in Emergency condition.
2. Auto mode selected.
When a slash is specified at the head of a block, and optional
block skip signals BDT is ON during automatic operation, the
Information contained in the block is IGNORED. The block is
NOT IGNORED if the BDT is OFF.
Precondition:
1. Machine should not in Emergency condition.
2. Auto mode selected.
By pressing this key on the machine operator’s panel, optional
stop function is ON.
When “Optional Stop” is ON the execution of the part program
is stopped when M01 is commanded if “optional stop” is OFF the
part program continues without stopping at M01.
Precondition:
1. Machine should not in Emergency condition.
2. Auto/MDI mode selected.
By pressing this button, Dry Run feed rate mentioned in the
parameter is selected, the feed rate cannot be specified using F.
Precondition:
1. Machine should not in Emergency condition.
2. Auto mode selected.
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Control Panel Description MAXMILL
Machine Lock
REF
DNC
MPG
X
Y
By pressing this button, the change of the position display can be
monitored without moving the machine.
Before machining is started, the automatic running check can be
executed. It checks whether the created program can operate the
machine as desired. This check can be accomplished by running
the machine or viewing the position display change without
running the machine.
Precondition:
1. Machine should not in Emergency condition
2. Auto mode selected.
By pressing this key, Reference Mode is selected.
Reference with the help of X+/Z+/Y+ keys.
Precondition:
Machine should not in Emergency condition.
By pressing this key, DNC mode is selected. In DNC mode the
communication to CAM software can be established.
Precondition:
Machine should not in Emergency condition.
By pressing this key, MPG is selected.
Precondition:
Machine should not in Emergency condition.
By pressing this key, X axis is selected. In Jog or MPG mode
select axis and then the required direction keys to move the axis.
Precondition:
Machine should not in Emergency Condition.
By pressing this key, Y axis is selected. In Jog or MPG mode
select axis and then the required direction keys to move the axis.
Precondition:
Machine should not in Emergency Condition.
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Control Panel Description MAXMILL
Z
4
+
-
RT
X1
X10
By pressing this key, Z axis is selected. In Jog or MPG mode
select axis and then the required direction keys to move the axis.
Precondition:
Machine should not in Emergency Condition.
By pressing this key, 4th axis is selected. In Jog or MPG mode
select axis and then the required direction keys to move the axis.
Precondition:
Machine should not in Emergency Condition.
This key is used to move the axis in the positive direction.
Precondition:
Jog / Jog ref /MPG should be selected
Desired axis should be selected.
This key is used to move the axis in the negative direction.
Precondition:
Jog / Jog ref /MPG should be selected
Desired axis should be selected
By pressing “RT” and “+” or “-“simultaneously the selected axis
moves with rapid traverse feed rate.
Precondition:
Jog mode should be selected
Desired axis should be selected
Select the MPG mode. Select X1 or X10 or X100. Select the
desired axis.
Move the axis by using Manual Pulse Generator or by using +/ -
keys.
By selecting X1, axis moves by 1 micron each time a + or –
command is given. Similarly by selecting X10 or X100 axis
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Control Panel Description MAXMILL
X100
Cycle Start
Cycle Stop
CNC ON
CNC OFF
Program Stop
Moves by 10 and 100 microns each time a + or – command is
given.
Precondition:
Machine should not in Emergency condition.
Machine must in MPG mode.
By pressing this button it is possible to start any program
currently loaded in the machine. It is also possible to resume a
program which has already paused.
Precondition:
1. Machine should not in emergency condition
2. Auto / MDI mode is selected
By pressing this key the current running program comes to stop.
It possible to pause a program currently running on the machine.
Precondition:
1. Machine should not in Emergency condition
2. Auto/MDI mode selected
By pressing this key CNC is made ON.
By pressing this key CNC is made OFF.
By pressing this key the current running program comes to stop.
Precondition:
1. Machine should not in Emergency condition.
2. Auto/ MDI mode selected.
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Control Panel Description MAXMILL
CLNT
ON/OFF
Lub Inch
FLUSH CLNT
ON/OFF
VICE
CL/UNCL
Spindle Inch
By pressing this key once, the coolant is made ON and by
pressing the same key again coolant is made OFF.
Precondition:
1. Machine should not in Emergency condition.
2. Machine lock is not ON.
This key is used for Lubrication motor inching. As long as the
key is pressed the Lubrication motor is ON.
Precondition:
1. Machine should not in Emergency condition.
2. Machine lock is not ON.
By pressing this key once, the flush coolant is made ON and by
pressing the same key again flush coolant is made OFF.
Precondition:
1. Machine should not in Emergency condition.
2. Machine lock is not ON.
By pressing this key once, the Vice gets unclamped and by
pressing the same key again vice gets clamped.
Precondition:
1. Machine should not in Emergency condition
2. Machine lock is not ON
3. Air pressure ON
4. Jog mode is selected
By pressing this button, it is possible to inching the spindle
position.
Precondition:
1. Machine should not in Emergency condition
2. Select Jog mode
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Control Panel Description MAXMILL
Spindle Orient
Spindle CW
Spindle CCW
Spindle Stop
Emergency
Spindle Speed
Override%
By pressing this button, spindle comes to orientation position.
Precondition:
1. Machine should not in Emergency condition.
2. Select Jog mode.
By pressing this button in jog mode Spindle runs in clockwise
direction.
Precondition:
1. Machine should not in Emergency condition.
2. Arm in reverse condition.
3. Tool is clamped.
4. Door is closed or Door bypass is ON.
By pressing this button in Jog mode Spindle runs in counter
clockwise direction.
Precondition:
1. Machine should not in Emergency condition.
2. Arm in reverse condition.
3. Tool is clamped.
4. Door is closed or Door bypass is ON.
By pressing this button Spindle stops.
This switch stops any machining motion in case of emergency.
All the machine motion stops with the message “emergency stop”
displayed on the screen.
By selecting the switch position, the Spindle runs at the
programmable Speed.
Select the speed as desired.
Select 45% in spindle speed override, to run the programmed
spindle speed at 45%
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Control Panel Description MAXMILL
Feed override
MPG
Alarm
Machine Ready
Air ON
Door CL/Open
Example:
By selecting 45% Spindle runs at 45% of the programmed
Spindle speed.
By selecting the switch position, the axes move at the
programmable speed. Select the feed rate as desired.
Example:
By selecting 100 % Axes moves at 100% of the programmed
feed rate.
By selecting X or Y or Z or 4 axis and any one of the MPG X1 /
X10 /X100 axes can be moved to 1 / 10 /100 microns for every
one division rotation of the Manual Pulse Generator.
Precondition:
1. MPG button is ON
2. Machine not in emergency condition.
This indication lamp glows if any NC alarms or PLC alarms
occurs.
This indication lamp glows when the machine is ready for any
cycle operation.
This indication lamp glows when the air pressure in the machine
is correct.
By pressing this key once the machine door opens and by
pressing the same key again the machine door closes.
Precondition:
1. Machine not in Emergency condition
2. Machine lock is not ON
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Control Panel Description MAXMILL
Tool CL/UNCL
ARM IN/OUT
MAG Index
3. Air pressure ON
4. Jog mode is selected.
By pressing this key once the Tool is clamped and by pressing
the same key again the Tool is unclamped.
Precondition:
1. Machine not in Emergency condition
2. Machine lock is not ON
3. Air pressure ON
4. Jog mode is selected.
By pressing this key once the Arm comes fwd and by pressing
the same key again Arm is reversed While Arm comes fwd it
checks if the Spindle Tool = Magazine Tool , if not the Magazine
indexes to the Spindle tool and then the Arm comes forward.
Precondition:
1. Machine not in Emergency condition.
2. Spindle in stop condition.
3. Jog mode is selected.
4. Machine position of X axis should be in the range -300 to -290
5. Machine position of Y axis should be in the range 3 to -10
6. Machine position of Z axis should be in the range 0 to -142.
By pressing this button Magazine is indexed to the next position
in counter clockwise direction.
Precondition:
1. Emergency is released
2. Z axis is standstill
3. Jog mode is selected
4. Arm is in reverse condition AND Machine position of X axis
is between -300 and -290 AND Machine position of Y axis is
between 3 and -10 OR Arm is in forward condition AND
Machine position of X axis is between -300 and -290 AND
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Control Panel Description MAXMILL
Machine position of Y axis is between 3 and -10 AND Machine
position of Z axis is at 0.
MAG REF By pressing this button in Ref mode Magazine comes to the
reference position.
Precondition:
1. Machine not in emergency condition.
2. Spindle is in standstill position
3. Reference mode is selected
3. Arm is in reverse condition AND Machine position of X axis
is between -300 and -290 AND Machine position of Y axis is
between 3 and -10 OR Arm is in forward condition AND
Machine position of X axis is between -300 and -290 AND
Machine position of Y axis is between 3 and -10 AND Machine
position of Z axis is at 0.
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Operating Procedure MAXMILL
Operating Procedure is used to operate the machine (MAXMILL). This manual
will explain the manual working procedure of the machine.
Caution: When the user is operating the machine at first time, after delivery in the
active period of time, check the grease Lubrication. If the lubrication is not sufficiently
applied to slide ways of the machine, guards etc., or else the machine will lose
accuracy and shorten its service life.
3.1 Step for Machine start up:
a) To start up the machine operation switch on the main switch (This
process should be done, only after the Machine connections are
completely over).
b) “TURN ON the isolator switch (as shown in the diagram)” to
Switch ON the machine controller (Turn the isolator switch
towards the right side to switch).
OFF
ON
c) Press the “CNC ON” Button to ON the Machine.
d) Wait until the MDI Panel “ON”.
e) Display will appear on the Data Screen. Alarm will appear on the
data screen
f) Press and Release the Emergency Stop. Turn towards downward
direction as shown in the diagram.
3.2 Homing the Machine:
a) Press the Reference button.
REF b) Press Z, and – button to move table towards the Z axis direction.
c) Press X, and – button to move table towards the X axis direction to
home the machine.
d) After the Homing the machine the Data screen display’s “0” in
Position.
Note: The Machine Homing should be done in the above order only.
3. Operating Procedure
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Operating Procedure MAXMILL
3.3 Manual Operation:
3.3.1 Manual reference position return:
The CNC machine tool has a position used to determine the machine position.
This position is called the reference position, where the tool is replaced or the
coordinate are set. Ordinarily, after the power is turned on, the tool is moved to
the reference position.
Manual reference position return is to move the tool to the reference position
using switches and pushbuttons located on the operator’s panel.
The tool can be moved to the reference position also with program commands.
This operation is called automatic reference position return
The tool is returned to the reference position as follows:
a) The tool is moved in the direction specified in parameter for each axis with the
reference position return switch on the machine operator’s panel. The tool moves
to the deceleration point at the rapid traverse rate.
b) Four step rapid traverse override is effective during rapid traverse.
c) When the tool has returned to the reference position, the reference position return
completion LED goes on.
Procedure for Manual Reference Position Return:
1 Press the reference position return switch, one of the mode selection
switches.
2 To decrease the feedrate, press a rapid traverse override switch. (By
pressing “RT” and “+” or “-“simultaneously the selected axis moves
with rapid traverse feed rate.)
Reference
Tool
Machine Operator’s
REF
RT
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Operating Procedure MAXMILL
3 Press the feed axis and direction selection switch corresponding to the axis and
direction for reference position return. Continue pressing the switch until the tool
returns to the reference position.
4 The tool can be moved along two axis simultaneously when specified so in an
appropriate parameter setting. The tool moves to the deceleration point at the
rapid traverse rate, then moves to the reference position at the FL speed set in a
parameter.
5 When the tool has returned to the reference position, the reference position return
completion LED goes on. Perform the same operations for other axes, if
necessary.
The above is an example. Refer to the appropriate manual provided by the machine tool
builder for the actual operations.
Explanation:
Automatically setting
the coordinate system
The coordinate system is automatically determined when
manual reference position performed. When and are set in
workpiece zero point offset, the workpiece coordinate system is
determined so that the reference point on the tool holder or the
position of the tip of the reference tool is X= , Z= when
reference position return is performed. This has the same effect as
specifying the following command for reference position return:
G50 X Z ;
Reference
OptionDeclaration
Point
Rapid traverse motion
Rapid traverse rate (rapid
traverse override is
effective)
Decelerated
Motion
FL speed
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Operating Procedure MAXMILL
3.3.2 Jog Feed
1. In the JOG mode, pressing a feed axis and direction selection switch on the
machine operator’s panel continuously move the tool along the selected axis in
the selected direction.
2. The manual continuous feedrate is specified in a parameter.
3. The manual continuous feedrate can be adjusted with the manual feedrate
override dial.
4. Pressing the rapid traverse switch moves the tool at the rapid traverse feedrate
regardless of the position of the JOG feedrate override dial.
5. This function is called the manual rapid traverse.
Procedure for JOG Feed
a) Set “JOG button”JOG
b) Press Z & - button to move Head Stock towards the Z
direction.
X c) Press X & - button to move the axis towards the X
direction.
se button.
d) Press Y & - button to move the axis towards the Y direction.
Steps for rapid movement:
a) Press X button
b) Press – button and
c) Press Traver
Press these three buttons simultaneously from the operation panel to the move
the axis in Rapid. Press the selected button which is given above until it
reaches the reference point in rapid motion.
Uses of rapid Movement:
It will reach the reference point in rapidly in the MAXMILL.
It is used to move the table and the tool magazine in rapid speed.
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Operating Procedure MAXMILL
Restrictions
Acceleration/deceleration for rapid traverse
Feedrate time constant and method of automatic acceleration/deceleration for manual
rapid traverse are the same as G00 in programmed command.
Change of modes
Changing the mode to the JOG feed mode while pressing a feed axis and direction
selection switch does not enable JOG feed. To enable JOG feed enter the JOG feed mode
first, then press a feed axis and direction selection switch.
3.3.3 Manual Handle Feed
In the handle mode, the tool can be minutely moved by rotating the manual pulse
generator on the machine operator’s panel. Select the axis along with the tool is to be
moved with the handle feed axis selection switches.
The minimum distance the tool is moved when the manual pulse generator is
rotated by one graduation is equal to the least input increment. Or the distance the tool is
moved when the manual pulse generator is rotated by one graduation can be magnified by
1 times, 10 times.
Method of MPG Operation (Manual Pulse Generator):
1 Press the Handle switch, one of the mode selection
switches.
2 Select the axis along which the tool is to be moved by
pressing a handle feed axis selection switch.
3 Select the magnification for the distance the tool is to
be moved by pressing a handle feed magnification
switch. The distance the tool is moved when the manual
pulse generator is rotated by one graduation is: Least input increment multiplied by
magnification.
Turn the MPG
towards the
arrow direction
4 Move the tool along the selected axis by rotating handle. Rotating the handle 360
degrees moves the tool the distance equivalent to 100 graduations.
The above is an example. Refer to the appropriate manual provided by the machine tool
builder for the actual operations.
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Operating Procedure MAXMILL
Explanations:
A command to the MPG exceeding rapid traverse rate (HPF)
Parameter HPF (bit 4 of No.7100) specifies as follows;
Set Value 0: The feedrate is clamped at the rapid traverse rate and generated pulses
exceeding the rapid traverse rate are ignored. (The distance the tool moved may not
match the graduations on the manual pulse generator.)
Set Value 1: The feedrate is clamped at the rapid traverse rate and generated pulses
exceeding the rapid traverse rate are not ignored but accumulated in the CNC.
(No longer rotating the handle does not immediately stop the tool. The tool is moved by
the pulses accumulated in the CNC before it stops.)
Warning: Rotating the handle quickly with a large magnification such as x100 moves
the tool too fast. The feedrate is clamped at the rapid traverse feedrate.
Note: Rotate the manual pulse generator at a rate of five rotations per second or lower. If
the manual pulse generator is rotated at a rate higher than five rotations per second, the
tool may not stop immediately after the handle is no longer rotated or the distance the tool
moves may not match the graduations on the manual pulse generator.
3.4 Automatic Operation
3.4.1 Memory Operation
Programs are registered in memory in advance. When one of these programs is selected
and the cycle start switch on the machine operator’s panel is pressed, automatic operation
starts, and the cycle start LED goes on.
When the feed hold switch on the machine operator’s panel is pressed during
automatic operation, automatic operation is stopped temporarily. When the cycle
start switch is pressed again, automatic operation is restarted.
When the key on the MDI panel is pressed, automatic operation
terminates and the rest state is entered.
Reset
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Operating Procedure MAXMILL
The following procedure is given as an example.
Procedure for Memory Operation:
1. Press the MEMORY mode selection switch.
2. Select a program from the registered programs. To do this, follow the steps below.
2-1) Press to display the program screen. PROG
2-2) Press address O
2-3) Enter a program number using the numeric keys.
2-4) Press the [O SRH] soft key.
3. Press the cycle start switch on the machine operator’s panel. Automatic operation
starts, and the cycle start LED goes on. When automatic operation terminates, the
cycle start LED goes off.
4. To stop or cancel MEMORY operation midway through, follow the steps below.
a) Stopping Memory operation
Press the feed hold switch on the machine operator’s panel. The feed hold LED
goes on and the cycle start LED goes off. The machine responds as follows:
i) When the machine was moving, feed operation decelerates and stops.
ii) When dwell was being performed, dwell is stopped.
iii) When M, S, or T was being executed, the operation is stopped after M, S, or
T is finished.
When the cycle start switch on the machine operator’s panel is pressed while the
feed hold LED is on, machine operation restarts.
b) Terminating Memory operation
Press the key on the MDI panel RESET
Automatic operation is terminated and the reset state is entered. When a reset is
applied during movement, movement decelerates then stops.
Explanation for Memory operation
After memory operation is started, the following are executed:
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Operating Procedure MAXMILL
1. A one-block command is read from the specified program.
2. The block command is decoded.
3. The command execution is started.
4. The command in the next block is read.
5. Buffering is executed. That is, the command is decoded to allow immediate
execution.
6. Immediately after the preceding block is executed, execution of the next block
can be stared. This is because buffering has been executed.
7. Hereafter, memory operation can be executed by repeating the steps (4) to (6).
c) Stopping and terminating memory operation
Memory operation can be stopped using one of two methods: Specify a stop command, or
press a key on the machine operator’s panel. - The stop commands include M00 (program
stop), M01 (optional stop), and M02 and M30 (program end)
There are two keys to stop memory operation; the feed hold key and reset key.
Program stop (M00)
Memory operation is stopped after a block containing M00 is executed. When the
program is stopped, all the existing model information remains unchanged as in
single block operation. The memory operation can be restarted by pressing the
cycle start button. Operation may vary depending on the machine tool builder.
Refer to the manual supplied by the machine tool builder.
Optional stop(M01)
Similarly to M00, MEMORY operation is stopped after a block containing M01 is
executed. This code is only effective when the optional Stop switch on the
machine operator’s panel is set to ON. Operation may vary depending on the
machine tool builder. Refer to the manual supplied by the machine tool builder.
Program end(M02,M30)
When M02 or M30 (specified at the end of the main program) is read, memory
operation is terminated and the reset state is entered. In some machines, M30
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Operating Procedure MAXMILL
returns control to the top of the program. For details, refer to the manual supplied
by the machine tool builder.
Reset
Automation operation can be stopped and the system can be made to the reset
state by using Reset key on the MDI or external reset signal .When reset
operation is applied to the system during a tool moving status, the motion is
slowed down then stops.
Optional block skip
When the optional block skip switch on the machine operator’s panel is turned
on, blocks containing a slash (/) are ignored.
3.4.2 MDI Operation:
Press MDI Mode selection switch
Press key on the MDI panel to select the program screen as
shown in the diagram.
MDIProg
Program (MDI) 0010 0002
O000;
O0050;N01234 X100.0 Z1250.0; S12;N56789 M03; M02;
MDI xxxx xxx xxx
[PRGRM] [MDI] [CURRNT] [NXT] [OPRT]
O000 is used to enter the program automatically
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Operating Procedure MAXMILL
Prepare a program to be executed in the MDI panel. Use this following procedure.
1. Enter the then press the on the MDI Panel. O
2. Alternatively press the key.
To execute the program, set the cursor on the head of the program. And
then press cycle start button to start the operation.
To stop or terminate the MDI operation use the following procedure:
a) Stopping Memory operation
Press the feed hold switch on the machine operator’s panel. The feed hold LED
goes on and the cycle start LED goes off. The machine responds as follows:
i) When the machine was moving, feed operation decelerates and stops.
iv) When dwell was being performed, dwell is stopped.
v) When M, S, or T was being executed, the operation is stopped after M, S, or
T is finished.
When the cycle start is switch on the machine operator’s panel is pressed machine
operation will restart.
b) Terminating Memory operation
Press the key on the MDI panel.
Automatic operation is terminated and the reset state is entered. When a reset is
applied during movement, movement decelerates then stops.
3.4.3 DNC Operation:
For the DNC operation set the parameter of No.0020 to 4 in the setting screen in
advance.
1. Change to RMT mode.
2. Push [PROG] function key.
3. Push [>] soft key (continue menu).
4. When [DNC-CD] soft key is pushed, the following screen is displayed.
5. The screen can be scrolled by page key. An arbitrary file number is input, and [F
SRH] softkey is pushed. Then the arbitrary file name is displayed at the top of
DNC operation (memory card) screen.
Del
Reset
RESET
CYCLE
START
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Operating Procedure MAXMILL
6. When the file number that is executed is input and the [DNC-ST] soft key is
pushed, the file name that is selected is set to DNCFILE.
7. When the cycle is done, the program that is selected is executed.
Tool Reference:
Steps:
i) Press –Z button from rapid switches to home the Tool
Magazine. Z
X ii) Press –X to move the table towards the –X axis direction.
Uses of setting Homing Position
Homing position used to load the tool Magazine properly.
Three axis is used to move the machine towards or to set
machine in the “0” position.
3.4.3Spindle Action Procedure:
i) Steps to rotate in clockwise:
a) Command of multiple blocks can be typed through MDI panel to MDI operation
buffer memory. Set “MDI Mode” in the mode selection switch.
b) Type a program by using the soft keys or down load the program.
For Example: Sample Program
PROGRAM (MDI)
M03 S200;
M03 = Spindle Number, S200 = Spindle Speed
c) To Input the data’s press the required keys in the operation Panel or soft keys.
d) Finally press EOB (End of Block).
e) Press Insert button.
f) Move the cursor to the top of the program by using the cursor Keys or to position
and to start operation.
g) Press cycle start button to run the spindle.
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Operating Procedure MAXMILL
h) To stop the spindle cycle action press Reset Button from the Panel.
ii) Steps to rotate in Anti-clock wise:
a) Command of multiple blocks can be typed through MDI panel to MDI operation
buffer memory. Set “MDI Mode” in the mode selection switch.
b) Type a program by using the soft keys or down load the program.
c) For Example: Sample Program
PROGRAM (MDI)
M03 S200;
d) To Input the data’s press the required keys in the operation Panel or soft keys.
e) Finally press EOB (End of Block).
f) Press Insert button.
g) Press cycle start button to run the spindle.
h) To stop the spindle action press Reset Button from the Panel.
3.4.5 Tool change:
Select the MDI button from the operation panel.
a) Type a program by using the soft keys or down load the
program to change the tool in the Turret.
b) Press cycle start button
For Example:
Sample Program
PROGRAM (MDI)
T0101; (Should use Four digit number)
T01 = Tool Number, 01 = Tool Offsets
M04 = Spindle Number, S200 = Spindle Speed
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Operating Procedure MAXMILL
c) Press For rotation command, Key-in “T03” (Forward) or “T04” (Reverse),
then press [EOB] and Press [INSERT] key.
d) Cycle start to start the progress.
Note: Tool change access can do the changes only in the MDI Mode. To change the
tool manually, use the number which is specified in the Turret (1 to 9 Turret number).
Tool Clamping and Tool Unclamping Automatic procedure:
i) Tool Clamping
a) Press MDI Button from the operation panel
b) Type a program by using the soft keys or down load the
program.
For Example:
Sample Program
PROGRAM (MDI)
M22 T1;
c) Press cycle start button to start the operation
d) The machine will unclamp the tool automatically.
ii) Tool Unclamping
a) Press MDI Button.
b) Type a program by using the soft keys or down load the
program.
Sample Program:
PROGRAM (MDI)
M23 T1;
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Operating Procedure MAXMILL
c) Press cycles start button to start the operation.
d) The machine will clamp the tool automatically.
3.4.6 Coolant ON Procedure:
Steps: Command of multiple blocks can be typed through MDI panel to MDI operation
buffer memory. Set “MDI Mode” in the mode selection switch.
i) Type a program by using the soft keys or down load the program.
For Example: Sample Program
PROGRAM (MDI)
M08 S200;
ii) Finally press EOB (End of Block).
M08 = or Coolant ON Command,
200 = Speed
iii) Press Insert button.
vi) Press cycle start button to run the spindle.
vii) To stop the spindle action press Reset Button from the Panel.
ALARM HISTORY Display
Display the Alarm History as follows:
[ ALARM SG DI ISTRY OPRT ] M[ M] H[ ] [
ALARM HISTORY
(1) 97, 01, 14 16:43:48
O0100 N00001
97.01.13 8:22:21
(2)010 (3) MPROPER G-CODE
MDI …. … … 19:47:45
[] ]
417 SERVO ALARM:X AXIS DGTL PARAM
97.01.12 8:22:21
506 OVER TRAVEL: +X
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Operating Procedure MAXMILL
Procedure for Alarm history Display
1 Press the function key
2 Press the chapter selection soft key [HISTRY].
The alarm history appears.
The following information items are displayed.
1. The date the alarm was issued.
2. Alarm No.
3. Alarm message (some contains no message)
4. Page number
5. Change the page by page key
6. To delete the recorded information, press the soft key [(OPRT)] then the
[DELETE] key.
Test Operation:
The following functions are used to check before actual machining whether the
machine operates as specified by the created program.
3.5.1 Machine Lock and Auxiliary function Lock
a. To display the change in the position without moving the tool, use machine lock.
b. There are two types of machine lock, all- axis machine lock, which stops the
movement along all axes and specified –axis machine lock, which stops the
movement along specified axes only.
c. In addition, auxiliary function lock, which disables M, S and T commands, is
available for checking a program together with machine lock.
Procedure for machine lock and Auxiliary Function lock
1. Machine lock
2. Press the machine lock switch on the operator’s panel.
3. The tool does not move but the position each axis changes on the display as if the
tool were moving.
4. Some machines have a machine lock switch for each axis.
5. On such machines, press the machine lock switches for the axes along which the
tool is to be stopped. Refer to the appropriate manual provided by the machine
tool builder for machine lock.
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Operating Procedure MAXMILL
Warning
The positional relationship between the workpiece coordinates and machine coordinates
may differ before and after automatic operation using machine lock .In such a case,
specify the workpiece coordinate system by using a coordinate setting command or by
performing manual reference position return.
Auxiliary Function Lock
i) Press the auxiliary function lock switch on the operator’s panel.
ii) M, S, T and B codes are disabled and not executed.
iii) Refer to the appropriate manual provided by the machine tool builder for
auxiliary function lock.
Restrictions
M, S, T command by only machine lock: M, S, T and B commands are executed in
the machine lock state.
Reference position return under machine lock: When a G27, G28, or G30
command is issued in the machine lock state, the command is accepted but the tool
does not move to the reference position and the reference position return LED does
not go on.
M codes not locked by auxiliary function lock: M00, M01, M02, M30, M98, M99
and M198 commands are executed even in the auxiliary function lock state.
Subprograms calling M codes (parameter Nos.6071 to 6079) and custom macro
calling M codes (parameter Nos. 6080 to 6089) can also be executed.
3.5.2 Feedrate Override
A programmed feedrate can be reduced or increased by a percentage (%) selected
by the override dial. This feature is used to check a program. For example, when a
feedrate of 100mm/min is specified in the program setting the override dial to 50%
moves the tool at 50 mm/min.
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Operating Procedure MAXMILL
Procedure for Feedrate Override:
Set the feedrate override dial to the desired percentage (%) on the machine
operator’s panel, before or during automatic operation. On some machines, the same dial
is used for the feedrate override dial and manual continuous feedrate dial. Refer to the
appropriate manual provided by the machine tool builder for override.
Restrictions:
Override range
The override that can be specified ranges from 0 to 254%. For individual machines, the
range depends on the specifications of the machine tool builder.
Override during thread
During threading the override is ignored and the feedrate remains as specified by
program.
3.5.3 DRY RUN
The tool is moved at the feedrate specified by a parameter regardless of the feedrate
specified in the program. This function is used for checking the movement of the tool
under the state that the workpiece is removed from the table.
Procedure for Dry Run
1. Press the dry run switch on the machine operator’s panel during automatic
operation.
2. The tool moves at the feedrate specified in a parameter. The rapid traverse switch
can also be used for changing the feedrate
3. Refer to the appropriate manual provided by the machine tool builder for dry run.
Explanation
The dry run feedrate changes as shown in the table below according to the rapid traverse
switch and parameters.
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Operating Procedure MAXMILL
Rapid traverse button Program command
Rapid traverse Feed
ONRapid traverse Dry run feedrate x JVMax
*2)
OFFDry run speed x JV, or
rapid traverse rate*1
Dry run feedrate x JV
3.5.4 SINGLE BLOCK
i) Pressing the single block switch starts the single block mode.
ii) When the cycle start button is pressed in the single block mode,
iii) The tool stops after a single block in the program is executed.
Procedure for single block
1 Press the single block switch on the machine operator’s panel. The execution of
the program is stopped after the current block is executed.
2 Press the cycle start button to execute the next block. The tool stops after the
block is executed.
Refer to the appropriate manual provided by the machine tool builder for single
block execution
Explanation
Reference position return and single block
If G28 to G30 are issued, the single block function is effective at the intermediate
point.
Subprogram call and single block
Single block stop is not performed in a block containing M98P_; .M99: or G65.However,
single block stop is even performed in a block with M98P-orM99 command, if the block
contains an address other than O.N or P.
Procedure to Run a Program:
a) Select a program
b) Press “ Auto Key”
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Operating Procedure MAXMILL
c) Press “Cycle Start”
Function: The Program will start running the machine.
E. Alarm: When the programmer makes mistake in the program Emergency Alarm will
displays the red light.
3.6 DATA Input/Output Procedure:
3.6.1 Input/Output Procedure:
NC data is transferred between the NC and external input/output devices such as the
Handy File. The following types of data can be entered and output:
1. Program
2. Offset data
3. Parameter
4. Pitch error compensation data
5. Custom macro common variable
Before an input/output device can be used, the input/output related parameters must be
set.Memory
RS-232-C or RS-422 interface (Punch panel etc…)
RS-232-C
Interface
RS-422
Memory card
interface
External I/O device
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Operating Procedure MAXMILL
A) File Search
When the program is input from the floppy, the file to be input first must be searched.
For this purpose, proceed as follows
Procedure for File Heading
1 Press the EDIT or MEMORY switch on the machine operator’s panel.
2 Press function key
3 Press soft key [(OPRT)]
4 Press the rightmost soft key (next-menu key).
5 Enter address N.
6 Enter the number of the file to be searched.
. N0.
The beginning of the cassette is searched.
.One of N1 to N9999.
Of the file Nos. 1 to 9999, a designated file is searched.
.N-9999.
The file next to that accessed just before is searched.
.N-9998
When N-9998 is designated, N-9999 is automatically inserted each time a file is
input or output. This condition is reset by the designation of N1, N1 to 9999 or
reset.
7 Press soft keys [FRSH] and [EXEC] The specified file is searched for:
File 1 File 2 File 3 File n Blank
File searching of the file n
PROG
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Operating Procedure MAXMILL
B) File Deletion
Files stored on a floppy can be deleted file by files as required.
Procedure for File deletion:
1 Insert the floppy into the input/output device so that it is ready for writing.
2 Press the EDIT switch on the machine operator’s panel.
3 Press function key PROG
4 Press soft key [(OPRT)]
5 Press the rightmost soft key (next – menu key).
6 Enter address N.
7 Enter the number (from 1 to 9999) of the file to delete.
8 Press soft key [DELETE] then press soft key [EXEC] .The file specified in step 7 is
deleted.
3.6.2 Program Input/Output
A) Inputting a program
1 Make sure the input device is ready for reading.
2 Press the EDIT switch on the machine operator’s panel.
3 When using a floppy, search for the required file
4 Press function key PROG
5 Press soft key [(OPRT)]
6 Press the rightmost soft key (next-menu key)
7 After entering addresses O, specify a program number to be assigned to the
program. When no program number is specified here, the program number used on
the floppy or NC tape is assigned.
8 Press soft keys [READ] AND [EXEC]
The program is input and the program number specified in step7 is assigned to the
program.
Explanations
Collation
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Operating Procedure MAXMILL
If a program is input while the data protect key on the machine operator’s panel turns
ON, the program loaded into the memory is verified against the contents of the floppy or
NC tape.
If a mismatch is found during collection, the collection is terminated with an P/S alarm
If the operation above is performed with the data protection key turns OFF, collation is
not performed, but programs are registered in memory.
1) Inputting multiple programs from an NC tape
When a floppy holds multiple programs, the floppy is read up to ER (or %).
Program numbers on a NC tape
When a program is entered without specifying a program number.
The O-number of the program on the NC tape is assigned to the program. If the
program has no O-number, the N-number in the first block is assigned to the
program.
When the program has neither an O-number nor N-number, the previous program
number is incremented by one and the result is assigned to the program.
When the program does not have an O-number but has a five-digit sequence
number at the start of the program, the lower four digits of the sequence number
are used as the program number. If the lower four digits are zeros, the previously
registered program number is incremented by one and the result is assigned to the
program.
When a program is entered with a program number.
The O-number on the NC tape is ignored and the specified number is assigned to
the program. When the program is followed by additional programs, the first
additional program is given the program number. Additional program numbers
are calculated by adding one to the last program.
Program registration in the background
The method of registration operation is the same as the method of foreground
operation. However, this operation registers a program in the background editing
O1111 M02; O2222 M30; O3333 M02; ER (%);
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Operating Procedure MAXMILL
area. As with edit operation, the operations described below are required at the
end to register a program in foreground program memory.
2) Additional program input
You can input a program to be appended to the end of a registered program.
In the above example, all lines of program O5678 are appended to the end of program
O1234.In this case; program number O5678 is not registered program. When inputting a
program to be appended to a registered program, press the [READ] soft key without
specifying a program number in step 8 .Then, press the [CHAIN] and [EXEC] soft keys.
In entire program input, all lines of a program are appended, except for its O
number.
When canceling additional input mode. Press the reset key or the [CAN] or
[STOP] soft key.
Pressing the [CHAIN] soft key positions the cursor to the end of the registered
program. Once a program has been input, the cursor is positioned to the start of
the new program.
Additional input is possible only when a program has already been registered.
B) Outputting a Program
Procedure
Make sure the output device is ready for output
To output to an NC tape, specify the punch code system (ISO or EIA) using a parameter.
Press EDIT key switch on the machine operator’s panel.
Press function key PROG
Press soft key[(OPRT)]
Press the right most soft key (next-menu key).
Enter address O.
Enter a program number. If –9999 is entered, all programs stored in memory are
output.
To output multiple programs at one time, enter a range as follows:
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Operating Procedure MAXMILL
O , O
Programs No. to No. are output. The program directory screen
displays program numbers in ascending order when bit 4 (SOR) for parameter
No.107 is set to 1.
Press soft keys [PUNCH] and [EXEC]
The specified program or programs are output.
Explanations
File output location
When output is conducted to the floppy, the program is output as the new file after the
files existing in the floppy. New files are to be written from the beginning with making
the old files invalid, use the above output operation after the N0 head searching.
An alarm while a program is output
When P/S alarm (No.086) occurs during program output, the floppy is restored to the
condition before the output.
Outputting a Program after file heading
When program output is conducted after N 1 to N9999 head searching., the output of the
new file is designated n-th position. In this case, 1 to n-1 files are effective, but the files
after the old n-th one are deleted. If an alarm occurs during output, only the 1 to n-1 files
are restored.
Efficient use of memory
To efficiently use the memory in the cassette or card, output the program by setting
parameter NFD (No.0101#7, No.0111#7 or 0121 #7) to 1.This parameter makes the feed
is not output, utilizing the memory efficiently.
On the memo record
Head searching with a file No. is necessary when a file output from the CNC to the
floppy is again input to the CNC memory. Therefore, immediately after
a file is output from the CNC to the floppy ,record the file No. on the memo.
Punching programs in the background
Punch operation can be performed in the same way as in the foreground. This function
alone can punch out a program selected for foreground operation.
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Operating Procedure MAXMILL
<O> (Program No.)[PUNCH][EXEC]: Punches out a specified program.
<O> H-9999I [PUNCH][EXEC]: Punches out all programs.
Explanations (Output to an NC tape)
Format
A program is output to floppy in the following format:
-----------ER Program ER------
-----------
Feed of 3 feet Feed of 3 feet
If the three-feet feeding is too long, press the key during feed punching to cancel
the subsequent feed punching.
CAN
c. Offset Data Input and Output
Procedure for Inputting Offset data
1 Make sure the input device is ready for reading
2 Press the EDIT switch on the machine operators panel
3 When using a floppy, search for the required file according to the procedure
4 Press function key to display tool offset screen OFFSET
SETTING
5 Press soft keys [OPRT]
6 Press rightmost soft key
7 Press soft keys [READ] AND [EXEC].
8 The input offset data will be displayed on the screen after completion of input
operation.
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Operating Procedure MAXMILL
a) Outputting Offset Data
Procedure for outputting offset data
1 Make sure the output device is ready for output.
2 Specify the punch code system (ISO or EIA) using a parameter.
3 Press the EDIT switch on the machine operator’s panel.
4 Press function key to display tool offset screen. OFF SET
SETTING
5 Press soft key [(OPRT)].
6 Press the rightmost soft key
7 Press soft keys [PUNCH] and [EXEC].
Offset data is output in the output format described below
Explanation
Output format Output format is as follows:
Format
G10 P_X_Z_R_Q_;
....Worksheet:P=0
....For wear offset amount: P=Wear offset number
…..For geometry offset amount: p=10000+geometry
offset number
X: Offset value on X axis
Z: Offset value on Z axis
Q: Imaginary tool nose number
R: Tool nose radius offset value
b) Inputting Parameters
Procedure for Inputting Parameters
1 Make sure the input device is ready for reading.
2 When using a floppy, search for the required file
3 Press the EMERGENCY STOP button on the machine operator’s panel. OFFSET
SETTING4 Press function Key
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Operating Procedure MAXMILL
5 Press the soft key [SETING] for chapter selection.
6 Enter 1 in response to the prompt for” PARAMETER WRITE (PWE)” in
setting data. P/S alarm (No.100 (indicating that parameters can be written)
appears.
7 Press soft key SYSTEM
8 Press chapter selection soft key [PARAM], then the parameter screen appears.
9 Press soft key [(OPRT)].
10 Press the rightmost soft key (continuous menu key).
11 Press soft keys [READ] and [EXEC].Parameters are read into memory.
Upon completion of input, the “INPUT” indicator at the lower –right corner of
the screen disappears.
12 Press function keyOFFSET
SETTING
13 Press soft key [SETING] for chapter selection.
14 Enter 0 in represents to the prompt for “PARAMETER WRITE (PWE)” in
setting data
15 Turn the Power to the NC back on.
16 Release the EMERGENCY STOP button on the machine operator’s panel.
c) Outputting Parameters
Procedure for outputting Parameters
1 Make sure the output device is ready for output.
2 Specify the punch code system (ISO or EIA) using a parameter.
3 Press the EDIT switch on the machine operator’s panel.
4 Press function key SYSTEM
5 Press chapter selection soft key [PARAM] to display the parameter screen.
6 Press soft key[(OPRT)]
7 Press rightmost soft key (continuous menu key).
8 Press soft keys [PUNCH]
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Operating Procedure MAXMILL
9 To output all parameters, press [ALL] soft key. To output only parameters
which are set to other than 0, press the [NON-0] soft key.
10 Press soft key [EXEC].
All parameters are output in the defined format.
Explanations
Output format
Output format is as follows:
N. . P . . . . . ;
N. . . AIP . . . A2P . . . A2P . . . ;
N. . . P . . . . ;
N: Parameter No.
A: Axis No. (n is the number of control axis)
P: Parameter setting value.
d) Inputting Pitch Error Compensation Data
Procedure for Pitch error compensation data
1 Make sure the input device is ready for reading.
2 When using a floppy, search for the required file
3 Press the EMERGENCY STOP button on the machine operator’s panel.
OFFSET
SETTING4 Press function key
5 Press the soft key [SETING]
6 Enter 1 in response to the prompt for “PARAMETERS WRITE (PWE)” in
setting data. P/S alarm (No 100 (indicating that parameters can be written))
appears.
7 Press soft key SYSTEM
8 Press the rightmost soft key (next-menu key) and press chapter selection
soft key [PITCH].
9 Press soft key [(OPRT)]
10 Press the rightmost soft key (continuous menu key).
11 Press soft keys [READ] AND [EXEC].
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Operating Procedure MAXMILL
Pitch error compensation data are read into memory. Upon completion of input,
the “INPUT” indicator at the lower- right corner of the screen disappears.
OFFSET
SETTING12 Press function key
13 Press soft key [SETTING] for chapter selection.
14 Enter 0 to the prompt for “PARAMETERS. WRITE (PWE)” of setting data.
15 Turn the power to the NC back on.
16 Release the EMERGENCY STOP button on the machine operator’s panel.
Explanations Pitch error compensation:
Parameters 3620 to 3624 and pitch error compensation data must be set correctly to apply
pitch error compensation correctly.
Outputting Pitch Error Compensation Data
Procedure for Outputting Pitch Error Compensation Data
1 Make sure the output device is ready for output.
2 Specify the punch code system (ISO or EIA) using a parameter.
3 Press the EDIT switch on the machine operator’s panel.
4 Press function key SYSTEM
5 Press the rightmost soft key (continuous menu key) and press Chapter
selection soft key [PITH].
6 Press soft key [(OPRT)].
7 Press rightmost soft key (continuous menu key).
8 Press soft keys [PUNCH] and [EXEC].
All pitch error compensation data are output in defined format.
3.7 EDITING PROGRAMS
Editing includes the insertion, modification, deletion, and replacement of words. Editing
also includes deletion of the entire program and automatic insertion of sequence numbers.
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Operating Procedure MAXMILL
Procedure
1 Select EDIT mode.
2 Press . PROG
3 Select a program to be edited.
If a program to be edited is selected, perform the operation 4. If a program to be
edited is not selected search for the program number.
4 Search for a word to be modified.
. Scan method
. Word search method
5 Perform an operation such as altering, inserting, or deleting a word.
The user cannot continue program execution after altering, inserting, or deleting data of the
program by suspending machining in progress by means of an operation such as a single block
stop or feed hold operation during program execution. If such a modification is made, the
program may not be executed exactly according to the contents of the program displayed on the
screen after machining is resumed. So, when the contents of memory are to be modified by part
program editing, be sure to enter the reset state or reset the system upon completion of editing
before executing the program.
Warning
3.7.1 Word Search
Procedure for scanning program
1 Press the cursor key
The cursor moves forward word by word on the screen; the cursor is displayed at
a selected word.
2 Press the cursor key
The cursor moves backward word by word on the screen: the cursor is displayed
at a selected word.
3 Holding down the cursor key or scans words continuously.
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Operating Procedure MAXMILL
4 The first word of the next block is searched for when the cursor key is
pressed.
5 The first word of the previous block is searched for when the cursor key is
pressed.
6 Holding down the cursor key or moves the cursor to the head of a
block continuously.
7 Pressing the page key displays the next page and searches for the
first word of the page.
PAGE
8 Pressing the page key displays the previous page and searches for PAGE
the first word of the page.
9 Holding down the page key or displays one page afterPAGE
PAGE
another
Example) Searching for S12
Program O0050 N01234
O0050;
N01234 X100.0 Z1250.0;
S12;
N56789 M03;
M02;
%
N 01234 is being
searched for/ scanned
currently, S12 is
searched for.
Procedure
S1 Key in address
2 Key in 1 2
Press the [SRH ] key starts search operation.
Upon completion of search operation, the cursor is displayed ay S12.Pressing the [SRH
] key rather than the [SRH ] key performs search operation in the reverse direction.
43 of 319
Operating Procedure MAXMILL
ALARM
Alarm number Description
71The word or address being
searched for was not found.
3.7.2 Heading a program
Procedure for heading program
Method 1
1 Press when the program screen is selected in EDIT mode. WhenRESET
the cursor has returned to the start of the program, the contents of the
programs are displayed from its start on the screen.
Method 2
Search for the program number.
1 Press address , when a program screen is select in the MEMORY or EDIT
mode.
2 Input a program number.
3 Press the soft key [0 SRH]
Method 3
1 Select MEMORY or EDIT mode.
2 Press
3 Press the [(OPRT)] key.
4 Press the [REWIND] key.
3.7.3 Inserting a Word
Procedure for inserting a word:
1 Search for or scan the word immediately before a word to be inserted.
2 Key in an address to be inserted.
3 Key in data.
4 Press the key. INSERT
44 of 319
PROG
Operating Procedure MAXMILL
Example of Inserting T15
1 Search for or scan Z 1250.
Program O0050 N01234
O0050;
N01234 X100.0 Z1250.0;
S12;
N56789 M03;
M02;
%
Z 1250.0 is searched for/
scanned.
2 Key in . T 1 5
3 Press the key. INSERT
Program O0050 N01234
O0050;
N01234 X100.0 Z1250.0; T15;
S12;
N56789 M03;
M02;
%
M15 is inserted
3.7.4 Altering a Word
Procedure for altering a word
1 Search for or scan a word to be altered.
2 Key in the address to be inserted.
3 Key in data.
4 Press the key. ALTER
45 of 319
Operating Procedure MAXMILL
Example of changing T15 to M15
Procedure
Program O0050 N01234
O0050;
N01234 X100.0 Z1250.0; T15;
S12;
N56789 M03;
M02;
%
M13 is searched
for/scanned.
1 Search for or scan T15.
1 52 Key in
3 Press the key.
3.7.5 Deleting procedures
Deleting a Word
Procedure for deleting a word:
1 Search for or scan a word to be deleted.
2 Press the key.
M
ALTER
Program O0050 N01234
O0050;
N01234 X100.0 Z1250.0; M15;
S12;
N56789 M03;
M02;
%
M13 is changed to M15.
DELETE
46 of 319
Operating Procedure MAXMILL
Example of deleting X100.0
Deleting Blocks
A block or blocks can be deleted in a program.
Procedure for Deleting a Block:
1 Search for or scan address N for a block to be deleted.
2 Key in . EOB
3 Press . DELETE
3.7.6 PROGRAM NUMBER SEARCH
Procedure for program number search
1 Select EDIT or MEMORY mode.
2 Press to display the program screen.
3 Key in address .
PROG
0
4 Key in a program number to be searched for.
5 Press the [O SRH] key.
6 Upon completion of search operation, the program number searched for is
displayed in the upper – right corner of CRT screen If the program is not found,
P/S alarm No.71 occurs.
3.7.7 SEQUENCE NUMBER SEARCH
Sequence number search operation is usually used to search for a sequence number in the
middle of a program so that execution can be started or restarted at the block of the
sequence number.
Procedure for sequence Number Search
1 Select MEMORY mode.
2 Press . PROG
47 of 319
Operating Procedure MAXMILL
3 If the program contains a sequence number to be searched for, perform the
operations 4 to 7 below.
If the program does not contain a sequence number to be searched for, select the
program number of the program contains the sequence number to be searched for.
N4 Key in address
5 Key in a sequence number to be searched for.
6 Press the [N SRH] key.
7 Upon completion of search operation, the sequence number searched for
displayed in the upper – right corner of the CRT screen.
If the specified sequence number is not found in the program currently selected,
P/S alarm (No.060) occurs.
Explanations (Operation during search)
Those blocks that are skipped do not affect the CNC. This means that the data in
the skipped blocks such as coordinates and M,S and T codes does not alter the
controller coordinates and modal values.
So, in the first block where execution is to be started or restarted by using a
sequence number search command, be sure to enter required M,S, and T codes
and coordinates. A block searched for by sequence number search usually
represents a point of shifting from one process to another. When a block in the
middle of a process must be searched for to restart execution at the block, specify
M.S and T codes, G codes , coordinates, and so forth as required from the MDI
after closely checking the machine tool and status of the controller at that point.
Checking during search
During search operation, the following checks are made:
. Optional block skip
. P/S alarm (No 003 to 010)
48 of 319
Operating Procedure MAXMILL
Restrictions:
Searching in sub-program
During sequence number search operation, M98Pxxxx (subprogram call) is not executed.
So an alarm (No .060) is raised if an attempt is made to search for a sequence number in a
subprogram called by the program currently selected.
Alarm No. Contents
60Command sequence number was not
found in the sequence number search.
i) DELETING PROGRAMS
Procedure for Deleting One Program
1 Select the EDIT mode.
2 Press
3 Key in address
Main program Subprogram
O1234 O5678
: :
: N88888
M98 P5678;
: M99;
: :
If an attempt is made to search for N8888 in the example above, an alarm is
raised.
PROG
O
4 Key in a desired program number.
5 Press key DELETE
The program with the entered program number is deleted.
49 of 319
Operating Procedure MAXMILL
Deleting All Programs
Procedure for deleting all Programs
1 Set the mode select switch to EDIT mode.
2 Press to display the program screen. PROG
3 Key in address . O
4 Key in -9999.
5 Press edit key to delete all programs. DELETE
Deleting More than One Program by Specifying a Range
Procedure for Deleting More Than One Program by Specifying a Range
1 Select the EDIT mode.
2 Press to display the program screen. PROG
3 Enter the range of program numbers to be deleted with address and numeric keys
in the following format:
OXXXX, OYYYY
Where XXXX is the starting number of the programs to be deleted and YYYY is
the ending number of the programs to be deleted.
4 Press edit key to delete programs no. XXXX to No YYYY DELETE
3.8 CREATING PROGRAMS
Procedure for creating programs using the MDI panel
1 Enter the EDIT mode.
2 Press the key. PROG
3 Press address key and enter the program number. O
4 Press the key. INSERT
5 Create a program using the program editing functions
50 of 319
Operating Procedure MAXMILL
Explanation
Comments in a program
Comments can be written in a program using the control in /out codes.
Example: O0001 (FANUC SERIES 16);
M08 (COOLANT ON);
When the key is pressed after the control-out code’ (“, comments, and INSERT
Control – in code “)” have been typed, the typed comments are registered.
When the key is pressed midway through comments, to enter the rest INSERT
of comments later; the data typed before the key is pressed may not be INSERT
correctly registered (not entered, modified, or lost) because the data is subject to an entry
check this is performed in normal editing.
Note the following to enter a comment:
Control-in code”)” cannot be registered by itself.
Comments entered after the key is pressed must not begin with a
number, space, or address O.
INSERT
If an abbreviation for a macro is entered, the abbreviation is converted in to a
macro word and registered.
Address O and subsequent numbers, or a space can be entered but are omitted
when registered.
51 of 319
Error Diagnosis MAXMILL
ALARM
ALARM
NO
DESCRIPTION CAUSE REMEDY
1000 A0.0
EMERGENCY
CONDITION
This alarm occurs when
the machine is in
emergency Condition.
EFFECT:
NC start disable
Feed stop
Spindle stop
Emergency push button
has to be released.
Check whether the
relay EMG1, EMG2 is
ON Check if any
MPCB is tripped.
1020 A2.0
MAG IS IN WRONG
POSITION
This alarm occurs when
the indexed magazine
position is not OK.
EFFECT:
NC start disable
Spindle stop
Magazine is not in
correct position
1. Select jog mode.
2. Index the magazine
3. If alarm is not
cleared check input
X10.4.This should be
0. If not check
magazine count
proximity switch check
the wiring.
1021 A2.2
LUBRICATION
TANK EMPTY- PL
REFILL
This alarm occurs when
the lubrication level is low
in the lubrication tank.
EFFECT:
NC start disable
Feed stop
1. Fill lubrication tank.
2. If the tank is full
check input X9.2
3. Check lubrication
float switch.
4. Check the
connection.
4. Error Diagnosis
52 of 319
Error Diagnosis MAXMILL
Spindle stop
1029 A1.5
MAG POS NOT OK
REF TRT
This alarm occurs when
the magazine is in wrong
position.
EFFECT:
NC start disable
Spindle stop
1.Select Ref mode
2. Press MAG REF
.Magazine indexes to
tool number 1
3. Reset the alarm
If alarm is not cleared
check input X10.4.This
should be 0. If not
check magazine count
proximity switch check
the wiring check input
X10.5.It should be 1 at
reference position. If
not check magazine ref
proximity switch check
the wiring.
1030 A2.1
MAG INDEX
TIMEOUT
This alarm occurs when
the magazine does not
respond within 10s.
EFFECT:
NC start disable
Spindle stop
Reference the
magazine.If the alarm
persists check input
X10.5.It should be 1 at
reference position.
If not check wiring,
check proximity ref
and count. Check
magazine Motor wiring
as per circuit diagram.
1040 A1.6
AIR PRESSURE
FAIL
This alarm occurs when air
pressure is not OK.
EFFECT:
NC start disable
1. Check if the Air
supply is provided for
the machine.
2. Check whether the
53 of 319
Error Diagnosis MAXMILL
Spindle stop input X9.6 is 1. If it is
0 and Air supply is
given (6 bar) check air
pressure switch.
1046 A2.7
ARM NOT FWD
This alarm message occurs
when the Arm fwd output
is ON and the arm forward
feed back limit switch is
not sensed.
EFFECT:
NC start disable
Spindle stop
Check if the alarm is
not in forward position.
1. Check whether Y9.1
is ON
2. Check if Solenoid1
is ON,
3. Check whether
Relay 6 is ON. b. If
arm is in forward
position then check
input X10.2 is 1 and X
10.3 is 0 .If not check
limit switch wiring,
Relay wiring, Solenoid
wiring.
1047 A3.0
ARM NOT REV
This alarm message occurs
when the Arm rev output is
ON and the arm reverse
feed back limit switch is
not sensed.
EFFECT:
NC start disable
Spindle stop
Check if the
a. Arm is not in
reverse position.
1. Check whether Y9.1
is OFF
2. Check Solenoid1 is
OFF
3. Check whether
Relay 6 is OFF
b. If arm is in reverse
position then 1. check
input X10.2 is 0 and
x10.3 is 1.If not check
54 of 319
Error Diagnosis MAXMILL
limit switch wiring,
Relay wiring, Solenoid
wiring
1048 A3.1
TOOL NOT
UNCLAMP
This alarm message occurs
when the Tool unclamp
output is ON and the Tool
unclamp feed back reed
switch is not sensed or Air
pressure is not OK.
EFFECT:
NC start disable
Spindle stop
Check if the
a. Tool is not
unclamped.
1. Check whether Y9.2
is ON
2. Check if Solenoid2
is ON,
3. Check whether
Relay 7 is ON.
b. If Tool is in
unclamp position then
check input X10.1 is 1
and X 10.0 is 0 .If not
check reed switch
wiring, Relay wiring,
Solenoid wiring. Also
check Air pressure
switch. X9.6 should be
1.
1049 A3.2
TOOL NOT CLAMP
This alarm message occurs
when the Tool unclamp
output is OFF and the Tool
clamp feed back reed
switch is not sensed or Air
pressure is not OK.
EFFECT:
NC start disable
Spindle stop
Check if the
a. Tool is not clamped.
1. Check whether Y9.2
is OFF
2. Check if Solenoid2
is OFF,
3. Check whether
Relay 7 is OFF
b. If Tool is in clamp
position then check
55 of 319
Error Diagnosis MAXMILL
input X10.1 is 0 and X
10.0 is 1 .If not check
reed switch wiring,
Relay wiring, Solenoid
wiring. Also check Air
pressure switch. X9.6
should be 1.
1050 A3.3
DOOR NOT
CLOSED
This alarm message occurs
when the Door close
output is ON and the Door
close feed back reed switch
is not sensed or Air
pressure is not OK.
EFFECT:
NC start disable
Spindle stop
Check if the
a. Door is not closed
1. Check whether Y9.3
is ON
2. Check if Solenoid3is
ON,
3. Check whether
Relay 8 is ON.
b. If Door is closed
position then check
input X10.7 is 1 and X
10.6 is 0 .If not check
reed switch wiring,
Relay wiring, Solenoid
wiring. Also check Air
pressure switch. X9.6
should be 1.
1051 A3.4
DOOR NOT OPEN
This alarm message occurs
when the Door open output
is ON and the Door open
feed back reed switch is
not sensed or Air pressure
is not OK
EFFECT:
NC start disable
Check if the
a. Door is not open
1. Check whether Y9.4
is ON
2. Check if Solenoid4
is ON,
3. Check whether
Relay 9is ON.
56 of 319
Error Diagnosis MAXMILL
Spindle stop b. If Door is open
position then check
input X10.6 is 1 and X
10.7 is 0 .If not check
reed switch wiring,
Relay wiring, Solenoid
wiring. Also check Air
pressure switch. X9.6
should be 1.
1052 A7.3
CLNT MOTOR
TRIP
This alarm occurs when
the Coolant motor MPCB
is tripped
EFFECT:
NC start disable
Spindle stop
Feed stop
Check whether the
MPCB is tripped if so
switch ON the MPCB
and switch ON the
Coolant. If the alarm
occurs again then
Motor may be short
circuited. Check the
Motor winding
resistance it should be
around 52 ohms
between UV, VW, and
UW. Check insulation
between earth and U,
V, W. If it is OK then
check Motor wiring for
loose connection.
Ensure Motor is
earthed. Check input
status x8.3 .It should be
1 if MPCB is ON.
1053 A7.4
LUB MOTOR TRIP
This alarm occurs when
the LUB motor MPCB is
Check whether the
MPCB is tripped if so
57 of 319
Error Diagnosis MAXMILL
tripped
EFFECT:
NC start disable
Spindle stop
Feed stop
switches ON the
MPCB and Switch ON
the LUB by pressing
“LUB INCH”. If the
alarm occurs again
then Motor may be
short circuited. Check
the Motor winding
resistance it should be
around 55 ohms
between UV, VW, and
UW. Check insulation
between earth and U,
V, W. If it is OK then
check Motor wiring for
loose connection.
Ensure Motor is
earthed. Check input
status x8.5 .It should be
1 if MPCB is ON.
1055 A4.1
AIR PRESSURE
LOW
This alarm occurs when air
pressure is low or Air is
not in the range 4 to 8 bar
EFFECT:
NC start disable
Spindle stop
1. Check if the Air
supply is provided for
the machine. Check if
the pressure is above 4
bar
2. Check whether the
input X9.6 is1. If it is 0
check the Air pressure
switch.
1061 A7.2
MAG MOTOR TRIP
This alarm occurs when
the Magazine motor
Check whether the
MPCB is tripped if so
58 of 319
Error Diagnosis MAXMILL
MPCB is tripped
EFFECT:
NC start disable
Spindle stop
Feed stop
switch ON the MPCB
and Index the
Magazine. If the alarm
occurs again then
Motor may be short
circuited. Check the
Motor winding
resistance it should be
around 262 ohms
between UV, VW, and
UW. Check insulation
between earth and U,
V, W. If it is OK then
check Motor wiring for
loose connection.
Ensure Motor is
earthed. Check input
status x8.1 .It should be
1 if MPCB is ON
1062 A3.5
MACHINE LOCK
REFERENCE THE
MACHINE
This alarm occurs when
the machine lock is made
ON and then OFF
EFFECT:
NC start disable
Spindle stop
1.Reference the Axes
2. Reset the alarm after
referencing.
59 of 319
Error Diagnosis MAXMILL
MESSAGES
MESSA
GE NO
DESCRIPTION CAUSE REMEDY
2007 A1.0
DOOR IN OPEN PL
CLOSE THE DOOR
AND CYCLE START
If the door is not in closed
position this message comes.
Close the door
Reset the Alarm
press the cycle start
key
2012 A1.2
SPINDLE NOT IN
ZERO SPEED
This alarm occurs when the
Automatic Tool change
(M06) command is given
when the spindle is in
running condition.
Stop the rotation of
the spindle.
Press the reset key to
clear the alarm
message.
2013 A1.3
Z AXIS IS MOVING
This alarm occurs when the
Automatic Tool change
(M06) command is given
when the Z axis is in moving
condition.
Stop the Movement
of Z axis
Press the reset key to
clear the alarm
message.
2022 A2.3
LUBRICATION UNIT-
PRESSURE FAIL
This message occurs when
the lubrication pressure fails
to develop after the
lubrication motor is ON.
1.Check whether the
lubrication motor is
ON
2. Check the direction
of rotation.
3. Check the
lubrication pressure
switch check input
X9.3. It should be 1
while the motor is
ON Rectify the error.
60 of 319
Error Diagnosis MAXMILL
2026 A2.4
Z AXIS NOT IN
POSITION
This message occur when
M06/ magazine index is
commanded and Machine
position of Z axis not in the
range 0 to -142.
Move the Z axis so
that machine position
of Z axis is between 0
to -142.
2027 A1.1
WRONG TOOL
NUMBER
SELECTED.SELECT
T1 TO T10
This message occurs if the
Tool number commanded is
not between 1 and 10
Command tool
between T1 and T10
2037 A0.2
INDEX THE MAG IN
JOG TL CL MAN
This message occurs when
the Tool is clamped
manually ie in jog mode.
Now the system does not
know the tool number.
Suppose it is 5th
tool
you have clamped ,
Select JOG mode
Index the magazine
to that tool position 5
and then press “MAG
REF”. By doing so
we are teaching the
System that the Tool
number is 5. Now the
Tool number of
Magazine and
Spindle is 5.
NOTE: Please
DONOT Teach the
system a tool number
in which already a
tool is present by
doing so ACCIDENT
will take place.
61 of 319
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Program Logic Controller MAXMILL
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63 of 319
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Program Logic Controller MAXMILL
219 of 319
Input Wire number CONN NO conn no TSD no Description ELEMENT
CE56A01 1 1 0 V - 60
X8.0 X80 A02 3 1 SPARE
X8.1 X81 B02 4 1 TRT MOTOR TRIP MPCB-NOX8.2 X82 A03 5 1 SPARE
X8.3 X83 B03 6 1 CLNT MOTOR TRIP MPCB-NOX8.4 X84 A04 7 1 ESTOP RELAYX8.5 X85 B04 8 1 LUB MOTOR TRIP MPCB-NOX8.6 X86 A05 9 1 SPARE X8.7 X87 B05 10 1 SPARE
X9.0 X90 A06 11 1 DOOR CLOSED FEED BACK LS-NOX9.1 X91 B06 12 1 SPAREX9.2 X92 A07 13 1 LUB FLOAT SWITCH FLOAT -NOX9.3 X93 B07 14 1 LUB PRESSURE SWITCH PS -NOX9.4 X94 A08 15 1 AC INPUT ACX9.5 X95 B08 16 1X9.6 X96 A09 17 1 AIR PRESSURE SWITCH APS-NOX9.7 X97 B09 18 1
X10.0 X100 A10 19 1 TOOL CLAMP REED SW RSW-NOX10.1 X101 B10 20 1 TOOL UNCLAMP REED SWITCH RSW-NOX10.2 X102 A11 21 1 ARM IN LIMIT SWITCH LS-NOX10.3 X103 B11 22 1 ARM OUT LIMIT SWITCH LS-NOX10.4 X104 A12 23 1 TURRET INDEX SENSOR PRXX10.5 X105 B12 24 1 TURRET REF SENSOR PRXX10.6 X106 A13 25 1X10.7 X107 B13 26 1
CE 57A01 1 2 0 V - 60
X11.0 X110 A02 3 2X11.1 X111 B02 4 2X11.2 X112 A03 5 2X11.3 X113 B03 6 2X11.4 X114 A04 7 2X11.5 X115 B04 8 2X11.6 X116 A05 9 2X11.7 X117 B05 10 2
X12.0 X120 A06 11 2X12.1 X121 B06 12 2X12.2 X122 A07 13 2X12.3 X123 B07 14 2X12.4 X124 A08 15 2X12.5 X125 B08 16 2X12.6 X126 A09 17 2X12.7 X127 B09 18 2Input
number Wire number CONN NO conn no TSD no Description ELEMENTX13.0 X130 A10 19 2X13.1 X131 B10 20 2X13.2 X132 A11 21 2X13.3 X133 B11 22 2X13.4 X134 A12 23 2X13.5 X135 B12 24 2X13.6 X136 A13 25 2X13.7 X137 B13 26 2
6. Input Output Details
Input Output Details MAXMILL
220 of 319
CB 56A01 1 0 V - 60
X24.0 X240 A02 3 3 AUTO PB - NOX24.1 X241 B02 4 3 EDIT PB - NOX24.2 X242 A03 5 3 MDI PB - NOX24.3 X243 B03 6 3 JOG PB - NOX24.4 X244 A04 7 3 REF PB - NOX24.5 X245 B04 8 3 DNC PB - NOX24.6 X246 A05 9 3 SINGLE BLOCK PB - NOX24.7 X247 B05 10 3 BLOCK DELETE PB - NO
X25.0 X250 A06 11 3 OPTIONAL STOP PB - NOX25.1 X251 B06 12 3 DRY RUN PB - NOX25.2 X252 A07 13 3 MPG PB - NOX25.3 X253 B07 14 3 X1 PB - NOX25.4 X254 A08 15 3 X10 PB - NOX25.5 X255 B08 16 3 X100 PB - NOX25.6 X256 A09 17 3 MACHINE LOCK PB - NOX25.7 X257 B09 18 3 VICE CLAMP/UNCLAMP PB - NO
X26.0 X260 A10 19 3 DOOR CLOSE/OPEN PB - NOX26.1 X261 B10 20 3 PROGRAM PROTECT ON/OFF PB - NOX26.2 X262 A11 21 3 ARM IN/OUT PB - NOX26.3 X263 B11 22 3 TOOL CL/UNCL PB - NOX26.4 X264 A12 23 3 MAG INDEX PB - NOX26.5 X265 B12 24 3 MAG REF PB - NOX26.6 X266 A13 25 3 CYCLE START PB - NOX26.7 X267 B13 26 3 CYCLE STOP PB - NC
CB 57A01 1 0 V - 60
X27.0 X270 A02 3 4 PRG STOP PB - NCX27.1 X271 B02 4 4 FLUSH CLNT ON/OFF PB - NOX27.2 X272 A03 5 4 CLNT ON/OFF PB - NOX27.3 X273 B03 6 4 LUB INCH PB - NOX27.4 X274 A04 7 4 4 PB - NOX27.5 X275 B04 8 4 SPINDLE ORIENT PB - NOX27.6 X276 A05 9 4 SPINDLE INCH PB - NOX27.7 X277 B05 10 4 X PB - NOInput
number Wire number CONN NO conn no TSD no Description ELEMENTX28.0 X280 A06 11 4 Y PB - NOX28.1 X281 B06 12 4 Z PB - NOX28.2 X282 A07 13 4 PLUS PB - NOX28.3 X283 B07 14 4 RAPID PB - NOX28.4 X284 A08 15 4 MINUS PB - NOX28.5 X285 B08 16 4 SPDL CW PB - NOX28.6 X286 A09 17 4 SPDL STOP PB - NCX28.7 X287 B09 18 4 SPDL CCW PB - NO
X29.0 X290 A10 19 4 SPDL SPEED OVR-1X29.1 X291 B10 20 4 SPDL SPEED OVR-2X29.2 X292 A11 21 4 SPDL SPEED OVR-3X29.3 X293 B11 22 4 FEED OVR-1X29.4 X294 A12 23 4 FEED OVR-2X29.5 X295 B12 24 4 FEED OVR-3X29.6 X296 A13 25 4 FEED OVR-4X29.7 X297 B13 26 4 FEED OVR-5
Input Output Details MAXMILL
221 of 319
Input
number Wire number CONN NO conn no TSD no Description ELEMENT
CE 56Y8.0 Y80 A16 31 1 SPAREY8.1 Y81 B16 32 1 SPAREY8.2 Y82 A17 33 1 COOLANT ON CONTACTORY8.3 Y83 B17 34 1 LUB ON CONTACTORY8.4 Y84 A18 35 1 Z AXIS BRAKE ON RELAYY8.5 Y85 B18 36 1 SPAREY8.6 Y86 A19 37 1 MAG CW CONTACTORY8.7 Y87 B19 38 1 MAG CCW CONTACTOR
Y9.0 Y90 A20 39 1 SPAREY9.1 Y91 B20 40 1 ARM IN/ OUT RELAYY9.2 Y92 A21 41 1 TOOL CLAMP/UNCLAMP RELAYY9.3 Y93 B21 42 1Y9.4 Y94 A22 43 1Y9.5 Y95 B22 44 1Y9.6 Y96 A23 45 1Y9.7 Y97 B23 46 1
A24 47 1 64B24 48 1 64A25 49 1 64B25 50 1 64
CB105Y10.0 Y100 A16 31 2 AUTO LEDY10.1 Y101 B16 32 2 EDIT LEDY10.2 Y102 A17 33 2 MDI LEDY10.3 Y103 B17 34 2 JOG LEDY10.4 Y104 A18 35 2 REF LED Y10.5 Y105 B18 36 2 DNC LEDY10.6 Y106 A19 37 2 PLUS-LEDY10.7 Y107 B19 38 2 RAPID -LED
Y11.0 Y110 A20 39 2 MINUS-LEDY11.1 Y111 B20 40 2 SPDL INCH -LEDY11.2 Y112 A21 41 2Y11.3 Y113 B21 42 2Y11.4 Y114 A22 43 2Y11.5 Y115 B22 44 2Y11.6 Y116 A23 45 2Y11.7 Y117 B23 46 2
A24 47 2 64B24 48 2 64A25 49 2 64B25 50 2 64
Input Output Details MAXMILL
222 of 319
Input number Wire number CONN NO conn no TSD no Description ELEMENT
CB 104Y12.0 Y120 A16 31 3 SINGLE BLOCK -LEDY12.1 Y121 B16 32 3 BLOCK DELETE -LEDY12.2 Y122 A17 33 3 OPTIONAL STOP-LEDY12.3 Y123 B17 34 3 DRY RUN -LEDY12.4 Y124 A18 35 3 MACHINE LOCK - LEDY12.5 Y125 B18 36 3 VICE CLAMP-LEDY12.6 Y126 A19 37 3 DOOR CLOSE-LEDY12.7 Y127 B19 38 3 ARM - OUT -LED
Y13.0 Y130 A20 39 3 TOOL CLAMP -LEDY13.1 Y131 B20 40 3 MAG INDEX-LEDY13.2 Y132 A21 41 3 MAG REF-LEDY13.3 Y133 B21 42 3 CYCLE START-LEDY13.4 Y134 A22 43 3 CYCLE STOP -LEDY13.5 Y135 B22 44 3 PRG STOP-LEDY13.6 Y136 A23 45 3 AIR ON -LEDY13.7 Y137 B23 46 3 ALARM -LED
A24 47 3 64B24 48 3 64A25 49 3 64B25 50 3 64
CB105Y14.0 Y140 A16 31 4 MACHINE READY - LEDY14.1 Y141 B16 32 4 X1-LEDY14.2 Y142 A17 33 4 X10-LEDY14.3 Y143 B17 34 4 X100-LEDY14.4 Y144 A18 35 4 SPDL -CW -LEDY14.5 Y145 B18 36 4 SPDL-OFF -LEDY14.6 Y146 A19 37 4 SPDL -CCW-LEDY14.7 Y147 B19 38 4 CLNT ON/OFF
4Y15.0 Y150 A20 39 4 MPG -LEDY15.1 Y151 B20 40 4 X-LEDY15.2 Y152 A21 41 4 Y-LEDY15.3 Y153 B21 42 4 Z-LEDY15.4 Y154 A22 43 4 FLUSH CLNT ON-LEDY15.5 Y155 B22 44 4 LUB ON-LEDY15.6 Y156 A23 45 4 4-LEDY15.7 Y157 B23 46 4 SPDL ORIENT -LED
A24 47 4 64B24 48 4 64A25 49 4 64B25 50 4 64
Input Output Details MAXMILL
223 of 319
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% N00000 P 00000010 N00001 P 00000000 N00002 P 00000000 N00012 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N00020 P 4 N00021 P 0 N00022 P 0 N00023 P 0 N00024 P 0 N00100 P 00010100 N00101 P 10001001 N00102 P 0 N00103 P 11 N00110 P 00000000 N00111 P 10001001 N00112 P 0 N00113 P 11 N00121 P 00000000 N00122 P 0 N00123 P 0 N00131 P 00000000 N00132 P 0 N00133 P 0 N00134 P 00000000 N00135 P 00000000 N00138 P 00000000 N00140 P 00000000 N00141 P 0 N00142 P 0 N00143 P 0 N00144 P 0 N00145 P 0 N00146 P 0 N00147 P 0 N00148 P 0 N00149 P 0 N00161 P 00000000 N00162 P 00000000 N00171 P 0 N00172 P 0 N00173 P 0
N00174 P 0 N00175 P 0 N00176 P 0 N00177 P 0 N00178 P 0 N00190 P 0 N00191 P 0 N00192 P 0 N00201 P 00000000 N00203 P 0 N00204 P 0 N00206 P 0 N00231 P 00000000 N00233 P 0 N00241 P 0 N00242 P 0 N00250 P 00000000 N00251 P 00000000 N00252 P 00000000 N00253 P 00000000 N00260 P 00000000 N00261 P 00000000 N00262 P 00000000 N00263 P 00000000 N00271 P 00000000 N00272 P 0 N00273 P 0 N00281 P 00000000 N00282 P 0 N00283 P 0 N00291 P 00000000 N00292 P 0 N00293 P 0 N00300 P 00000000 N00301 P 00000000 N00311 P 00000000 N00312 P 0 N00420 P 0 N00421 P 0 N00422 P 0 N00423 P 0 N00424 P 0 N00425 P 0 N00426 P 0 N00427 P 0 N00430 P 0
N00431 P 0 N00432 P 0 N00433 P 0 N00434 P 0 N00435 P 0 N00436 P 0 N00437 P 0 N00438 P 0 N00439 P 0 N00440 P 0 N00441 P 0 N00442 P 0 N00443 P 0 N00444 P 0 N00445 P 0 N00446 P 0 N00801 P 00000000 N00802 P 0 N00803 P 0 N00810 P 00000000 N00811 P 0 N00812 P 0 N00813 P 0 N00814 P 0 N00815 P 0 N00820 P 0 N00821 P 0 N00822 P 0 N00823 P 0 N00824 P 0 N00825 P 0 N00826 P 0 N00827 P 0 N00828 P 0 N00850 P 00000000 N00851 P 0 N00852 P 0 N00853 P 0 N00900 P 00000000 N00901 P 00000000 N00902 P 00000000 N00903 P 00000000 N00904 P 00000000 N00905 P 00000000 N00911 P 0 N00912 P 0
8. CNC Parameter
CNC Parameter MAXMILL
280 of 319
N00913 P 0 N00914 P 0 N00915 P 0 N00916 P 0 N00917 P 0 N00918 P 0 N00919 P 0 N00920 P 0 N00921 P 0 N00922 P 0 N00923 P 0 N00924 P 0 N00925 P 0 N00926 P 0 N00927 P 0 N00928 P 0 N00929 P 0 N00930 P 0 N00931 P 0 N00932 P 0 N00933 P 0 N00934 P 0 N00935 P 0 N00941 P 0 N00942 P 0 N00943 P 0 N00944 P 0 N00945 P 0 N00946 P 0 N00947 P 0 N00948 P 0 N00960 P 00000000 N00961 P 00000000 N01001 P 00000000 N01002 P 00000010 N01003 P 00000000 N01004 P 00000000 N01005 A1 P 00000011 A2 P 00000011 A3 P 00000011 A4 P 00000011 N01006 A1 P 00000000 A2 P 00000000 A3 P
00000000 A4 P 00000000 N01007 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01008 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01010 P 4 N01015 P 00000000 N01020 A1 P 88 A2 P 89 A3 P 90 A4 P 65 N01022 A1 P 1 A2 P 2 A3 P 3 A4 P 4 N01023 A1 P 1 A2 P 2 A3 P 3 A4 P 4 N01024 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01031 P 0 N01201 P 00000000 N01202 P 00000000 N01203 P 00000000 N01205 P 00000000 N01207 P 00000000 N01220 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01221 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01222 A1 P-220120 A2 P-168781 A3 P 0 A4 P 0 N01223 A1 P-228761 A2 P-167890 A3 P 0 A4 P 0 N01224 A1 P-291665 A2 P-203411 A3 P 0 A4 P 0 N01225 A1 P-203848 A2 P-203924 A3 P 0 A4 P 0
N01226 A1 P-248215 A2 P-203800 A3 P 0 A4 P 0 N01240 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01241 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01242 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01243 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01244 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01250 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01251 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01260 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01280 P 0 N01300 P 00000000 N01301 P 00000000 N01310 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01320 A1 P 500 A2 P 500 A3 P 500 A4 P 9999999 N01321 A1 P-300500 A2 P-250500 A3 P-200500 A4 P-9999999 N01322 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01323 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01324 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01325 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01326 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01327 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
281 of 319
N01328 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01329 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01401 P 01010001 N01402 P 00000000 N01403 P 00000000 N01404 P 00000000 N01405 P 00000000 N01406 P 00000000 N01407 P 00000000 N01408 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01410 P 2000 N01411 P 0 N01412 P 0 N01414 P 0 N01420 A1 P 10000 A2 P 10000 A3 P 10000 A4 P 10000 N01421 A1 P 1000 A2 P 1000 A3 P 1000 A4 P 1000 N01422 P 5000 N01423 A1 P 2000 A2 P 2000 A3 P 2000 A4 P 3000 N01424 A1 P 10000 A2 P 10000 A3 P 10000 A4 P 10000 N01425 A1 P 20 A2 P 20 A3 P 20 A4 P 20 N01426 P 0 N01427 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01428 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01430 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01431 P 0 N01432 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N01434 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01437 P 0 N01440 P 0 N01441 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01442 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01443 P 0 N01444 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01445 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01450 P 0 N01451 P 0 N01452 P 0 N01453 P 0 N01454 P 0 N01455 P 0 N01456 P 0 N01457 P 0 N01458 P 0 N01459 P 0 N01460 P 0 N01461 P 0 N01465 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01471 P 0 N01472 P 0 N01473 P 0 N01490 P 00000000 N01601 P 00000000 N01602 P 00000000 N01603 P 00000000 N01604 P 00000000 N01605 P 00000000 N01610 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01620 A1 P 100 A2 P 100 A3 P 100 A4 P 100 N01621 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N01622 A1 P 20 A2 P 20 A3 P 20 A4 P 20 N01623 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01624 A1 P 20 A2 P 20 A3 P 20 A4 P 20 N01625 A1 P 20 A2 P 20 A3 P 20 A4 P 20 N01628 P 0 N01630 P 0 N01631 P 0 N01633 P 0 N01640 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01641 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01710 P 0 N01711 P 0 N01712 P 0 N01713 P 0 N01714 P 0 N01720 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01722 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01723 P 0 N01724 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01725 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01730 P 0 N01731 P 0 N01732 P 0 N01740 P 0 N01741 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01762 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01763 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01768 P 0 N01769 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01770 P 0 N01771 P 0 N01772 P 0
CNC Parameter MAXMILL
282 of 319
N01773 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01774 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01775 P 0 N01776 P 0 N01777 P 0 N01778 P 0 N01779 P 0 N01780 P 0 N01781 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01782 P 0 N01783 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01784 P 0 N01785 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01786 P 0 N01787 P 0 N01788 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01789 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01790 P 0 N01800 P 00000000 N01801 P 00000000 N01802 P 00000000 N01803 P 00000000 N01804 P 00000000 N01805 P 00000000 N01806 P 00000000 N01807 P 00000000 N01815 A1 P 00110000 A2 P 00110000 A3 P 00110000 A4 P 00110000 N01816 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01817 A1 P 00000000 A2 P 00000000 A3 P
00000000 A4 P 00000000 N01818 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01819 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01820 A1 P 2 A2 P 2 A3 P 2 A4 P 2 N01821 A1 P 10000 A2 P 10000 A3 P 10000 A4 P 10000 N01825 A1 P 3000 A2 P 3000 A3 P 3000 A4 P 3000 N01826 A1 P 20 A2 P 20 A3 P 20 A4 P 20 N01827 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01828 A1 P 32000 A2 P 32000 A3 P 32000 A4 P 32000 N01829 A1 P 12000 A2 P 12000 A3 P 12000 A4 P 12000 N01830 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01831 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01832 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01834 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01836 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01838 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01846 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01847 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N01848 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01850 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01851 A1 P 7 A2 P 0 A3 P 3 A4 P 0 N01852 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01853 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01856 P 0 N01860 A1 P 95314630 A2 P 17644080 A3 P-6020485 A4 P 56195474 N01861 A1 P 0 A2 P 0 A3 P-1 A4 P 0 N01865 P 0 N01866 P 0 N01867 P 0 N01868 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01870 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01871 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01872 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01874 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01875 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01876 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01877 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01880 P 0 N01881 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01882 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01883 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01884 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
283 of 319
N01885 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01886 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01890 P 0 N01891 P 0 N01892 P 0 N01894 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01895 P 0 N01896 P 0 N01897 P 0 N01901 P 00000000 N01902 P 00000000 N01903 P 00000000 N01904 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01905 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N01909 P 00000000 N01910 P 0 N01911 P 0 N01912 P 0 N01913 P 0 N01914 P 0 N01915 P 0 N01916 P 0 N01917 P 0 N01918 P 0 N01919 P 0 N01920 P 0 N01921 P 0 N01922 P 0 N01923 P 0 N01924 P 0 N01925 P 0 N01926 P 0 N01927 P 0 N01928 P 0 N01929 P 0
N01931 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01932 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01933 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01934 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01936 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01937 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01941 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01942 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01943 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01944 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01945 P 0 N01946 P 0 N01947 P 0 N01948 P 0 N01949 P 0 N01950 P 0 N01955 P 0 N01956 P 0 N01957 P 0 N01958 P 0 N01959 P 00000000 N01970 P 0 N01971 P 0 N01972 P 0 N01973 P 0 N01974 P 0 N01975 P 0 N01976 P 0 N01977 P 0 N01978 P 0 N01979 P 0 N01980 P 0 N01981 P 0 N01982 P 0 N01983 P 0 N01984 P 0
N01985 P 0 N01986 P 0 N01987 P 0 N01988 P 0 N01989 P 0 N01991 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01992 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01993 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01994 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01996 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01997 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N01998 P 00000000 N02000 A1 P 00001010 A2 P 00001010 A3 P 00001010 A4 P 00001010 N02001 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02002 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02003 A1 P 00001000 A2 P 00001000 A3 P 00001000 A4 P 00001000 N02004 A1 P 00000011 A2 P 00000011 A3 P 00000011 A4 P 00000011 N02005 A1 P 00000000 A2 P 00000000 A3 P
CNC Parameter MAXMILL
284 of 319
00000000 A4 P 00000000 N02006 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02007 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02008 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02009 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02010 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02011 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02012 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02013 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00001110 N02014 A1 P 00000000 A2 P 00000000 A3 P
00000000 A4 P 00001110 N02015 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02016 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02017 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02018 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02019 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02020 A1 P 256 A2 P 256 A3 P 256 A4 P 256 N02021 A1 P 0 A2 P 0 A3 P 128 A4 P 0 N02022 A1 P 111 A2 P-111 A3 P 111 A4 P 111 N02023 A1 P 8192 A2 P 8192 A3 P 8192 A4 P 8192 N02024 A1 P 12500 A2 P 12500 A3 P 12500 A4 P 12500 N02025 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02026 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02027 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02028 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02029 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02030 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02031 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02032 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02033 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02034 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02035 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02036 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02037 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02038 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02039 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02040 A1 P 400 A2 P 400 A3 P 400 A4 P 800 N02041 A1 P-1920 A2 P-1920 A3 P-1920 A4 P-3840 N02042 A1 P-1253 A2 P-1253 A3 P-1253 A4 P-1253 N02043 A1 P 112 A2 P 112 A3 P 112 A4 P 56 N02044 A1 P-1008 A2 P-1008 A3 P-1008 A4 P-504 N02045 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02046 A1 P-8235 A2 P-8235 A3 P-8235 A4 P-8235
CNC Parameter MAXMILL
285 of 319
N02047 A1 P-753 A2 P-753 A3 P-753 A4 P-1506 N02048 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02049 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02050 A1 P 956 A2 P 956 A3 P 956 A4 P 956 N02051 A1 P 510 A2 P 510 A3 P 510 A4 P 510 N02052 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02053 A1 P 21 A2 P 21 A3 P 21 A4 P 21 N02054 A1 P 1894 A2 P 1894 A3 P 1894 A4 P 1894 N02055 A1 P 319 A2 P 319 A3 P 319 A4 P 319 N02056 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02057 A1 P-7694 A2 P-7694 A3 P-7694 A4 P-7687 N02058 A1 P-2800 A2 P-2800 A3 P-2800 A4 P-1400 N02059 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02060 A1 P 7282 A2 P 7282 A3 P 7282 A4 P 3641 N02061 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02062 A1 P 32289 A2 P 32289 A3 P 32289 A4 P 32289 N02063 A1 P 5988 A2 P 5988 A3 P 5988 A4 P 5988 N02064 A1 P 4 A2 P 4 A3 P 4 A4 P 4
N02065 A1 P 17873 A2 P 17873 A3 P 17873 A4 P 4468 N02066 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02067 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02068 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02069 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02070 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02071 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02072 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02073 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02074 A1 P 20480 A2 P 20480 A3 P 20480 A4 P 0 N02075 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02076 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02077 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02078 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02079 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02080 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02081 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02082 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02083 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02084 A1 P 1 A2 P 1 A3 P 1 A4 P 1 N02085 A1 P 200 A2 P 200 A3 P 200 A4 P 200
N02086 A1 P 2178 A2 P 2178 A3 P 2178 A4 P 1089 N02087 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02088 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02089 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02090 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02091 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02092 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02093 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02094 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02095 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02096 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02097 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02098 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02099 A1 P 400 A2 P 400 A3 P 400 A4 P 400 N02100 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02101 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02102 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02103 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02104 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02105 A1 P 146 A2 P 146 A3 P 146 A4 P 292 N02106 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
286 of 319
N02107 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02108 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02109 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02110 A1 P 780 A2 P 780 A3 P 780 A4 P 532 N02111 A1 P 7790 A2 P 7790 A3 P 7790 A4 P 7790 N02112 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02113 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02114 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02115 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02116 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02117 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02118 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02119 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02120 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02121 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02122 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02123 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02124 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02125 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02126 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02127 A1 P 796 A2 P 796 A3 P 796 A4 P 796
N02128 A1 P 3000 A2 P 3000 A3 P 3000 A4 P 6000 N02129 A1 P 3392 A2 P 3392 A3 P 3392 A4 P 3392 N02130 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02131 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02132 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02133 A1 P 8992 A2 P 8992 A3 P 8992 A4 P 8992 N02134 A1 P 12864 A2 P 12864 A3 P 12864 A4 P 9024 N02135 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02136 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02137 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02138 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02139 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02140 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02141 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02142 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02143 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02144 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02145 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02146 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02147 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02148 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02149 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02150 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02151 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02152 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02153 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02154 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02155 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02156 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02157 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02158 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02159 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02160 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02161 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02162 A1 P 32765 A2 P 32765 A3 P 32765 A4 P 32765 N02163 A1 P 42 A2 P 42 A3 P 42 A4 P 42 N02164 A1 P 7551 A2 P 7551 A3 P 7551 A4 P 1888 N02165 A1 P 25 A2 P 25 A3 P 25 A4 P 45 N02166 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02167 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02168 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02169 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02170 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
287 of 319
N02171 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02172 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02173 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02174 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02175 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02176 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02177 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02178 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02179 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02180 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02181 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02182 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02183 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02184 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02185 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02186 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02187 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02188 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02189 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02190 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02191 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02192 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02193 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02194 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02195 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02196 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02197 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02198 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02199 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02200 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02201 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02202 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02203 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02204 A1 P 10000000 A2 P 10000000 A3 P 10000000 A4 P 00000000 N02205 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02206 A1 P 00000000 A2 P 00000000 A3 P
00000000 A4 P 00000000 N02207 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02208 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02209 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02210 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02211 A1 P 00001110 A2 P 00001110 A3 P 00001110 A4 P 00001110 N02212 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02213 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02214 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02215 A1 P 00000000 A2 P 00000000 A3 P
CNC Parameter MAXMILL
288 of 319
00000000 A4 P 00000000 N02216 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02217 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02218 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02219 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02220 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02221 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02222 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02223 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02224 A1 P 00000000 A2 P 00000000 A3 P
00000000 A4 P 00000000 N02225 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02226 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02227 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02228 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02229 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02230 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02231 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02232 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02233 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02234 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02235 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02236 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02237 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02238 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02239 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02240 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02241 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02242 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02243 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02244 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02245 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02246 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02247 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02248 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02249 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02250 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02251 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02252 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02253 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02254 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02255 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02256 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02257 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02258 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02259 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02260 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02261 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
289 of 319
N02262 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02263 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02264 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02265 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02266 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02267 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02268 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02269 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02270 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02271 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02272 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02273 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02274 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02275 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000
N02276 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02277 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02278 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02279 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02280 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02281 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02282 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02283 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02284 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000
N02285 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02286 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02287 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02288 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02289 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02290 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02291 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02292 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02293 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000
CNC Parameter MAXMILL
290 of 319
N02294 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02295 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02296 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02297 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02298 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02299 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02300 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02301 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N02302 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02303 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02304 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02305 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02306 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02307 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02308 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02309 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02310 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02311 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02312 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02313 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02314 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02315 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02316 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02317 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02318 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02319 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02320 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02321 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02322 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02323 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02324 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02325 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02326 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02327 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02328 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02329 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02330 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02331 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02332 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02333 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02334 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02335 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02336 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02337 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02338 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02339 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02340 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02341 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02342 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02343 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02344 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02345 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02346 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02347 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02348 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02349 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02350 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
291 of 319
N02351 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02352 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02353 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02354 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02355 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02356 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02357 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02358 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02359 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02360 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02361 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02362 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02363 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02364 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02365 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02366 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02367 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02368 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02369 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02370 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02371 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02372 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02373 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02374 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02375 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02376 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02377 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02378 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02379 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02380 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02381 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02382 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02383 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02384 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02385 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02386 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02387 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02388 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02389 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02390 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02391 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02392 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02393 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02394 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02395 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02396 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N02397 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02398 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02399 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02400 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02401 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02402 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02403 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02404 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02405 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02406 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02407 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02408 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02409 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02410 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02411 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02412 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N02413 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03001 P 00000000 N03002 P 00010000 N03003 P 00000000 N03004 P 00100000 N03006 P 00000110 N03007 P 00000000 N03008 P 00000000 N03010 P 0 N03011 P 0 N03012 P 0 N03013 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
292 of 319
N03014 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03016 P 0 N03017 P 0 N03018 P 0 N03030 P 2 N03031 P 5 N03032 P 2 N03033 P 0 N03100 P 00000000 N03101 P 00000000 N03102 P 00000000 N03103 P 00000000 N03104 P 01000000 N03105 P 00000111 N03106 P 00000000 N03107 P 10010000 N03108 P 11000000 N03109 P 00000000 N03110 P 00000000 N03111 P 00100111 N03112 P 00000000 N03113 P 00000000 N03114 P 00000000 N03115 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N03116 P 00000000 N03117 P 00000000 N03118 P 00000000 N03119 P 00000000 N03120 P 0 N03121 P 0 N03122 P 0 N03123 P 0 N03124 P 00000000 N03125 P 00000000 N03126 P 00000000 N03127 P 00000000 N03128 P 0 N03131 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03132 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N03133 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03134 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03140 P 0 N03141 P 0 N03142 P 0 N03143 P 0 N03144 P 0 N03145 P 0 N03146 P 0 N03147 P 0 N03150 P 0 N03151 P 0 N03152 P 0 N03153 P 0 N03154 P 0 N03155 P 0 N03156 P 0 N03157 P 0 N03158 P 0 N03161 P 0 N03162 P 0 N03163 P 0 N03170 P 0 N03190 P 00000000 N03191 P 00000000 N03192 P 00000000 N03193 P 00000000 N03194 P 00000000 N03195 P 00000000 N03197 P 0 N03198 P 0 N03199 P 0 N03201 P 10000000 N03202 P 00000000 N03203 P 00000000 N03204 P 00000100 N03205 P 00000000 N03206 P 00000000 N03207 P 00000000 N03208 P 00000000 N03209 P 00000000 N03212 P 0 N03213 P 0 N03215 P 0
N03216 P 0 N03218 P 0 N03219 P 0 N03227 P 0 N03228 P 0 N03232 P 00000000 N03241 P 0 N03242 P 0 N03243 P 0 N03244 P 0 N03245 P 0 N03246 P 0 N03247 P 0 N03251 P 0 N03252 P 0 N03253 P 0 N03254 P 0 N03255 P 0 N03256 P 0 N03257 P 0 N03260 P 00000000 N03270 P 0 N03271 P 0 N03290 P 10000000 N03291 P 00000000 N03292 P 00000000 N03294 P 0 N03295 P 0 N03301 P 00000000 N03310 P 0 N03311 P 0 N03401 P 01000001 N03402 P 00000000 N03403 P 00000000 N03404 P 00000000 N03405 P 00000000 N03406 P 00000000 N03407 P 00000000 N03408 P 00000000 N03409 P 00000000 N03410 P 0 N03411 P 0 N03412 P 0 N03413 P 0 N03414 P 0 N03415 P 0
CNC Parameter MAXMILL
293 of 319
N03416 P 0 N03417 P 0 N03418 P 0 N03419 P 0 N03420 P 0 N03421 P 0 N03422 P 0 N03423 P 0 N03424 P 0 N03425 P 0 N03426 P 0 N03427 P 0 N03428 P 0 N03429 P 0 N03430 P 0 N03431 P 0 N03432 P 0 N03435 P 0 N03450 P 00000000 N03451 P 00000000 N03452 P 00000000 N03454 P 00000000 N03455 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N03456 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N03460 P 0 N03461 P 0 N03465 P 0 N03466 P 0 N03471 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03472 P 0 N03475 P 0 N03476 P 0 N03477 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03480 P 0 N03481 P 0 N03482 P 0
N03483 P 0 N03484 P 0 N03485 P 0 N03490 P 0 N03601 P 00000000 N03605 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N03620 A1 P 30 A2 P 57 A3 P 80 A4 P 0 N03621 A1 P 0 A2 P 31 A3 P 59 A4 P 0 N03622 A1 P 31 A2 P 58 A3 P 81 A4 P 0 N03623 A1 P 3 A2 P 0 A3 P 0 A4 P 0 N03624 A1 P 10000 A2 P 10000 A3 P 10000 A4 P 0 N03625 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03626 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03627 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N03700 P 00000000 N03701 P 00000000 N03702 P 00000000 N03703 P 00000000 N03704 P 00000000 N03705 P 00000000 N03706 P 00000000 N03707 P 00000000 N03708 P 00000000 N03709 P 00000000 N03710 P 00000000 N03711 P 00000000 N03712 P 00000000 N03713 P 00000000 N03715 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000
N03721 P 0 N03722 P 0 N03723 P 0 N03724 P 0 N03725 P 0 N03726 P 0 N03727 P 0 N03728 P 0 N03730 P 0 N03731 P 0 N03732 P 0 N03735 P 0 N03736 P 4096 N03740 P 0 N03741 P 10000 N03742 P 0 N03743 P 0 N03744 P 0 N03751 P 0 N03752 P 0 N03761 P 0 N03762 P 0 N03770 P 0 N03771 P 0 N03772 P 10000 N03800 P 0 N03801 P 0 N03802 P 0 N03811 P 0 N03812 P 0 N03820 P 0 N03821 P 0 N03822 P 0 N03831 P 0 N03832 P 0 N03850 P 0 N03851 P 0 N03852 P 0 N03900 P 0 N03901 P 0 N03902 P 0 N03903 P 0 N03904 P 0 N03910 P 0 N03911 P 0 N03912 P 0
CNC Parameter MAXMILL
294 of 319
N03913 P 0 N03914 P 0 N03920 P 0 N03921 P 0 N03922 P 0 N03923 P 0 N03924 P 0 N03930 P 0 N03931 P 0 N03932 P 0 N03933 P 0 N03934 P 0 N04000 A1 P 00000000 N04001 A1 P 00000101 N04002 A1 P 00000001 N04003 A1 P 00000000 N04004 A1 P 00000000 N04005 A1 P 00000000 N04006 A1 P 00000000 N04007 A1 P 10000000 N04008 A1 P 00000001 N04009 A1 P 00000000 N04010 A1 P 00010001 N04011 A1 P 00011001 N04012 A1 P 10000000 N04013 A1 P 00001100 N04014 A1 P 00000000 N04015 A1 P 00000111 N04016 A1 P 00000000
N04017 A1 P 00000000 N04018 A1 P 00000000 N04019 A1 P 00000100 N04020 A1 P 10000 N04021 A1 P 100 N04022 A1 P 150 N04023 A1 P 30 N04024 A1 P 75 N04025 A1 P 50 N04026 A1 P 83 N04027 A1 P 95 N04028 A1 P 0 N04029 A1 P 100 N04030 A1 P 0 N04031 A1 P 2030 N04032 A1 P 0 N04033 A1 P 10 N04034 A1 P 0 N04035 A1 P 0 N04036 A1 P 0 N04037 A1 P 0 N04038 A1 P 0 N04039 A1 P 0 N04040 A1 P 10 N04041 A1 P 10 N04042 A1 P 10 N04043 A1 P 10 N04044 A1 P 10 N04045 A1 P 10 N04046 A1 P 30 N04047 A1 P 30 N04048 A1 P 10 N04049 A1 P 10 N04050 A1 P 10 N04051 A1 P 10 N04052 A1 P 10 N04053 A1 P 10 N04054 A1 P 50 N04055 A1 P 50 N04056 A1 P 100 N04057 A1 P 100 N04058 A1 P 100 N04059 A1 P 100
N04060 A1 P 3500 N04061 A1 P 3500 N04062 A1 P 3500 N04063 A1 P 3500 N04064 A1 P 100 N04065 A1 P 1000 N04066 A1 P 1000 N04067 A1 P 1000 N04068 A1 P 1000 N04069 A1 P 1000 N04070 A1 P 1000 N04071 A1 P 1000 N04072 A1 P 1000 N04073 A1 P 0 N04074 A1 P 0 N04075 A1 P 10 N04076 A1 P 33 N04077 A1 P 0 N04078 A1 P 200 N04079 A1 P 0 N04080 A1 P 14170 N04081 A1 P 20 N04082 A1 P 10 N04083 A1 P 30 N04084 A1 P 30 N04085 A1 P 30 N04086 A1 P 100 N04087 A1 P 115 N04088 A1 P 75 N04089 A1 P 200 N04090 A1 P 90 N04091 A1 P 100 N04092 A1 P 100 N04093 A1 P 0 N04094 A1 P 0 N04095 A1 P 0 N04096 A1 P 0 N04097 A1 P 0 N04098 A1 P 0 N04099 A1 P 0 N04100 A1 P 1550 N04101 A1 P 90 N04102 A1 P 2621 N04103 A1 P 58 N04104 A1 P 2000 N04105 A1 P 0
CNC Parameter MAXMILL
295 of 319
N04106 A1 P 5500 N04107 A1 P 0 N04108 A1 P 0 N04109 A1 P 25 N04110 A1 P 780 N04111 A1 P 208 N04112 A1 P 200 N04113 A1 P 800 N04114 A1 P 0 N04115 A1 P 100 N04116 A1 P 7395 N04117 A1 P 90 N04118 A1 P 100 N04119 A1 P 12 N04120 A1 P 0 N04121 A1 P 5 N04122 A1 P 0 N04123 A1 P 30 N04124 A1 P 0 N04125 A1 P 0 N04126 A1 P 0 N04127 A1 P 150 N04128 A1 P 115 N04129 A1 P 0 N04130 A1 P 25700 N04131 A1 P 0 N04132 A1 P 0 N04133 A1 P 339 N04134 A1 P 110 N04135 A1 P 0 N04136 A1 P 0 N04137 A1 P 0 N04138 A1 P 0 N04139 A1 P 0 N04140 A1 P 0 N04141 A1 P 0 N04142 A1 P 0 N04143 A1 P 0 N04144 A1 P 0 N04145 A1 P 0 N04146 A1 P 0 N04147 A1 P 0 N04148 A1 P 0 N04149 A1 P 0 N04150 A1 P 0 N04151 A1 P 0
N04152 A1 P 0 N04153 A1 P 0 N04154 A1 P 0 N04155 A1 P 0 N04156 A1 P 0 N04157 A1 P 0 N04158 A1 P 0 N04159 A1 P 0 N04160 A1 P 0 N04161 A1 P 0 N04162 A1 P 0 N04163 A1 P 0 N04164 A1 P 0 N04165 A1 P 0 N04166 A1 P 0 N04167 A1 P 0 N04168 A1 P 0 N04169 A1 P 0 N04170 A1 P 0 N04171 A1 P 1 N04172 A1 P 1 N04173 A1 P 0 N04174 A1 P 0 N04175 A1 P 0 N04176 A1 P 00000000 N04177 A1 P 00000000 N04178 A1 P 00000000 N04179 A1 P 00000000 N04180 A1 P 00000000 N04181 A1 P 00000000 N04182 A1 P 00000000 N04183 A1 P 00000000 N04184 A1 P 00000000 N04185 A1 P 00000000 N04186 A1 P 00000000
N04187 A1 P 00000000 N04188 A1 P 00000000 N04189 A1 P 00000000 N04190 A1 P 00000000 N04191 A1 P 00000111 N04192 A1 P 00000000 N04193 A1 P 00000000 N04194 A1 P 00000000 N04195 A1 P 00000000 N04196 A1 P 0 N04197 A1 P 0 N04198 A1 P 0 N04199 A1 P 0 N04200 A1 P 0 N04201 A1 P 0 N04202 A1 P 0 N04203 A1 P 0 N04204 A1 P 0 N04205 A1 P 0 N04206 A1 P 0 N04207 A1 P 0 N04208 A1 P 0 N04209 A1 P 0 N04210 A1 P 0 N04211 A1 P 0 N04212 A1 P 0 N04213 A1 P 0 N04214 A1 P 0 N04215 A1 P 0 N04216 A1 P 0 N04217 A1 P 0 N04218 A1 P 0 N04219 A1 P 0 N04220 A1 P 0 N04221 A1 P 0 N04222 A1 P 0 N04223 A1 P 0
CNC Parameter MAXMILL
296 of 319
N04224 A1 P 0 N04225 A1 P 0 N04226 A1 P 0 N04227 A1 P 0 N04228 A1 P 0 N04229 A1 P 0 N04230 A1 P 0 N04231 A1 P 0 N04232 A1 P 0 N04233 A1 P 0 N04234 A1 P 0 N04235 A1 P 0 N04236 A1 P 0 N04237 A1 P 0 N04238 A1 P 0 N04239 A1 P 0 N04240 A1 P 0 N04241 A1 P 0 N04242 A1 P 0 N04243 A1 P 0 N04244 A1 P 0 N04245 A1 P 0 N04246 A1 P 0 N04247 A1 P 0 N04248 A1 P 0 N04249 A1 P 0 N04250 A1 P 0 N04251 A1 P 0 N04252 A1 P 0 N04253 A1 P 0 N04254 A1 P 0 N04255 A1 P 0 N04256 A1 P 0 N04257 A1 P 0 N04258 A1 P 0 N04259 A1 P 0 N04260 A1 P 0 N04261 A1 P 0 N04262 A1 P 0 N04263 A1 P 0 N04264 A1 P 0 N04265 A1 P 0 N04266 A1 P 0 N04267 A1 P 0 N04268 A1 P 0 N04269 A1 P 0
N04270 A1 P 0 N04271 A1 P 0 N04272 A1 P 0 N04273 A1 P 0 N04274 A1 P 0 N04275 A1 P 0 N04276 A1 P 0 N04277 A1 P 0 N04278 A1 P 0 N04279 A1 P 0 N04280 A1 P 0 N04281 A1 P 0 N04282 A1 P 0 N04283 A1 P 0 N04284 A1 P 0 N04285 A1 P 0 N04286 A1 P 0 N04287 A1 P 0 N04288 A1 P 0 N04289 A1 P 0 N04290 A1 P 0 N04291 A1 P 0 N04292 A1 P 0 N04293 A1 P 0 N04294 A1 P 0 N04295 A1 P 0 N04296 A1 P 0 N04297 A1 P 0 N04298 A1 P 0 N04299 A1 P 0 N04300 A1 P 0 N04301 A1 P 0 N04302 A1 P 0 N04303 A1 P 0 N04304 A1 P 0 N04305 A1 P 0 N04306 A1 P 0 N04307 A1 P 0 N04308 A1 P 0 N04309 A1 P 0 N04310 A1 P 0 N04311 A1 P 0 N04312 A1 P 0 N04313 A1 P 0 N04314 A1 P 0 N04315 A1 P 0
N04316 A1 P 0 N04317 A1 P 0 N04318 A1 P 0 N04319 A1 P 0 N04320 A1 P 0 N04321 A1 P 0 N04322 A1 P 0 N04323 A1 P 0 N04324 A1 P 0 N04325 A1 P 0 N04326 A1 P 0 N04327 A1 P 0 N04328 A1 P 0 N04329 A1 P 0 N04330 A1 P 0 N04331 A1 P 0 N04332 A1 P 0 N04333 A1 P 0 N04334 A1 P 0 N04335 A1 P 0 N04336 A1 P 0 N04337 A1 P 0 N04338 A1 P 0 N04339 A1 P 0 N04340 A1 P 0 N04341 A1 P 0 N04342 A1 P 0 N04343 A1 P 0 N04344 A1 P 0 N04345 A1 P 0 N04346 A1 P 0 N04347 A1 P 0 N04348 A1 P 0 N04349 A1 P 0 N04350 A1 P 0 N04351 A1 P 0 N04352 A1 P 00000000 N04353 A1 P 00000000 N04354 A1 P 0 N04355 A1 P 0 N04356 A1 P 0 N04357 A1 P 0 N04358 A1 P 0 N04359 A1 P 0
CNC Parameter MAXMILL
297 of 319
N04360 A1 P 0 N04361 A1 P 0 N04362 A1 P 0 N04363 A1 P 0 N04364 A1 P 0 N04365 A1 P 0 N04366 A1 P 0 N04367 A1 P 0 N04368 A1 P 0 N04369 A1 P 0 N04370 A1 P 0 N04372 A1 P 0 N04373 A1 P 00000000 N04374 A1 P 00000000 N04375 A1 P 0 N04376 A1 P 0 N04377 A1 P 0 N04378 A1 P 0 N04379 A1 P 0 N04380 A1 P 0 N04381 A1 P 0 N04382 A1 P 0 N04383 A1 P 0 N04384 A1 P 0 N04385 A1 P 0 N04386 A1 P 0 N04387 A1 P 0 N04388 A1 P 0 N04389 A1 P 0 N04390 A1 P 0 N04391 A1 P 0 N04392 A1 P 0 N04393 A1 P 0 N04394 A1 P 00000000 N04395 A1 P 00000000 N04396 A1 P 00000000 N04397 A1 P 00000000 N04398 A1 P 00000000
N04399 A1 P 00000000 N04400 A1 P 00000000 N04401 A1 P 00000000 N04402 A1 P 00000000 N04403 A1 P 00000000 N04404 A1 P 0 N04405 A1 P 0 N04406 A1 P 0 N04407 A1 P 0 N04408 A1 P 0 N04409 A1 P 0 N04410 A1 P 0 N04411 A1 P 0 N04412 A1 P 0 N04413 A1 P 0 N04414 A1 P 0 N04415 A1 P 0 N04416 A1 P 0 N04417 A1 P 0 N04418 A1 P 0 N04419 A1 P 0 N04420 A1 P 0 N04421 A1 P 0 N04422 A1 P 0 N04423 A1 P 0 N04424 A1 P 0 N04425 A1 P 0 N04426 A1 P 0 N04427 A1 P 0 N04428 A1 P 0 N04429 A1 P 0 N04430 A1 P 0 N04431 A1 P 0 N04432 A1 P 0 N04433 A1 P 0 N04434 A1 P 0 N04435 A1 P 0 N04436 A1 P 0 N04438 A1 P 0 N04440 A1 P 0 N04442 A1 P 0
N04443 A1 P 0 N04444 A1 P 0 N04445 A1 P 0 N04446 A1 P 0 N04447 A1 P-1 N04448 A1 P 0 N04449 A1 P 0 N04450 A1 P 0 N04451 A1 P 0 N04452 A1 P 0 N04453 A1 P 0 N04454 A1 P 0 N04455 A1 P 0 N04456 A1 P 0 N04457 A1 P 0 N04458 A1 P 0 N04459 A1 P-1 N04460 A1 P 0 N04461 A1 P-1 N04462 A1 P 0 N04463 A1 P 0 N04464 A1 P 0 N04465 A1 P 0 N04466 A1 P 0 N04467 A1 P 00000000 N04468 A1 P 00000000 N04469 A1 P 00000000 N04470 A1 P 00000000 N04471 A1 P 00000000 N04472 A1 P 00000000 N04473 A1 P 00000000 N04474 A1 P 00000000 N04475 A1 P 00000000 N04476 A1 P 00000000 N04477 A1 P 0 N04478 A1 P 0
CNC Parameter MAXMILL
298 of 319
N04479 A1 P 0 N04480 A1 P 0 N04481 A1 P 0 N04482 A1 P 0 N04483 A1 P 0 N04484 A1 P 0 N04485 A1 P 0 N04486 A1 P 0 N04487 A1 P 0 N04488 A1 P 0 N04489 A1 P 0 N04490 A1 P 0 N04491 A1 P 0 N04492 A1 P 0 N04493 A1 P 0 N04494 A1 P 0 N04495 A1 P 0 N04496 A1 P 0 N04497 A1 P 0 N04498 A1 P 0 N04499 A1 P 0 N04500 A1 P 0 N04501 A1 P 0 N04502 A1 P 0 N04503 A1 P 0 N04504 A1 P 0 N04505 A1 P 0 N04506 A1 P 0 N04507 A1 P 0 N04508 A1 P 0 N04509 A1 P 0 N04510 A1 P 0 N04511 A1 P 0 N04512 A1 P 0 N04513 A1 P 0 N04514 A1 P 0 N04515 A1 P 0 N04516 A1 P 0 N04517 A1 P 0 N04518 A1 P 0 N04519 A1 P 0 N04520 A1 P 0 N04521 A1 P 0 N04522 A1 P 0 N04523 A1 P 0 N04524 A1 P 0
N04525 A1 P 0 N04526 A1 P 0 N04527 A1 P 0 N04528 A1 P 0 N04529 A1 P 0 N04530 A1 P 0 N04531 A1 P 0 N04532 A1 P 0 N04533 A1 P 0 N04534 A1 P 0 N04535 A1 P 0 N04536 A1 P 0 N04537 A1 P 0 N04538 A1 P 0 N04539 A1 P 0 N04800 P 00000000 N04802 P 00000000 N04810 P 0 N04811 P 0 N04815 P 0 N04817 P 0 N04821 P 0 N04822 P 0 N04823 P 0 N04824 P 0 N04826 P 0 N04827 P 0 N04828 P 0 N04829 P 0 N04831 P 0 N04832 P 0 N04833 P 0 N04834 P 0 N04900 P 00000000 N04911 P 0 N04912 P 0 N04913 P 0 N04914 P 0 N05000 P 00000000 N05001 P 00000000 N05002 P 00000000 N05003 P 00000000 N05004 P 00000000 N05005 P 00000000 N05006 P 00000000 N05007 P 00000000
N05008 P 00000000 N05009 P 00000000 N05010 P 0 N05011 P 0 N05013 P 0 N05014 P 0 N05040 P 00000000 N05041 P 00000000 N05101 P 00000100 N05103 P 00000000 N05104 P 00000011 N05114 P 0 N05115 P 0 N05150 P 0 N05151 P 0 N05160 P 00000000 N05163 P 0 N05164 P 0 N05165 P 0 N05166 P 0 N05167 P 0 N05168 P 0 N05170 P 0 N05171 P 0 N05172 P 0 N05173 P 0 N05174 P 0 N05200 P 01100100 N05201 P 00000101 N05202 P 00000001 N05203 P 00000000 N05204 P 00000001 N05205 P 10000000 N05210 P 29 N05211 P 100 N05212 P 0 N05213 P 0 N05214 P 30000 N05215 P 0 N05216 P 0 N05217 P 0 N05220 P 0 N05221 P 0 N05222 P 0 N05223 P 0 N05225 P 0
CNC Parameter MAXMILL
299 of 319
N05226 P 0 N05227 P 0 N05228 P 0 N05229 P 0 N05230 P 0 N05231 P 0 N05232 P 0 N05233 P 0 N05235 P 0 N05236 P 0 N05237 P 0 N05238 P 0 N05239 P 0 N05240 P 0 N05241 P 6000 N05242 P 6000 N05243 P 6000 N05245 P 0 N05246 P 0 N05247 P 0 N05248 P 0 N05249 P 0 N05250 P 0 N05252 P 0 N05261 P 1000 N05262 P 1000 N05263 P 1000 N05265 P 0 N05266 P 0 N05267 P 0 N05268 P 0 N05269 P 0 N05270 P 0 N05271 P 1000 N05272 P 1000 N05273 P 1000 N05280 P 1000 N05281 P 1 N05282 P 1 N05283 P 1 N05291 P 0 N05292 P 0 N05293 P 0 N05300 P 20 N05301 P 20 N05302 P 0
N05303 P 0 N05304 P 0 N05305 P 0 N05306 P 0 N05307 P 0 N05308 P 0 N05310 P 4608 N05311 P 4608 N05312 P 500 N05313 P 500 N05314 P 0 N05321 P 0 N05325 P 0 N05327 P 0 N05329 P 0 N05335 P 0 N05336 P 0 N05337 P 0 N05338 P 0 N05339 P 0 N05340 P 0 N05341 P 0 N05342 P 0 N05343 P 0 N05344 P 0 N05345 P 0 N05346 P 0 N05347 P 0 N05348 P 0 N05349 P 0 N05350 P 0 N05351 P 0 N05352 P 0 N05353 P 0 N05354 P 0 N05355 P 0 N05356 P 0 N05357 P 0 N05358 P 0 N05359 P 0 N05360 P 0 N05361 P 0 N05365 P 0 N05366 P 0 N05367 P 0 N05369 P 0
N05370 P 0 N05373 P 0 N05374 P 0 N05377 P 0 N05378 P 0 N05381 P 200 N05382 P 0 N05390 P 0 N05391 P 0 N05392 P 0 N05393 P 0 N05394 P 0 N05400 P 10000000 N05401 A1 P 00000001 A2 P 00000001 A3 P 00000000 A4 P 00000000 N05402 P 00000000 N05410 P 0 N05411 P 1 N05412 P 0 N05421 A1 P 1 A2 P 1 A3 P 1 A4 P 0 N05431 P 00000000 N05440 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05480 P 0 N05481 P 0 N05482 P 0 N05483 P 0 N05484 P 00000000 N05485 P 0 N05490 P 0 N05500 P 00000000 N05510 P 0 N05511 P 0 N05512 P 0 N05660 P 0 N05661 P 0 N05662 P 0 N05663 P 0 N05664 P 0 N05665 P 0 N05666 P 0 N05667 P 0
CNC Parameter MAXMILL
300 of 319
N05668 P 00000000 N05669 P 00000000 N05670 P 0 N05671 P 0 N05672 P 0 N05673 P 0 N05674 P 0 N05675 P 0 N05676 P 0 N05677 P 0 N05680 P 0 N05681 P 0 N05682 P 0 N05683 P 0 N05684 P 0 N05685 P 0 N05686 P 0 N05687 P 0 N05690 P 0 N05691 P 0 N05692 P 0 N05693 P 0 N05700 P 00000000 N05711 P 0 N05721 P 0 N05731 P 0 N05732 P 0 N05733 P 0 N05734 P 0 N05761 P 0 N05762 P 0 N05763 P 0 N05764 P 0 N05800 P 00000000 N05811 P 0 N05812 P 0 N05813 P 0 N05821 P 0 N05822 P 0 N05823 P 0 N05824 P 0 N05825 P 0 N05826 P 0 N05831 P 0 N05832 P 0 N05833 P 0
N05861 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05862 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05863 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05864 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05871 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05872 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05873 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N05874 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06000 P 00000000 N06001 P 00000000 N06003 P 00000000 N06004 P 00000000 N06005 P 00000000 N06006 P 00000000 N06010 P 00000000 N06011 P 00000000 N06012 P 00000000 N06013 P 00000000 N06014 P 00000000 N06030 P 0 N06033 P 0 N06034 P 0 N06036 P 0 N06037 P 0 N06050 P 0 N06051 P 0 N06052 P 0 N06053 P 0 N06054 P 0 N06055 P 0 N06056 P 0 N06057 P 0 N06058 P 0 N06059 P 0 N06071 P 0 N06072 P 6 N06073 P 0 N06074 P 0
N06075 P 0 N06076 P 0 N06077 P 0 N06078 P 0 N06079 P 0 N06080 P 0 N06081 P 0 N06082 P 0 N06083 P 0 N06084 P 0 N06085 P 0 N06086 P 0 N06087 P 0 N06088 P 0 N06089 P 0 N06090 P 0 N06091 P 0 N06092 P 0 N06095 P 0 N06096 P 0 N06097 P 0 N06101 P 0 N06102 P 0 N06103 P 0 N06104 P 0 N06105 P 0 N06106 P 0 N06107 P 0 N06108 P 0 N06109 P 0 N06110 P 0 N06131 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N06132 P 00000000 N06136 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06137 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06138 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06141 P 0 N06142 P 0 N06143 P 0
CNC Parameter MAXMILL
301 of 319
N06144 P 0 N06145 P 0 N06146 P 0 N06151 P 0 N06152 P 0 N06153 P 0 N06154 P 0 N06155 P 0 N06156 P 0 N06161 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06162 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06163 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06164 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06165 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06166 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06167 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06171 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06172 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06173 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06174 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06175 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06176 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06177 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06181 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06182 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06183 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06184 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N06185 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06186 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06187 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06191 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06192 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06193 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06194 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06195 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06196 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06197 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06200 P 00000000 N06201 P 00000000 N06202 P 00000000 N06203 P 00000000 N06204 P 00000000 N06205 P 00000000 N06206 P 00000000 N06207 P 00000000 N06210 P 00000000 N06215 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N06221 P 0 N06223 P 0 N06240 P 00000000 N06241 P 0 N06251 P 0 N06254 P 0 N06280 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06300 P 00000000 N06310 P 0 N06350 P 00000000 N06360 P 0
N06361 P 0 N06362 P 0 N06363 P 0 N06381 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N06390 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06391 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06392 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06393 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06394 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06395 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06500 P 00000000 N06501 P 00000000 N06503 P 00000000 N06511 P 0 N06512 P 0 N06513 P 0 N06514 P 0 N06515 P 0 N06561 P 0 N06562 P 0 N06563 P 0 N06564 P 0 N06565 P 0 N06566 P 0 N06567 P 0 N06568 P 0 N06569 P 0 N06570 P 0 N06571 P 0 N06572 P 0 N06573 P 0 N06574 P 0 N06575 P 0 N06581 P 0 N06582 P 0 N06583 P 0
CNC Parameter MAXMILL
302 of 319
N06584 P 0 N06585 P 0 N06586 P 0 N06587 P 0 N06588 P 0 N06589 P 0 N06590 P 0 N06591 P 0 N06592 P 0 N06593 P 0 N06594 P 0 N06595 P 0 N06700 P 00000000 N06710 P 0 N06711 P 2112 N06712 P 2112 N06713 P 0 N06750 P 47451 N06751 P 11848 N06752 P 4885 N06753 P 56832 N06754 P 1894 N06755 P 0 N06756 P 0 N06757 P 0 N06758 P 0 N06800 P 00000000 N06801 P 00000000 N06802 P 00000000 N06803 P 00000000 N06804 P 00000000 N06810 P 0 N06811 P 0 N06812 P 0 N06844 P 0 N06845 P 0 N06846 P 0 N06860 P 00000000 N06865 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06866 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06870 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06871 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N06872 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06873 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06874 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06875 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06880 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06881 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06882 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06883 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06885 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N06901 P 00000000 N06910 P 0 N06911 P 0 N06912 P 0 N06913 P 0 N06914 P 1 N06915 P 2 N06916 P 3 N06917 P 3 N06918 P 0 N06919 P 0 N06920 P 0 N06921 P 0 N06922 P 0 N06923 P 0 N06924 P 0 N06925 P 0 N06930 P 0 N06931 P 0 N06932 P 0 N06933 P 0 N06934 P-200000 N06935 P 3000 N06936 P 0 N06937 P 10000 N06938 P 0 N06939 P 0 N06940 P 0
N06941 P 0 N06942 P 0 N06943 P 0 N06944 P 0 N06945 P 0 N06950 P 0 N06951 P 0 N06952 P 0 N06953 P 0 N06954 P-300000 N06955 P-10000 N06956 P-125500 N06957 P-10000 N06958 P 0 N06959 P 0 N06960 P 0 N06961 P 0 N06962 P 0 N06963 P 0 N06964 P 0 N06965 P 0 N07001 P 00000000 N07002 P 00000000 N07010 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N07015 P 0 N07050 P 00000000 N07051 P 00000000 N07052 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N07053 P 00000000 N07054 P 00000000 N07055 P 00000000 N07056 P 00000000 N07057 P 00000000 N07058 P 0 N07059 P 0 N07060 P 0 N07061 P 0 N07062 P 0
CNC Parameter MAXMILL
303 of 319
N07066 P 0 N07067 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07080 P 00000000 N07081 P 00000000 N07082 P 00000000 N07085 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07086 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07100 P 00000001 N07101 P 00000000 N07102 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N07103 P 00010000 N07104 P 00000000 N07105 P 00000000 N07106 P 00000000 N07110 P 1 N07113 P 100 N07114 P 1000 N07115 P 0 N07116 P 0 N07117 P 0 N07120 P 0 N07121 P 0 N07124 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07131 P 0 N07132 P 0 N07133 P 0 N07134 P 0 N07135 P 0 N07136 P 0 N07137 P 0 N07138 P 0 N07160 P 0 N07161 P 0 N07180 P 00000000 N07181 A1 P 5000 A2 P 5000 A3 P 5000 A4 P 5000
N07182 A1 P 2000 A2 P 2000 A3 P 2000 A4 P 2000 N07183 A1 P 500 A2 P 500 A3 P 500 A4 P 500 N07184 A1 P 200 A2 P 200 A3 P 200 A4 P 200 N07185 A1 P 1000 A2 P 1000 A3 P 1000 A4 P 1000 N07186 A1 P 40 A2 P 30 A3 P 30 A4 P 30 N07200 P 00000000 N07201 P 00000000 N07210 P 0 N07211 P 0 N07212 P 0 N07213 P 0 N07214 P 0 N07215 P 0 N07216 P 0 N07217 P 0 N07220 P 0 N07221 P 0 N07222 P 0 N07223 P 0 N07224 P 0 N07225 P 0 N07226 P 0 N07227 P 0 N07228 P 0 N07229 P 0 N07230 P 0 N07231 P 0 N07232 P 0 N07233 P 0 N07234 P 0 N07235 P 0 N07236 P 0 N07237 P 0 N07238 P 0 N07239 P 0 N07240 P 0 N07241 P 0
N07242 P 0 N07243 P 0 N07244 P 0 N07245 P 0 N07246 P 0 N07247 P 0 N07248 P 0 N07249 P 0 N07250 P 0 N07251 P 0 N07252 P 0 N07253 P 0 N07254 P 0 N07255 P 0 N07256 P 0 N07257 P 0 N07258 P 0 N07259 P 0 N07260 P 0 N07261 P 0 N07262 P 0 N07263 P 0 N07264 P 0 N07265 P 0 N07266 P 0 N07267 P 0 N07268 P 0 N07269 P 0 N07270 P 0 N07271 P 0 N07272 P 0 N07273 P 0 N07274 P 0 N07275 P 0 N07276 P 0 N07277 P 0 N07278 P 0 N07279 P 0 N07280 P 0 N07281 P 0 N07282 P 0 N07283 P 0 N07284 P 0 N07285 P 0 N07286 P 0 N07287 P 0
CNC Parameter MAXMILL
304 of 319
N07288 P 0 N07289 P 0 N07290 P 0 N07291 P 0 N07292 P 0 N07293 P 0 N07294 P 0 N07295 P 0 N07296 P 0 N07297 P 0 N07298 P 0 N07299 P 0 N07300 P 00000000 N07310 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07351 P 0 N07352 P 0 N07353 P 0 N07354 P 0 N07355 P 0 N07356 P 0 N07357 P 0 N07358 P 0 N07359 P 0 N07360 P 0 N07361 P 0 N07362 P 0 N07363 P 0 N07364 P 0 N07365 P 0 N07366 P 0 N07367 P 0 N07368 P 0 N07369 P 0 N07370 P 0 N07371 P 0 N07372 P 0 N07373 P 0 N07374 P 0 N07375 P 0 N07376 P 0 N07377 P 0 N07378 P 0 N07379 P 0 N07380 P 0 N07381 P 0
N07382 P 0 N07383 P 0 N07384 P 0 N07385 P 0 N07386 P 0 N07387 P 0 N07388 P 0 N07389 P 0 N07390 P 0 N07391 P 0 N07392 P 0 N07393 P 0 N07394 P 0 N07395 P 0 N07396 P 0 N07397 P 0 N07398 P 0 N07399 P 0 N07501 P 00000000 N07502 P 00000000 N07503 P 00000000 N07505 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N07510 P 0 N07511 P 0 N07512 P 0 N07514 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07515 P 0 N07520 P 0 N07521 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07522 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07523 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07524 P 0 N07525 P 0 N07561 P 00000000 N07570 P 00000000 N07575 A1 P 00000000 A2 P 00000000 A3 P
00000000 A4 P 00000000 N07580 P 0 N07581 P 0 N07582 P 0 N07583 P 0 N07584 P 0 N07585 P 0 N07586 P 0 N07587 P 0 N07588 P 0 N07700 P 00000000 N07701 P 00000000 N07702 P 00000000 N07703 P 00000000 N07704 P 00000000 N07709 P 0 N07710 P 0 N07711 P 0 N07712 P 0 N07713 P 0 N07714 P 0 N07715 P 0 N07716 P 0 N07717 P 0 N07730 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N07740 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07741 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07745 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07750 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07751 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07771 P 0 N07772 P 0 N07773 P 0 N07774 P 0 N07775 P 0 N07776 P 0
CNC Parameter MAXMILL
305 of 319
N07777 P 0 N07781 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07782 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07783 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N07800 P 00000000 N07802 P 00000000 N07810 P 0 N07811 P 0 N07812 P 0 N07813 P 0 N07814 P 0 N07815 P 0 N07816 P 0 N07821 P 0 N07822 P 0 N07823 P 0 N07824 P 0 N07825 P 0 N07826 P 0 N07831 P 0 N07832 P 0 N07833 P 0 N07840 P 0 N07841 P 0 N07842 P 00000000 N07843 P 00000000 N07844 P 0 N07845 P 0 N07846 P 0 N07847 P 0 N07848 P 0 N07849 P 0 N07850 P 0 N07851 P 0 N07852 P 0 N07853 P 0 N07854 P 0 N07855 P 0 N07856 P 0 N07857 P 0 N07858 P 0 N07859 P 0 N07860 P 0
N07861 P 0 N07862 P 0 N07863 P 0 N07864 P 0 N07865 P 0 N07866 P 0 N07867 P 0 N07868 P 0 N07869 P 0 N07870 P 0 N07871 P 0 N07872 P 0 N07873 P 0 N07874 P 0 N07875 P 0 N07876 P 0 N07877 P 0 N07878 P 0 N07879 P 0 N07880 P 0 N07881 P 0 N07882 P 0 N07883 P 0 N07884 P 0 N07885 P 0 N07886 P 0 N07887 P 0 N07888 P 0 N07889 P 0 N07891 P 0 N07892 P 0 N07893 P 0 N07894 P 0 N07941 P 00000000 N07942 P 00000000 N07943 P 00000000 N07944 P 00000000 N07950 P 0 N07951 P 0 N07952 P 0 N07953 P 0 N07954 P 0 N07955 P 0 N07956 P 0 N07957 P 0 N07958 P 0
N07959 P 0 N07960 P 0 N07961 P 0 N07965 P 0 N07966 P 0 N07967 P 0 N07970 P 0 N07971 P 0 N08001 P 00000000 N08002 P 00000000 N08003 P 00000000 N08004 P 00000000 N08005 P 00000000 N08006 P 00000000 N08007 P 00000000 N08008 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N08010 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08020 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08021 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08022 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08028 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08030 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08031 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08040 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08101 P 00000000 N08130 P 4 N08131 P 00000001 N08132 P 00100000 N08133 P 00000001 N08134 P 00000000 N08135 P 00000000 N08136 P 00000000 N08200 P 00000000 N08201 P 00000000
CNC Parameter MAXMILL
306 of 319
N08210 P 0 N08211 P 0 N08212 P 0 N08301 P 00000000 N08302 P 00000000 N08303 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N08304 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N08305 P 00000000 N08311 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08312 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08313 P 0 N08314 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08315 P 0 N08316 P 0 N08317 P 0 N08318 P 0 N08323 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08325 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08326 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08327 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08341 P 0 N08342 P 0 N08343 P 0 N08360 P 00000000 N08361 P 00000000 N08362 P 00000000 N08363 P 0 N08364 P 0 N08365 P 0 N08366 P 0 N08367 P 0
N08368 P 0 N08369 P 0 N08370 P 0 N08371 P 0 N08372 P 0 N08373 P 0 N08374 P 0 N08375 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08376 P 0 N08377 P 0 N08378 P 0 N08379 P 0 N08413 P 00000000 N08500 P 00000000 N08501 P 00000000 N08504 P 00000000 N08505 P 00000000 N08508 P 00000000 N08509 P 00000000 N08512 P 00000000 N08513 P 00000000 N08516 P 00000000 N08517 P 00000000 N08565 P 0 N08570 P 0 N08571 P 0 N08572 P 0 N08573 P 0 N08574 P 0 N08575 P 0 N08576 P 0 N08577 P 0 N08578 P 0 N08579 P 0 N08580 P 0 N08581 P 0 N08582 P 0 N08583 P 0 N08584 P 0 N08585 P 0 N08586 P 0 N08587 P 0 N08588 P 0 N08589 P 0 N08590 P 0
N08591 P 0 N08592 P 0 N08593 P 0 N08594 P 0 N08595 P 0 N08596 P 0 N08597 P 0 N08598 P 0 N08599 P 0 N08650 P 00000000 N08651 P 00000000 N08652 P 00000000 N08661 P 0 N08662 P 0 N08663 P 0 N08664 P 0 N08665 P 0 N08700 P 00000000 N08701 P 00000000 N08702 P 00000000 N08703 P 00000000 N08704 P 00000000 N08706 P 00000000 N08707 P 00000000 N08710 P 0 N08751 P 0 N08760 P 0 N08781 P 0 N08782 P 0 N08790 P 0 N08801 P 00000000 N08802 P 00000000 N08811 P 0 N08812 P 0 N08813 P 0 N08850 P 00000000 N08851 P 00000000 N08853 P 00000000 N08854 P 00000000 N08855 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N08860 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
307 of 319
N08861 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N08862 P 0 N08900 P 00000001 N08901 P 00000000 N08902 P 00000000 N08903 P 00000000 N08904 P 00000000 N08910 P 0 N08911 P 0 N08920 P 0 N08921 P 0 N08922 P 0 N08940 P 0 N08941 P 0 N08942 P 0 N08943 P 0 N08944 P 0 N08945 P 0 N08946 P 0 N08947 P 0 N08948 P 0 N08949 P 0 N08950 P 00000000 N08960 P 0 N08961 P 0 N08962 P 0 N08970 P 0 N08971 P 0 N08972 P 0 N08973 P 0 N08980 P 00000000 N08981 P 0 N08982 P 0 N08983 P 0 N08984 P 0 N08995 P 0 N12000 P 00000000 N12001 P 00000000 N12010 P 0 N12014 P 0 N12015 P 0 N12016 P 0 N12017 P 0 N12018 P 0 N12019 P 0
N12020 P 0 N12021 P 0 N12022 P 0 N12023 P 0 N12024 P 0 N12025 P 0 N12026 P 0 N12027 P 0 N12028 P 0 N12029 P 0 N12030 P 0 N12031 P 0 N12032 P 0 N12033 P 0 N12034 P 0 N12035 P 0 N12036 P 0 N12037 P 0 N12038 P 0 N12039 P 0 N12040 P 0 N12041 P 0 N12042 P 0 N12043 P 0 N12044 P 0 N12045 P 0 N12046 P 0 N12047 P 0 N12048 P 0 N12049 P 0 N12050 P 0 N12051 P 0 N12200 P 00000000 N12201 P 0 N12202 P 0 N12203 P 0 N12204 P 0 N12205 P 0 N12206 P 0 N12221 P 0 N12222 P 0 N12223 P 0 N12224 P 0 N12225 P 0 N12226 P 0 N12241 P 0
N12242 P 0 N12243 P 0 N12244 P 0 N12245 P 0 N12246 P 0 N12250 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12251 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12252 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12290 P 00000000 N12291 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12300 P 0 N12301 P 0 N12302 P 0 N12303 P 0 N12304 P 0 N12305 P 0 N12306 P 0 N12307 P 0 N12308 P 0 N12309 P 0 N12330 P 00000000 N12331 P 00000000 N12332 P 00000000 N12333 P 00000000 N12350 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12351 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12380 P 00000000 N12381 P 0 N12382 P 0 N12383 P 0 N12384 P 0 N12385 P 0 N12386 P 0 N12387 P 0 N12388 P 0 N12390 P 0 N12391 P 0 N12392 P 0 N12393 P 0 N12394 P 0
CNC Parameter MAXMILL
308 of 319
N12395 P 0 N12396 P 0 N12397 P 0 N12400 P 0 N12401 P 0 N12700 P 0 N12701 P 0 N12710 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12720 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N12730 P 00000000 N12731 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12732 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12733 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12734 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12735 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12736 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12737 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12738 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12750 P 00000000 N12751 P 0 N12752 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12753 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12754 P 0 N12755 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12756 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N12801 P 0 N12802 P 0 N12803 P 0 N12804 P 0
N12805 P 0 N12806 P 0 N12807 P 0 N12808 P 0 N12809 P 0 N12810 P 0 N12811 P 0 N12812 P 0 N12813 P 0 N12814 P 0 N12815 P 0 N12816 P 0 N12817 P 0 N12818 P 0 N12819 P 0 N12820 P 0 N12841 P 0 N12842 P 0 N12843 P 0 N12844 P 0 N12845 P 0 N12846 P 0 N12847 P 0 N12848 P 0 N12849 P 0 N12850 P 0 N12851 P 0 N12852 P 0 N12853 P 0 N12854 P 0 N12855 P 0 N12856 P 0 N12857 P 0 N12858 P 0 N12859 P 0 N12860 P 0 N12881 P 00000000 N12882 P 00000000 N12883 P 00000000 N12884 P 00000000 N12885 P 00000000 N12886 P 00000000 N12887 P 00000000 N12888 P 00000000 N12889 P 00000000 N12890 P 00000000
N12891 P 00000000 N12892 P 00000000 N12893 P 00000000 N12894 P 00000000 N12895 P 00000000 N12896 P 00000000 N12897 P 00000000 N12898 P 00000000 N12899 P 00000000 N12900 P 00000000 N12901 P 0 N12902 P 0 N12903 P 0 N12904 P 0 N12905 P 0 N12906 P 0 N12907 P 0 N12908 P 0 N12909 P 0 N12910 P 0 N12911 P 0 N12912 P 0 N12913 P 0 N12914 P 0 N12915 P 0 N12916 P 0 N12917 P 0 N12918 P 0 N12919 P 0 N12920 P 0 N12921 P 0 N12922 P 0 N12923 P 0 N12924 P 0 N12925 P 0 N12931 P 0 N12932 P 0 N12933 P 0 N12934 P 0 N12935 P 0 N12936 P 0 N12937 P 0 N12938 P 0 N12939 P 0 N12940 P 0 N12941 P 0
CNC Parameter MAXMILL
309 of 319
N12942 P 0 N12943 P 0 N12944 P 0 N12945 P 0 N12946 P 0 N12947 P 0 N12948 P 0 N12949 P 0 N12950 P 0 N12951 P 0 N12952 P 0 N12953 P 0 N12954 P 0 N12955 P 0 N12961 P 00000000 N12962 P 00000000 N12963 P 00000000 N12964 P 00000000 N12965 P 00000000 N12966 P 00000000 N12967 P 00000000 N12968 P 00000000 N12969 P 00000000 N12970 P 00000000 N12971 P 00000000 N12972 P 00000000 N12973 P 00000000 N12974 P 00000000 N12975 P 00000000 N12976 P 00000000 N12977 P 00000000 N12978 P 00000000 N12979 P 00000000 N12980 P 00000000 N12981 P 00000000 N12982 P 00000000 N12983 P 00000000 N12984 P 00000000 N12985 P 00000000 N13101 P 00000000 N13102 P 00000000 N13103 P 00000000 N13110 P 00000000 N13112 P 00000000 N13114 P 00000000
N13116 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N13117 P 00000000 N13118 P 00000000 N13150 P 0 N13200 P 00000000 N13201 P 00000000 N13203 P 00000000 N13204 P 00000000 N13220 P 0 N13221 P 0 N13222 P 0 N13223 P 0 N13227 P 0 N13228 P 0 N13232 P 0 N13233 P 0 N13237 P 0 N13238 P 0 N13250 P 0 N13251 P 0 N13252 P 0 N13253 P 0 N13260 P 0 N13265 P 0 N13266 P 0 N13270 P 0 N13271 P 0 N13272 P 0 N13273 P 0 N13275 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13276 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13600 P 00000000 N13601 P 00000000 N13610 P 0 N13611 P 0 N13612 P 0 N13613 P 0 N13614 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N13615 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13616 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13617 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13618 P 0 N13619 P 0 N13620 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13621 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13622 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13623 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13624 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13625 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13626 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13627 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13628 P 0 N13629 P 0 N13630 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13631 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13632 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13633 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13634 P 0 N13700 P 0 N13701 P 0 N13702 P 0 N13703 P 0 N13704 P 0 N13730 P 00000000 N13731 P 0 N13732 P 0 N13733 P 0 N13734 P 0 N13735 P 0
CNC Parameter MAXMILL
310 of 319
N13736 P 0 N13737 P 0 N13738 P 0 N13739 P 0 N13740 P 0 N13741 P 0 N13742 P 0 N13743 P 0 N13744 P 0 N13745 P 0 N13746 P 0 N13747 P 0 N13748 P 0 N13749 P 0 N13750 P 0 N13751 P 0 N13752 P 0 N13753 P 0 N13754 P 0 N13755 P 0 N13756 P 0 N13757 P 0 N13758 P 0 N13759 P 0 N13760 P 0 N13761 P 0 N13762 P 0 N13763 P 0 N13764 P 0 N13765 P 0 N13766 P 0 N13767 P 0 N13768 P 0 N13769 P 0 N13770 P 0 N13795 P 0 N13796 P 0 N13797 P 0 N13798 P 0 N13800 P 00000000 N13801 P 00000000 N13802 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000
N13803 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N13810 P 0 N13820 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13821 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13822 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13823 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13824 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13831 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13832 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13833 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13834 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13835 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13836 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13837 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13838 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N13860 P 00000000 N13861 P 0 N13862 P 00000000 N13863 P 00000000 N13864 P 00000000 N13865 P 00000000 N13866 P 00000000 N13867 P 0 N13868 P 0 N13869 P 0 N13870 P 0 N13871 P 0 N13872 P 0 N13873 P 0
N13874 P 0 N13875 P 0 N13876 P 00000000 N13877 P 00000000 N13878 P 00000000 N13879 P 00000000 N13880 P 0 N13881 P 0 N13882 P 0 N13883 P 0 N13884 P 0 N13885 P 0 N13886 P 0 N13887 P 0 N13888 P 0 N13889 P 0 N13890 P 0 N13891 P 0 N13892 P 0 N13893 P 0 N13894 P 0 N13895 P 0 N13896 P 0 N13897 P 0 N13898 P 0 N13899 P 0 N13900 P 0 N13901 P 0 N13902 P 0 N13903 P 0 N13904 P 0 N13905 P 0 N13906 P 0 N13907 P 0 N13908 P 0 N13909 P 0 N13910 P 0 N13911 P 0 N13920 P 0 N13921 P 0 N13922 P 0 N13923 P 0 N13924 P 0 N13925 P 0 N13926 P 0 N13927 P 0
CNC Parameter MAXMILL
311 of 319
N13928 P 0 N13929 P 0 N13930 P 0 N13931 P 0 N13932 P 0 N13933 P 0 N13934 P 0 N13935 P 0 N13936 P 0 N13937 P 0 N13938 P 0 N13939 P 0 N13940 P 0 N13941 P 0 N13942 P 0 N13943 P 0 N13944 P 0 N13945 P 0 N13946 P 0 N13947 P 0 N13948 P 0 N13949 P 0 N13950 P 0 N13951 P 0 N13960 P 0 N13961 P 0 N13962 P 0 N13963 P 0 N13964 P 0 N13965 P 0 N13966 P 0 N13967 P 0 N13968 P 0 N13969 P 0 N13970 P 0 N13971 P 0 N13972 P 0 N13973 P 0 N13974 P 0 N13975 P 0 N13976 P 0 N13977 P 0 N13978 P 0 N13979 P 0 N13980 P 0 N13981 P 0
N13982 P 0 N13983 P 0 N13984 P 0 N13985 P 0 N13986 P 0 N13987 P 0 N13988 P 0 N13989 P 0 N13990 P 0 N13991 P 0 N14000 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N14001 P 00000000 N14010 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14011 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14250 P 00000000 N14260 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14261 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14262 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14263 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14264 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14265 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14266 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14267 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14268 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14269 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14270 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14271 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N14272 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14273 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14274 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14275 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14276 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14277 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14278 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14279 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14280 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14281 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14282 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14283 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14284 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14285 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14286 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14287 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14288 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14289 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14300 P 00000000 N14301 P 00000000 N14302 P 00000000 N14303 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14304 P 00000000 N14305 P 00000000 N14480 P 0 N14481 P 0 N14482 P 0
CNC Parameter MAXMILL
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N14483 P 0 N14484 P 0 N14485 P 0 N14486 P 0 N14487 P 0 N14488 P 0 N14489 P 0 N14490 P 0 N14491 P 0 N14492 P 0 N14493 P 0 N14494 P 0 N14495 P 0 N14496 P 0 N14497 P 0 N14498 P 0 N14499 P 0 N14500 P 00000000 N14501 P 00000000 N14505 P 0 N14506 P 0 N14507 P 0 N14508 P 0 N14509 P 0 N14510 P 0 N14511 P 0 N14512 P 0 N14513 P 0 N14514 P 0 N14515 P 0 N14516 P 0 N14517 P 0 N14518 P 0 N14519 P 0 N14520 P 0 N14521 P 0 N14522 P 0 N14523 P 0 N14524 P 0 N14525 P 0 N14526 P 0 N14527 P 0 N14528 P 0 N14529 P 0 N14530 P 0 N14531 P 0
N14532 P 0 N14533 P 0 N14534 P 0 N14535 P 0 N14536 P 0 N14537 P 0 N14538 P 0 N14539 P 0 N14540 P 0 N14541 P 0 N14542 P 0 N14543 P 0 N14544 P 0 N14545 P 0 N14546 P 0 N14547 P 0 N14548 P 0 N14549 P 0 N14550 P 0 N14551 P 0 N14552 P 0 N14553 P 0 N14554 P 0 N14555 P 0 N14556 P 0 N14557 P 0 N14558 P 0 N14559 P 0 N14560 P 0 N14561 P 0 N14562 P 0 N14563 P 0 N14564 P 0 N14565 P 0 N14566 P 0 N14567 P 0 N14568 P 0 N14569 P 0 N14570 P 0 N14571 P 0 N14572 P 0 N14573 P 0 N14574 P 0 N14575 P 0 N14576 P 0 N14577 P 0
N14578 P 0 N14579 P 0 N14580 P 0 N14581 P 0 N14582 P 0 N14583 P 0 N14584 P 0 N14585 P 0 N14586 P 0 N14587 P 0 N14588 P 0 N14589 P 0 N14590 P 0 N14591 P 0 N14592 P 0 N14593 P 0 N14594 P 0 N14700 P 00000000 N14701 P 00000000 N14702 P 00000000 N14703 P 00000000 N14704 P 00000000 N14705 P 00000000 N14706 P 0 N14707 P 0 N14708 P 0 N14709 P 0 N14710 P 0 N14711 P 0 N14712 P 0 N14713 P 0 N14714 P 0 N14715 P 0 N14716 P 0 N14717 P 0 N14718 P 0 N14719 P 0 N14720 P 0 N14721 P 0 N14722 P 0 N14723 P 0 N14724 P 0 N14725 P 0 N14726 P 0 N14727 P 0 N14728 P 0
CNC Parameter MAXMILL
313 of 319
N14729 P 0 N14730 P 0 N14731 P 0 N14732 P 0 N14733 P 0 N14734 P 0 N14735 P 0 N14736 P 0 N14737 P 0 N14738 P 0 N14739 P 0 N14740 P 0 N14741 P 0 N14742 P 0 N14743 P 0 N14744 P 0 N14745 P 0 N14746 P 0 N14747 P 0 N14748 P 0 N14749 P 0 N14750 P 0 N14751 P 0 N14752 P 0 N14753 P 0 N14754 P 0 N14755 P 0 N14756 P 0 N14757 P 0 N14758 P 0 N14759 P 0 N14760 P 0 N14761 P 0 N14762 P 0 N14763 P 0 N14764 P 0 N14765 P 0 N14766 P 0 N14767 P 0 N14768 P 0 N14769 P 0 N14770 P 0 N14771 P 0 N14772 P 0 N14773 P 0 N14774 P 0
N14775 P 0 N14776 P 0 N14777 P 0 N14778 P 0 N14779 P 0 N14780 P 0 N14781 P 0 N14785 P 0 N14786 P 0 N14787 P 0 N14790 P 0 N14794 P 00000000 N14795 P 00000000 N14799 P 0 N14800 P 0 N14801 P 0 N14802 P 0 N14803 P 0 N14804 P 0 N14805 P 0 N14806 P 0 N14815 P 0 N14816 P 0 N14817 P 0 N14818 P 0 N14819 P 0 N14820 P 0 N14821 P 0 N14822 P 0 N14823 P 00000000 N14824 P 0 N14825 P 0 N14836 P 00000000 N14837 P 00000000 N14840 P 0 N14841 P 0 N14842 P 0 N14843 P 0 N14844 P 0 N14845 P 0 N14846 P 0 N14847 P 0 N14848 P 0 N14849 P 0 N14850 P 00000000 N14851 P 00000000
N14852 P 00000000 N14853 P 00000000 N14854 P 00000000 N14855 P 00000000 N14856 P 00000000 N14857 P 00000000 N14858 P 00000000 N14859 P 00000000 N14860 P 0 N14861 P 0 N14862 P 0 N14863 P 0 N14864 P 0 N14865 P 0 N14866 P 0 N14867 P 0 N14868 P 0 N14869 P 0 N14870 P 0 N14871 P 0 N14872 P 0 N14873 P 0 N14874 P 0 N14875 P 0 N14876 P 0 N14877 P 0 N14878 P 0 N14879 P 0 N14880 P 00000000 N14881 P 00000000 N14888 P 0 N14889 P 0 N14890 P 0 N14891 P 0 N14892 P 0 N14893 P 0 N14894 P 0 N14895 P 0 N14896 P 0 N14897 P 0 N14898 P 0 N14899 P 0 N14900 P 00000000 N14901 P 00000000 N14910 P 0 N14911 P 0
CNC Parameter MAXMILL
314 of 319
N14912 P 0 N14913 P 0 N14914 P 0 N14915 P 0 N14920 P 0 N14921 P 0 N14922 P 0 N14923 P 0 N14924 P 0 N14925 P 0 N14926 P 0 N14927 P 0 N14928 P 0 N14929 P 0 N14930 P 0 N14931 P 0 N14932 P 0 N14933 P 0 N14934 P 0 N14935 P 0 N14936 P 0 N14937 P 0 N14938 P 0 N14940 P 0 N14941 P 0 N14942 P 0 N14943 P 0 N14944 P 0 N14945 P 0 N14946 P 0 N14947 P 0 N14948 P 0 N14949 P 0 N14950 P 0 N14951 P 0 N14952 P 0 N14953 P 0 N14954 P 0 N14955 P 0 N14956 P 0 N14957 P 0 N14958 P 0 N14960 P 0 N14961 P 0 N14962 P 0 N14963 P 0
N14964 P 0 N14965 P 0 N14966 P 0 N14967 P 0 N14968 P 0 N14969 P 0 N14970 P 0 N14971 P 0 N14972 P 0 N14973 P 0 N14974 P 0 N14975 P 0 N14981 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14982 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14983 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14984 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14985 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14986 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14987 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N14988 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19000 P 0 N19001 P 0 N19002 P 0 N19003 P 0 N19004 P 0 N19005 P 0 N19006 P 0 N19007 P 0 N19008 P 0 N19009 P 0 N19010 P 0 N19011 P 0 N19012 P 0 N19013 P 0 N19014 P 0 N19015 P 0 N19016 P 0 N19017 P 0
N19018 P 0 N19019 P 0 N19020 P 0 N19021 P 0 N19022 P 0 N19023 P 0 N19024 P 0 N19025 P 0 N19026 P 0 N19027 P 0 N19028 P 0 N19029 P 0 N19030 P 0 N19031 P 0 N19032 P 0 N19033 P 0 N19034 P 0 N19035 P 0 N19036 P 0 N19037 P 0 N19038 P 0 N19039 P 0 N19040 P 0 N19041 P 0 N19042 P 0 N19043 P 0 N19044 P 0 N19045 P 0 N19046 P 0 N19047 P 0 N19048 P 0 N19049 P 0 N19050 P 0 N19051 P 0 N19052 P 0 N19053 P 0 N19054 P 0 N19055 P 0 N19056 P 0 N19057 P 0 N19058 P 0 N19059 P 0 N19060 P 0 N19061 P 0 N19062 P 0 N19063 P 0
CNC Parameter MAXMILL
315 of 319
N19064 P 0 N19065 P 0 N19066 P 0 N19067 P 0 N19068 P 0 N19069 P 0 N19070 P 0 N19071 P 0 N19072 P 0 N19073 P 0 N19074 P 0 N19075 P 0 N19076 P 0 N19077 P 0 N19078 P 0 N19079 P 0 N19080 P 0 N19081 P 0 N19082 P 0 N19083 P 0 N19084 P 0 N19085 P 0 N19086 P 0 N19087 P 0 N19088 P 0 N19089 P 0 N19090 P 0 N19091 P 0 N19092 P 0 N19093 P 0 N19094 P 0 N19095 P 0 N19096 P 0 N19097 P 0 N19098 P 0 N19099 P 0 N19100 P 0 N19101 P 0 N19102 P 0 N19103 P 0 N19104 P 0 N19105 P 0 N19106 P 0 N19107 P 0 N19108 P 0 N19109 P 0
N19110 P 0 N19111 P 0 N19112 P 0 N19113 P 0 N19114 P 0 N19115 P 0 N19116 P 0 N19117 P 0 N19118 P 0 N19119 P 0 N19120 P 0 N19121 P 0 N19122 P 0 N19123 P 0 N19124 P 0 N19125 P 0 N19126 P 0 N19127 P 0 N19128 P 0 N19129 P 0 N19130 P 0 N19131 P 0 N19132 P 0 N19133 P 0 N19134 P 0 N19135 P 0 N19136 P 0 N19137 P 0 N19138 P 0 N19139 P 0 N19140 P 0 N19141 P 0 N19142 P 0 N19143 P 0 N19144 P 0 N19145 P 0 N19146 P 0 N19147 P 0 N19148 P 0 N19149 P 0 N19150 P 0 N19151 P 0 N19152 P 0 N19153 P 0 N19154 P 0 N19155 P 0
N19156 P 0 N19157 P 0 N19158 P 0 N19159 P 0 N19160 P 0 N19161 P 0 N19162 P 0 N19163 P 0 N19164 P 0 N19165 P 0 N19166 P 0 N19167 P 0 N19168 P 0 N19169 P 0 N19170 P 0 N19171 P 0 N19172 P 0 N19173 P 0 N19174 P 0 N19175 P 0 N19176 P 0 N19177 P 0 N19178 P 0 N19179 P 0 N19180 P 0 N19181 P 0 N19182 P 0 N19183 P 0 N19184 P 0 N19185 P 0 N19186 P 0 N19187 P 0 N19188 P 0 N19189 P 0 N19190 P 0 N19191 P 0 N19256 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19257 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19258 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19259 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19260 A1 P 0 A2 P 0 A3 P 0 A4 P 0
CNC Parameter MAXMILL
316 of 319
N19261 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19262 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19263 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19264 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19265 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19266 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19267 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19268 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19269 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19270 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19271 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19272 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19273 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19274 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19275 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19276 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19277 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19278 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19279 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19280 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19281 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19282 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19283 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N19284 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19285 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19286 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19287 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19288 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19289 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19290 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19291 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19292 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19293 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19294 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19295 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19296 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19297 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19298 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19299 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19300 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19301 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19302 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19303 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19304 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19305 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19306 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N19307 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19308 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19309 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19310 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19311 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19312 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19313 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19314 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19315 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19316 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19317 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19318 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19319 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19500 P 00000000 N19501 P 00000000 N19502 P 00000000 N19503 P 00000000 N19504 P 00000000 N19505 P 0 N19506 P 0 N19510 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19511 P 0 N19512 P 0 N19513 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19515 P 00000000 N19516 P 0 N19517 P 00000000 N19518 P 0 N19520 P 0 N19521 P 0
CNC Parameter MAXMILL
317 of 319
N19522 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19523 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19524 P 0 N19530 P 00000000 N19531 P 0 N19532 P 0 N19533 P 0 N19534 P 0 N19535 P 0 N19540 P 00000000 N19541 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19542 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19543 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19544 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19545 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19546 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19547 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19548 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19549 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19550 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19551 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19552 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19553 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19554 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19555 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19556 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19557 A1 P 0 A2 P 0 A3 P 0 A4 P 0
N19558 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19559 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19560 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19561 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19562 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19563 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19564 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19565 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19566 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19567 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19568 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19570 P 00000000 N19571 P 00000000 N19572 P 00000000 N19575 P 00000000 N19580 P 00000000 N19581 P 0 N19582 P 0 N19583 P 0 N19584 P 0 N19585 P 0 N19586 P 0 N19600 P 00000000 N19602 P 00000000 N19605 P 00000000 N19606 P 00000000 N19607 P 00000000 N19608 P 00000000 N19609 P 00000000 N19610 P 0 N19611 P 0 N19612 P 0 N19613 P 0 N19614 P 0 N19615 P 0
N19616 P 0 N19617 P 0 N19618 P 0 N19619 P 0 N19620 P 0 N19621 P 0 N19622 P 0 N19623 P 0 N19625 P 0 N19630 P 0 N19631 P 0 N19632 P 0 N19635 P 0 N19650 A1 P 00000000 A2 P 00000000 A3 P 00000000 A4 P 00000000 N19655 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19656 P 0 N19657 P 0 N19658 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19659 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19660 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19661 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19662 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19665 P 00000000 N19666 P 0 N19667 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19670 P 0 N19671 P 0 N19672 P 0 N19673 P 0 N19674 P 0 N19675 P 0 N19676 P 0 N19680 P 0 N19681 P 0 N19682 P 0
CNC Parameter MAXMILL
318 of 319
N19683 P 0 N19684 P 0 N19685 P 0 N19686 P 0 N19687 P 0 N19688 P 0 N19689 P 0 N19690 P 0 N19691 P 0 N19692 P 0 N19693 P 0 N19694 P 0 N19695 P 0 N19696 P 00000000 N19697 P 0 N19698 P 0 N19699 P 0 N19700 P 0 N19701 P 0 N19702 P 0 N19703 P 0 N19704 P 0 N19705 P 0 N19706 P 0 N19707 P 0 N19708 P 0 N19709 P 0 N19710 P 0 N19711 P 0 N19712 P 0 N19713 P 0 N19714 P 0 N19715 P 0 N19716 P 0 N19717 P 0 N19718 P 0 N19720 P 0 N19721 P 0 N19722 P 0 N19723 P 0 N19724 P 0 N19725 P 0 N19726 P 0 N19730 P 0 N19731 P 0
N19734 A1 P 0 A2 P 0 A3 P 0 A4 P 0 N19740 P 0 N19741 P 0 N19742 P 0 N19743 P 0 N19744 P 0 N19745 P 0 N19746 P 00000000 N19747 P 0 N19748 P 0 N19749 P 0 N19751 P 0 N19752 P 0 %
CNC Parameter MAXMILL
319 of 319
PROGRAMMING MANUAL
Table of Content
1. Main Programming Structure……………………………………………….1
Program numbering and saving ………………………………………….2
2. Programming…………………………………………………………………4
2.1 General flow of operation……....................................................................4
2.2 G codes and its explanation………….….………………….….………….4
2.2.1 Interpolation …………………..………….……………….…………5
2.2.2 Feed Function…………………………………….…………….........12
2.2.3 Reference Tool...….............................................................................16
2.2.4 Tool Compensation…………………………………………….……19
2.2.5 Coordination System……………………………………………..…31
2.2.6 Coordinate value……………………………………………………36
2.2.7 Spindle Function Feed………………………………………………39
2.2.8 Tool Function……………………………………………………….42
2.2.9 Simplify Programming……………………………………………..43
2.3 Auxillary Functions (MCODES)………………………………………..46
3. Sample Program……………………………………………………………49
1. Main Program Structure
The part program can contain a number of separate programs, which together
describe all the operations required to manufacture the part. The Main Program is the
controlling program, ie, the program first read, or accessed, when the entire part program
sequence is run. This controlling program can then call a number of smaller programs
into operation. These smaller programs, called Sub Programs, are generally used to
perform repeated tasks, before returning control back to the main program. Normally, the
controller operates according to one program. In this case the main program is also the
part program.
Main Programs are written using ISO address codes listed below:
Addresses
N refers to the block number.
G refers to the G code (Preparatory function).
X refers to the absolute distance travelled by the slide tool in the X axis direction.
U refers to the incremental distance travelled by the slide tool in the X axis direction.
Z refers to the absolute distance travelled by the slide tool in the Z axis direction.
W refers to the incremental distance travelled by the slide tool in the Z axis direction.
F refers to the feed rate.
M refers to the M code (Miscellaneous function).
S refers to the spindle speed.
T refers to the tooling management.
Each block, or program line, contains addresses which appear in this order:
N, G, X (or U), Z (or W), F, M, S, T ; This order should be maintained throughout every
block in the program, although individual blocks may not contain all these addresses. The
organization of blocks of data within the program follows a layout. Again, it is
recommended that the programmer keeps to this program layout.
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Main Programming Structure MAXMILL
Sub Program Repeat Command:
A call command can be set to call a sub program repeatedly. This call can specify up to
999 repetitions of a sub program.
A sub program repeat command is written in the following format:
M98 PØØØ ØØØØ
where, M98 is the call command.
PØØØ is the number of times the sub program is to be repeated.
ØØØØ is the sub program number.
For example,
M98 P1ØØØØ1
This command is read and calls the sub program number ØØØ1 ten times. When the
repetition is omitted, the sub program will be called once only.
Program Numbering and Saving
The program numbering relies on the programmer saving the program to disk or
computer hard drive at the time of writing. Writing the program on an offline system with
a QWERTY keyboard allows the programmer to save the program using letters and/or
numbers.
A FANUC compatible program number line is written in the following format:
O ØØØØ
Where, O is the Address Code.
ØØØØ is the four digit program number.
Note 1: Sub program numbers must be saved between the ranges ØØØ1 to 9999, ie,
using a four digit number. It is also recommended that all the programs saved should
have filenames between these numbers.
Note 2: Before saving a program to a disk or hard drive, check that the program name
you use has not been used on another file. If the program is saved using a name
identical to an old program, the old program will be overwritten.
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Main Programming Structure MAXMILL
Preparatory functions, called G codes, are used to determine the geometry of tool
movements and operating state of the machine controller; functions such as linear cutting
movements, drilling operations and specifying the units of measurement. They are
normally programmed at the start of a block. A G code is defined using the following
format:
GØØ where,
G is the address letter.
ØØ is the two digit number defining the G code.
Tool Movement
The tool moves along straight lines and arcs forming the workpiece shape:
a) Tool Movement along a Straight Line.
b) Tool Movement along a Taper.
c) Tool Movement along an Arc.
The function of moving the tool along straight lines and arcs is called the
Interpolation. Symbols of the programmed commands GØ1, GØ2, and GØ3 are called
the Preparatory functions and specify the type of interpolation conducted in the control
unit.
Optional Block Skip
When a forward slash mark (/) is followed by a block number (at the beginning of
a block) and the block skip switch on the machine operator panel is set to "on", the block
will be ignored in memory operation. When the block switch is set to "off", then the
blocks indicated by the "/" marks will be considered as valid. If the block skip switch is
set to "on" in the above program example, then blocks indicated by the "/" mark are
skipped.
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Main Programming Structure MAXMILL
2. Programming
When machining a part using the CNC machine tools, first prepare the program, and
then operate the CNC machine by using the program.
1. First, prepare the program from a part drawing to operate the CNC machine tool.
2. How to prepare the program is described in this manual.
3. The program will read into the CNC system. Then, mount the work pieces and
tools on the machine, and operate the tools according to the programming .Finally
execute the machine actually.
Before the actual programming, make the machining plan for how to machine the part.
Machine the plan.
1. Determination of work pieces machining range.
2. Method of mounting work pieces on the machine tool.
3. Machining sequence in every cutting process.
4. Cutting tools and cutting conditions.
2.2 G Codes and its Explanations:
In a CNC program, the machining steps (operations) for producing a part on the
machine tool are laid down in a form that the control system can understand. A program is
composed of several blocks. A block is a collection of NC words. A NC word is a
collection of address letter and a sequence of numbers. When a CNC Program is input, the
control system whether the formal rules of the programming language have been kept to an
instruction. However input of wrong coordinate values by the programmer can only be
found during the program run.
N020 G01 X20 TAB Z-0.5 EOB
Some function cannot be added as options depending on the model. In the tables
below, IP _: Presents combination of arbitrary axis addresses using X, Y and Z axis.
Representing End Points and Arc Center’s:
The end point of an arc is specified by address X, Y, and Z and is expressed as an
absolute or incremental value according to G90 or G91. For the INCREMENTAL value,
CNC
Part
drawing
Part
programing Outputs
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the co-ordinate of the end point that is viewed form the start point of the arc is specified.
The arc center is specified by addresses I, and J for the X, Y, axes, respectively.
The numerical value following I, and J, however, is a vector component in which
the arc center is seen form the start point, and is always specified as an incremental value
irrespective of G90 and G91, as shown below. I, and J must be signed according to
direction. The radius can be specified with the address R instead of specifying the center by
I, or J. The command is as follows:-
G02 or G03 X------Y------Z------R------;
In this case the two types of arcs (one arc is less than 180 degrees and the other more than
180 degrees) are considered, as shown in the figure below. When an arc exceeding 180
degrees is commanded, the radius must be specified with a negative value (-).
2.2.1 Interpolation:
G00 Positioning (Rapid Traverse):
The G00 command moves a tool to the position in the workpiece system specified
with an absolute or an incremental command at a rapid traverse rate.
a. In the absolute command, coordinate value of the end point is programmed.
b. In the incremental command the distance the tool moves is programmed.
Y Tool Path
IP
45º
Start point
X
A tool moves from its current position to the end point at the rapid traverse rate in
each axis direction independently. Therefore, a tool path is not always a linear line.
G00 IP_;
When the additional axis is commanded and the optional additional axis is not
installed, an alarm will occur. In the positioning mode actuated by the G00 code, the
execution proceeds to the next block after confirming the in-position. (This range is set by
machine parameter for each axis.
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Format:
G00IP_;
IP_; For an absolute command, the coordinates of an end position, and for an
incremental command, the distance the tool moves.
G01 Linear Interpolation (Cutting Feed)
Y IP
End point
Start
Point
X
Linear interpolation moves a tool linearly from the current position to the target
position at the specified feed rate. Command format G01IP_ F_;
Two of the X, Y, and Z axes can be controlled simultaneously. Linear interpolation
cannot be operated between the additional axes. The feed rate is commanded by the address
F. Once the federate is commanded it is effective until another value is specified. When the
X, Y and Z axes are commanded the feed rate is determined by the value mm / min. When
the additional axis is commanded the feed rate is determined by the value entered to º / min.
Feed rate along each axis:
When “G01 G91 X Y Ff; is programmed;
Feedrate along X axis: F X = f
L
Feedrate along Y axis: F Y = f
L
( L = ² + ² )
The Example for the linear interpolation of linear axis and rotation axis as follows:
When “G01 G91 X B Ff;” is programmed:
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² + ²
Feedrate along X axis: FX =
F
Feedrate along B axis: FB =
F x
Circular Interpolation CW& CCW (G02, G03):
The Circular interpolation moves a tool along a circular arc from the current
position to the end point at the specified feed rate.
XY circular interpolation:
G 02 Clock wise(CW) Rotation direction
G03 Counterclockwise(CCW)
G90
mode
X, Y End point in the working coordinate
system.
End Point
X Distance from the start point to the
end point in the X direction.G91
mode
Y Distance from the start point to the
end point in the Y axis direction.
I Distance from the start point to the
center of arc in the X direction.
Distance between start point and arc
center
J Distance from the start point to the
center of arc in the Y direction.
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Arc radius R Arc radius.
Feedrate in the tangential direction of
circular arc. Feedrate F
Command Formats
G02 R_
G17 X, Y F_;
G03 I_J_
XZ Circular Interpolation:
The commands are given in the following formats:
G 102 Clock wise(CW) Rotation direction
G103 Counterclockwise(CCW)
G90 mode
X, Y End point in the working coordinate
system.
X Distance from the start point to the end
point in the X direction.
End
Point
G91 mode
Z Distance from the start point to the end
point in the Y axis direction.
I Distance from the start point to the
center of arc in the X direction.
Distance between start point and
arc center
K Distance from the start point to the
center of arc in the Z direction.
Arc radius R Arc radius.
Feedrate F Feedrate in the tangential direction of
circular arc.
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Command Format:
G02 R_
G18 X, Z F_;
G03 I_K_
YZ Circulation interpolation:
G 2 02 Clock wise(CW) Rotation direction
G203 Counterclockwise(CCW)
G90 mode
Y,Z End point in the working coordinate
system.
Y Distance from the start point to the end
point in the Y direction.
End
Point
G91 mode
Z Distance from the start point to the end
point in the Z axis direction.
J Distance from the start point to the
center of arc in the Y direction.
Distance between start point and
arc center
K Distance from the start point to the
center of arc in the Z direction.
Arc radius R Arc radius.
Feedrate F Feedrate in the tangential direction of
circular arc.
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Command Format
G02 R_
G19 Y, Z F_;
G03 J_K_
Explanations:
i) Direction of the circular Interpolation:
“ Clock wise”(G02) and “counterclockwise”(G03) on the Zp Xp plane are defined when
the XpYp plane is viewed in the positive –to – negative direction of the Yp axis in the
Cartesian coordinate system. See the figure below.
ii) Distance moved on an arc:
The end point of arc is specified by address Xp or Zp, and is expressed as an absolute or
incremental value according to G90 or G91. For the incremental value, the distance of
the end point which is viewed from the start point of the arc is specified.
iii) Distance from the start point to the center of arc:
The arc center is specified by addresses I and K for the Xp and Zp axes,
respectively. The numerical value following I or K, however, is a vector component in
which the arc center is seen from the start point, and is always specified as an
incremental value irrespective of G90 and G91, as Shown below.
I, and K must be signed according to the direction. I0 and K0 can be omitted.
Center
Start
Point
End point (Z, X)
X
Z
i
G02
G03
Zp G18
Xp
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iv) Full-circle programming
When Xp and Zp are omitted (the end point is the same as the start point) and the center is
specified with I and K, a 3600 arc (circle) is specified.G022I; Command for a circle
If the difference between the radius at the start point and that at the end point exceeds the value
in a parameter (No.3410), an alarm (No.024) occurs.
v) Arc radius
The distance between an arc and the center of a circle that contains the arc can be
specified using the radius. R, of the circle instead of I and K. In this case, one arc is less
than 1800,
and the other is more than 1800
are considered. An arc with a sector angle of
1800
or wider cannot be specified, the radius must be specified with a negative value. If
Xp and Zp are all omitted, if the end point is located at the same position as the start
point and when R is used, an arc of 00
is programmed G02R; (The cutter does not
iv) Feed rate
The feedrate in circular interpolation is equal to the feed rate specified by the F code,
and the feedrate along the arc (the tangential feedrate of the arc) is controlled to be the
specified feedrate. The error between the specified feedrate and the actual tool feedrate
is 2% or less. However, this feed rate is measured along the arc after the tool nose
radius compensation is applied
Restrictions
i) Simultaneously specifying R with I and K
If I, K and R addresses are specified simultaneously, the arc specified by address R
takes precedence and the other are ignored.
ii) Specifying an axis that is not contained in the specified plane:
If an axis not contained in the specified plane is commanded, an alarm is displayed.
iii) Difference in the radius between the start and end points:
If the difference in the radius between the start and end points of the arc exceeds the
value specified in parameter No. 3410, P/S alarm No.020 is generated. If the end point
is not on the arc, the tool moves in a straight line along one of the axes after reaching
the end point.
Specifying a semicircle with R:
If an arc having a central angle approaching 180 is specified with R, the
calculation of the center coordinates may produce an error. In such a case, specify the
center of the arc with I and K. Clockwise and counterclockwise are the rotation
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move).
direction viewed from the positive direction to the negative direction on the X, Y&Z
axis of the X-Y, X-Z &Y-Z Plane.
The end point of the circular arc takes either the absolutes value or the
incremental value according to G90 or G91. The incremental value commands the
distance from the circular arc start point to the end point to the center. It is commanded
by the incremental value regardless of G90 or G91 are shown in the above diagram.
R= 50 MM
R= 50 MM
START
POINT
END
POINT
2.2.2 Feed Function:
General
The feed functions control the feedrate of the tool. The following two feed functions are
available:
Feed functions
1. Rapid traverse
When the positioning command (G00) is specified, the tool moves at a rapid traverse
feedrate set in the CNC (parameter No. 1420)
2. Cutting feed
The tool moves at a programmed cutting feedrate.
Override
Override can be applied to a rapid traverse rate or cutting feedrate using the switch on
the machine operator’s panel.
Automatic acceleration/deceleration
To prevent a mechanical shock, acceleration/deceleration is automatically applied when
the tool starts and ends its movement
Rapid Traverse
G00 IP_; Format
G00; G code (group 01) for positioning (rapid traverse).
IP_; Dimension word for the end point.
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TR TR
FR
0
FR: Rapid traverse rate
TR: Acceration/ deceleration
time constant for rapid traverse
Rapid traverse rate
Explanations
The positioning command (G00) positions the tool by rapid traverse. In rapid traverse,
the next block is executed after the specified feedrate becomes 0 and the servo motor reaches a
certain range set by the machine tool builder (in position check). A rapid traverse rate is set for
each axis by parameter number 1420. So no rapid traverse feedrate need be programmed.
The following overrides can be applied to a rapid traverse rate with the switch on the machine
operator’s panel; F0, 25, 50, 100%. F0: Allows a fixed feedrate to be set for each axis by
parameter No.1421. For detailed information, refer to the appropriate manual of the machine
tool builder.
Cutting Feed
Feed rate of linear interpolation (G01), circular interpolation (G02, G03) etc. are commanded
with numbers after the F code. In cutting feed, the next block is executed so that the feedrate
change from the previous block is minimized. Two modes of specification are available:
1. Feed per minute (G98)
After F, specify the amount of feed of the tool per minute.
2. Feed per revolution (G99)
After F, specify the amount of feed of the tool per spindle revolution.
Fc
0
Fc: Cutting feedrate
Tc: Acceration/
deceleration time constant
feedrate
T Tc
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Automatic acceleration/deceleration
Cutting
Tool path in a cutting feed
If the direction of movement changes between specified blocks during cutting feed, a
rounded-corner path may result the following figure.
Programmed Path
Example of Tool Path between Two Blocks
Actual tool path
0 Z
X
In a circular interpolation, a radial error the following fig
The feedrate needs to be controlled for the tool to move as programmed.
Format:
Feed per minute.
G98; G code (group 05) for feed per minute.
F_; Feedrate command (mm/min or inch/min).
Feed per revolution.
G99; G code (group 05) for feed per revolution.
F_; Feedrate command (mm/rev or inch/rev).
Programmed Path
Actual tool path
Z
X
0
r: Error
r
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Explanations
i) Tangential speed constant control
Cutting feed is controlled so that the tangential feedrate is always set at a specified feedrate.
Feed per minute (G98)
After specifying G98 (in the feed per minute mode), the amount of feed of the tool per
minute is to be directly specified by setting a number after F. G98 is a modal code.
Once a G98 is specified, it is valid until G99 (feed per revolution) is specified. At
power-on, the feed per revolution mode is set.
An override from 0% to 254% (in 1% steps) can be applied to feed per minute with the
switch on the machine operator’s panel. For detailed information, see the appropriate
manual of the machine tool builder.
Feed per revolution (G99)
After specifying G99 (in the feed per revolution mode), the amount of feed of the tool per
spindle revolution is be directly specified by setting a number after F. G99 is a modal code.
Once a G99 is specified, it is valid until G98 (feed per minute) is specified. An override from
0% to 254% (in 1% steps) can be applied to feed per revolution with the switch on the machine
operator’s panel. For detailed information, see the appropriate manual of the machine tool
builder.
Warning:
Override cannot be used for certain commands such as threading.
Caution:
1. When the speed of the spindle is low, feedrate fluctuation may occur. The slower the
spindle rotates, the more frequently feedrate fluctuation occurs.
2. No override can be used for some commands such as for threading.
End point
Start Point
Linear Interpolation
Starting point
Center End point
Circular Interpolation
X X
F
F
Z Z
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2.2.3 Reference
See Appendix C for a range of feedrates that can be specified.
Dwell (G04)
i) G04 Dwell, Exact Stop:
Upon completion of the previous block and in-position block and in-position
check, some time elapses before executing the next block.
Command Format:
P, X: Dwell time (sec)
Format
Explanations
By specifying a dwell, the execution of the next block is delayed by the specified time. Bit 1
(DWL) of parameter No.3405 can specify dwell for each rotation in feed per rotation mode
(G99).
Change Offset value by program (G10)
i) Tool Offset memory C:
Command Format: G10 L10 P_R_; (Geometry offset value /H).
G10 L12 P_R_; (Geometry offset value /D)
Dwell G04X_; or G04U_; or G04P_;
X_: Specify a time (decimal point permitted)
U_ : Specify a time (decimal point permitted)
P_: Specify a time (decimal point not permitted)
X_
G04 ;
P_
Feed amount per spindle revolution
(mm/min or inch/rev)
Feed per revolution
F
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CNC Programming MAXMILL
When the G90 mode (absolute Command) is selected is selected, the
commanded offset amount is added newly effective. When the G91 mode (incremental
command) is selected, the command offset amount is added to the currently set offset
amount to become a changed offset amount. When the additional axis is commanded
while an optional additional axis is not in stalled, an alarm will occur.
ii) Input Tool Wear offset value:
Command Format: G10 L11 P_R_; (Fine offset value /H)
G10 L13 P_R_; (Fine offset value /D)
When the tool length /Tool diameter compensation command is issued using the
program, the data of the offset number corresponding to the commanded offset number
is automatically reflected in operation. Change of tool fine offset data in program.
L11 : Fine offset of tool length, L13 : Fine compensation tool diameter.
P : Fine offset no. Range: 1~99
R : Fine offset amount.
The commanded value is added to the compensation amount in absolute mode (G90)
and the preset value in incremental mode (G91).
Polar Coordinate (G15, G16)
Input in Inches and Millimeters (G20, G21):
This G code must be specified in an independent block before setting the
coordinate system at the beginning of the program, After the G Codes for inch/metric
conversion is specified, and the unit of input data is switched to the least inch or metric
input increment of increment system IS_B. The unit of data input for degrees remains
uncharged. The unit systems for the following values are changed after inch/ metric
conversion:
Feedrate command by F code.
Positional command.
Work piece zero point offset value.
Tool Compensation
YpYp Local Coordinate
(X Y)
Work Coordinate system
XP
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Unit of scale for manual pulse generator.
Movement distance in increment feed.
Some parameters
When the power is turned on, the G codes are the same as that held before the
power was turned off.
2.2.3 Reference Return:
Reference positio
Intermediate position
n (G28)
IP
Start Point
Command format:G28 IP;
G28 X_Y_Z_A_B_C;
This command provides an automatic return to the reference point through an
intermediate point for commanded axes. Positioning to the reference point is made
through an intermediate point as specified by X_Y_Z_A_B_C. It can be the selection of
machine coordinate system (G53) commanded by either the absolute command (G90)
or the incremental command (G91). The coordinate values of the intermediate point
command in this block are memorized. All the command axes moved to the reference
point at the point at the rapid traverse rate by way of intermediate point.
Note: When the additional axis is commanded while an optional additional axis is not
installed, an alarm will occur.
Return from reference position to start point (G29)
Intermediate position
G29 IP_; G29X_Y_Z_A_B_C
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Command Format:
This command provides positioning to the commanded position through an intermediate
point for commanded axes. At an incremental command, an incremental distance from
the rapid traverse rate, then positioned at the command point.
2.2.4 Tool Compensation:
TOOL OFFSET
Tool offset is used to compensate for the difference when the tool actually used differs from the
imagined tool used in programming (usually, standard tool).
T Code for Tool Offset
Format: Lower digit of T code specifies tool offset number
Kind of T code Meaning of T code Parameter setting for specifying of offset
No.
2-digit command T O When LD1, bit 0 of
parameter No.5002
is set to 1, a tool
offset number is
specified with the
last digit of a T
code.
When LGN ,bit 1
of parameter
No.5002 is set to 0,
the tool geometry
offset number
specified for a
certain tool are the
same
Tool wear and tool
geometry offset number
Tool selection
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4-digit command T O O
Tool offset number Tool
selection
When LD1, bit 0 of
parameter No.5002,
is set to 0, a tool
offset number is
specified with the
last two digits of a
T code.
Tool Selection:
Tool selection is made by specifying the T code corresponding to the tool number.
Offset Number
Tool offset number has two meanings. It is specifies the offset distance corresponding to the
number that is selected to begin the offset function. A tool offset number 0 indicates the \ at the
offset amount is 0 and the offset is cancelled.
Offset Explanations
i) Tool offset
The tool path is offset by the X and Z offset values for the programmed path. The offset
distance corresponding to the number specified by the T code is added to or subtracted from the
and position of each programmed block.
ii) Offset vector
In the above fig the vector with offset X and Z is called the offset vector. Compensation is the
same as the offset vector.
iii) Offset cancel
Offset is cancelled when T code offset number 0 is selected. At the end of the cancelled block,
the offset vector becomes 0.
N1 X50.0 Z100.0 T0202;
Compensation by offset X , Z (Offset vector)
Tool path after offset
Programmed path
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Creates the offset vector corresponding to the offset number 02
N2 X200.0;
N3 X100.0 Z250.0 T0200; Specifying offset number 0 deletes the offset vector.
With Parameter LVC (No.5003#6) set to 1, the offset is canceled when:
1) The initial time after power is turned on.
2) The reset key on the MDI unit is pressed.
3) The a reset signal is input from the machine to the CNC.
Parameter LVC (No.5003#6) can beset so that offset will not be cancelled by pressing the reset key
or by reset input.
Only T code
When only a T code is specified in a block, the tool is moved by the offset value without a move
command. The movement is performed at rapid traverse rate in the G00 mode. It is performed
feedrate in other modes. When a T code with offset number 0 is specified by itself, movement is
performed to cancel the offset.
Warning
1. When G50 X_Z_T; is specified tool is not moved.
The coordinate system in which the coordinate value of the tool position is (x,z) is set the toolpost
position is obtained by subtracting the offset value corresponding to the offset number specified in
the T code.
2. Do not command a G code other than G50 in group 00 and a T code together in the same block.
Offset cancel
Specifying offset number 0, 00, or cancels offset.
Examples
1. When a tool offset number is specified with the last two digits of a T code
(When LGN, bit 1 of parameter No.5002, is set 0),
N1X50.0 Z100.0 T0202; Specifies offset number 02
N2 Z200.0;
N3 X100.0 Z250.0 T0200; Cancels offset.
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Overview of Tool Nose Radius Compensation
It is difficult to produce the compensation necessary to form accurate parts when using only the tool
offset function due to tool nose roundness in taper cutting or circular cutting.
Offset Number and Offset Value
Explanations:
Geometry offset
number
Offset number
OFGX
(X axis geometry
offset amount)
OFGZ
(Z axis geometry
offset amount )
OFGR (Tool nose
radius geometry
offset value)
OFT
(Imaginary
tool nose
direction)
G01
G02
10.040
20.060
50.020
30.030
0
0
1
2
Workpiece
Insufficient
depth of
cutting
Shape processed without
tool nose radius
compensation
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G03 0 0 0.20 6
G04 : : : :
G05 : : : :
: : : : :
Wear OFGX OFGZ OFGR (Tool nose
radius geometry
offset value)
OFT
offset (X axis geometry
offset amount)
(Z axis geometry
offset amount )
(Imaginary
tool nose
direction)
number
W01 0.040 0.020 0 1
W02 0.060 0.030 0 2
W03 0 0 0.20 6
W04 : : : :
W05 : : : :
: : : : :
Command of offset value
An offset number is specified with the same T code as that used for tool offset.
Setting range of offset value
The range of offset value is as follows;
Increment system Metric system Inch system
IS-B 0 to ±999.999 mm 0 to ±99.9999 inch
IS-C 0 to + 999.9999mm 0 to + 99.9999 inch
The offset value corresponding to the offset number 0 is always 0. No offset value can be set to
offset number 0.
Work Position and Move Command:
In tool radius compensation, the position of the workpiece with respect to the tool must be
specified.
The tool is offset to the opposite side of the workpiece
G code Workpiece position Tool path
G40 (Cancel) Moving along the programmed path
G41 Right side Moving on the left side the programmed path
G42 Left side Moving on the right side the programmed path
The workpiece position can be changed by setting the coordinate system as shown below
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CNC Programming MAXMILL
a) G40, G41, and G42 are model.
b) Don’t specify G41 while in the G41 mode. If you do, compensation will not work properly.
c) Don’t specify G42 while in the G42 mode for the same reason.
d) G41 or G42 mode blocks in which G41 or G42 are not specified are expressed by (G41) or
(G42) respectively.
Tool movement when the workpiece position does not change
When the tool is moving, the tool nose maintains contact with the workpiece.
Tool movement when the workpiece position changes
The workpiece position against the toll changes at the corner of the programmed path as shown
in the following figure.
B
BA CG41 G42
Workpiece
position
Workpiece
position
A
G41
G42
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CNC Programming MAXMILL
Although the workpiece does not exist on the right side of the programmed path in the above
case, the existence of the workpiece is assumed in the movement from A to B. The workpiece
position must not be changed in the block next to the start-up block. In the above example, if the
block specifying motion from A to B were the start-up block, the tool path would not be the same as
the one shown.
Start-up
The block in which the mode changes to G41 or G42 from G40 is called the start up block.
G40_;
G41_;(Start-up block)
Transient tool movements for offset are performed in the start-up block. In the block after the start-
up block, the tool nose center is positioned. Vertically to the programmed path of that block at the
start position.
Offset cancel
The block in which the mode changes to G40 from G41 or G42 is called the offset cancel block.
G41_;
G40_;(Offset cancel block)
The tool nose center moves to a position vertical to the programmed path in the block before the
cancel block. The tool is positioned at the end position at the end position in the offset cancel block
(G40) as shown below.
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Specification of G41/G42 in G41/G42 mode
When is specified again in G41/G42 mode, the tool nose center is positioned vertical to the
programmed path of the preceding block at the end position of the preceding block. In the block that
first specifies G41/G42, the above positioning of the tool nose center is not performed.
Tool movement when the moving direction of the tool in a block which includes a
G40 command is different from the direction of the workpiece
When you retract the tool in the direction specified by X(U) and Z(W) canceling the tool nose
radius compensation at the end of machining the first block in the figure below, specify the
following:
G40 X(U)_Z(W)_I_K_;
The work position specified by address I and K is the same as that in the preceding block. If and/or
K is specified with G40 in the cancel mode, the I and/or K is ignored.
G40 X_Z_I_K; Tool nose radius compensation
G40 G02 X_Z_I_K_; Circular interpolation
40 G01 X_Z_;
G40 G01 X_ Z_ I_K_; Offset cancel mode (I and k are ineffective.)
The numeral’s followed I and K should always be specified as radius values.
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Examples
(G40 mode)
1. G42 G00 X60.0;
2. G01 X120.0W_150.0 F10;
3. G40 G00 X300.0 W 150.0 I40.0 K-30.0;
TOOL OFFSET SETTING
EXTERNAL TOOL OFFSET SETTING
To set the offset we should follow the following procedure
Datum the Machine
Any offsets already in the file can be overwritten
Select the tool in MDI mode
Switch on the spindle in MDI mode with rpm selection.
Using AXIS JOG keys, touch on the end of the bar diameter as shows in the following
figure.
After completion of touching the job dia (using the vernier caliper measure the job
diameter)
Open the offset screen by pressing the offset setting button.
Select Geometry offset.
In the screen select the tool which you are using.
Type X and job diameter value in the screen
Press the measure Button ( which will appear in the below of the screen)
After completion of X offset.
Press Offset setting to open OFFSET screen.
In the screen select the tool which you are using.
Type the Z 0.
Press the measure Button (which will appear in the below of the screen).
Now X0 and Z0 are reads.
Return machine to “Home” position.
Bring the drilling tool and touch the job dia shows in the following Fig
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For the internal and external offset
INTERNAL TOOL OFFSET SETTING
BORING OFFSET
The boring offset is possible only after complete the drilling. Bring the tool and touch the internal
dia of the job as shows in the following fig.
Open the offset screen in that screen selects the tool (Which you are using)
And type X diameter of the Job (Ex X12)
Press the measure button.
Now take the tool out from the Job and touch the job face shows in the following fig
And again open the same offset screen and select the tool type Z0. Press the measure button.
Now take the tool back to home position boring offset is completed
TOOL NUMBERS AND OFFSET NUMBERS
When the programming the tool number in a part program the rule is as follows:-
If a four digit number is programmed following the letter T, then the first two digits
represent the Tool number, and the second two digits represent the Tool Offset number.
Example:-
Job
Boring tool
Job
Boring tool
T 0 30 3
Tool select code Offset No. Tool number
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If the digit following the Tool Selection Code (T) is less than 100 i.e. two digits, then the Tool
Number and the Offset Number are the same.
Example:-
Tool Offset
A) T3 3 3
T03 3 3
T103 1 3
T0103 1 3
T0613 06 13
T0100 1 0 (no offset)
The first two digits counting from the RH side of the code is always the Offset Number.
SUBROUTINES, CYCLES, AND SAMPLES
Subprograms (Subroutines)
By using the program jump functions, It is possible to simplify a machining program with repeated
machining or function sequences.
The machining sequences, which are repeated and can be used several times, are stored as
subroutines and called up using the program, jump functions.
M98 - jump command to another program.
M99 - Return command.
This repeats program 0340 twice.M99 can be used to return to the start of the program.
O 0005
Main Program
M98 PO241
0241
Sub - Program
M98 P20340
0340
Sub - Program
M30 M99
T 0 3
Tool select code Tool No. & Offset No.
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: 0010
N10 M00
N980 M99 P10
M99 generally indicates the end of a subroutine and allows the jump back to the main program. If it
is used with “p” address, this indicates the “Jump To” block number.
The program will read the M99 P10 (GOTO N10)-i.e. automatic return to line ten.
Line N10 must read M00 to stop the cycle for component loading. All information prior to
N10-i.e standard tool geometry-would not be read after the first cycle.ThereforeM30 would
not be programmed in this case.
Cutter Compensations (G40 _ G42)
When the tool is moved, the tool path can be shifted by the radius of the
tool. To move an offset as large as the radius of the tool, CNC first creates an offset
vector with a length equal to the radius of the tool (start –up). The offset vector is
perpendicular to the path. The tail of the vector is on the work piece side and the head
positions to the center of the tool. If a linear interpolation or circular interpolation
command is specified after start-up, the tool path can be shifted by the length of the
offset vector during machining. To return the tool to the end of machining, cancel the
cutter compensation mode.
Command Format:
G17 G41
G18 G42 D_;
G 19
D: Tool Offset
G40: Cancel
G42
G41
G40
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Tool Length off A (G43)
Command Format: G17 G43 Z_
G18 G44 Y_ H_;
G19 X_
H: Tool offset
G17 G43 G49: Cancel
G18 G44 H_;
G19
Scaling (G50, G51)
P4 P3
IP
P1 P2
P1 P2
G45
G46 IP_D_;
G47
G48
D: Tool offset number
This tool is not decelerated at the end point of a block, but the next block is
executed. When G63 is specified, feedrate override and feed hold are invalid.
2.2.5 Coordinate System
By teaching the CNC a desired tool position, the tool can be moved to the
position. Such a tool position is represented by coordinates in a coordinate system.
Coordinates are specified using program axes. When two program axes, the X-axis and
Z-axis, are used, coordinates are specified as follows:
X_Z_ This command is referred to as a dimension word.
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P4 P3
Workpiece Coordinate System
A coordinate system used for machining a workpiece is referred to as a
workpiece coordinate system. A workpiece system is to be set with the NC beforehand
(setting a workpiece coordinates system). A machining program sets a workpiece
coordinate system (selecting a workpiece coordinate system).
A set workpiece coordinate system can be changed by shifting its origin (changing a
workpiece coordinate system).
Setting a Workpiece Coordinate System
A workpiece coordinate system can be set using one of three methods:
(1) Method using G50
A workpiece coordinate system is set by specifying a value after G50 in the program.
(2) Automatic setting
If bit 0 of a parameter No.1201 is set beforehand, a workpiece coordinate system is
automatically set when manual reference position return is performed
(3) Method of using G54 toG59
Make setting on the MDI panel to preset six workpiece coordinate systems .Then,use
program commands G54 G59 to select which workpiece coordinate system to use.
When an absolute command is used, a workpiece coordinate system must be established
in any of the ways described above.
Format
Setting a work piece coordinate system by G50
G50 IP_
Explanations
A work piece coordinate system is set so that a point on the tool, such as the tool tip, is
at specified coordinates. If IP is an incremental command value, the work coordinate system is
defined so that the current tool position coincides with the result of adding the specified
incremental value to the coordinates of the previous tool position. If a coordinate system is set
using G50 during offset, a coordinate system in which the position before offset matches the
position specified in G50 is set.
Example1
Setting the coordinate system by the G50X 128.7Z375.1; command (Diameter designation)
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Changing Work piece Coordinate System
The six workpiece coordinate systems specified with G54 to G59 can be
changed by changing an external workpiece zero point offset value or workpiece zero
point offset value or workpiece zero point offset value.
Three methods are available to change an external workpiece zero point offset value or
workpiece zero point offset value.
1) Inputting from the MDI panel
2) Programming by G10 or G50
Changing by G10
G10 L2 Pp IP_; P=0: External workpiece zero point offset value
P=1 to 6 : Workpiece zero point offset value correspond to workpiece coordinate system 1 to 6
IP: For an absolute command (G90), workpiece zero point offset for each axis.
For an incremental command (G91), value to be added to the set workpiece zero point offset for
each axis (the sum is set as the new offset).
128.7
X
375.1Start point
Z
Zero point
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Changing an external workpiece zero point offset value or workpiece zero
point offset value
Changing by G50
Explanations G50 IP_;
Changing by G10
With the G10 command, each workpiece coordinate system can be changed separately.
Changing by G50
EXOFS: External workpiece zero point offset value. ZOFS1: Workpiece zero point offset value
By specifying G50IP_;,a workpiece coordinate system (selected with a code from
G54 to G59) is shifted to set a new workpiece coordinate system so that the current
tool position matches the specified coordinates (IP_).
If IP is an incremental command value, the work coordinate system is defined so
that the current tool position coincides with the result of adding the specified
incremental value to the coordinates of the previous tool position(Coordinate system
shift)Then, the amount of coordinate system shift is added to all the workpiece zero
point offset values. This means that all the workpiece coordinate systems are shifted
by the same amount.
Examples
16
60
100
10
100 200
X X
A Z
Z
G54 Workpiece Coordinate System
New Work Piece coordinate System
Original Work Piece coordinate System
Tool Position
If G50X100Z100; is command when
the tool is positioned at (200,160) in
G54 mode, work piece coordinate
system 1(X’-Z’) shifted by vector A is
created.
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<G54 Workpiece coordinate System>
<G55 Workpiece coordinate System>
A
X
600.0
X’
1200.0
Z
Z’
A
X
600 0
X’
1200.0
Z
Z’
X’- Z’ New works piece coordinate system
X – Z Original workpiece Coordinate System
A: Offset value created by G50
B: Work piece zero point offset value in G54
C: Workpiece Zero point offset value in G55
Suppose that a G54 workpiece coordinate system is specified. Then, a G55 workpiece
coordinate system where the black circle on the tool (figure at the left) is at (600.0,12000.0) can
be set with the following command if the relative relationship between the G54 workpiece
coordinate system and G55 workpiece coordinate system is set correctly; G50
X600.0Z1200.0;Also suppose that pallets are loaded at two different positions. If the relative
relationship of the coordinate systems of the pallets at the two positions is correctly set by
handling the coordinate systems as the G54 work piece coordinate system and G55 work piece
coordinate system, a coordinate system shift with G50 in one pallet causes the same coordinate
system shift in the other pallet. This means that work pieces on two pallets can be machined
with the same program just by specified G54 or G55.
Coordinate rotation Function (G68, G69):
Command Format:
G68 X_Y_R_;
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X, Y, Z Rotation center coordinate value
The coordinate system commanded in the absolute value is always recognized. When
this setting is omitted, the position in which the block has shifted from G69 to G68 is
considered the center.
R: Rotation angle
Confirms to G90/G91; the counter clockwise direction is considered the positive
direction. When setting is omitted, an alarm will occur
2.2.6 Coordinate value and Dimension:
Absolute Zero &Incremental Command (G90 & G91):
The axis movement amount can be specified by either the absolute command or
the incremental command.
There are two ways to command travels of the tool; the absolute command, and
the incremental command. These commands follow respectively.
(1) Absolute Command (G90)
This is commanded by the G90 code. It specifies an end point of the block in
the working coordinate system. (G90 X90 Y70s are absolute command).
(2) Incremental (G91)
This is commanded by the G91 code. It specifies a distance from the start
point to the end point in the block. (G91 X60 Y40s are Incremental command).
Y
End Point
70
40
30 60
Start Point
(0.0) 30 90 X
Absolute programming or incremental programming is used depending on the
command used. See following tables.
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G code System A B or C
Command method Address word G90, G91
Format
G code system A
Absolute command Incremental command
X axis move command X
Z axis move command
C axis move command
U
Z W
C H
G code system B or C
Absolute command G90IP_;
Incremental command G91IP_;
NOTE:
1 Absolute and incremental command can be used together in a block.
In the above example, the following command can be specified:
X400.0 W 400.0;
2 When both X and U or W and Z are used together in a block, the one specified later is
effective.
3 Incremental commands cannot be used when names of the axes are A and B during G code
system A is selected.
INCH/ METRIC CONVERSION (G20, G21)
Either inch or metric input can be selected by G code.
Format
G20; Inch input
G21; mm input
This G code must be specified in an independent block before setting the coordinate system
at the beginning of the program. After the G code for inch/metric conversion is specified, the
unit of input data is switched to the lest inch or metric input increment of increment system .The
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unit of data input for degrees remains unchanged. The unit systems for the following values are
changed after inch/metric conversion:
- Feedrate commanded by F code
- Positional command
- Work zero point offset value
- Too compensation value
- Unit of scale for manual pulse generator
- Movement distance in incremental feed
- Some parameters
When the power is turned on, the G code is the same as that held before the power was turned
off.
WARNING
1 G20 and G21 must not be switched during a program.
2 When switching inch input (G20) to metric input (G21) and vice versa, the tool compensation
value must be re-set according to the least input increment.
However, when bit 0 (OIM) of parameter 5006 is 1, tool compensation values are
automatically converted and need not be re-set.
CAUTION
Movement from the intermediate point is the same as that for manual reference position
return. The direction which the tool moves from the intermediate point is the same as the
reference position return direction, as specified with bit 5 (ZMI) of parameter No. 1006.
DECIMAL POINT PROGRAMING
Numerical values can be entered with a decimal point. A decimal point can be used
when entering a distance, time, or speed. Decimal points can be specified with the following
address:
X,Y,Z,U,V,W,A,B,C,I,J,K,R and F.
Explanations
There are two types of decimal point notation: calculator type notation and standard
notation. When calculator – type decimal notation is used, a value without decimal point is
considered to be specified in millimeters. When standard decimal notation is used, such a value
is considered to be specified in least input increments. Select either calculator-type or standard
decimal notation by using the DPI bit (bit 0 of parameter 3401).Values can be specified both
with and without decimal point in a single program.
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Examples
Program command Pocket calculator type
decimal point programming
Standard type decimal point
programming
X 1000 Command value
without decimal point.
1000mm unit: mm 1 mm Unit: Least input
increment (0.001mm)
X 1000.0 Command value 1000mm
Command value with decimal
point.
1000mm Unit: mm Unit: mm
WARNING
In a single block specify a G code before entering a value. The position of decimal point may depend on
the command.
Examples:G20; Input in inches
X1.0 G40; X1.0 is considered to be distance and processed as X10000. This command is equivalent to
G40X10000.The tool dwells for 10 seconds.
G04 x1.0; Equivalent to G04 X 1000. The tool dwells for one second.
2.2.7 SPINDLE SPEED FUNCTION
The spindle speed can be controlled by specifying a value following address S.
CONSTANT SURFACE SPEED CONTROL (G96, G97)
Specify the surface speed (relative speed between the tool and work piece) following S.
The spindle is rotated so that the surface speed is constant regardless of the position of the
tool.
Format
Constant surface speed control command
G96 S OOOOO;
Surface speed (m/min or feet/min)
Note: This surface speed unit may change according to machine tool builder’s specification.
Constant surface speed control cancel command
Clamp of maximum spindle speed
G97 S OOOOO;
Spindle speed (rpm)
Note: This surface speed unit may change according to machine tool builder’s specification.
G50 S OOOOO;
The maximum spindle speed (rpm) follows S.
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Explanations
Constant surface speed control command (G96)
G96 (constant surface speed control command) is a model G code. After a G96 command is
specified, the program enters the constant surface speed control mode (G96) and specified S values
are assumed as a surface speed. A G96 command must specify the axis along which constant
surface speed control is applied. A G97 command cancels the G96 mode. When constant surface
speed control is applied, a spindle speed higher than the value specified in G50S_; (maximum
spindle speed) is clamped at the maximum spindle speed. When the power is turned on , the
maximum spindle speed is not yet set and the speed is not clamped. S (surface speed) commands in
the G96 mode are assumed as S =0. The surface speed is 0) until M03 (rotating the spindle in the
positive direction) or M04 (rotating the spindle in the negative direction) appears in the program.
Spindle speed (min-1
)
Setting the workpiece coordinate system for constant surface speed control. To execute
the constant surface speed control, it is necessary to set the work coordinate system, Z
axis, (axis to which the constant surface speed control applies) becomes zero.
S is 600 m/min
Radius m/min
The spindle speed (min-1) almost coincides with the
surface speed (m/min) at approx.160 mm (radius).
Surface speed
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Example of the Work piece Coordinate System for Constant Surface Speed Control
Relation ship between workpiece radius, spindle speed and surface speed
Surface speed specified in the G96 mode
Specify the surface speed
in m/min (or fee /min)
G97 command
Store the surface speed in
m/min (or feet/min)
Command for
the spindle
speed
The specified spindle
speed (min-1) is used
Not specified
The surface speed (m/min
or feet/min) is converted to
the spindle speed (min-1)
Commands other than G96
G96 command
Command for
the surface
speed
The stored surface speed (m/min
or feet/min) is used. If no surface
speed is stored, 0 is assumed.
The specified surface
speed is used
Specified
Not Specified
G96 mode G97 mode
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Restrictions
Constant surface speed control for threading
The constant surface speed control is also effective during threading. Accordingly, it is
recommended that the constant surface speed control be invalidated with G97 command before
starting the scroll threading and taper threading, because the response problem in the servo system
may not be considered when the spindle speed changes.
Constant surface speed control for rapid traverse(G00)
In a rapid traverse block specified by G00,the constant surface speed control is not made by
calculating the surface speed to a transient changes of the tool position at the end point of the rapid
traverse block, on the condition that cutting is not executed at rapid traverse.
Example
N8 G00 X 1000.0 Z1400.0
N9 T33;
N11 X400.0 Z1050.0;
N12 G50S3000; (Designation of max. spindle speed)
N13 G96S200; (Surface speed 200m/min)
N14 G01 Z 700.0F1000;
N15 X600.0Z 400.0;
N16 Z…;
The CNC calculates the spindle speed which is proportional to the specified surface speed at the
position of the programmed coordinate value on the X axis. This is not the value calculated
according to the X axis coordinate after offset when offset is valid. At the end point N15 in the
example above, the speed at 600 dia.(Which is not the turret center but the tool nose) is 200 m/min.
If X axis coordinate value is negative, the CNC uses the absolute value.
2.2.8 Tool function:
Tool Selection
By specifying a 2- digit/4-digit numerical value following address T, a code signal and a
strobe signal are transmitted to the machine tool. This is mainly used to select tools on the machine.
One T code can be commanded in a block. Refer to the machine tool builder’s manual for the
number of digits commendable with address T and the correspondence between the T codes and
machine operations. When a move command and a T code are specified in the same block, the
commands are executed in one of the following two ways:
1. Simultaneous execution of the move command and T function commands.
2. Executing T function commands upon completion of move command execution.
The selection of either sequence depends on the machine tool builder’s specifications. Refer to the
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machine tool builder’s manual for details.
Explanations
The value after the T code indicates the desired tool. Part of the values is also used as the
offset number indicating the compensation amount for tool offset. Refer to the machine tool
builder’s manual for correspondence between the T code and the tool and the number of digit to
specify tool selection.
Example (T2+2)
N1G00X1000Z1400
N2T0313; (Select Tool No.3 and Offset value No.13)
N3X400Z1050;
Some machines use 1-digit value to specify tool selection.
2.2.9 Simplify programming:
Drilling Cycle:
G73 Pecking Drill Cycle:
This cycle performs high- speed peck drilling. It performs intermittent cutting feed
to the bottom of a hole while removing chips from the hole.
Command Format:
G73 X_Y_Z_R_Q_F_K_;
R_ : The distance from the initial level to point R level.
Q_ : Depth rate of each cutting feed.
F_ : Cutting Feedrate.
G76 Fine Boring:
The fine Boring cycle bores a hole precisely. When the bottom of the hole has been
reached, the spindle stops, and the tool is moved away from the machined surface of the
workpiece and retracted. G76 X_Y_Z_R_Q_F_K_;
Command Format:
Z_ : The distance from point R to the bottom of the hole.
R_ : The distance from the initial level to point R level.
Q_ : Shift amount at the bottom of a hole.
F_ : Cutting Feedrate.
K_ : Number of repeats (if required).
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K_ : Number of repeats (if required).
Z_ : The distance from point R to the hole.
X_Y_ : Hole position data.
X_Y_ : Hole position data.
G81 Drilling Cycle, Spot Boring:
This cycle is used for normal drilling. Cutting feed is performed to the bottom of the
hole. The tool is then retracted from the bottom of the hole in rapid traverse.
Command Format: G81 X_Y_Z_R_F_K
X_ Y_: Hole position data.
Z_ : The distance from point R to the bottom of the hole.
R_ : The distance from the initial level to point R level.
F_ : Cutting feedrate.
K_: Number of repeats (If required)
G82 Drilling Cycle, Counter Boring:
This cycle is used for normal drilling. Cutting feed is performed to the bottom of the
hole. At the bottom, a dwell is performed, and then the tool is retracted in rapid traverse.
This cycle is used to drill holes accurately with respected in rapid traverse.
Command Format: G82 X_Y_Z_R_P_F_K
X_ Y_: Hole position data
Z_ : The distance from point R to the bottom of the hole.
P_ : Dwell time at the bottom of a hole.
R_ : The distance from the initial level to point R level.
F_ : Cutting feedrate.
K_: Number of repeats (If required)
G83 Peck Drilling Cycle:
This cycle performs the peck Drilling Cycle.
It performs intermittent cutting feed to the bottom of a hole while removing
shavings from the hole.
Command Format: G83 X_Y_Z_R_Q_F_K
X_ Y_: Hole position data
Z_: The distance from point R to the bottom of the hole.
R_: The distance from the initial level to point R level.
Q_: Depth of cut for each cutting feed.
F_: Cutting feedrate.
K : Number of repeats (If required)
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Boring Cycle (G85, G86, G88)
It is used for boring.
Command Format: G85, G86, G88
X_Y_Z_R_F_K
X_ Y_: Hole position data
Z_: The distance from point R to the bottom of the hole.
R_: The distance from the initial level to point R level.
Q_: Depth of cut for each cutting feed.
F_ : Cutting feedrate.
K_: Number of repeats (If required).
Constant Surface (G96 &G97):
Surface speed
(m /min or feet/min)
Spindle speed N (min-1
Command Format: G96 S_; Starts constant surface speed control
(Surface speed command)
G97 S_; Constant surface speed is cancelled
(Maximum spindle speed command)
Return to Initial Point / Reference point in Canned Cycle (G98 &G99):
G98
Initial
Level
G99 R level
Z point
Cancellation (G69)
When a G69 code is specified, model macro calls are no longer performed in
subsequent laws.
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Sample Program:
G40_;
G41_;
G69_; (Canceling a block)
2.3 AUXILIARY FUNCTION
There are two types of auxiliary functions; miscellaneous function (M code) for specifying program
end.
i) Simultaneous execution of the move command and miscellaneous function commands.
ii) Executing miscellaneous function commands upon completion of move command
execution
Miscellaneous Functions
Miscellaneous functions, called M codes, are used by the CNC to command on/off
signals to the machine functions. i.e., MØ3 - spindle forward (CW), MØ5 - spindle stop,
etc..... The functions allocated to lower M code numbers are constant in most CNC
controls, although the higher M code number functions can vary from one make of
controller to the next. An M code is defined using the following format:
MØØ
Where, M is the address letter.
ØØ is the two digit number defining the M code.
M CODE LIST
M00 PROGRAM STOP
M01 OPTIONAL STOP
M02 PROGRAM END
M03 SPDL ON CW
M04 SPDL ON CCW
M05 SPDL OFF
M07 FLUSH COOLANT ON
M08 COOLANT ON
M09 COOLANT OFF
M19 SPDL ORIENTATION
M30 PROGRAM END AND REWIND
M71 DOOR OPEN
M72 DOOR CLOSE
M73 VICE CLAMP
M74 VICE UNCLAMP
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M CODE DESCRIPTION:
M CODE DESCRIPTION PRECONDITION
M00
PROGRAM STOP
By commanding M00 current program
executed comes to stop.
Program execution is continued only
when the cycle start is pressed again.
1. Machine ready
condition
2. Auto/MDI is
selected
M01
OPTIONAL STOP
By commanding M01 the execution of
the program is stopped after the current
tool program block is executed.
Program execution is continued when
the cycle start is pressed again.
When “optional stop” present on
Machine control panel is ON the
execution of the part program is stopped
when M01 is commanded if “optional
stop” is OFF the part program continues
without stopping at M01.
1. Machine ready
condition
2. Optional stop is
3. enabled from the
Machine control
panel.
4. Auto/MDI is
selected
M02PROGRAM END
By commanding M02 current program
execution comes to a stop.
condition
M03
SPDL ON CW
By commanding M03 Spindle runs in
clockwise direction with the speed
specified by S command given in the
program.
Eg. M03 S100;
1. Machine not in
Emergency condition
2. Arm in REVERSE
condition
3. Machine lock not ON
4. Air pressure is OK or
Air Pressure bypass is
ON
5. Tool is clamped
M04
SPDL ON CCW
By commanding M04 Spindle runs
counter clockwise with speed specified
by S command
1. Machine not in
Emergency condition
2. Arm in REVERSE
condition
3. Machine lock not ON
4. Air pressure is OK or
Air Pressure bypass is
ON
5. Tool is clamped
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1. Machine ready
2. Auto/MDI is selected
M05 SPDL OFF
By commanding M05 Spindle comes to
standstill position.
M07
FLUSH COOLANT ON
By commanding M07 the coolant motor
starts and flushes the coolant on the
work piece.
Machine ready condition
M08
COOLANT ON
By commanding M08 the coolant motor
starts and flushes the coolant on the
work piece.
Machine ready condition
M09
COOLANT OFF
By commanding M09 the coolant motor
stops and also stops to flush the coolant. Machine ready condition
M19
SPDL ORIENTATION
By commanding M19 the spindle is in
Orientation position
condition
2.Tool is clamped
3. Arm is reversed
4. Air pressure is OK
5. Machine lock not ON
M30 PROGRAM END AND REWIND
By commanding M30 current
program execution comes to a
stop and rewinds the program
M73 VICE UNCLAMP
By Commanding M73 the Vice gets
Unclamped.
Machine not in
Emergency condition
M74 VICE CLAMP
By Commanding M74 the Vice gets
Clamped.
Machine not in
Emergency condition
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1. Machine ready
Drilling
00001
G0 G90 G80 G40 G17 G15 G69;
M06 T2;
G0 G90 G59 X0 Y0;
G0 G43 H2 Z25;
M03 S2000;
M08;
G01 Z5 F2000;
G80;
G0 G90 Z25;
M05;
M09;
M30;
Tapping (M5 x 0.8 pitch)
00002;
G0 G90 G80 G40 G17 G15 G69;
M06 T4;
G0 G90 G55 X0 Y0;
G0 G43 H4 Z 25;
M08;
G0 25;
M29;
G98 G95 G84 Z-18 R2 F0.8;
G80;
M28;
G0 G90 Z50;
3. Sample Programs:
Sample Programs
G98 G83 Z-15 R2 Q3 F100;
M03 S1000;
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M05;
M09;
M30;
Face Milling
00003;
G0 G90 G80 G40 G17 G15 G69;
M06 T6;
G0 G90 G59 X0 Y0;
G0 G43 H6 Z25;
M03 S3000;
M08;
G01 Z-1 F100;
G01 X160 F300;
G01 Y-50;
G01 X0;
G01 Y0;
G0 G90 Z50;
M05;
M09;
M30;
Scaling
0004;
G0 G90 G80 G40 G17 G15 G69;
M06 T5;
G0 G90 G59 X0 Y0;
G0 G43 H5 Z50;
M03 S2000;
M08;
G01 G90 Z2 F1000;
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G01 Z-1 F50;
G51 X0 Y0 I1 J-0.5;
G01 X100;
Y100;
X0;
Y0;
G50;
G0 G28 G91 Z0;
M09;
M05;
M30;
Contouring
0005;
G0 G90 G80 G40 G17 G15 G69;
M06 T4;
G0 G90 G55 X0 Y0;
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Sample Programs MAXMILL
G0 G90 G43 H4 Z50;
M03 S2500;
M08;
G01 Z5 F2000;
G01 Z-1 F100;
G01 Y40 F200;
G02 X10 Y50 R10;
G01 X40;
G01 X50 Y40;
G01 Y10;
G03 X40 Y0 R10;
G01 X0;
G0 G90 Z50;
M05;
M09;
M30;
Programing Instructions:
Planning Procedure
1. Receive the part drawing and from the part drawing information, check the
suitability of part to be machined against the machine capacity (clearances).
2. Determine a method of driving the component (chuck type, chuck size, type of jaw,
collet size, face driver etc) set up in the turret wherever possible.
3. Determine the tooling required to suit the method of machining and utilize the
tools, which are permanently set up in the turret.
4. Determine the order of machining and the tooling stations.
5. Determine the planned stops (cycle interrupt procedure, incorporating block delete
codes) for checking dimensional sizes, where required by the operator.
6. Determine cutting speeds, bearing in mind the following:
a) Component material, method of driving, rigidity of component.
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Sample Programs MAXMILL
b) The tooling selected for roughing and finishing: tool holders with carbide
inserts, the grade of the carbide insert selected, carbide drills, high speed steel
7. Determine depths of cut and feeds for roughing operations, bearing in mind the
horsepower/kilowatts available for cutting and the rigidity of the part.
8. Determine, from surface finish requirements, the tool nose radius most suited for
the finishing operations and determine feed rates.
9. Allocate tool offsets as required.
10. Complete the planning sheet.
Programing Procedure
1. After completing the planning sheet draw the component to scale showing the tool
paths. A scale drawing is not mandatory when the component shape and the
cutting paths are simple. A sketch may prove sufficient.
2. Select a component datum and dimension in scale drawing (or sketch) with the
length and diameter of cuts relative to the component datum. Carry out necessary
calculations at slopes and arcs.
3. Draw tooling layout sheet showing tools to be used in the program and indicate
the station numbers for each tool.
4. Complete the tooling layout sheet by indicting the ordering code for each tool and
the grade and type of inserts to be used.
5. Commence starting procedure onto program sheets.
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Sample Programs MAXMILL