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Fanuc Manual guide i, turning made easy. 2010
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MANUAL GUIDE i
Turning made easy
CNC CoNtroLs DrIvE systEMs LAsEr systEMs sErvICE
©2010 FANUC FA Europe s.A., Echternach, Luxemburg
technical specifications can be altered without prior notification. All rights reserved.
the copying or transferring of even individual text sections, images or drawings is not permissible without the prior written agreement of the publisher. this is also true for photoco-pying or any other procedure as well as transferring the text to films, tapes, discs, work transparencies or other media.
the training book was compiled by:
FANUC FA Europe S.A.Zone Industrielle – L-6468 Echternachwww.fanuccnc.eu
CTDT – Centre Technique et de FormationLes Lovières 13 – CH-2720 tramelanwww.ctdt-cip.ch
CNC-Technologie ServiceElbinger str. 21 – D-41812 Erkelenz
3
Manual Guide i – Turning
Page
Introduction 5
The CNC controller and operating panel 6
Main screen of MaNual GuIde i 7
Basic program functions 8
4.1 4.1 ediT operating mode 84.1.1 Creating a new program 104.1.2 Program list 154.1.3 Changing the program 16
4.2 MeM operating mode 164.2.1 Graphically simulating the program 174.2.2 Converting the program to iSO format 184.2.3 Changing the program 18
4.3 JOG operating mode 18
General information 19
5.1 lathe co-ordinate system 19
5.2 Zero point selection 20
ISO programming 21
Tools and offsetting 25
Programming examples 27
8.1 example 1 29
8.2 example 2 57
8.3 example 3 96
8.4 example 4 143
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3
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user-friendly shop floor programmingManual Guide i, the user-friendly software for shop floor programming, makes it easier for you to operate the machine. The innovative programming enables development from a drawing to a production part in a very short time. Thanks to Manual Guide i, FanuC CnCs can be programmed, very easily and quickly, for turning, milling and compound machining. Self-explanatory menus and graphic simulations guide the user through the programming, producing highly efficient results even for complex machining processes.
The FanuC Manual Guide i software is based on the iSO code format and has an ergonomic CnC user interface for programming cycles. it uses a Graphical user interface with user-friendly icons which allow you to interactively create part programs in just a few steps. all of the relevant information is displayed on one CnC screen. Having to constantly change between screens is thus avoided as is the risk of getting lost in the numerous pop-up screens.
This training book will give you an overview of Manual Guide i software for the programming of lathe applications, including three practical programming examples. it was developed by specialists and will facilitate your introduction to Manual Guide i software. You will be ready to program even complicated parts with Manual Guide i once you have worked your way through the three examples.
We wish you lots of fun and success when programming. We would be delighted to hear from you if you have any suggestions relating to this training document.
1. introduction
6
The programming software Manual Guide i runs on all Series i CnC con-trollers from FanuC. in this way we have combined the highest reliability with uncomplicated shop floor pro-gramming. The targeted end result is high machine availability as well as quicker work progress.
FaNuC operating panel
Series 16i/18i/21i-Model B CNC
Series 30i/31i/32i CNC
The following CnC controller keys that are often used when working with Manual Guide i :
entering data
Confirming entered data
Modifying existing data
deleting entry to the left
deleting data, e.g. a line
Scrolling page up/down
Moving the cursor in the direction of the arrow
Manual Guide i is started by pressing key.
2. The CnC controller and operating panel
7
The person using the CnC controller with Manual Guide i will find that all of the important information is well laid out and easy to see on the main screen. The screen is subdivided into four areas:
3. Main screen of Manual Guide i
Soft keys
lathe-specific Self-explanatory intuitive
Program input
High quality editor auxiliary function alarm function
Turning simulation in 2d and 3d
Machine information
Position of the axes Residual path Spindle speed load display Feed Modal G code
8
The following three main operating modes are available to the user:
edIT (create or change a new program)
MeM (execute or graphically simulate a program)
JOG (manual operation).
4.1 edIT operating mode
The ediT operating mode has clear and self-explanatory menus. The user can select from among the fol-lowing: create, change, copy, delete a new program as well as input or display the program on an exter-nal data carrier.
using the soft keys, you can select all other menus from the main menu.
uncomplicated selection thanks to the soft keys:
examples
4. Basic program functions
9
Selecting via the menus, the example of the machining cycles. Cycle selection for all operating modes, e.g.:
Turning Residual Machining
Grooving
Threading
drilling
Self-explanatory, easy-to-use data input menu for the turning cycle:
4.1.1 Creating a new program
To create a new program, press the soft key “new Program”
Then enter a program number between 1 and 9999, e.g.: 100 and press the soft key “CReaTe”. The program no. 100 is opened.
if a program number has already been allocated, it is indicated by a corresponding message.
The new program is entered as follows: STaRT CYCle eNd
each cycle consists of the following two parts: Cutting conditions Geometric data (workpiece contour)
10
4.1 ediT operating mode
11
Program start: STaRT
a personal template can be predefined for the program start and be simply called up by pressing the soft key “STaRT“ in the Selection menu.
The required data for workpiece machin-ing is entered step by step. The diagram of the program start with the description of the blank part for graphical simulation as well as tool function or replacement are repeated with minor modifications.
The controller allows you to store recurring program parts as a template in the start menu and to easily call them up as required. Typical application examples are: program start, tool function or tool replacement and program end.
The blank part definition has its own selection and input menu.
Machining: CYCle
There are a wide variety of machining cycles available for lathe machining. To select the required cycle press the soft key CYCle.
Selection is uncomplicated as can be seen in the illustration below. in this example the exterior of a cylindrical blank part is being machined. The corresponding menu is selected via the cursor and confirmed by pressing the soft key “SeleCT”. The cutting conditions menu then appears on the screen.
Cutting conditions
The cutting conditions are entered into the following screen mask:
after the cutting conditions have been entered, the contour description screen mask automatically appears.
12
4.1 ediT operating mode
13
example of workpiece
The workpiece contour to be machined is geometrically described as per the drawing.normally this figure can only be programmed by an experienced programmer. This problem can be easily solved with the Manual Guide i.
Workpiece contour for the cycle
The workpiece contour is described with the help of the following soft keys:
in the illustration below you can see the entries for radius 40 of the previous example.
Only the positions seen in the drawing for the centre point and the radius are entered. The finish points are unknown.
The adjacent graphics automatically appear, once the entry is complete. You can track the previously entered contour elements at the top of the screen.
unknown transitions are automatically calcu-lated by the CnC.
The finished workpiece contour displayed on the screen.
14
4.1 ediT operating mode
The following entries were required for the example:
1. Contour start X20 Z0
2.
end Z-15
3.
Radius R40 Centre X100 Z-15 last connection TanGenTS Next connection TanGenTS
4.
Radius R14 Next connection TanGenTS
5.
end X70 Z-70
6.
Close end Z0
7.
Contur end X20 Z0
The above workpiece contour is described with a few simple entries!
The workpiece contour also has the option of being stored as a separate subprogram so that the figure can be used for multiple operations, e.g. roughing and finishing. This considerably reduces programming.
15
4.1.2 Program list
all the programs in the program list are displayed when the soft key “0 lIST” is pressed.
The following information is displayed: program number, comment, date of creation or alteration, time, size of the program and cycle time.
Program list options:
NeW new program M-CaRd Memory card COPY Copy program all del delete all deleTe delete program SRTORd Sort programs edCOM edit comment OPeN Open program SeaRCH Search program
Program input and display
The CnC controller conveniently allows you, by means of a standard memory card, to rapidly read in/out programs and all other data such as tool offset, as well as machine and controller data. The reading in/out of data is fully controlled by the menu using the soft keys.
The content of the memory card can also be displayed on the CnC controller screen. This guarantees an unrestricted, uncomplicated and above all a quick data exchange.
4.1.3 Changing the program
Press the soft key “OPeN” to display and subsequently make changes to the program.
By pressing the soft key “alTeR”‚ cycles are reconverted into the original input menu.
in the following example, the cycle G1120: TURNING (OUTER ROUGH) is selected. The precise meaning of the respective function is displayed in the marked field.
The changes are made in the input menu and are accepted by pressing the soft key “alTeR”.
16
4.1 ediT operating mode
17
4.2 MeM operating mode
Programs can be graphically simulated, executed and converted to din/iSO in this operating mode.
4.2.1 Graphically simulating the program
a program is graphically simulated in this operating mode. There are two different types of display:
a) Solid body graphical animation b) Tool path-line graphics
The machining is realistically displayed in solid body animation. You see the material removal by the corresponding machining tool. The movement of the tool tip is displayed as a line in the tool path-line graphics.
Zoom Function
By selecting the area using soft keys, detailed magnifications can be easily achieved.
it is as easy to operate as a dVd player.
4.2 MeM operating mode
18
4.2.2 Converting the program into ISO format
a “Manual Guide i” program can be fully converted to a standard iSO program. Such a program is hence not dependent on the make of the CnC controller. as a result you have the option of universally using the “Manual Guide i” program in the entire production area.
4.2.3 Executing the program
a program created using the “Manual Guide i” can be executed directly in the original format. You do not have to convert the program to execute it.
4.3 JOG operating mode
The machine can be manually operated in this operating mode. using the JOG keys or a hand wheel, the feed of the axes being processed can be either manually selected or at rapid. amongst other things, the workpiece zero point and offset are determined if the machine does not have an automatic measuring device or has no external tool pre-setting.
4.3 JOG operating mode
19
The workpiece rotates in a standard lathe. it is clamped in a chuck or a collet chuck. The machining tools are secured in the tool holder (indexer/turret) and are moved in two axes, in the Z direction (longitudinal motion, parallel to the headstock spindle axis) and in the X direction (transverse motion).
5.1 lathe co-ordinate system
There are also lathes with more than two axes. The work spindle can be designed as the “C” axis. it can then be positioned at any angle or its feed can be controlled so that it is possible to drill and mill with rotating tools at the face or lateral surface.
if the tool holder (indexer/turret) can also be adjusted heightwise it is the “Y” axis. There are also machines with a counter spindle, where the workpieces can be automatically machined from two sides.
The different machining levels are differentiated by G codes:
G18 = Movement in the axes XZG17 = drilling and milling on the face at the end face XYG19 = drilling and milling at the lateral surface YZ
5. General information
20
5.2 Zero point selection
each moving axis of a CnC machine has a measuring system. Once the machine has been switched on, these measuring systems must be synchronised with the CnC controller. There are reference points for this purpose in the measuring systems, which are found at the positive end of the axis’s traverse path and are usually started manually. There are also machines with absolute measuring systems whereby the reference points are superfluous.
Symbol for the reference point
The workpiece zero point can be freely selected from the entire positioning range. The user logically sets the zero point to be programmed at the place it is easiest to program. This is nearly always in the Z axis (the front of the workpiece diagram) in the case of a lathe, and is the centre of the work piece in the X axis. The X axis dimensions are programmed in diameter.
Symbol for the workpiece zero point
5.2 Zero point selection
21
Minimal knowledge of iSO programming is required for program inputting with “Manual Guide i”. Machining cycles are called up via 4-digit G functions. The G-code itself is irrelevant to the user as the data is entered by graphic input displays. There are very few G-functions which the user must know in order to be able to work with “Manual Guide i”. These are explained below.
G0 = Rapid Traverse
With the command “G0”, one or several machine axes can simul-taneously be moved. The axes in question move at high speed from the start to the target point without interpolating,
e.g.: G0 X100 Z2.
G1 = Feed
With the command “G1” one or several machine axes can simultaneously be moved at a programmed feed rate. in this case, the axes in question move along a straight interpolating line from the start to the target point.
For lathes the feed is normally programmed in mm/revs,
e.g.: G1 X100 Z-50 F0.3 (F = feed rate).
G90 = absolute programming
in the case of absolute programming, all of the programmed positions refer to the selected workpiece zero point.
Example G90 G0 Z-50 Z-70 Z-110 Z-140 Z-170 Z-200
6. iSO programming
22
G91 = Incremental programming
in the case of incremental programming, each dimension refers to the previous position.
Example: G91 G0 Z-50 Z-20 Z-40 Z-30 Z-30 Z-30
The functions G90/G91 and G0/G1 are “self-maintaining (modal)”, which means that they remain active until they are overwritten by the corresponding “counter function”.
G96 = Constant cutting speed
This function serves to keep the cutting speed, for each workpi-ece diameter, constant at the tool tip.Through the G96 function, the CnC controller automatically calculates the corresponding speed for each diameter position (X axis). The work spindle speed is constantly altered in the case of facing, taper turning or radius turning.The cutting speed is programmed in m/min as address “S”. as the diameter increases the speed decreases; for smaller diame-ters the speed can increase up to the maximum possible speed. To avoid damage due to centrifugal forces, the speed can be limi-ted to the respective program through the corresponding com-mand (see G92 speed limitation).
Example: G96 S250 s [m/min]
G97 = direct speed programming (R.P.M.)
drilling, milling or other tools, whose diameters do not alter during machining, are operated at a constant speed. it is also advisable to work at a constant speed when threading. The adjacent formula is used to calculate the speed.
n = Speed in rpmVc = Cutting speed in m/min (255)d = diameter in mm (18,0)
Example: G97 S4509 s [rpm]
6. iSO programming
23
G92 = Speed limitation
The function “G92” together with the address “S” bring about a speed limitation. Very high speeds occur when turning at a constant cutting speed, particularly when facing in the direction of the work spindle centre (X axis). Where parts are unbalanced even a relatively low speed can be dangerous.
Example: G92 S3500 s [rpm]
The address “S” is used for three different functions. The corresponding G function assigns constant cut-ting speed, direct speed or speed limitation. The G function and the S command must be in the same block.
G94 = Feed in mm/min
G94 programs the feed in mm/min for drilling or milling tools. The adjacent formula is used to calculate the feed in mm/min:
Vf = Feed in mm/minn = Speed rpm (4509)Z = number of teeth (for drill bit 1)Sz = Feed per tooth mm/tooth or mm/rev (0.25)
Example: F1127 F [mm/min]
G95 = Feed in mm/rev
G95 programs the feed in mm/revs for general lathe tools. These tools work at different diameters of the workpiece. The speed of the work spindle changes due to the constant cutting speed at the tool tip. The feed per revolution, however, remains the same.
Example: G95 F0.25 F [mm/revs]
M codes (auxiliary functions))
M codes are characterised as auxiliary functions, with whose help the greatest range of machine actions can be triggered. M functions are standardised to some extent and are hence the same in all CnC machine tools. There are also free M functions, which are used differently by each machine manufacturer. Please pay particular attention here to the operating instructions of the machine manufacturer. The most important M functions are listed below:
M00 = Program stop unconditionalM01 = Program stop optionalM03 = Work spindle On, clockwiseM04 = Work spindle On, anticlockwiseM05 = Work spindle STOPM07 = Coolant 1 OnM08 = Coolant 2 OnM09 = Coolant OFFM30 = Program end with resetting to program startM98 = Subprogram call-up
24
“MaNual GuIde i ” program and G codes
a program created by “Manual Guide i” is displayed in the following illustrations:
On the left, the entire program for the previous example “workpiece contour”, with the contour roughing and finishing.
The actual workpiece contour is saved as subprogram no. 71. in this way the contour description data can be used for roughing and finishing.
Only the sentences marked in yellow are entered in iSO code. They have the following meaning:
G92 S4000: Programmable speed limitation (G92) to a max. (S) 4000 rpm.
G0 X200 Z200 T0202: Rapid feed (G0) of the axes X and Z to X200 Z200, change position and tool function no. 2 with tool offset no. 2 (T0202).
G96 S100 M4: Constant cutting speed (G96) (S) 100 m/min and spindle On in an anticlock-wise direction(M4).
G0 X200 Z200 T0: Rapid feed (G0) of the axes X and Z to X200 Z200 and delete tool offset no. 2 (T0202).
M30: Program end and reset program to start.
These blocks are repeated practically in every program, tool replacement is even repeated several times. at the most, it is the tool number, speed and cutting speed that change. These entries are thereby optimally suited to be stored as a template whereby they can be called up as required, at the press of a key, from the start menu.
6. iSO programming
25
Tool offset allows you to program workpieces without having to take into conside-ration differing tool dimensions.
The tool offset usually refers to a reference tool that was used to determine the workpiece zero point.
Tool memoryrThe CnC controller has a tool memory which contains various tool-related data. The memory contains data on the type and shape of the tool as well as offset for the X and Z axes, radius and virtual tip positi-on. Below you will see tools for general turning, threading, grooving as well as tools for contour turning:
if the machine is equipped with the so-called powered tools for drilling and millingthen the tools for these operating modes are also available.
The adjacent tool list contains the offset for the X and Z axes, the radius and virtual tip position
as well as the tool shape and type.
7. Tools and offsetting
26
The mounting position of the toolas well as the geometric values for the tool angle for general tools, the width and possible grooving depth in the case of grooving tools, the dia-meter and tip angle of drill bits etc.
Press soft key “T-ofs” to enable the tool function
e.g.: T01 01– –
Tool offset no.
Tool number
7. Tools and offsetting
27
Creating a MaNual GuIde i program
a Manual Guide i program is created in the following steps. You must pay particular attention to the correct approaching of the cycle start point and returning to a defined withdrawal point.
1) Blank part definition (only if a program simulation is required)
2) approaching the tool indexing point
3) Tool selection
4) inserting the required G and F functions (e.g. spindle On, speed, coolant, feed)
5) approaching the cycle start point
6) Cycle: Cutting conditions (e.g. turning, drilling, thread cutting, grooving)
7) Cycle: Figure information (several figures e.g. drilling figures can be programmed after a cycle)
8) Moving to a defined withdrawal point
9) Repeating steps 2 to 8, to add additional machining processes
10) Program end, enter the required M and G functions
nOTe:activities described at point 5 can be executed in advance (between points 2 and 4) according to the operator needs.
8. Programming examples
28
example:
G1902 B120. d120. H40. i0. J0. K0.; Blank part definition
G0 X200 Y200 Z200; approaching the tool replacement point
T0101; Tool selection
G95 G96 M3 S2000 F1000; inserting the required G, M, S, F functions
G0 X0 Y0 Z2; approaching the cycle start point
G1030 S80. T20. l4. J10. K2. H2. C2. W2. F1000. V1000. e100. P1. R10. Q1. X10. Z2.;
Cycle: Cutting conditions
G1200 T2. H0. V0. B0. l-20.; G1201 H0. V75. K3. d80. l0. M0. T1.;G1204 H5.V80.C5.T1.;G1201 H47.596876 V80. K1. C50. l0. M0. T1.;G1205 H51.50122 V78.123475 R5. i47.596876 J75. K2. T1.;G1201 H59.77582 V67.780225 K8. a51.340192 l0. M0. T1. S3.;G1205 H56.697181 V59.7254 R5. i55.871476 J64.656749 K2. T1.;G1203 H73.257314 V25.025234 R20. i60. J40. e20. P60. Q40. l0. M0. T1. S4.;G1205 H80.475986 V24.405017 R5.i76.571642 J21.281542 K2. T1.;G1201 H93.50122 V8.123475 K8. C100. d0. a51.340192 l0. M0. T1.;G1205 H89.596876 V0. R5. i89.596876 J5. K2. T1.;G1201 H0. V0. K5. C0. l0. M0. T1.;G1206;
Cycle: Figure
G0 X100 Y100 Z100; Moving to a defined withdrawal point
M30; Program end
8. Programming example
in this example a workpiece, which has an overall rising contour and for which all geometric elements are known or have been determined, is programmed with the Manual Guide i. The following machining cycles are programmed:
external turning: roughing and finishing (contour as a subprogram) Threading Groove
Tool data Machining steps
T0101 external turning-roughing external turning-finishing
T0202 Thread cutting M10
T0303 Grooving 4 x 4
29
8.1 example 1
30
New program
Select operating mode ediT
editing the comments
New program
enter the program number using the keyboard
end the program input by pressing the soft key “Create”
Press the soft key to enter a comment
8.1 example 1
31
Opening the program
Finish editing by pressing the soft key “alTeR”
Opening the selected program
Selection of further soft keys
Comment or workpiece name
32
note: The blank part definition entered here is only used for the graphic simulation and has no influence on the tool path.
Select the blank part using the arrow keys
Blank part definition
Press the soft key “Start”
enter the following values:d: 40l: 42K: 0.1
Confirm the selection by pressing “Select”
Confirm data entry by pressing the soft key “Insert”
8.1 example 1
33
2 x
Selection of a template
Selection of a suitable templateG95 = feed/revolutionG96 = constant cutting speedS200 = 200 m/min.
Press the soft key “Insert”
Manually complete the positions marked by “?”. alter the program as follows: T0101
Press the soft key “Start”
Press the soft key “Cycle”
34
1 x
Select the machining cycle using the arrow keys:
Selection of the machining cycle
Press the soft key “Select”
Complete the data
Complete the data
end entry by pressing the soft key “Insert”
8.1 example 1
35
Geometric definition
enter the following values using the keyboard:dX: 10-1.5*2 = 7Z: 0
Selection of the geometric element: “line”
Press the soft key “OK”
Select the direction of the line
36
Press the soft key “OK”
Selection of the geometric element: “line”
enter the following values using the keyboard:dX: 10Z: -1.5
enter the following values using the keyboard:direction: leftZ: -15
Press the soft key “OK”
8.1 example 1
37
note: When programming a chamfer, a line is defined up to the theoretical intersection of both lines enclosing the bevel. enter the sequence for line, chamfer, line.
Press the soft key “OK”
Selection of the geometric element “line”
enter the following values using the keyboard:direction: updX: 16
Selection of the geometric element “Chamfer”
38
Press the soft key “OK”
Selection of the geometric element “line”
enter the following values using the keyboard:C: 1
enter the following values using the keyboard:direction: leftZ: -22
Press the soft key “OK”
8.1 example 1
39
note: When programming a radius, a line is defined up to the theoretical intersection of both lines enclosing the radius. enter the sequence for line, radius, line.
Press the soft key “OK”
Selection of the geometric element “Radius”
enter the following values using the keyboard:R: 4
Selection of the geometric element “line”
40
Press the soft key “OK”
Selection of the geometric element “Chamfer”
enter the following values using the keyboard:direction: updX: 30.15
enter the following values using the keyboard:C: 1
Press the soft key “OK”
8.1 example 1
41
Press the soft key “OK”
Selection of the geometric element “line”
enter the following values using the keyboard:direction: leftZ: -40
Selection of the geometric element “line”
42
Press the soft key “OK”
Selection of the geometric element “line”
enter the following values using the keyboard:direction: updX: 38
enter the following values using the keyboard:dX: 40a: 45
Press the soft key “OK”
8.1 example 1
43
note: in order to define the machining area the geometric process must be closed. The blank part defined at the program start is solely used for the graphic simulation. if a simulation is not required then the blank part definition can be omitted at the program start.
Element – attribute
Press the soft key “Blank”
Selection of the geometric element “line”
enter the following values using the keyboard:direction: RightZ: 0
Press the soft key “OK”
44
note: The start point must correspond with the finish point. The geometric pro-cess must be closed.
Press the soft key “OK”
enter the following values using the keyboard:direction: downdX: 7
Press the soft key “Create”
Selection of the geometric element “line”
8.1 example 1
45
G0 x 41 Z1
4 x
1 x
6 x
Select external turning finishing
Select “Create as a subprogram”
enter: Sub-prog-no.: 789Contour name: Profile
Press the soft key “Cycle”
Press the soft key “OK”
Manually enter the tool withdrawal point
Press the soft key “Select”
end of the geometric input
The roughing cycle is programmed
Finishing cycle
46
Press the soft key “Cancel”
Press the soft key “Insert”
Press the soft key “Cancel”
Finishing feed
8.1 example 1
47
2 x
2 x
4 x
Press the soft key “Copy” to copy the control section M98 P888 to the clipboard.
Press the soft key “Copy”
Select subsequent soft keys, press them 4x
The section contains the subprogram function of the geometric data already defined in the roughing cycle.
48
2 x
Press the soft key “Start”
Select the subsequent soft keys, press them 1x
Finishing cycle
Press the soft key “Insert”
Select the suitable template
Press the soft key “Paste”
end of the finishing cycle
Tool replacement
note: if there is no suitable template available, enter the control sections manually or create a new template (see user manual).
To enter the subprogram function that has already been copied to the clipboard immediately after the finishing cycle G1126.
8.1 example 1
49
2 x
3 x
Press the soft key “Cycle”
Select: “external thread cutting”
Press the soft key “Select”
add to the program as follows: T0202G97 S2000X11 Z3
Select: Type of feed
end of the tool replacement
Thread cutting cycle
50
1 x
Complete the data
Complete the data
Press the soft key “Insert”
Press the soft key “Select”
Select: Metric threading
8.1 example 1
51
Press the soft key “Insert”
Press the soft key “Start”
Complete geometric data according to the workpiece drawing
The soft key “Calculate” allows you to calculate the thread depth
Select the suitable template
Press the soft key “Insert”
end of thread cutting
Tool replacement
52
1 x
2 x
3 x
2 x
add to the program as follows: T0303
Press the soft key “Select”
Press the soft key “Cycle”
Press the soft key “Nothing”
Complete the data
Grooving
8.1 example 1
53
Press the soft key “Insert”
Press the soft key “Select”
Complete the data
54
Press the soft key “Insert”
Complete the data
Press the soft key “end”
8.1 example 1
55
Select the template for the program end
Press the soft key “Insert”
Program end
Select the operating mode: auTO (MeM)
end of the program
Simulation
Select the operating mode: AUTO (MEM)
56
Press the soft key “Start”
Press the soft key “Rewind”
end of the simulation
8.1 example 1
57
8.2 example 2
This example contains the programming of a workpiece with Manual Guide i, which has a falling contour and two unknown pieces of geometric data.
The following machining cycles are programmed: external turning (roughing and finishing) Milling drilling
58
8.2 example 2
Tool data Machining steps
T0101 external turning-roughing external turning-finishing
T0404 Cutter
T0505 drill
59
end the program input by pressing the soft key “Create”
New program
enter program number using the keyboard
Select program list by pressing the soft key “O list”
New program
Select operating mode ediT
60
Press the soft key to enter the comment
enter comment or workpiece name
end comment entry by pressing the soft key “alter”
Open the selected program
editing the comment
Open the program
8.2 example 2
61
To select further soft keys, press 1x
Press the soft key “Start”
Confirm selection by pressing “Select”
Blank part definition
Select the raw part using the arrow keys
62
entering the following values:d: 80l: 75K: 0
Confirm data entry by pressing the soft key “Insert”
Press the soft key “Start”
Press the soft key “Insert”
Select a template
note: The blank part definition entered here is only used for the graphic simulation and has no influence on the tool path.
note: if there is no suitable template available, enter the control section manually or create a new template (see user manual).
Selection of a suitable template:G95 = Feed/revolutionG96 = Constant cutting speedS200 = 200 m/min.
8.2 example 2
63
Press the soft key “Cycle”
Press the soft key “Select”
Complete the data
Selection of the machining cycle
note: The feed rate must be entered in mm/revolution, as G95 feed/revolution was programmed before the cycle. For G94 the feed is entered in mm/min.
Manually complete the posi-tions marked by “?” alter the program as follows: T0101Modifying the start point:X = 82Z = 1
1 x
Select the machining cycle using the arrow keys:
note: The CnC must be at G40 before the cycle. The radius compensation is internally accounted in the cycle.
64
Complete the data
end entry by pressing the soft key “Insert”
Press the soft key “OK”
Selection of the geometric element “arc”
Geometric definition
1 x
enter the following values using the keyboard:dX = 27.7Z = 0
8.2 example 2
65
enter the following values using the keyboard:R: 16CdX: 0CZ: -8
The arc end is “Tangential”
Selection of the geometric element: “line”
Press the soft key “OK”
Press the soft key “OK”
The next transition is “Tangential”
enter the following values using the keyboard:direction: left-downdX: 12
66
Selection of the geometric element “Radius”
enter the finishing feed
Complete the data
Press the soft key “OK”
note: a separate finishing feed can be entered for each geometric element. if no value is entered here then the value entered in the cycle is valid.
1 x
8.2 example 2
67
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
68
Complete the data
Press the soft key “OK”
Selection of the geometric element “Chamfer”
Complete the data
Press the soft key “OK”
8.2 example 2
69
Selection of the geometric element “line”
Complete the data
Press soft key 1 x
Press the soft key “OK”
70
Selection of the geometric element “dIN 76”
Press soft key 1x
Complete the data
Press the soft key “OK”
note: The groove depth d is entered as a diameter dimension.
8.2 example 2
71
Selection of the geometric element “line”
Complete the data
Selection of the geometric element “Radius”
Press the soft key “OK”
72
Selection of the geometric element “arc” (clockwise)
note: The data input field supports pocket calculator functions.
Centre point of the arc: x = 90Radius of 20 mm corresponds to a diameter of 40 mm
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
8.2 example 2
73
Press the soft key “Select”
Selection of the geometric element “Radius”
note: Select the lower intersection point as displayed in the illustration.a
Complete the data
Press the soft key “OK”
74
Selection of the geometric element “line”
Press the soft key “Select”
note: Select the lower intersection point as displayed in the illustration.
Complete the data
Press the soft key “OK”
8.2 example 2
75
Selection of the geometric element “line”
note: You alternatively have the option to program a vertical line where the max. value of X = 80 and to use the geometric element "chamfer".
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
76
Press the soft key “Blank”
Press the soft key “OK”
Complete the data
1 x
8.2 example 2
77
Selection of the geometric element “line”
Press the soft key “Create”
note: The start point must be the same as the finish point. The geometric process must be closed.
Complete the data
Press the soft key “OK”
78
Change from “Insert in current programme” to “Create as a subprogramme”enter:Sub-prog-no.: 1102Contour name: throttle profile
Press the soft key “OK”
entering the following withdrawal position:G0 X82 Z1
end of the geometric input
Start of the finishing cycle
at this position, select the next cycle (finishing) or manually enter the cycle in iSO code as explained below.
1 x
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left. e.g. on the line number if selected.
8.2 example 2
79
enter the following control sections after the cycle:G0 X30 Z0G1 X0 F0.02G0 Z2
Press soft key 1x
Press the soft key “Insert”
end of the finishing cycle
note: The finishing cycle is programmed analogous to example 1.
Press the soft key “Start”
note: “Template” for powered tools (mil-ling cycle-menus)..
Select the suitable templateT? Selection of the tool numberM48: Selection of the C axisG28 C0: Referencing the C axis
note: if there is no suitable template available, enter the control sections manually or create a new template (see user manual).
80
Complete the data
Press the soft key “Cycle”
Press the soft key “Select”
Select pocket milling cycle on the leading end face
Complete the data
Pocket milling cycle
Important: data fields “T” and “S”
• Where a pocket is pre-machined, the layer thicknesses, relating to the pocket base, of the residual material still to be machined is defined in the “T” and “S” data fields.
• Where a pocket is NOT premachined, the data fields “T” and “S” are not filled in (do not enter any value).
• do not mistake the data fields “T” and “S” with the finishing dimension “K” and “H”.
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left.
3 x
8.2 example 2
81
Complete the data
Press the soft key “Insert”
Press the soft key “Select”
Start of the pocket geometry – definition on the leading end face
11 x
note: Selection of a free figure on the X-C level.
notes:1. The pocket depth is always entered
negatively.2. The figures which are part of a pocket
milling cycle are always “concave”.
Complete the data
Press the soft key “OK”
82
Selection of the geometric element “line”
Selection of the geometric element “Radius”
Press the soft key “OK”
direction: upComplete the data
8.2 example 2
83
Press the soft key “OK”
Complete the data
Selection of the geometric element “line”
Press the soft key “OK”
direction: leftComplete the data
84
Selection of the geometric element “arc” (clockwise)
Selection of the geometric element “Radius”
Press the soft key “OK”
Complete the data
8.2 example 2
85
Press the soft key “Next”
Press the soft key “Select”
Selection of the geometric element “Radius”
Press the soft key “OK”
Complete the data
note: Select the right intersection point
86
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
8.2 example 2
87
Press the soft key “Select”
Press soft key 1x
Press the soft key “Mirror”
note: Select the lower intersection point
88
Press the soft key “angle”
enter the following value using the keyboard: K = 180˚
Press the soft key “OK”
To select all previously programmed geometric elements, press the left arrow key on the keyboard.
8.2 example 2
89
Press the soft key “Select”
Check the mirror-imaged geometry
Press the soft key “Yes”
Press the soft key 1x
note: The geometry is mirror imaged.
90
Press the soft key “Create”
Press the soft key “OK”
Press the soft key “Start”
The pocket geometry is defined on the leading end face
1 x
Select from: “Create as a subprogram”enter:Sub-prog-no.: 1203Contour name: pocket
8.2 example 2
91
Press the soft key “Insert”
Press the soft key “Select”
note: if there is no suitable template available, enter the control sections manually or create a new template (see user manual).
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left.
Press the soft key “Cycle”
1 x
add manually:T0505deleting from M48 and G28
92
Complete the data
Press the soft key “Insert”
16 x
Press the soft key “Select”
Complete the data
8.2 example 2
93
Press soft key 4x
Complete the data
Press the soft key “Insert”
Press the soft key “end”
94
Press the soft key “Simulation”
end of the machining program
Simulation
Selecting the operating mode:MeM (auTO)
Press the soft key “Insert”
note: if there is no suitable template available, enter the control sections manually or create a new template (see user manual).
8.2 example 2
95
Press the soft key “Rewind”
Press the soft key “Start”
end of the simulation
96
8.3 example 3
in this example the blank part is a pre-machined hollow cylinder. a pocket is to be milled out on the lateral surface.
The following machining cycles are programmed: Facing external turning (roughing) internal turning (roughing) Contour milling Pocket milling
8.3 example 3
97
BlaNK PaRT
Tool data Machining stepsT0606 Facing and external turning
T0707 internal turning
98
8.3 example 3
T0909 Milling
Top view
Top view
Side view
99
end the program input by pressing the soft key “Create”
New program
enter program number using the keyboard
Select program list by pressing the soft key “O list”
New program
Select operating mode EDIT
100
Press the soft key to enter comments
enter comments or workpiece name
end comments entry by pressing the soft key “alter”
Open the selected program
editing the comments
Open the program
8.3 example 3
101
Selection of further soft keysPress 1 x
Press the soft key “Start”
Confirm selection by pressing “Select”
Raw part definition
Select the raw part using the arrow keys
1 x
3 x
102
Complete the data
Selection of the geometric element “line”
note: The blank part definition entered here is only used for the graphic simu-lation and has no influence on the tool path.
Complete the data
Press the soft key “OK”
8.3 example 3
103
Selection of the geometric element “line”
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
104
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
8.3 example 3
105
Selection of the geometric element “line”
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
106
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
8.3 example 3
107
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
Press the soft key “Create”
108
Select from:“Create as a subprogram”enter:Sub-prog-no.: 1040Contour name: Blank part
Press the soft key “OK”
Press the soft key “Start”
end of raw part geometric input
Selection of a template
1 x
Selection of a suitable templateG95 = Feed/revolutionG96 = Constant cutting speedS200 = 200 m/min.
Press the soft key “Insert”
8.3 example 3
109
Manually modifying the program
Press the soft key “Cycle”
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left.
Press the soft key “Select”
Facing
1 x
note: if only one facing step is required, it is recommended that a G01 section is used instead of a cycle.
2 x
Complete the data
Press the soft key “Insert”
110
Complete the data
Press the soft key “Insert”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
8.3 example 3
111
Complete the data
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
112
Selection of the geometric element “line”
Press the soft key “OK”
Press the soft key “OK”
Press the soft key “Blank”
Complete the data
8.3 example 3
113
Selection of the geometric element “line”
Press the soft key “OK”
Press the soft key “Create”
Complete the data
114
Select from: “Create as a subprogram”enter:Sub-prog-no.: 1041Contour name: Plane profile
Press the soft key “OK”
end of the facing geometric input
external turning with the same tool
X82 Z1
note: in this case, the withdrawal point and the approach point of the following cycle are identical.
1 x
Press the soft key “Select”
Press the soft key “Cycle”
1 x
8.3 example 3
115
Complete the data
Press the soft key “Insert”
Complete the data
Press the soft key “OK”
Complete the data
116
Press the soft key “OK”
Selection of the geometric element “line”
Selection of the geometric element “arc” (anticlock-wise)
Complete the data
note: You alternatively have the option to program a vertical line where the max. value of X = 58 and to enter a radius R = 2 mm followed by a line going to the left.
8.3 example 3
117
Selection of the geometric element “line”
Press the soft key “OK”
Press the soft key “OK”
Complete the data
Complete the data
118
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
Press the soft key “Blank”
8.3 example 3
119
Selection of the geometric element “line”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
120
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
8.3 example 3
121
Complete the data
Press the soft key “OK”
Press the soft key “Create”
Selection of the geometric element “line”
note: The start point must correspond with the contour finish point. The geo-metric process must always be closed.
122
Select from:“Create as a subprogram”enter:Sub-prog-no.: 1042Contour name: external profile
Press the soft key “OK”
end of external turning geometric input
Tool replacement
1 x
Select template
Press the soft key “Start”
Press the soft key “Insert”
8.3 example 3
123
Internal turning
1 x
1 x
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left.
Press the soft key “Cycle”
Press the soft key “Select”
Manually modifying the program
Complete the data
124
Complete the data
Selection of the geometric element “line”
Press the soft key “Insert”
Complete the datadX = 45+2*1.5Z = 0
Press the soft key “OK”
note: Start contour at the start of the chamfer.
8.3 example 3
125
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
note: You alternatively have the option to program a vertical line where the max. value of X = 45, instead of a slanted line, and to enter a bevel C = 1.5 mm follo-wed by a line going to the left.
126
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
Selection of the geometric element “line”
8.3 example 3
127
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
128
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
Selection of the geometric element “line”
8.3 example 3
129
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
130
Complete the data
Press the soft key “OK”
Selection of the geometric element “line”
Selection of the geometric element “line”
8.3 example 3
131
Complete the data
Press the soft key “OK”
Press the soft key “Blank”
Selection of the geometric element “line”
1 x
132
Complete the data
Press the soft key “OK”
Press the soft key “Create”
note: The start point must correspond with the finish point. The geometric process must always be closed.
1 x
Select from:“Create as a subprogram”enter: Sub-prog-no.: 1043Contour name: Internal profile
Press the soft key “OK”
end of internal turning geometric input
8.3 example 3
133
Call the driven tool
Press the soft key “Start”
Press soft key 1x
note: in all milling cycles (cycles with a powered tool) the X co-ordinates are always entered in radius dimensions.
note:
• M48: Switching on the C axis• G28 C0: Referencing the C axis• M103: Starting the powered tool
The M codes given here are examples, as the allocation of the M function is the responsibility of the machine manufacturer. detailed information on M codes can be found in the machine tool user manual.
Press the soft key “Insert”
Select template
134
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left .
note: The cycle "facing-machining" can be used instead of the cycle "contour-part machining" (open contour).
Selection of the cycle using the arrow keys
Press the soft key “Cycle”
Manually modifying the program
Milling on the lateral surface (Y/Z level)
2 x
8 x
Press the soft key “Select”
important: • The data fields “T” and “S" specify the
layer thickness related to the program-med line of the residual material still to be machined.
• The data field “T” specifies the layer thickness, in the axial direction of the workpiece, of the residual material to be machined.
• The data field “S” specifies the layer thickness, in the radial direction of the workpiece, of the residual material to be machined (distance between the pro-grammed line and the edge of the raw part).
• do not mistake the data fields “T” and “S” with the finishing dimension that is defined in the data fields “K” and “H”.
Complete the data
8.3 example 3
135
Select the machining direction
Select approach and withdrawal strategy
Press the soft key “Insert”
note: Select a figure with a free open contour on the Y-Z level. an open contour means that the start point does not have to correspond with the finish point of the contour.
1 x
Press the soft key “Select”
136
note: The depth is always entered nega-tively.
Complete the data
Press the soft key “OK”
Complete “Open”
Select: Right
Selection of the geometric element “line”
8.3 example 3
137
Complete the data
Press the soft key “OK”
Press the soft key “Create”
1 x
Select from:“Create as a subprogram”enter:Sub-prog-no.: 1044Contour name: free line
Press the soft key “OK”
end of the milling cycle geometric input on the lateral surface
138
Pocket milling 13 x 25
note: To select the entire line at the end of a manual data input, the cursor must be positioned at the very top left.
Press the soft key “Cycle”
Manually modifying the program
Select the cycle using the arrow keys
Pocket milling
3 x
Press the soft key “Select”
8.3 example 3
139
Important: data fields “T” and “S”• Where a pocket is pre-machined,
the layer thicknesses, relating to the pocket base, of the residual material still to be machined is defined in the “T” and “S” data fields.
• Where a pocket is NOT pre-machined, the data fields “T” and “S” are not filled in (do not enter any value).
• do not mistake the data fields “T” and “S” with the finishing dimensi-on “K” and “H”.
Complete the data
Complete the data
Press the soft key “Insert”
4 x
Press the soft key “Select”
note: Select a predefined rectangular figure on the Y-Z level.
140
Complete the data
Press the soft key “Insert”
Press the soft key “end”
Select template
Press the soft key “Insert”
end of pocket milling
8.3 example 3
141
Simulation
Selection of the operating mode: AUTO (MEM)
Press the soft key “Simulation”
Press the soft key “Rewind”
Press the soft key “Start”
142
end of the simulation
8.3 example 3
143
8.4 example 4
in this example we will use the part program created in example 3. We will program machining on the sub spindle adding outer turning roughing, drilling, threads by milling tool and a pocketing with the tool slanted.
The following machining cycles are programmed: Outer turning (roughing) drilling Threads milling Pocket with slanted tool
144
8.4 example 4
145
Tool data Machining steps
T0303 Outer turning
T0808 drilling
T1010 Thread Milling
T1111 Milling
5 Cutting edges
146
8.4 example 4
delete the block with“M30”
Press soft key “Start”
Press soft key “Insert”
Continuation of part program in example 3
Select a template
Select a template for the machining on sub spindle
Note: In case the appropriate template is not available, program the blocks manually or create a template (refer to the Operator Manual).
147
Select a template for the tool change
Press the soft key “Cycle”
Press soft key “Start”
Replace manually G? with G55
Press soft key “Insert”
Replace manually T? with T0303
5 x
2 x
148
8.4 example 4
Select with the cursor keys the machining cycle TuRNING (OuTeR ROuGH)
Press the soft key “Select”
Complete the data
Complete the data
Press soft key “Insert”
Selection of the machining cycle
149
Selection of the geometric element “line”
Select the direction of the line
Press the soft key “OK”
enter the following values using the keyboard:dX: 66.5Z: 0
Geometric definition
Press the soft key “OK”
enter the following values using the keyboard:dX: 79a: 45
150
8.4 example 4
Selection of the geometric element “line”
Press the soft key “OK”
Selection of the geometric element “line”
enter the following values using the keyboard:line direction d: RightZ: 8
151
Press soft key “BlCONT”
Press soft key “FIG. 1”
enter the following values using the keyboard:line direction d: updX: 80
Press the soft key “OK”
1 x
152
8.4 example 4
Confirm the choice pressing soft key “Yes”
Press soft key “Create”
Select “CReaTe aS SuB PROGRaM”
Press the soft key “OK”
end of the geometry programming, the turning cycle is complete
Insert the name of the sub program TuRNING-SuB-OuTeR
153
Select a template for machining on the sub spindle
Replace manually T? with T0808
Press the soft key “Cycle”
Press soft key “Start”
Positioning for next cycle
1 x
Press soft key “Insert”
2 x
154
8.4 example 4
Select with the cursor keys the machining cycle “drilling”
Press the soft key “Select”
Complete the data
Selection of the figure for drilling
Press the soft key “Select”
drilling Selection of the machining cycle
Press soft key “Insert”
4 x
Select “C aXIS HOle ON FaCe(aRC POINTS)”
155
Complete the data
Complete the data
Complete the data
156
8.4 example 4
Press soft key “Insert”
Press soft key “Start”
Select a template for milling operation on the sub spindle
Press soft key “Insert”
Complete the data
end of the drilling operation
Positioning for next cycle
157
Select with the cursor keys the machining cycle “Thread Milling”
Complete the data
Replace manually T? with T1010
Press the soft key “Cycle”
2 x
Thread milling cycle
1 x
Selection of the machining cycle
Press the soft key “Select”
158
8.4 example 4
Select the figure “XY-CIRCle POINTS”
Press soft key “Select”
Press soft key “Insert”
Complete the data
Complete the data
5 x
Selection of the figure
159
Press soft key “Insert”
Press soft key “FIXFRM”
Complete the data
Complete the data
end of thread milling cycle
160
8.4 example 4
Select a template for tool change
Press soft key “Insert”
Press soft key “Start”
Select “dIReCT ORIGIN POINT TYPe (ROT. CeNTeR aXIS-Y)”
Pocket machining with slanted tool
Replace manually T? with T1111
1 x
1 x
Coordinate conversion
Press the soft key “Select”
161
Press soft key “FIXFRM”
Select a template for slanting the tool
Press soft key “Insert”
Complete the data
Press soft key “Insert”
162
8.4 example 4
Select “POCKeTING (ROuGH)”
Press the soft key “Cycle”
Press the soft key “Select”
Complete the data
3 x
To actually rotate the B axis to slant the tool insert manually the command B45
Pocketing cycle (slanted tool)
163
Select “YZ-FRee CONCaVe FIGuRe”
Complete the data
Press the soft key “OK”
Complete the data
Press soft key “Insert”
Geometry definition
Press the soft key “Select”
9 x
164
8.4 example 4
Complete the data
Selection of the geometric element “arc” (clockwise)
Press the soft key “OK”
Selection of the geometric element “arc” (clockwise)
165
Selection of the geometric element “arc” (anticlockwise)
Complete the data
Press the soft key “OK”
Complete the data
Press the soft key “OK”
166
8.4 example 4
Press soft key “Mirror”
Complete the data
Press the soft key “Select”
1 x
Press the soft key “OK”
2 x
167
Press soft key “Create”
Select “CReaTe aS SuB PROGRaM”
Insert the name of the sub program POCKeT_FIG
Press soft key “YeS”
1 x
Press the soft key “OK”
end of geometry programming, the pocketing operation is completed
168
8.4 example 4
Press soft key “end”
Select a template
Press the soft key “Simulation”
Press soft key “Insert”
Simulation
Selection of the operating mode: AUTO (MEM)
169
detail of the simulation with the slanted tool.
Press the soft key “Rewind”
Press the soft key “Start”
The simulation starts
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TUrKEyFANUC FA satıs ve servis tic. Ltd. stiMahir Iz Cd. No:26 K:1Altunizade – Üsküdartr-34662 Istanbultel.: (+90) 216 651 1408Fax: (+90) 216 651 1405info@fanuccnc.com.trwww.fanuccnc.com.tr
EUropEAN hEADQUArTErSFANUC FA Europe s.A.Zone IndustrielleL-6468 Echternachtel.: (+352) 72 79 79 1Fax: (+352) 72 79 79 510info@fanuccnc.euwww.fanuccnc.eu
the products in this catalogue are controlled based on Japan’s “Foreign Exchange and Foreign trade Law”. the export of series 30i/31i-5 from Japan is subject to an export License by the government of Japan. other models in this catalogue may also be subject to export controls.
Further, re-export to another country may be subject to the license of the government of the country from where the product is re-exported. Furthermore, the product may also be controlled by re-export regulations of the United states government. should you wish to export or re-export these products, please contact FANUC FA Europe for advice.
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