Manuals(Great 150im II)St2

8/17/2019 Manuals(Great 150im II)St2

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GREAT-150iM-II

For Milling Machine

& Machining Center

User Manual

SoTeng CNC Technology Co., Ltd.

http:// www.sotengcnc.com

http://www.sotengcnc.com/http://www.sotengcnc.com/


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GREAT-150IM-II MANUALS

3.8 PROGRAM ................................................................................................................................................................... 51

3.8.1 NEW/SEK .................................................................................................................................................................. 51

3.8.2 COPY ........................................................................................................................................................................ 52

3.8.3 R ENAME ................................................................................................................................................................... 52

3.8.4 DELETE ..................................................................................................................................................................... 52

3.8.5 I NFORMATION ........................................................................................................................................................... 53

3.8.6 COPY PROGRAM APPLYUSB-DISK ............................................................................................................................ 53

3.8.7 PROGRAM TRANSMITTED BY SERIAL PORT ................................................................................................................ 55

3.8.8 EDIT .......................................................... .................................................................. .............................................. 58

3.8.9 SELECT PROCESSING PROGRAM ................................................................................................................................ 61

3.8.10 SHIFT PROGRAM FILES PATH.................................................................................................................................... 61

3.9 MANUAL ...................................................................................................................................................................... 61

3.9.1 CONTINUOUS MODE .................................................................................................................................................. 61

3.9.2 I NCREMENT .......................................................... .................................................................. ................................... 62

3.9.3 MPG

MODE .......................................................... .................................................................. ................................... 62

3.9.4 R EFERENCE RETURNING............................................................................................................................................ 63

3.9.5 AUTOMATIC MIDPOINT IDENTIFICATION FUNCTION ................................................................................................... 63

3.9.6 R ETURN TO THE ZERO POINT OF G17 PLANE OF WORK COORDINATE SYSTEM .......................................................... .. 65

3.9.7 OTHER OPERATION IN MANUAL MODE: .............................................................. ........................................................ 66

3.10 AUTO ........................................................................................................................................................................... 68

3.10.1 COORDINATES ............................................................... .................................................................. ........................ 68

3.10.2 GRAPHIC ................................................................................................................................................................. 68

3.10.3 CONTINUAL ............................................................................................................................................................ 69

3.10.4 STEP ...................................................................................................................................................................... 69 3.10.5 SIMULATION .................................................................. .................................................................. ........................ 69

3.10.6 FEEDING HOLD .............................................................. .................................................................. ........................ 69

3.10.7 MPG WHEEL TRIGGER IN AUTO RUNNING ................................................................. .............................................. 69

3.10.8 DNC FUNCTION ...................................................................................................................................................... 70

3.11 MDI MODE ............................................................ .................................................................. ................................... 71

3.12 RUN PROGRAM FROM A REAL LINE ........................................................ ......................................................... 71

3.13 RUN PROGRAM FROM A CERTAIN MARKED LINE ............................................................... ........................ 71

3.14 RUN PROGRAM FROM A CERTAIN TOOL NUMBER ............................................................... ....................... 71

3.15 SET COORDINATES/CHOOSE COORDINATES ................................................................................................ 72

3.16 MASS PROGRAM FOR MOULD PROCESSING .............................................................. ................................... 72

3.17 TOOL EXCHANGE AND TOOL SETTING ......................................................................................................... .. 73

3.17.1 TOOL MAGAZINE OPERATION................................................................................................................................... 73

3.17.2 TOOL EXCHANGE .................................................................................................................................................... 73

3.17.3 TOOL SETTING ............................................................... .................................................................. ........................ 74

3.18 EXIT SYSTEM ........................................................................................................................................................... 75

CHAPTER IV PROGRAMING .......................................................... .................................................................. ............ 76

Address:Chengdu,Sichuan,P.R.China Postcode: 610106

Http://www.sotengcnc.com Email:[email protected]

Tel: 0086-13551010933 Fax: 0086-28-86623586

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4.1 BASIC CONCEPTS ............................................................ .................................................................. ........................ 76

4.2 GENERAL DESCRIPTION OF PROGRAM .............................................................. .............................................. 77

4.3 PROGRAM INSTRUCTION ...................................................................................................................................... 77

4.3.1 FUNCTION AND MEANING OF ADDRESS SYMBOL, DATA RANGE LIST .............................................................. ............. 77

4.3.2 G, M FUNCTION INSTRUCTION DATA LIST .................................................................................................................. 78

4.3.3 F FUNCTION: ............................................................................................................................................................. 81

4.3.4 T/H/D FUNCTION ...................................................................................................................................................... 82

4.3.5 S FUNCTION .............................................................................................................................................................. 82

4.4 PREPARATION FUNCTIONS ............................................................... ................................................................. ... 82

4.4.1 COORDINATE SYSTEM SETTING (G92) .............................................................. ......................................................... 82

4.4.2 CHOOSE COORDINATE SYSTEM (G53/G54/G55/G56/G57/G58/G59) ........................................................... ............. 83

4.4.3 LOCAL COORDINATE SYSTEM (G52) ................................................................. ......................................................... 84

4.4.4 PROGRAMMING METHODS (G90/G91) ...................................................................................................................... 84

4.4.5 SELECT PLANE (G17/G18/G19) ............................................................ .................................................................. .. 85

4.4.6 R APID POSITIONING (G00) ........................................................................................................................................ 85

4.4.7 LINEAR INTERPOLATION (G01) ................................................................................................................................. 86

4.4.8 CIRCULAR /ARC INTERPOLATION (G02/G03) ............................................................... .............................................. 86

4.4.9 HELICAL INTERPOLATION (G02/G03) ....................................................................................................................... 87

4.4.10 DWELL (G04) ................................................................. ................................................................. ........................ 88

4.4.11 MIRROR INSTRUCTION (G11/G12) .................................................................................................. ........................ 88

4.4.12 SCALING (G36/G37) ................................................................ .................................................................. ............. 89

4.4.13 COORDINATE SYSTEM ROTATE (G68/G69) .............................................................................................................. 91

4.4.14 R EFERENCE POINT (G28/G281/ G282/ G283/ G30/ G301/ G302/ G303) .............................................................. .. 93

4.4.15 TOOL LENGTH COMPENSATION (G43/G44/G49) ........................................................ .............................................. 94 4.4.16 TOOL RADIUS INCREASING OR DECREASING (G45/G46/G47/G48) .......................................................................... 95

4.4.17 TOOL RADIUS COMPENSATION (G40/G41/G42) .......................................................... ............................................. 96

4.4.18 PROGRAM RECYCLE INSTRUCTION (G22--G800) .................................................................. ................................... 97

4.4.19 ACCURATE POSITIONING/CONTINUAL PATH WORKING (G60/G64) .............................................................. ............. 98

4.4.20 CANNED CYCLE OF MACRO DEFINITION (G73,G74,G76,G80～G89) ......................................................... ............. 98

4.4.20.1 High speed deep hole drilling (G73) ................................................................ ............................................ 100

4.4.20.2 CCW peck deep hole tapping cycle (G74) .................................................................................................... 101

4.4.20.3 Finished boring cycle (G76) .............................................................................................................. ........... 103

4.4.20. 4 Drilling cycle, point drilling cycle (G81) .................................................................................................... 104

4.4.20.5 Drilling cycle, countersink boring cycle (G82) ............................................................................................ 104

4.4.20.6 Chip removal drilling cycle (G83) ......................................................... ....................................................... 105

4.4.20.7 CW peck deep hole tapping cycle (G84) ........................................................... ............................................ 106

4.4.20.8 Boring cycle (G85) ....................................................................................................................................... 108

4.4.20.9 Boring cycle (G86) ....................................................................................................................................... 108

4.4.20.10 Boring cycle, counter boring cycle (G87) ....................................................... ............................................ 109

4.4.20.11Boring cycle (G89) .......................................................... .................................................................. ............ 110

4.4.20.12 Cancel cycle instruction (G80) ................................................................................................................... . 111

4.4.21 POLAR COORDINATE (G15/G16) ........................................................................................................................... 112

4.4.22 METRIC AND INCH SYSTEM (G20/G21) .......................................................... ....................................................... 113 4.4.23 THREADING(G33) ......................................................... .................................................................. ...................... 114



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5.2.3.2 Output relay (Y) .............................................................................................................................................. 142

5.2.3.3 Interior relay (M) ............................................................... .................................................................. ........... 142

5.2.3.4 Timer (T) .................................................................. ................................................................. ...................... 142

5.2.3.5 Counter (C) .............................................................. ................................................................. ...................... 143

5.3 BASIC CELL SIGN IN LADDER DIAGRAM ............................................................. ........................................... 144

5.4 BASIC LOGIC COMMANDS IN INSTRUCTION LIST ...................................................................................... 144

5.4.1 LD, LDI, OUT COMMANDS .................................................................................................................................... 144

5.4.2 AND, ANI COMMANDS .............................................................. .................................................................. ........... 145

5.4.3 OR, ORI COMMANDS ................................................................. .................................................................. ........... 145

5.4.4 ORB COMMAND ..................................................................................................................................................... 145

5.4.5 ANB COMMAND ..................................................................................................................................................... 145

5.4.6 MPS, MRD, MPP MEMORIZER AND MULTIPLE OUTPUT COMMANDS ............................................................ ........... 145

5.4.7 SET AND RST COMMANDS ..................................................................................................................................... 145

5.4.8 NOP AND END COMMANDS .................................................................. .................................................................. 145

5.5 PLC PROGRAM EDITING ......................................................... .................................................................. ........... 145

5.5.1 EDIT PLC PROGRAM ON PC .................................................................................................................................... 146

5.5.1.1 Edit software installation and running environment ................................................................. ...................... 146

5.5.1.2 Basic operation of software editing ......................................................... ....................................................... 146

5.5.1.3 Edit PLC Ladder ................................................................ .................................................................. ........... 147

5.5.1.4 Generate instruction list file ........................................................................................................................... 149

5.5.1.5 Logic testing ................................................................................................................................................... 150

5.5.2 EDIT PLC PROGRAM ON THE PANEL OF THE CONTROLLER ................................................................. ...................... 151

5.5.2.1 Basic operation in editing interface ......................................................... ....................................................... 151

5.5.2.2 Edit PLC ladder ................................................................. .................................................................. ........... 152

5.6 PLC FILE TRANSMISSION..................................................................................................................................... 154

5.6.1 TRANSMIT PLC FILE BY RS232 .............................................................................................................................. 154

5.6.1.1 Transmit PLC file (PLC.lad, PLC.plc) to controller ................................................................. ...................... 154

5.6.1.2 Transmit PLC file (PLC.plc, PLC.plc) to PC from controller .............................................................. ........... 156

5.6.2 TRANSMIT PLC FILE BY USB PORT .................................................................. ....................................................... 157

5.6.2.1 Restore PLC file to controller from U disk .................................................................... ................................. 157

5.6.2.2 Backup PLC file into U disk ........................................................................................................................... 158

5.7 THE DEFINITION OF INTERIOR AUXILIARY RELAY ............................................................... ..................... 159

5.8 PROGRAMMABLE I/O DIAGRAM IN SYSTEM ............................................................... .................................. 163

5.8.1 GENERAL I/O BOARD ................................................................. .................................................................. ........... 163

5.8.1.1 General I/O board (GREAT-GEN-IO) ............................................................................................................ 163

5.8.1.2 General I/O board (GREAT-GEN-IO-A) ............................................................. ........................................... 164

5.8.2 MOVEMENT CONTROL BOARD ............................................................... .................................................................. 165

5.8.3 SUBPANEL ............................................................................................................................................................... 165

5.8.4 MANUAL PULSE GENERATOR ................................................................. .................................................................. 167

5.9 EXAMPLE AND EXPLANATION OF PLC PROGRAMMING ................................................................. .......... 167

5.10 EDIT REPLY NAME ........................................................ .................................................................. ...................... 170



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5.10.1 EDIT RELAY NAME ON PANEL................................................................................................................................. 170

5.10.2 EDIT RELAY NAME ON PC ......................................................... .................................................................. ........... 171

5.10.3 EXAMPLES TO SELF-DEFINED ALARM USAGE OF INTERIOR RELAYS M80---M95 .................................................... 172

5.11 PROGRAMMABLE I/O PRESET FUNCTION DEFINITION ................................................................ ........... 174

5.11.1 MOVEMENT CONTROL BOARD ............................................................. .................................................................. 174

5.11.2 SUBPANEL ............................................................................................................................................................. 175 5.11.3 MANUAL PULSE GENERATOR ............................................................... .................................................................. 176

5.11.4 GENERAL I/O BOARD ............................................................................................................................................ 176

5.12 THE DEFINITION OF PLC, INSTRUCTION AND PARAMETER FOR MACHINE MATCH WITH

TOOL MAGAZINE .................................................................. .................................................................. ...................... 179

5.12.1 SPECIFICATION OF MACHINING CENTRE WITH UMBRELLA TOOL MAGAZINE ........................................................... 179

5.12.2 SPECIFICATION OF MACHINING CENTRE WITH ATC TOOL MAGAZINE .......................................................... ........... 181

CHAPTER VI CONNECTION& INSTALLATION ..................................................................................................... 184

6.1 GENERAL ................................................................ .................................................................. ................................. 184

6.2 SYSTERM CONFIGURATION ............................................................... ................................................................. 184

6.2.1 SYSTEM ASSEMBLIES AND FUNCTION ...................................................................................................................... 184

6.3 SYSTEM CONNECTION DIAGRAM .............................................................. ....................................................... 187

6.3.1 THE CONNECTION DIAGRAM MATCH WITH A TYPE SUBPANEL ............................................................ ...................... 187

6.3.2 CONNECTION DIAGRAM MATCH WITH B TYPE SUBPANEL ........................................................................................ 188

6.4 DIMENSION ............................................................ .................................................................. ................................. 188

6.4.1 MAIN PANEL DIMENSION ......................................................................................................................................... 188

6.4.2 SUBPANEL DIMENSION (A TYPE AND B TYPE IS SAME) ............................................................. ................................ 189

6.4.3 GENERAL I/O BOARD DIMENSION ........................................................................................................................... 190

6.4.4 DIMENSION OF MOVEMENT CONTROL BOARD ......................................................................................................... 191

6.4.5 THE INSTALLATION DIMENSION OF I/O POWER MODULE (DC24V/ 3A) ........................................................ ........... 191

6.5 SYSTEM INSTALLATION ENVIRONMENT........................................................................................................ 191

6.5.1 POWER CAPACITY ................................................................................................................................................... 192

6.5.2 POWER SUPPLY CONNECTION AND CONFIGURATION ................................................................................................ 192

6.5.2.1 Power supply connection diagram ................................................................................................................. 192

6.5.2.2 I/O power supply setting ................................................................ ................................................................. 192 6.5.3 CNC POWER TURN ON/ OFF SEQUENCE ................................................................................................................... 193

6.6 SYSTEM CONNECTED WITH SURROUNDING EQUIPMENT ....................................................................... 193

6.6.1 CONNECTION WITH COMMUNICATION BOARD ......................................................................................................... 194

6.6.1.1 connection with communication board ............................................................... ............................................ 194

6.6.1.2 Interface connection ....................................................................................................................................... 194

6.6.2 CONNECTED WITH SPINDLE ENCODER .............................................................. ....................................................... 195

6.6.2.1 Connected with spindle encoder ............................................................... ...................................................... 195

6.6.2.2 Interface with spindle encoder ................................................................. ....................................................... 195

6.6.3 CONNECTED WITH MPG (MANUAL PULSE GENERATOR ) ......................................................... ................................. 195

6.6.3.1 Connected with MPG ......................................................... .................................................................. ........... 195



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6.6.3.2 The interface connected with MPG................................................................................................................. 196

6.6.3.3 MPG internal connection diagram ...................................................................................................... ........... 196

6.6.4 CONNECTED WITH SUBPANEL ................................................................ .................................................................. 197

6.6.4.1 Connected with subpanel .............................................................. .................................................................. 197

6.6.4.2 Connected with subpanel .............................................................. .................................................................. 198

6.6.5 CONNECTED WITH GENERAL I/O BOARD ................................................................................................................. 200

6.6.5.1 Connected with general I/O board.................................................................................................................. 200

6.6.5.2 Interface connected with general I/O board ....................................................... ............................................ 200

6.6.6 CONNECTED WITH MOVEMENT CONTROL BOARD ........................................................ ............................................ 202

6.6.6.1 Connection with movement control board .......................................................... ............................................ 202

6.6.6.2 Interface connected with movement control board ........................................................ ................................. 202

6.7 CNC CONTROLS CONNECTED WITH SPINDLE DRIVER .................................................................. ........... 205

6.7.1 CNC CONTROLS CONNECTED WITH FREQUENCY INVERTER ............................................................... ...................... 205

6.7.2 CNC CONTROLS CONNECTED WITH SPINDLE SERVO DRIVE ..................................................................................... 205

6.7.2.1 Connection diagram of CNC controls connected with GTB-GA spindle servo drive ..................................... 205

6.7.2.2 Connection diagram of CNC controls connected with MODROL spindle servo drive ................................... 206

6.8 CNC CONTROL CONNECTED WITH FEED SERVO DRIVE ................................................................ ........... 207

6.9 MACHINE ELECTRIC INSTALLATION PRINCIPLE .................................................................. ..................... 208

6.9.1 DIRECT-CURRENT POWER SUPPLY .......................................................... .................................................................. 208

6.9.2 I/O PORTS ............................................................. .................................................................. ................................. 209

6.9.2.1 I/O port classification and distribution ............................................................... ............................................ 209

6.9.2.2 General I/O input port principle which is available by "IPE" .............................................................. .......... 209

6.9.2.3 General I/O input port principle which is available by "+24V " ......................................................... ........... 209

6.9.2.4 Sub-panel input port principle which is available by "GND " .............................................................. .......... 210 6.9.2.5 Sub-panel output port principle which is availability by "+5V " .......................................................... .......... 210

6.9.2.6 General, movement control I/O output port principle which is availability by "IPE" .................................... 210

6.9.2.7 Reference points connection principle ................................................................................................. ............ 211

6.9.2.8 Limit signal connection principle ...................................... .................................................................. ............ 211



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CHAPTER I PREFACE

150IM-II is one middle grade flush type CNC control system that has been designed by SoTeng CNC

Technology Co., Limited, aiming specially at milling machine & machining center.

Based on modern computer technology, system move control core & PLC program running technology, and

stable unique real time control engine subsystem RTAI, this system ensures the stabilization of operation.

The use of high performance, low power consumption industrial grade ARM microprocessor as core of

hardware, large scale FPGA integrate circuit, multiple layer (4,6) printed circuit, 32MB flash memory, 8.4 inch

real color LCD which provides friendly human-machine dialogue interface makes this system work to its best.

DEFINITION OF CAUTION, WARNING, AND NOTE

1. WARNING Applied when there is a danger of user being injured or user being injured and equipment is damaged.

2. CAUTION

Reminds operator must be caution in the relative operation, otherwise lead this operation failure or damage

the equipment.

3. NOTE

APPLIED TO INDICATE SUPPLEMENTARY INFORMATION AND EXPLANATION.

NOTE

This system has function to backup parameters. After debugging machine, it can backup all parameters of

machine & system and PLC documents to computer. It is convenient not only for mass debugging, but also

for machine recovery to normal after changing system. (refer to Chapter 3.6)

NOTE

WHEN USE THIS SYSTEM AT THE FIRST TIME, PLEASE READ CAREFULLY ALL

THE DETAILS OF EACH CHAPTER SO AS TO MAKE IT WORK MORE EFFICIENTLY.

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CHAPTER II TECHNICAL FEATURE

2.1 System construct ions

● 32 bits high performance, low power consumption industrial grade ARM microprocessor

● 64MB memory● 32MB user store room

● 640x480 8.4 inch real color LCD displayer

● Touch screen main and sub panel

● High anti-jamming switch power

● USB-disk interface

● RS232 interface

● Programmable I/O 118X46

● Spindle servo speed control/spindle frequency conversion speed control

● Manual pulse generator

2.2 System technical parameter

● controllable axes: X, Y, Z, A, B five axes

● simultaneous axes: Arc 2-3 axes, liner 2-5 axes.

● pulse equivalent: X, Y, Z, A, B axes: 0.001mm

● max speed: X, Y, Z, A, B: 60000mm/min

● cutting speed: 1-20000mm/min

● min input unit: 0.001mm

● program size range: ± 99999.999

● 99 tools management

● umbrella type and turn-plate type tool magazines are available

● program code: ISO-840 international standard

● program coordinate system definition: ISO-841

● mean time between failure(MTBF): more than 5000 hours

● cabinet protection complies with regulation of IP54

2.3 System funct ion

2.3.1 Auto-diagnosis function:

All around diagnosis of CPU, memory, LCD, I/O interface, parameter status, coordinates, machining

program etc. shall execute when the system starts or resets. In operation, it makes real time diagnosis for

power supply, spindle, limit and all I/O interface.

2.3.2 Compensation function:

● automatic backlash compensation

● tool length automatic compensation

● tool radius automatic compensation ● tool radius automatic offset and sharp angle transition

● leading screw pitch error automatic compensation

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2.3.3 Abundant inst ruction system:

● scaling up/down instruction

● mirror machining instruction

● multiple tool offset instruction

● program cycle, jump, call and different program ending

● multiple positioning instruction: starting point, setting fixed point, etc.● linear, circular, spiral line interpolation instruction

● program management instructions: program cycle, call, transfer and different

program ending method, etc.

● 6 work coordinate system and 4 refer ence points

2.3.4 Chinese/English menu, fu ll screen edit ion:

Easy operation, convenient viewing

2.3.5 Abundant debugging functions:

it can point out clearly what errors of operation are and guide to correct them.

2.3.6 Program exchange between CNC system and IBM/PC series compatible computer

Apply CAD/CAM/CAPP auxiliary programming by using PC series compatible computer's abundant software

resources, then transfer the CNC program into CNC system through (USB-disc port, RS232 port. Likewise

it also can transfer the program from system to PC through communication port.

2.4 System operation condition

2.4.1 Power supply:

AC 220V(+10％ /-15％), Frequency 50Hz±2％. Power: ≥ 200W.

NOTE: It must apply isolation transformer to supply power, primary input: 380V

2.4.2 Climate condit ion

operation condition: temperature 0～45 ℃,relative moisture30-95%

storage & transportation condition temperature: -40～55 ℃,relative moisture


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CHAPTER III OPERATION

3.1 Panel layout and switch

Fig 3.1 panel layout

Switch introduction:

Chart 1: Switch introduction

Switch Functions

Emergency stop (yellow/red)Driver and motor stop immediately, turns off the spindle, coolant,

waits for the release E-stop button, and initializes values

Program run (green) Execute the auto-machining program, meanwhile light turns on

Program end (red)In automatic continual run, press once to pause, twice to end

immediately; in manual mode run, press once to end.

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Spindle override switch In the process of spindle running, adjusts the speed accordingly.

Feed axes override switchWhen program runs or in manual state, it can make a real-time

adjustment of feed speed

Chart 2: buttons introduction:

Keyboards Functions

Letter keyNumber key

CHRTAXYZLIJKSFMGDPN0123456789.-: used for editing program

instructions, parameters; number keys are used for inputting data and selecting

sub-menu.

Edit key

↑, ↓, →, ←: move cursor, input data or select menu. etc

Del: delete one character behind the cursor

PgUp, PgDn: page up, page down

Alt: shift key , shift coordinate system in manual or auto mode

Back: delete one character before the cursor

Home: move the cursor to the beginning of line in programming editing status; move

cursor to the first parameter place in parameter menu

End: move the cursor to the end of line in programming editing status; move cursorto the last parameter place in parameter menu

Function key

“Esc” returning to upper level or stop a operation

“Enter” selecting sub-menu and changing a new line

“Shift” top key input

“program” shift to program edition interface

“para” shift to parameter setting interface

“dgnos” shift to diagnosis function interface

“manual” shift to manual status interface

“auto” shift to automatic status interface

“MDI ” shift to MDI function interface

“ ” adjust manual increment or handwheel override

“ ” shift auto-coordinates/graphic machining mode

“ ” shift between single block/continuous mode

“ “ work with “PgUp” or ”PgDn”: set the brightness of the screen.

Control key

“ ” spindle cw, stop, ccw, jog cw, jog ccw

“ ” coolant on/off

“ ” axis reference returning

“ ” spindle tool tighten / release

“ ” tool magazine rotate CW, CCW

“ ” lubrication on/off

“ ” adjust federate

“ ” adjust spindle rotating speed

“ ” exit system safely

Feed key +X +Y +Z +4 –X –Y –Z -4 For X, Y, Z, A axes feed

Rapid key Used for rapid moving axis in manual mode

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Self-definition key K1, K2, . . . K8 Self definition control

Soft key F1, F2, ……F8 Menu shift, function selection

3.2 Operation interface

Whole system adopts multi-leveled menu full screen operation, user-friendly interface, providing

comprehensive information. It enters into the main interface as followed as booting.

Fig3.2 operation panel

Definition of each display area (fig 3.2) in the system main screen as below:

1. title bar: the top column shows company’s logo and current time

2. program display area: show the program which will execute or being running “/tmp/NC/”is default path or

program and “89” is program name.3. G code display area: show the G status of current executing program or the coordinate system in non-auto

mode. For example: G53 means machine coordinate system.

4. program display area: show the program content which being executed or running and the progress (show

through scroll bar)

5. feed speed display area: show the speed, rate, real speed and speed ratio of feed axis. “F5000” in the

column means the speed is 5000mm/min; “F0” means real running speed is 0mm/min; percentage means the

rate switch gear level is 100%.proportional band shows the proportion between real running speed and the

max speed setting in the parameter. The green part means the real running speed is less than 60% of the

max running speed, it is safety area; yellow part means the real running speed is 60%-100% of the max

speed, it is warning area; red part means the real running speed is more than 100% of the max running speed.

It is dangerous area.

6. spindle revolution display area: show speed, rate, real running speed and speed ratio of spindle under

present code. “S2000” in the column means the speed is 2000r/min; “S0” followed means the real running

speed is 0r/min; percentage means the rate switch gear level is 100%. proportional band shows the

proportion between real running speed and the max speed setting in the parameter. the green part means the

real running speed is less than 60% of the max running speed, it is safe area; yellow part means the real

running speed is 60%-100% of the max speed, it is warning area; red part means the real running speed is

higher than 100% of the max running speed. It is dangerous area.

7. manual or auto mode display area: show the display mode in manual or auto and continuous, increment,MPG status etc and relevant information in the manual mode.

8. M code display area: show the validity of M code. Green light means valid and red-light means invalid.

9. tool status display area: show relevant information, as show in fig3.2 from left to right, the first T01 means

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the current tool number on the spindle; H0 means the current tool edge H (length compensation number); D0

means the current tool edge D (radius compensation number) 01 means current cutter seat number, cutter

seat number at tool exchange position; T00 means tool number on the current cutter seat.

10. machine coordinates display area: show the coordinates value of machine coordinates (G53)

11. coordinates display area: dynamic coordinates display, showing present coordinates (machine coordinate

system or work coordinate system).the circle behind coordinates sign (X, Y, Z, A)means indicator light, which

shows the status of reference returning for each coordinate, green light means the coordinates has returnedmachine refer zero, otherwise not. Make sure all zero returning indicator are green during running or before

auto running.

NOTE: If servo driver alarm or other phenomenon after zero returning, the green light will go off.

12. machining time display area: show the executed time for present program.

13. workpiece number display area: show the cycle times for present program, quantity of machined

workpieces

14. program block display area: show the exact program block for present program.

15. information display area: show the relevant information of system and machine. such as alarm, soft limit

and so on.

16. program running status display area: show the auto running status of the program .such as step, continual,

real machining, simulation, stop, run etc.

17. menu display area: used for display function menu. Press corresponding softkey (F) to shift.

System menu structure:

Whole system adopts multi-leveled menu as followed:

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Fig 3.3 menu array

Above menus in fig3.3 can be viewed by press the function softkeys of “PRGRM”, “PARAM”, “REDEEM”,

“MANUAL”, “AUTO” on the panel, press “ESC” will return to main menu.

Input data into the dialogue box:

The whole system adopts dialogue data input. Replace the data directly when input data in the dialogue box

and confirm by pressing “Enter” key or cancel by pressing “Esc” key.

Fig3.4 dialogue box for data input

NOTE: There are words like“ ” on the top of dialogue box, means you can clear the

data in the dialogue box by pressing “F1”, set the data as 0 by pressing “F8”.

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3.3 Parameter

Shift to parameter setting menu by pressing “PARAM” on the main panel, press “PARAM” once will shift to

parameter interface, including “USER”, “SPEED”, “COORD”, “MACRO”, “AXIS”, “COMP”, “PASSWD”,

“CANCEL”; press twice will shift to diagnosis interface, including “Contrl”, “I/O”, “LadStat”, “ALARM”, “EditLad”,

“ResetDr”, “Editcfg”, “CANCEL”; press three times will shift to pitch error compensation interface, including

“X-axis”, “Y-axis”, “Z-axis”, “Fourth”, “Fifth”, “CLEAR”, “CANCEL”; shift to the parameter setting interface by

pressing corresponding key, press “CANCEL” or “Esc” will return to main interface.

NOTE

Repeat press “PARAM” will shift among “PARAM”, “Diagnosis”, and “PITCH”.

The 1st screen parameter

The 2nd screen diagnosis

The 3rd screen pitch compensation

Fig3.5 parameter interface

First interface: Parameter

“USER” system basic function parameter, user maybe set these parameters as machining.

“SPEED” the parameters related to speed of each axis.

“COORD” set the coordinates value of work coordinate systems from G54 to G59 in the machine coordinate

system.

“MACRO” set macro variable value from No.30 to No.190.

“AXIS” set parameters related to each axis such as compensation, limit, function parameters.

“COMP” set the parameters except for above menus.

“PASSWD” set the parameters related to system operation limit.

Second interface: diagnosis

“Contrl” set the program type of tool exchanging.

“I/O” display of input and output.

“LadStat” status display of PLC ladder.

“ALARM” display the current alarm and history records of 10 alarms.“EditLad” set embedded PLC ladder online.

“ResetDr” reset servo driver.

“Editcfg” edit the current configuration.

Third interface: pi tch error compensation

“X-axis”, “Y-axis”, “Z-axis”, “Fourth”, “Fifth” used for setting the parameter related to pitch error compensation

of X-axis, Y-axis, Z-axis, fourth axis and fifth axis.

“CLEAR” clear the current pitch error compensation.

3.4 Parameter Explanation

For convenient search for parameters, parameters are classified to be “user parameter”, ”speed parameter”,

“coordinate system”, “macro variable parameter”, “axis parameter” and “comprehensive parameter”.

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3.4.1 User parameter

User parameter composed by basic function parameter, which are frequent applied in the system.

Under the main interface, press ”USER”(F1) softkey, will shift to user parameter setting interface, refer to fig

3.6

Fig 3.6 User parameter

User parameter list:

1. workpiece machining number setting

2. program automatic running times with M20

3. retraction value "d" of canned cycle G73(mm)

4. retraction value "d" of canned cycle G83(mm)

5. direction of offset Q of canned cycle G766. direction of offset Q of canned cycle G87

7. spindle orienting stop degree of boring canned cycle(0.1degree)

8. chip removal tapping G84G74(0:high speed, 8:normal)

9. retraction value “d” of chip removal tapping G84G74 (mm)

28. whether need spindle rotate as program running(0: yes, 90: no)

30. whether need individual adjustment to G00 override(88:yes, 0: no)

31. whether manual soft limit is valid without zero returning (88:yes, 0: no)

32. is there any hint for spindle top/low gear(88:yes, 0: no)

33. whether apply intervention switch(88:yes, 0: no)

34. make soft limit invalid(X4,Z16,Y8,A32,B64)

35. system default coordinate system(54-59 corresponding G54-G59,other G53)

36. can G92 modify G54-G59 (800:yes, 0: no)

37. are lubrication and cooling keys valid in auto mode(1:yes, 0: no)

38. does spindle rotation and tool unclamp interlock (1:yes, 0: no)

39. request for zero return as booting and program running(1: no need, 0: hint, 8:force, 9:super force )

40. checking input point of G31 (valid+300, invalid+400)

41. G31_X

42, G31_Y

43. G31_Z44, G31_A

45. G31_B

51. edit increment value of program sequence number

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100. set LCD brightness

101. set system time(Y-M-D-H-M)

102. restore factory para setting

User parameter explanation:

No.1 workpiece machining number setting

To set the work count showing on the screen for current machining, after set this parameter, the “PartCount”

will display the refreshed number, and the this value will be increased according to the machined partsincreasing.

Fig3.7

NO.2 program automatic running times with M20

Set times of cycle programming using M20 command. if the value is set to be minus, means limitless recycle.

NO.3 retraction value "d" of canned cycle G73 (mm)

Set the dimension of retraction value “d” of high speed deep hole drill cycle G73. unit:mm.

NO.4 retraction value "d" of canned cycle G83 (mm)

Set the dimension of retraction value “d” of chip removal drill cycle G83. unit: mm.

NO. 5 direction of o ffset Q of canned cycle G76

To set G76 Circle code’s offset (Q) direction of precision boring cycle. The coordinates and directions are

some differences to same value in different plane, refer to following tables:

Plane NO.5 parameter setting NO. 5 direction of offset Q of canned cycle G76

G17

1 +X

2 -X

3 +Y4 -Y

G18

1 +Z

2 -Z

3 +X

4 -X

G19

1 +Y

2 -Y

3 +Z

4 -Z

NO.6 direction o f offset Q of canned cycle G87

To set G87 Circle code’s offset (Q) direction of back boring cycle. The coordinates and direction are different

to same value in different plane, please refer to following tables:

Plane NO.6 parameter setting NO.6 direction of offset Q of canned cycle G87

G17

1 +X

2 -X

3 +Y

4 -Y

G18

1 +Z

2 -Z

3 +X

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4 -X

G19

1 +Y

2 -Y

3 +Z

4 -Z

NO.7 spindle orienting s top degree of boring canned cycle (0.1degree)

Used for set the spindle stop angel degree after boring job when execute boring canned cycle, ensure theworkpiece not be scratched by tools. Unit: 0.1 degree, set range: 0-3600.

NO.8 chip removal tapping G84G74 (0: high speed, 8: normal)

As chip removal tapping G84G74; this value is set to be 0 means removal chip high speed, set to be 8 means

normal removal chip.

NO.9 retraction value “ d” of ch ip removal tapping G84G74 (mm)

Set the retraction value “d” of chip removal tapping G84G74. unit: mm

NO.28 whether need spindle rotate as program running (0: yes, 90: no)

Set the spindle rotate interlock with program running, set to be 0, program running need spindle rotating; set

to be 90 means no need detect spindle rotate as program running.

NO.30 whether need individual adjus tment to G00 override (88: yes, 0: no)

Set the G00 override. Set to be 88 means individual adjustment, means G00 override is set by PgUp and

PgDn; set to be 0 means machining speed override is adjusted by feed override.

NO.31 whether manual sof t limi t is valid w ithout zero returning (88: yes, 0: no)

Set the relationship between reference returning status and soft limit. Set to be 88 means the soft limit

function is valid although without reference returning; set to be 0 means the soft limit function is invalid before

reference returning.

CAUTION

This parameter’s setting depends on using situation, but may lead to accident because of improper setting or

operation, please pay attention!

NO.32 is there any hint for sp indle top/low gear (88: yes, 0: no)

Set whether automatic hint when shift spindle gear. Set to be 88 means there is hint automatically if the speed

is not suitable for the gear as automatic gear shifting; set to be 0 means system does not check whether

speed is suitable for the gear.

NO.33 whether apply intervention switch (88: yes, 0: no)

This value set to be 88 means apply intervention switch, set to be 0 means not apply intervention switch.

NO.34 make sof t l imi t invalid (X4, Z16, Y8, A32, B64)

This parameter is used for setting whether soft limit function valid. When set this value is 0 means soft limit isvalid; set to be 4 means X-axis soft limit function is invalid; set to be 16 means Z-axis soft limit function is

invalid; set to be 8 means Y-axis soft limit function is invalid; set to be 32 means A-axis soft limit function is

invalid; set to be 64 means B-axis soft limit function is invalid;

NOTE

1. Set two or more axes soft limit function is invalid, just add the corresponding axes parameter value. i.e. set

X and Z axes soft limit function is invalid, the parameter is set to be 20(4+16).

2. This parameter setting depends on user’s need, normally we suggest this value set to be valid, to prevent

equipment is damaged from excess of stroke. Please attention, to realize soft limit function, besides set this

parameter, you have to set the each axis’ limit stroke in the “USER” parameter.

CAUTION

This parameter’s setting depends on using situation, but may lead to accident because of improper setting or

operation, please pay attention!

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NO.35 system default coordinate system (54-59 corresponding G54-G59, other G53)

Applied to set the system default coordinate system, value 54-59 corresponding to G54-G59, other value is

G53.

i.e.: this parameter is set to be 54 means system default coordinate system is G54.

NO.36 can G92 mod ify G54-G59 (800: yes, 0: no)

As this parameter set to be 800, G92 will modify the current work coordinate system as program running, set

to be 0 will not modify the current work coordinate system.37. are lubr ication and cooling keys valid in auto mode(1:yes, 0: no)

Set whether the lubrication and cooling keys valid in the “AUTO” mode. As this parameter set to be 0 means

invalid; set to be 1 means valid.

This parameter setting related to operation mode, as this parameter set to be valid, operator can control the

valid status of lubrication and cooling to satisfy the condition of manufacturing process.

NO.38 does spind le rotation and tool unclamp interlock (1:yes, 0: no)

Set whether spindle rotation and tool unclamp interlock, as this parameter set to be 0 means spindle

tighten/release tool is not related to spindle rotation; as this parameter set to be 1 means that spindle

tighten/release tool is interlocked with spindle rotation, that means spindle can be rotated only in the status of

tool tightened.

This parameter setting is related to machine tools configuration and user applied request, for the sake of

safety, strongly recommend set this parameter to be 1 and make it interlock.

NO.39 request for zero return as booting and program running (1: no need, 0: hint, 8:force, 9:super

force)

To set the treatment mode of reference returning as system booting, there are 4 kinds of treatment mode as

below:

Set to be 1: there is no remind or limit to reference returning after system booting.

Set to be 0 is remind mode: there is a dialogue box remind operator to execute reference returning after

system booting every time, there is no limit after then.Set to be 8 is force mode: there is a dialogue box reminds operator to execute reference returning every

time after system booting and run system, system will reminds “feed axes have not returned to reference” and

won’t execute program if not execute reference returning before running in the “AUTO” mode.

Set to be 9 is super forcing mode: there is a dialogue box reminds operator to execute reference returning

every time after system booting and feed axes moving, system will reminds “feed axes have not returned to

reference” and won’t execute moving if not execute reference returning.

CAUTION

This parameter setting is related to machine tools configuration, set to be other value if no reference point

switch on the machine, if there is reference point switch on the machine, suggest set this parameter to be 8 or

9, to prevent equipment failure from without reference returning.

NO.40 checking input point of G31 (valid+300, invalid+400)

As this parameter set to be 300, will check the input signal of skip function; as this value set to be 400, won’t

check the input signal of skip function.

NO.41 G31_X

NO.42 G31_Y

NO.43 G31_Z

NO.44 G31_A

NO.45 G31_BNO.41~NO.45 parameters are skip block function.

NO.51 edit increment value of program sequence number

This parameter is applied to set increment value of program sequence number.

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NO.100 set LCD brightness

Set the brightness of LCD display. In the parameter dialogue box: PgUp means increasing brightness, PgDn

means decrease brightness, Home means back to default.

NO.101 set system time(Y-M-D-H-M)

Applied to modify system date and rime, system will base on this time after setting, will time according to inner

clock, and display on the top right corner.

Set methods as below:Select NO.101 under the interface of “USER”, press “enter” and pop up dialogue as Fig3.8, input year, month,

day, hour, minute to set, press “Enter” after setting: for example: August, 04, 2008. 09:50, will input

2008-8-4-09-50 and then press “Enter”.

Fig3.8

NO.102 restore factory para setting

Set factory parameter to be current parameter. If there is parameter confused in the process of debugging,

apply this parameter to set the factory parameter to be current parameter.

NOTE

After executing restore factory parameter, the existing parameter will be covered.

3.4.2 Speed

in order to make sure feed axis motor(machine work table) run in the safe scope and guaranty operation

characteristic, this system supply some parameter setting related to speed and acceleration.

In the parameter interface, press “SPEED” soft key will shift to speed parameter setting menu. Select the

parameter needs to be modified, then press “Enter” will pop up a dialogue box, then input value. Refer to

fig3.9.

fig3.9 speed parameter setting

Speed parameter li st:

1. G00 speed of X-axis(mm/min)

2. G00 speed of Y-axis(mm/min)

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3. G00 speed of Z-axis(mm/min)

4. G00 speed of 4th-axis(mm/min)

5. G00 speed of 5th-axis(mm/min)

6. default speed of G01/G02/G03(mm/min)

7. simulation speed (mm/min)

8. acceleration of X-axis ((mm/min)/s)

9. acceleration of Y-axis ((mm/min)/s)10. acceleration of Z-axis ((mm/min)/s)

11. acceleration of 4th-axis ((mm/min)/s)

12. acceleration of 5th-axis ((mm/min)/s)

15. MPG acceleration(12--5000)

16. speed up/down in auto running mode(500-32000)

17. positive speed of X-axis as reference returning (mm/min)

18. positive speed of Y-axis as reference returning (mm/min)

19. positive speed of Z-axis as reference returning (mm/min)

20. positive speed of 4th-axis as reference returning (mm/min)

21. positive speed of 5th-axis as reference returning (mm/min)

22. reverse speed of X-axis as reference returning (mm/min)

23. reverse speed of Y-axis as reference returning (mm/min)

24. reverse speed of Z-axis as reference returning

25. reverse speed of 4th-axis as reference returning

26. reverse speed when 5th-axis as reference returning (mm/min)

27. max speed as rapidly stop feed axis (mm/min)

28. max feed speed in manual mode (mm/min)

29. max feed speed in auto mode (mm/min)

30. max MPG speed of Z-axis (mm/min)31. max MPG speed of X,Y(C), 4th-axis (mm/min)

32. initial speed as feed axis running(mm/min)

33. speed skip variable of continuous track(mm/min)

34. end speed of reverse deceleration in program running(mm/min)

35. whether enable speed treating function (76: yes, 0: no)

36. manual feed axis speed (mm/min)

100. spindle manual revolution (rpm)

101. max spindle revolution at top gear(rpm)

102. max spindle revolution at low gear (2nd gear) (rpm)

103. max spindle revolution at 3rd gear (rpm)

104. max spindle speed at 4th gear (rpm)

105. max revolution of 2nd spindle (rpm)

106. acceleration of spindle pulse control((mm/min)/s)

120. serial communication speed of RS232

Speed parameter explanation:

NO.1 G00 speed of X-axis, unit: mm/min

X axis running at the rapid traverse rate in auto mode (G00 called speed). initial value: 10000, Max

value:30000.NO.2 G00 speed of Y-axis, unit: mm/min

Y axis running at the rapid traverse rate in auto mode (G00 called speed). initial value: 10000, Max

value:30000.

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NO.3 G00 speed of Z-axis, unit: mm/min

Z axis running at the rapid traverse rate in auto mode (G00 called speed). initial value: 10000, Max

value:30000.

NO.4 G00 speed of 4th-axis, unit : mm/min or deg/min

The 4th axis running at the rapid traverse rate in auto mode (G00 called speed). initial value: 10000, Max

value:30000.

NO.5 G00 speed of 5th-axis, unit : mm/min or deg/minThe 5th axis running at the rapid traverse rate in auto mode (G00 called speed). initial value: 10000, Max

value:30000.

NO.6 default speed of G01/G02/G03, uni t: mm/min

As no given speed for the first interpolation command (G01/G02/G03) in the program, the command called

default speed in the auto mode. Initial value: 2000, max value: 5000.

NO.7 simulation speed, unit: mm/min

Running speed in simulation mode. initial value: 20000, Max:30000

NO.8 acceleration of X-axis, uni t: (mm/min)/s

The acceleration time constant for X-axis, the more the value the faster the speed. initial value: 50000, value

range: 1-99999

NO.9 acceleration of Y-axis, uni t: (mm/min)/s

The acceleration time constant for Y-axis, the more the value the faster the speed. initial value: 50000, value

range: 1-99999

NO.10 acceleration of Z-axis, unit: (mm/min)/s

The acceleration time constant for Z-axis, the more the value the faster the speed. initial value: 50000, value

range: 1-99999

NO.11 acceleration of 4th-axis, unit: (mm/min)/s

The acceleration time constant for 4th-axis, the more the value the faster the speed. initial value: 50000, value

range: 1-99999NO.12 acceleration of 5

th-axis, unit: (mm/min)/s

The acceleration time constant for 5th-axis, the more the value the faster the speed. initial value: 50000, value

range: 1-99999

NOTE: The value of acceleration is related to equipment configuration. usually, the heavier the load the

smaller the value.

NO.15 MPG acceleration(12--5000)

To set the acceleration time constant as apply MPG, setting range is 12-5000, the bigger the value, the bigger

the acceleration.

NO.16 speed up/down in auto running mode (500-32000)

To set acceleration constant in the auto mode, value range: 500-32000. as this parameter value set within the

range of 500-32000, speed will depends on this parameter in auto mode, otherwise, will depends on each

axis’ acceleration value in user parameter.

This parameter is mainly used to distinguish acceleration in manual mode and auto mode; Set this parameter

only there is much difference of acceleration in the two modes; otherwise, usually set as invalid.

NO.17 posit ive speed of X-axis as reference return ing, unit: mm/min

The running speed of X-axis meets reference switch moving towards positive direction as returning reference

point. Initial speed: 5000, value range: less than G00 speed of X-axis.

NO.18 posit ive speed of Y-axis as reference returning, uni t: mm/min

The running speed of Y-axis meets reference switch moving towards positive direction as returning reference

point. Initial speed: 5000, value range: less than G00 speed of Y-axis.

NO.19 posit ive speed of Z-axis as reference return ing, unit: mm/min

The running speed of Z-axis meets reference switch moving towards positive direction as returning reference

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point. Initial speed: 5000, value range: less than G00 speed of Z-axis.

NO.20 posi tive speed of 4th-axis as reference returning, unit : mm/min

The running speed of 4th-axis meets reference switch moving towards positive direction as returning

reference point. Initial speed: 5000, value range: less than G00 speed of 4th-axis.

NO.21 posi tive speed of 5th-axis as reference returning, unit : mm/min

The running speed of 5th-axis meets reference switch moving towards positive direction as returning

reference point. Initial speed: 5000, value range: less than G00 speed of 5th-axis.NO.22 reverse speed of X-axis as reference returning , unit: mm/min

As X-axis returning reference point, the running speed of checking encoder zero position after leaving

reference switch. Initial value: 250, value range:20-500.

NO.23 reverse speed of Y-axis as reference returning , unit: mm/min

As Y-axis returning reference point, the running speed of checking encoder zero position after leaving


NO.24 reverse speed of Z-axis as reference returning, unit: mm/min

As Z-axis returning reference point, the running speed of checking encoder zero position after leaving


NO.25 reverse speed of 4th-axis as reference returning, unit: mm/min

As 4th-axis returning reference point, the running speed of checking encoder zero position after leaving


NO.26 reverse speed of 5th-axis as reference returning, unit: mm/min

As 5th-axis returning reference point, the running speed of checking encoder zero position after leaving


NOTE

1. “return to reference point” also named as “return to machine zero point”

2. the revere speed parameter value affects precision of reference returning, the smaller the value the higher

the precision, do not change the value after setting, otherwise will affect reference point position.

NO.27 max speed as rapid stop feed axis, uni t: mm/min

Set the stop mode limit in running. No deceleration as the speed is higher than this parameter value,

otherwise these is deceleration as the speed is lower than this parameter value.

As one axis running speed is higher than this parameter value, system will stop the current running axis

directly if meets E-top or other failure (i.e.: limit), that means the speed of current axis will become zero from

current value directly (pay attention: now the machine zero will be lost, demand returning reference point

again); contrarily, as axis running speed is lower than this parameter value, system will control running axis’

speed decelerated to zero according to normal.

NO.28 max feed speed in manual mode, uni t: mm/min

The max running speed limitation to feed axis in manual mode.

NO.29 max feed speed in auto mode, unit: mm/min

The max speed of each axis in auto mode. Initial value: 12000, max value: 30000.

NO.30 max MPG speed of Z-axis, unit: mm/min

Set the max MPG speed of Z-axis in manual mode, unit: mm/min. setting range100—max manual speed.

This parameter setting related to load of equipment, recommend this value is not more than 2000.

NOTE: It is valid as setting value is more than 100, otherwise, will no limit to max speed.

NO.31 max MPG speed of X, Y, (C), 4th-axis, unit : mm/minSet the max MPG speed of X, Y, (C), 4th-axis in manual mode, unit: mm/min. setting range 100—max

manual speed. If the setting value is less than 100, will no limit to max speed.

This parameter setting related to load of equipment, recommend this value is not more than 3000.

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NO.32 initi al speed as feed axis running, unit : mm/min

Set the initial speed as feed axis speed up, also is the end speed as axis speed down. It means, as the feed

speed lower than this value will arrival without speed up/down, as running speed is more than this value,

speed up began from this value.

The parameter value setting depends on drive type and loading, initial value is 500.

NO.33 speed skip variable of continuous track, unit : mm/min

Applied as speed is changed when multiple axes continuous track interpolation, make sure the maxmutational increment of each axis as interpolating speed, it means there will be speed up/down as the speed

increment is more than this value, if less than this value will arrival directly.

Mainly used for increasing coherence as multi-axes continuous track interpolation.

For example: as this value is 200 and X-axis speed changed from F1000 to F2000 in multi-axes continuous

track interpolation, the change process is Z-axis speed is changed from F1000 to 12000 at first, then

accelerated to F2000 by the No.8 value in “SPEED” parameter.

NO.34 end speed of reverse deceleration in program running, unit: mm/min

Set the start speed of speed up/down of each axis reverse moving in auto mode. Unit: mm/min.

This parameter is different with NO.32 (initial speed as feed axis running) in “SPEED”, NO.32 is normal start

speed of speed up/down, but this parameter is applied in reverse moving in auto mode, generally this

parameter is a little less than NO.32.

NO.35 whether enable speed treating funct ion (76: yes, 0: no)

Whether enable speed smooth treating function in auto mode, as set to be 0 means not enable, set as 76

means enable.

Speed smooth treating function is applied in continuous high speed short line segment interpolation, it

preview and pre-treatment to the speed, to get the smooth transition speed in reverse or corner, to increase

surface finish of workpiece.

NOTE

Normally this parameter is set as “not enable”, it will increase calculation cost of CPU, may decrease therunning efficiency of system.

NO.36 manual feed axis speed, unit : mm/min

Set feed axis speed in manual mode. Initial value: 5000, value range: less than the max speed in the manual

mode (the value of NO.28 in “SPEED”).

NOTE:

The two parameters above is changed depends on manual setting, that means system will refresh this

parameter as modify the speed in the manual mode.

NO.100 spindle manual revolution, unit: rpm

Set the max rotate speed of spindle in manual mode. Initial value: 2000, value range: less than the max

speed of spindle.

NO.101 max spindle revolution at top gear (rpm)

Set the max rotate speed of spindle. Unit: r/min

This parameter is the top gear or first gear speed if there is top/low gears or multi-gears function.

NO.102 max spindle revolution at low gear (2nd gear) , unit: rpm

Set the max speed of low gear/2nd gear of spindle. Unit: r/min

NO.103 max spindle revolution at 3rd gear, unit: rpm

For multi-gears function, this parameter is applied to set the max speed of the 3rd gear. Unit: r/min.NO.104 max spindle speed at 4th gear, unit: rpm

For multi-gears function, this parameter is applied to set the max speed of the 4th gear. Unit: r/min.

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NO.105 max revolut ion of 2nd spindle, unit: rpm

For double spindles, this parameter is applied to set the max speed of the 2nd spindle. Unit: r/min.

NO.106 acceleration of spindle pulse control, uni t: (mm/min)/s

Set the speed up/down time constant(acceleration) as spindle is pulse control mode, the more the value, the

higher the speed, contrarily, the speed is lower.

Initial value:8000, value range: 1—99999.

NO.120 serial communication speed of RS232Set the baud rate of RS232 serial communication. the corresponding baud rate table as below:

NO.120 parameter

value setting

serial communication

rate(unit: bps)

NO.120 parameter

value setting

serial communication

rate(unit: bps)

0 7200 4 38400

1 9600 5 57600

2 14400 6 115200

3 19200

3.4.3 Coordinate system

The coordinate system in this parameter is work coordinate system and one machine coordinate systemG53.

The coordinate system applied for machining is named as work coordinate system and preset by CNC. One

or more work coordinate systems are allowed in one work program, the work coordinate system can be

changed by moving its zero point. That means, the coordinates value is the coordinates of its own zero point

in the machine coordinate system.

It’s allowable to set 6 work coordinates from G54 to G59, can modify the coordinates value of zero point of 6

work coordinate systems in the machine coordinate system.

amend their zero point value standing on the machine. refer to Fig3.12

G54 : work coordinate system 1 G55 : work coordinate system 2G56 : work coordinate system 3 G57 : work coordinate system 4

G58 : work coordinate system 5 G59 : work coordinate system 6

Fig3.10 work coordinate system setting

Press “↑”, “↓”softkey to select the work coordinate system which you want to modify, then press ”Enter” and

input the value into the dialogue box.

The six work coordinate systems can be set by users and calling by G54, G55, G56, G57, G58, G59.

NOTE

1. the machine coordinate system G53 in this parameter, is established according to the machine reference

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point, can modify the offset of machine coordinate system G53 from original status, can be applied to

adjust tool setting error. If want to return to original status, only set the offset of G53 to be 0. this offset is

cleared after system reboot or return to zero; all the work coordinates will offset correspondingly after this

parameter is set.

2. generally, work coordinate system is established in the manual mode at first time and modify it under

“PARAM” menu if some offset when machining. For example: tool moves to certain point and select

corresponding coordinate system, and input your intent value, system will automatically calculate thecoordinates value of original point of current coordinate system in the machine coordinate system, and

save in the parameter. If there is deviation after machining, modify the coordinate value of corresponding

coordinate system in “PARAM”

3.4.4 Macro Variable parameter

In this system, there are 161 macro variables parameters "#30-#190”, macro variables “#30-#100” are

intermediate type, they are not saved after power off, so must assign them before using in macro program;

macro variables “#101-#190” are retainable type, they will be saved after power off.

Press “MACRO” softkey in the interface of “PARAM” will shift to macro variable setting interface. Select the

parameter by up/down key, then input value after press “Enter”.

Detailed explanation for macro variables, please refer to "User macro program"

3.4.5 Axis parameter

Axis parameter applied to set the parameter which is related to compensation, limit, function setting and so

on.

In the interface of “PARAM”, press “AXIS” soft key, will shift to “AXIS” parameter setting interface, select

parameter need to be modified by up/ down key and input value by press “Enter”. Refer to fig 3.11.

Fig 3.11 axis parameter setting

Axis parameter l is t

1. negative max stroke of X-axis(mm)

2. positive max stroke of X-axis(mm)

3. negative max stroke of Y-axis(mm)

4. positive max stroke of Y-axis(mm)

5. negative max stroke of Z-axis(mm)

6. positive max stroke of Z-axis(mm)

7. negative max stroke of 4th-axis(mm)

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8. positive max stroke of 4th-axis(mm)

9. negative max stroke of 5th-axis(mm)

10. positive max stroke of 5th-axis(mm)

11. backlash compensation of X-axis(um)

12. backlash compensation of Y-axis(um)

13. backlash compensation of Z-axis(um)

14. backlash compensation of 4th-axis(um)15. backlash compensation of 5th-axis(um)

16. whether apply electronic gear for feed axis (0: yes, 1: no)

17. numerator of X-axis’ electronic gear(1-32767)

18. denominator of X-axis’ electronic gear(1-32767)

19. numerator of Y-axis’ electronic gear(1-32767)

20. denominator of Y-axis’ electronic gear(1-32767)

21. numerator of Z-axis’ electronic gear(1-32767)

22. denominator of Z-axis’ electronic gear(1-32767)

23. numerator of 4th-axis’ electronic gear(1-32767)

24. denominator of 4th-axis’ electronic gear(1-32767)

25. numerator of 5th-axis’ electronic gear(1-32767)

26. denominator of 5th-axis’s electronic gear(1-32767)

27. direction signal of X-axis(0:reverse, 1:normal )

28. direction signal of Y-axis(0:reverse, 1:normal )

29. direction signal of Z-axis(0:reverse, 1:normal )

30. direction signal of 4th-axis(0:reverse, 1:normal )

31. direction signal of 5th-axis(0:reverse, 1:normal )

32. reference returning method for feed axis

(0-reverse, check 0; 1-REV, no CHE 0; 2-no REV, CHE 0; other-no REV, no CHE 0)33. switch NC setting of feed axis for reference return (X1,Y2,Z4,A8,B16)

34. reverse of reference returning for feed axis(X4,Y8,Z16,A32,B64)

35. the max length to check zero as X-axis reference returning (0.1mm)

36. the max length to check zero as Y-axis reference returning (0.1mm)

37. the max length to check zero as Z-axis reference returning (0.1mm)

38. the max length to check zero as 4th-axis reference returning (0.1mm)

39. the max length to check zero as 5th-axis reference returning (0.1mm)

40. offset after X-axis finished reference return(0.01mm)

41. offset after Y-axis finished reference return(0.01mm)

42. offset after Z-axis finished reference return(0.01mm)

43. offset after 4th-axis finished reference return(0.01mm)

44. offset after 5th-axis finished reference return(0.01mm)

46. reverse delay time of feed axis(ms)

47. feed axes follow(AX7,AY8,AZ9,CX17,CY18,CZ19)

48. equivalent treating for XY(C)ZA axis

51. 4th-axis’ function setting (0: rotary axis, 1: linear axis)

52. 5th-axis’ function setting (0: rotary axis, 1: linear axis)

54. regular calculation as the 4th-axis is rotary axis (work coordi: +1; machine coordi: +2)

55. regular calculation as the 5th-axis is rotary axis (work coordi: +1; machine coordi:+2)56. system inner parameter

58. system inner parameter

59. system inner parameter

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100. pulse number per revolution of spindle encoder

101. whether check spindle position feedback(1: yes; 0: no)

102. detecting degree as spindle do orientating

103. degree detecting error as spindle orientating

104. control mode as spindle homing (0:speed control, 1:pulse control, 2: driver control)

105. spindle running before homing(0.1s)

106. threading and spindle positioning control(0:both track; 1:thrd is interp, pos is track; 2:thrd is track, pos isinterp; 3:both interp)

107. delay time for spindle rotate direction abrupt changing(0.1s)

108. servo spindle type(0: MODROL, 1: CTB, 8:DELTA)

109. direction signal of spindle pulse control (0: reverse, 1: normal)

110. whether apply electronic gear for spindle(0: yes; 1: no)

111. numerator of electronic gear as spindle at low gear (1-32767)

112. denominator of electronic gear as spindle at low gear(1-32767)

113. numerator of electronic gear as spindle at top gear(1-32767)

114. denominator of electronic gear as spindle at top gear(1-32767)

115. is there gear control for spindle (1:yes, 0: no)

116. whether close spindle 3rd, 4th gear (1:yes, 0: no)

117. whether start spindle as gear shifting (1:yes, 0: no)

118. duration from stop to swing as spindle shifting gear (0.01s)

119. duration from swing to gear-shifting as spindle shifting gear (0.01s)

120. swing speed of motor as spindle shifting gear (0.01 rpm)

121. the initial swing direction as spindle shifting gear (0:positive, 1:negative)

122. positive swing duration as spindle shifting gear (0.01s)

123. reverse swing duration as spindle shifting gear (0.01s)

124. will output signal of spindle gear-shifting be hold (0:no, 1: yes)130. high speed detection for hard limit of feed axis (0:yes, 1: no)

Axis parameter explanation

NO.1. negative max stroke of X-axis (mm/inch)

To set the max stroke of X axis in the reverse direction, unit: mm/inch, range:-99999～+99999.

NO.2. posi tive max stroke of X-axis(mm/inch)

Set the max stroke of X axis in the positive direction, unit: mm/inch, range:-99999～+99999.

NO.3. negative max stroke of Y-axis(mm/inch)

Set the max stroke of Y axis in the reverse direction, unit: mm/inch, range:-99999～+99999.

NO.4. positive max stroke of Y-axis(mm/inch)

Set the max stroke of Y axis in the positive direction, unit: mm/inch, range:-99999～+99999.

NO.5. negative max stroke of Z-axis(mm/inch)

Set the max stroke of Z axis in the reverse direction, unit: mm/inch, range:-99999～+99999.

NO.6. positive max stroke of Z-axis(mm/inch)

Set the max stroke of Z axis in the positive direction, unit: mm/inch, range:-99999～+99999.

NO.7. negative max stroke of 4th-axis(mm/inch/deg)

Set the max stroke of 4th-axis in the reverse direction, unit: mm/inch, range:-99999～+99999.

NO.8. posi tive max st roke of 4th-axis(mm/inch/deg)

Set the max stroke of 4th-axis in the positive direction, unit: mm/inch, range:-99999～+99999.

NO.9. negative max stroke of 5th-axis(mm/inch/deg)Set the max stroke of 5th-axis in the reverse direction, unit: mm/inch, range:-99999～+99999.

NO.10. posi tive max stroke of 5th-axis(mm/inch/deg)

Documents

Manuals(Great 150im II)St2