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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
woodWOP- FILE-Description
(MPR-Format)
Valid from woodWOP Version 5.0.775.999
WoodWOP
WoodWOP-
Variant File
in MPR-Format
(Geometry and Technology)
Homag,
Weeke,
Postprocessor Jonsdorf
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
Table of Contents:
1 Introduction……………………………………………………………………………………………………………………………………3
3 Format of Parameter Rows ……………………………………………………………………………………………………………..3
4 Parser …………………………………………………………………………………………………………………………………………..3
4 Parser …………………………………………………………………………………………………………………………………………..3
5 Data Head …………………………………………………………………………………………………………………………………….3
5 Data Head …………………………………………………………………………………………………………………………………….3
6 Variable table…………………………………………………………………………………………………………………………………3
7 Cartesian Coordinate System ………………………………………………………………………………………………………….3
8 Contour moves ………………………………………………………………………………………………………………………………3
8 Contour moves ………………………………………………………………………………………………………………………………3
8.1 Points ...................................................................................................................................................3
8.2 Lines.....................................................................................................................................................3
8.3 Circle arcs ............................................................................................................................................3
8.4 Corner rounding ...................................................................................................................................3
8.5 Chamfer edge ......................................................................................................................................3
8.6 Split Element........................................................................................................................................3 9 Processes………………………………………………………………………………………………………………………………….3
9.1 Base macros ........................................................................................................................................3
9.1.1 Werkstck : Workpiece explanation ...............................................................................................3
9.1.2 Comment : Comment....................................................................................................................3
9.2 Processings macros.............................................................................................................................3
9.2.1 BohrVert: Drillings vertical ............................................................................................................3
9.2.2 BohrHoriz: Drilling horizontal ........................................................................................................3
9.2.3 BohrUniv: Drilling universal (Space drilling) .................................................................................3
9.2.4 UfluBohr: drilling from below.........................................................................................................3
9.2.5 Grooving: Grooving and Sawing...................................................................................................3
9.2.6 groove_R: Angled Grooving .........................................................................................................3
9.2.7 Polygonzug: Polygon milling.........................................................................................................3
9.2.8 Graphic Comment.........................................................................................................................3
9.2.9 Pocket: Vertical pocket milling......................................................................................................3
9.2.10 HTasc: Horizontal Pocket Routing................................................................................................3
9.2.11 FreiFormTasche (Free form pocket).............................................................................................3
9.2.12 VTasche: Vector Pocket Routing..................................................................................................3
9.2.13 UflurTasche: Pocketing from below.............................................................................................. 3
9.2.14 NC-Code: Free NC-Code .............................................................................................................3
9.2.15 NC-Stop: NC-Stop-Makro.............................................................................................................3
9.2.16 Universal Macro............................................................................................................................3
9.2.17 Messen: Measure .........................................................................................................................3
9.2.18 Probing Actual Location of Workpiece..........................................................................................3
9.2.19 Block: Block macro .......................................................................................................................3
9.2.20 Komponente: Component Macro..................................................................................................3
9.3 Contour processing makros.................................................................................................................3
9.3.1 Contourfraesen: Routing to a Contour elements..........................................................................3
9.3.2 Contourverleimen: Edgebanding at Contour Element..................................................................3
9.3.3 Stegkante: T-molding....................................................................................................................3
9.3.4 Buendigfraesen: Flush Trimming..................................................................................................3
9.3.5 Kappen: End Trimming.................................................................................................................3
9.3.6 Klink: Corner notching ..................................................................................................................3
9.3.7 Schleifen: Contour Sanding ..........................................................................................................3
9.3.8 Drucken: Pressure Zone at a Contour..........................................................................................3
9.3.9 Ritzen: Processing of an Edge at Door Rabbit Prozessing r........................................................3
9.3.10 Horizontales Fraesen: Contour Element ......................................................................................3
9.3.11 Vektor Fraesen: 5-Axis Routing....................................................................................................3
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
9.3.12 Unterflurfräsen : Routing from below............................................................................................3
9.3.13 Vert Getastet-Fraesen: Vertical Touched Routing .......................................................................3
9.3.14 Abblasen: Blow Cleaning of Contour............................................................................................3
9.3.15 Laser-Anzeige: Showing Contour by Laser..................................................................................3
9.3.16 NC-New: Discharge Macros (outdated) .......................................................................................3
9.3.16 Technology Macro: Discharge Macros.........................................................................................3
9.3.17 Ablauf: Run Macro (Sequence Macro) .........................................................................................3
9.3.18 Contour routing with C-Axis..........................................................................................................3
9.3.19 Routing with a FK-Unit ..............................................................................................................3
9.3.20 Routing with a CF-Unit..............................................................................................................3
9.3.21 Gluing with a CF-Unit................................................................................................................3
9.3.22 Flush trimming with a CF-Unit...................................................................................................3
9.3.23 Pressure with a CF-Unit............................................................................................................3
9.3.24 Cutting with a CF-Unit...................................................................................................................3
9.3.25 Sanding with a CF-Unit .............................................................................................................3
9.3.26 Contur operation with a CF-Unit ...............................................................................................3
9.3.27 Operation without contour with a CF-Unit.................................................................................3
9.3.28 Foiling (Heissprägen)................................................................................................................3
9.4 Konsolen und Saugermacros: Vacuum Cup Macros...........................................................................3
9.4.1 Single-Vacuum-Cup......................................................................................................................3
9.4.2 SaugerK: Vaccum cups (parallel to Y-Axis) .................................................................................3
8.4.3 SaugerL: Konsolensauger längs (parallel to X-Axis)....................................................................3
9.4.4 Transport: Work piece Transport with Vacuum Carpet ................................................................3
9.4.5 Transport: Part handling with bridge.............................................................................................3
9.4.6 Gebietsmakro: Area Macro...........................................................................................................3
9.4.7. Extrudieren: Extruding Edge along a contour ...................................................................................3
9.4.8. Easyedge: Edgebanding using Easyedge device along a contour...................................................3
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
1 Introduction
The programing system WoodWop generates for the saving of the given data and for introduction to the
post processor a so called „Variant File“ in MPR-format. This File for CNC program generating contains the
whole work piece description. Out of this variant file you can generate a CNC-program.
The individual sections in the variant file will be devided with a section header, that means, in each section is
only one header. The variant file is in ASCII-code.
The variant file is arranged in several blocks:
• Data head
Determines the version • Variable table
• Definition and value assignment of parameters (variables)
• Cartesian coordinate systems
Description of additional defined Cartesian coordinate systems. • Contour elements
Description of single points or elements of the work piece. • Processing
Description of the raw work piece and the single processing steps that have to be done at the work piece. The sequence of the blocks is fixed and can‘t be changed. The variable table and the contour elements are
optional and are applicable.
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
2 Descriptor Of Variant File
The variant file is section oriented . Each section begins with a descriptor which defines the sense of the
following argument.
General:
\ = Comment descriptor. Characters between comment characters and row end will be ignored.
! = End of variant file
Data head:
[H = Start of data head
Variable table:
[0 = Start of variable table
Cartesiancoordinate systems:
[K = Start of Cartesian coordinate systems
Contour elements:
All specifications in mm resp. degree
]n = Start of contour element description of contour n
$Em = Contour element description of contour m
KP = Descriptor of contour point
KL = Descriptor of contour line
KA = Descriptor of arc
KR = Descriptor of corner rounding
KF = Descriptor of champfer edging
KSL = Contour split element in one line
KSA = Contour split element in a circle
Processingen:
<n : Processing n
?? : Condition sign
KM : Comment
MX : Processing is dependant from previous measurement in X
MY : Processing is dependant from previous measurement in Y
MZ : Processing is dependant from previous measurement in Z
MXF : Measurement factor X (default=1)
MYF : Measurement factor Y (default=1)
MZF : Measurement factor Z (default=1)
EN : Enabled
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
3 Format of Parameter Rows
Generally the format of the parameter rows is changing Starting from version 4.0. A Parameter row inside
the blocks data head, Variable table and processings of MPR-file consists of a Descriptor, the equals sign
and the input string. The input string is stated in double high commas.
E.g.:
XA=“1000-32“
YA=“B/2“
DU=“5“
The Format of the Parameter rows within the Blocks contour elements do not change. The input string is
not stated in double high commas.
E.g.:
X=0.0
Y=120.0
Z=D-2
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
4 Parser
Mathematic expressions will be calculated by a parser .
Following predefined marks will be recognized by the Parser :
Name/Descriptor Meaning Typ
_cc counter clockwise, small arc Constant (=0)
_cw Clockwise, small arc Constant (=1)
_CC counter clockwise, big arc Constant (=2)
_CW Clockwise, big arc Constant (=3)
_mirror Mirror in X active=1, Mirror in X deactive=0 Variable
_nonmirror Mirror in X active=0, Mirror in X deactive=1 Variable
_ymirror Mirror in Y active=1, Mirror in Y deactive=0 Variable
_nonymirror Mirror in Y active=0, Mirror in Y deactive=1 Variable
_BSX Work piece lenght of processed part Variable
_BSY Work piece width of processed part Variable
_BSZ Work piece thickness Variable
_ok 1 Constant
_no 0 Constant
_lf Tool radius correction left Constant (=1)
_ri Tool radius correction right Constant (=2)
@ Descriptor for relative measuring Descriptor
SIN( ) Sinus, Argument in degrees Funktion
COS( ) Cosinus, Argument in degrees Funktion
TAN( ) Tangens, Argument in degrees Funktion
ARCSIN( ) Arkussinus Funktion
ARCCOS( ) Arkuscosinus Funktion
ARCTAN( ) Arkustangens Funktion
EXP( ) Exponential function Funktion
LN( ) Natural Logarithmus Funktion
SQRT( ) Sqare root Funktion
MOD( ) Modulo function Funktion
PREC( ) Pre commas are not applicable Funktion
AND AND-links (only by conditions) Operator
OR OR-links (only by conditions) Operator
NOT NOT-links (only by conditions) Operator
IF( ) THEN ( ) If condition meets, i.e. the value in IF parenthesis is not Funktion
ELSE( ) equal 0, the parameter is equal the value in THEN
parenthesis. Otherwise the value in ELSE parenthesis . Is
the THEN and ELSE parenthesis not filled then 0 STANDARD Arranges the NC-generator to use the standard value for Keyword
the corresponding parameter.
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
5 Data Head
To establish the version of the MPR-file in a easy way a header is created.
The header Starts with descriptor [H and is located in the first section of the MPR-data.
E.g.:
[H
VERSION=”4.0″
R00=”848484848484848484C6C6C6848484C6C6C6C6C6C6FFFFFFFFFFFFFFFFFFC6C6C6C6C6C6848
484C6C6C68484848484848484848484848484848484848484840000000084840084840084840084840084
84008484″
…
R27=”008484008484008484008484008484008484008484008484008484008484008484008484008484008
48400848400848400848400848400848400848400848400848400848400848400848400848400848400848
4″
OP=”1″
O2=”0″
O3=”0″
O4=“0“
O5=“0“
FM=”1″
CB=“1“
ML=”2000”
DN=”100″
HP=”1″
GP=”0″
GY=”0″
GXY=”0″
NP=”1″
NE=”0″
NA=”0″
UP=”0″
DW=”0″
MI=”0″
INCH=”0″
VIEW=“NOMIRROR“
MAT=“HOMAG“
_BSX=1840.000000
_BSY=600.000000
_BSZ=19.000000
_FNX=3.000000
_FNY=3.000000
_RNX=0.000000
_RNY=0.000000
_RNZ=0.000000
_RX=1846.000000
_RY=606.000000
Explanation:
VERSION: Version of MPR-file. (string parameter) Possible values:
4.0 : WoodWOP-Version 4.0 R00 – R27: Bitmap of programs. Generally, meaningfully only to use with WoodWop components. Here
there can be inserted a bitmap 28 X 28. These bitmap will be showed instead of the workpiece
bitmap or the component macro bitmap. The parameter R00 to R27 are optional MAT : Machine type (HOMAG, CF-HOMAG, FK-HOMAG odre WEEKE)
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
OP : Optimating modus; The drill processes will be optimized to prozessing time.
It will be chedged if processes can be operated together.
And the sequence orof will be chedged:
= 0 => No Optimizing
= 1 => Optimizing drilling from below cociofing of the next processes.(Default).
= 2 => Best possible optimizing O2 : = 1 => Avoid cross drive hight by horizontal processing
O3 : = 1 => Avoid cross drive hight by processing from below
O4 : = 1 => Clockwise optimizing of vertical drillings
O5 : = 1 => Avoid cross drive hight by finish processing
FM : Clearancemodus controlls the direction of clearing the machine after processing
= 0 => No clearance
= 1 => Clear ance to rear right (default)
= 2 => Clear ance to rear left
= 3 => Clearance to front left
= 4 => Clear ance to front right CB : Edge grouping
ML : Max. edge lenghts which can be grouped
DN : Dynamic Mode relative (default 100)
NP : NC-program shall be generated as normal program (not mirrored)
GP : NC-program shall be generated as in X mirrored program
GY : NC-program shall be generated as in Y mirrored program
GXY : NC-program shall be generated as in X and Y mirrored program
UP : NC-program shall be generated as sub program
NE : Don’t clear tool after end of program
A : Don’t feed out tool after end of program (only by throughfeed table)
DW : Turn angle. NC-programme shall be turned. At present adcenterd angle : 0.90.-90
MI : Mirror. Doesn’t matter if drawed mirrorwise or not. No influence of NC-generation. Determines
only the direction of the object while loading to WoodWop.
= 0 drawed unmirrored
= 1 drawed mirrored INCH : = 0 Measures in mm
= 1 Measures in INCH VIEW : Representation in WoodWOP (NOM IRROR / XMIRROR / YMIRROR / XYMIRROR)
BSX : Boardsize in X,. These * – parameters contain the calculated values of the work piece
description. These values are used from external evaluation programs, because an indipendent parsen is large-scale.These informations are irrelevant for the NC-generator.
_BSY : Boardsize in Y,.
_BSZ : Boardsize in Z,.
_FNX : Offset of finished workpiece in X
_FNY : Offset of finished workpiece in Y
_RNX : Offset of raw work piece in X
_RNY : Offset of raw work piece in Y
_RNZ : Offset of raw work piece in Z
_RX : Size of raw work piece in X
_RY : Size of raw work piece Y
ANZ : Number of pieces to be produced (workpiece macro)
MA : Grain Direction, inactive if this parameter is missing (workpiece macro)
BES : time to apply parts to the machine (woodTime)
ENT : time to remove parts from the machine (woodTime)
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
6 Variable table
A variable table will be initialized by the sign ‘[‘ in the first coluomn of a section. After that an ID-number
declaration will be showed in column 2. The ID-number has to be 0. The following rows will introduced as
variables untill the cartesan coordinate system, contour elements and processing macros are declared. The
name of the variable starts at column 1. Its name can not exceed eight characters. The first character can‘t
be a number but a letter. The, to the variables assigned values, follow, devided with a equals sign , in the
same row. Here are also formula expressions allowed. There can only be used prespecified variables in the
formulas.
After each variable a comment can be specified in the following row which closely describes the variable.
These will be introduced by the descriptor KM. KM is a stringparameter.
The comment is maximally 80 characters long.
E.g.:
[000
L=”950.0″
KM=”Lenghts of work pieces in X”
B=”600.0″
KM=”Width of work pieces in Y”
Center=”L/2″
KM=”Mid axle”
Distance1=”307.5″
KM=”Distance between construction drills for hardware H3245″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
7 Cartesian Coordinate System
The list of Cartesian coordinate systems will be produced by descriptor ‘[K‘ in the first and second column of
a row. After that the coordinate systems starts with descriptor <00.
E.g.:
[K
<00 \Coordinate system\
NR=”05″
XP=”1500″
XF=”1″
YP=”0″
YF=”1″
ZP=”0″
ZF=”1″
D1=”0″
KI=”0″
D2=”0″
MI=”0″
Explanation:
NR : Number of Cartesiancoordinate systems. 4 to 99 are the valid values at present.The
coordinate systems 0 to 3 are fix and won’t be saved in the MPR-file. XP : X-Position refers to coordinate system 0.
XF : X-Faktor. Zoom-factor of X-axis.
YP : Y-Position refers coordinate system 0.
YF : Y-factor. Zoom-factor of Y-Axis.
ZP : Z-position refers coordinate system 0.
ZF : Z-factor. Zoom-factor of Z-Axis.
D1 : Turn angle 1 around Z-Axis of coordinate system 0.
KI : Tilt angle around X-Axis of new coordinate system (after turning around D1)
D2 : Turn angle 2 around Z-Axis of new coordinate system (after turning around D1 and
tilting around KI) MI : Mirror. Mirrored (right turned) coordinate system or wise versa.
= 0 unmirrored (left turned, resp. like in coordinate system 0)
= 1 mirrored (right turned,resp. like in coordinate system 1) In WoodWOP are, without listed in the MPR-file, 20 Coordinate systems pre defined at the corner points of
the finished work pieces:
00: Coord. syst. XY-Level X=0 Y=0 Z=0 Turnangle 0 X-Axis positiv
01: Coord. syst. XY-Level X=L Y=0 Z=0 Turnangle 0 X-Axis negativ
02: Coord. syst. XY-Level X=L Y=B Z=0 Turnangle 180X-Axis positiv
03: Coord. syst. XY-Level X=0 Y=B Z=0 Turnangle 180X-Axis negativ
A0: Coord. syst. XZ-Level (Y+) X=0 Y=0 Z=0 Turnangle 0 X-Axis positiv
A1: Coord. syst. XZ-Level (Y+) X=L Y=0 Z=0 Turnangle 0 X-Axis negativ
A2: Coord. syst. XZ-Level (Y+) X=L Y=0 Z=D Turnangle 180X-Axis positiv
A3: Coord. syst. XZ-Level (Y+) X=0 Y=0 Z=D Turnangle 180X-Axis negativ
B0: Coord. syst. YZ-Level (X-) X=L Y=0 Z=0 Turnangle 0 X-Axis positiv
B1: Coord. syst. YZ-Level (X-) X=L Y=B Z=0 Turnangle 0 X-Axis negativ
B2: Coord. syst. YZ-Level (X-) X=L Y=B Z=D Turnangle 180X-Axis positiv
B3: Coord. syst. YZ-Level (X-) X=L Y=0 Z=D Turnangle 180X-Axis negativ
C0: Coord. syst. XZ-Level (Y-) X=L Y=B Z=0 Turnangle 0 X-Axis positiv
C1: Coord. syst. XZ-Level (Y-) X=0 Y=B Z=0 Turnangle 0 X-Axis negativ
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
C2: Coord. syst. XZ-Level (Y-) X=0 Y=B Z=D Turnangle 180X-Axis positiv
C3: Coord. syst. XZ-Level (Y-) X=L Y=B Z=D Turnangle 180X-Axis negativ
D0: Coord. syst. YZ-Level (X+) X=0 Y=B Z=0 Turnangle 0 X-Axis positiv
D1: Coord. syst. YZ-Level (X+) X=0 Y=0 Z=0 Turnangle 0 X-Axis negativ
D2: Coord. syst. YZ-Level (X+) X=0 Y=0 Z=D Turnangle 180X-Axis positiv
D3: Coord. syst. YZ-Level (X+) X=0 Y=B Z=D Turnangle 180X-Axis negativ
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
8 Contour moves
Contour moves consists of contour elements. By contour processing from these elements will be taken
reference. The elements in the MPR-File will be numbered and identified by following key letters:
KP : Contour point
KL : Contour ine
KA : Contour circle arc (arc)
KR : Contour rounding (edges rounding)
KF : Contourfase
KSL : Contour split element on a line
KSA : Contour split element on a circle
The Art, in which the Element in WoodWOP-dialog are definiert (lines by end point or line by lenght and
angle, etc.) comes of the following parameter rows. By definition of contour elements the coordinates of end
points are always specified. The Start point of a contour elements is always the end point of the previous
contour element. Because of this the first element of a contour move has to be always a start point. Each
element can display optional to the feeding parameters the result parameters (“point value”) .
8.1 Points
Start point of a contour. Key letter is KP. Point values are the absolut coordinates of the point in relation to
the respective coordinate system and the coordinate number itself.
E.g.:
$E0
KP
X=10.0000
Y=10.0000
Z=0.0000
KO=00
.X=10.0000
.Y=10.0000
.Z=0.0000
.KO=00
Possible parameters:
X : X-coordinate
Y : Y-coordinate
Z : Z-coordinate
KO : Number of coordinate systems
8.2 Lines
Line, defined by line dialog. Key letter is KL.. Point values are the absolute coordinates of end points refers
to the respective coordinate systems, i.e. the coordinate system of start point. The angle of the line in the
X/Y level is specified with WI. The angle of the line to X/Y-level is WZ.
Angles are given in arc length
(1.57070796 = 90 degrees).
E.g.:
$E1
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
KL
X=1340.0000
Y=10.0000
.X=1340.0000
.Y=10.0000
.Z=0.0000
.WI=1.570796
.WZ=0.0000
Possible parameter:
X : X-coordinate of end point
Y : Y-coordinate of end point
Z : Z-coordinate of end point
L : Length
WI : Angle in X/Y-level
WZ : Angle to X/Y-level
8.3 Circle arcs
Circle arc, defined by circle arc dialog. Key letter is KA. Point values are the absolute coordinates of end
pointes refers to the respective coordinate system, i.e. the coordinate system of the start point. Further will
be shorten the absolut coordinates of circle midpoint with .I, J., K., the increase of start and endpoint in the
arc bow with .A and.E, the rotatory direction with .DS, the radius with .R, the angle of arc length in startpoint
with X/Y level with .WI, the angle of arc length in X/Y level with .WO and the and the angle to X/Y level with
.WAZ. Angles are given In arc length.
E.g.:
$E2
KA
X=1400
Y=0
DS=0
R=B/2
.X=1400.0000
.Y=0.0000
.Z=0.0000
.I=1400.0000
.J=400.0000
.DS=0
.R=400.00000
.WI=0.000000
.WO=3.141593
.WAZ=0.000000
Possible parameter:
X : X-coordinate of end points
Y : Y-coordinate of end points
Z : Z-coordinate of end points
I : Circle midpoint coordinate in X
J : Circle midpoint coordinate in Y
DS : Rotary direction
=0 Arc <= 180 degree clockwise
=1 Arc <= 180 degree counterclockwise
=2 Arc > 180 degree clockwise
=3 Arc > 180 degree counterclockwise
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
R : Radius
WI : Start angle in X/Y-level
WO : End angle in X/Y-level
WZ : Angle to X/Y-level of connecting line from start tio end point.
WAZ : Angle to X/Y-level on the arc path.
8.4 Corner rounding
Circle arcs, defined by dialog for corner rounding Key letter is KR. Point values are the same like by circle
arcs.
E.g.:
$E6
KR
R=50
.X=50.0000
.Y=800.0000
.Z=0.0000
.I=50.0000
.J=750.0000
.DS=0
.R=50.000000
.WI=0.785398
.WO=0.000000
.WAZ=0.000000
Possible parameter:
R : Radius
8.5 Chamfer edge
Line defined by dialog for chamfer edge. Key letter is KF. Point values are the same than by lines.
E.g.:
$E3
KF
L=30
.X=1365.0000
.Y=765.0000
.Z=0.0000
.WI=0.785398
.WZ=0.000000
Possible parameter:
L : Length of chamfer
FB : Chamfer width
WI : Start angle
WO : End angle
KX : Shrinking of predecessor element.
KY : Shrinking of cucessor element.
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
8.6 Split Element
Use split element across dialog for Element splitting. Key letter are KSL for splitted line and KSA for splitted
circle. Point values are the same like by lines or arcs.
E.g.:
$E2
KSL
X=400
.X=500.000000
.Y=300.000000
.Z=0.000000
.WI=0.463648
.WZ=0.000000
Possible parameter:
X : Split point X-coordinate
Y : Split point Y-coordinate
Z : Split point Z-coordinate
AV : Distance between previous point. By negative value distance from sucession point
Relative value declaration relates to element length. E.g. AV=@0.5 means spliting in middle of
element. AK : Distance from construktion point. By negative value distance to sucession point.
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PRODUCT INFORMATION Subject : 4.2.7
Description
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9 Processes
Processes will be itemized in the variant file by process macros. The base macros of the workpiece creates
the actual program head and is absolutely necessary. The rest processing macros are optional.
The declaration of a processing macro will be introduced by the character <‘ in column 1 of a row. After that
follows the ID-number and the name of the macro as comment between two ‘\’-Characters. The Parameter
drilling from below have to follow in the next row in a specific order.All drilling from below will be drilling from
below by adescriptor marks. The expression (feeding string) will be specified by double high commas.
Condition parameters are only displayed when they are filled in WOODWOP.
If parameters with default are documented, they don’t have to be nescecary displayed in MPR-format.
9.1 Base macros
9.1.1 Werkstck : Workpiece explanation
Describes the seizes of the workpiece as raw material and prefabricated part as well as the remove measure
regarding to the machine fence.
ID-Number: 100
E.g.:
<100 \Werkstck\
LA=”800″
BR=”600″
DI=”20″
AX=”5″
AY=”5″
RNX=”100″
RNY=”0″
RNZ=”0″
FNX=”2.5″
FNY=”2.5″
Explanation:
LA : Length of finished part. (global variable _BSX)
BR : Width of finished part. (global variable _BSY)
DI : Thickness of work piece. (globale variable _BSZ)
AX : Offset in X = length of raw piece – length of finished part.
AY : Offset in Y = Width of raw piece – width of finished part.
RL : Länge of raw piece in X. Alternativeely can be declared AX and AY or RL and RB.
RB : Width of raw piece in Y.
RNX : Raw piece –zero point removing regarding machine fence in X e.g. by template.
RNY : Raw piece –zero point removing regarding machine fence in Y e.g. by template
RNZ : Raw piece –zero point removing regarding machine fence in Z e.g. by higher vacuum cupss. All
those processes will be moved in Z direction by this value. FNX : Finished piece –zero point removing regarding machine fence in X e.g. by offset . All those
prozesses will be moved about the value RNX+FNX in X-direction FNY : Finished piece –zero point removing regarding machine fence in Y e.g. by offset . All those
prozesses will be moved about the value RNX+FNX in Y-direction
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Description
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Raw piece with
Finished piece with ( BSY)
Work piece- Finished piece-
zero point y coordinate system Finished piece length ( BSX)
movement
x (FNX, FNY)
Raw piece length
Raw piece-zero point
movement (RNX, RNY,
RNZ)
M Maschine fence WoodWOP Work piece coordinates
9.1.2 Comment : Comment
Comment text, e.g.for explanation of Work piece.
ID-number: 101
E.g.:
<101 \Comment\
KM=”Schrankseite Modell 17A9 “Erika””
KM=”Best.-Nr.: 739598″
KM=”Werkstoff: Buche hell”
Explanation:
KM : Comment row. By each CR in the comment text in WoodWOP will be inserted a new KM-
insertion. EN : Enable (default=1)
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Description
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9.2 Processings macros
By processing macros there can be fundamental existing following parameters:
?? : Condition (default=1)
EN : Enable (default=1)
HP : Hood position (default=0)
0 = Hood controlling automatically
1 = Hood down position
2 = Hood middle position (new: intermediate position 2)
3 = Hood top position
100= new: Hood intermediate position 1 SP : Spindle controlling (default=0)
0 = Spindle controlling automatically
1 = Spindle left
2 = Spindle right
3 = Spindle using left and right YVE : Y-offset of second spindle, if processing has to be done with both spindles.
(default=0) MX : Processing is depend from previous measures in X (default=0)
MY : Processing is depend from previous measures in Y (default=0)
MZ : Processing is depend from previous measures in Z (default=0)
ASG : Exhauster
0 = Off
1 = On
2 = Automatic RSEL : set of rules selected (1) / not selected (0) (Techauto)
RWID : selected set of rules identifier (Techauto)
KAT: processing category (woodTime)
MNM: Macro name (localized, woodTime)
All others parameter will be explained in following.
9.2.1 BohrVert: Drillings vertical
ID-Number: 102
E.g.:
<102 \BohrVert\
XA=”200″
YA=”300″
BM=”SS”
TI=”10″
DU=”5″
\alternative zu DU: TNO=”121″\
AN=”10″
MI=”0″
AB=”32″
XR=”0″
YR=”1″
S_=2
\Optional additiv: WI=”90″
F_=”STANDARD”
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PRODUCT INFORMATION Subject : 4.2.7
Description
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KO=”2″
??= “_mirror”
Explanation:
XA : Drill coordinate in X
YA : Drill coordinate in Y
BM : Drill mode (stringparameter):
LS =0: slow-fast to depth
SS =1: fast - fast to depth
LSL =2: slow - fast - slow compl. across
SSS =3: fast - fast – fast comp. Across
LSU =6: slow - fast from the bottom
LSLU =8: slow - fast - slow from the bottom
All further declarations relates to self definied drill zycles.
e.g. 001 etc..-> calls NC-sub program TVBOHR40.001. TI : Depth of drilling
DU : Diameter of drilling (alternative DU or TNO)
TNO : T-number (tool number) (alternative TNO or DU)
LA : Lenghts of hole row (alternative LA or AN)
AN : Number of drillings (alternative LA or AN)
MI : Hole row type: 0:start point- 1:center point.
AB : Raster distance of drillings
WI : hole raster direction angle in X/Y-Level (optional additiv to WI or XR and YR). The angle will be
declared in degrees (e.g. 90.0). If this parameter is specified, WOODWOP will recognize that the input is given across the angle.Accordingly the input mask will be configured.
The NC-generator ignores the Angle and uses only XR and YR. XR : Hole row direction in X
YR : Hole row direction in Y
F_ : Feedrate: contains either the correct value in m/min or the key word STANDARD.
By STANDARD, the feedrate of the tool datas will be used (default). S_ : r.p.m.
0: Slow
1: Normal
2: Fast KO : Coordinate system:
0: Work piece coordinate system (“left below“) (default)
1: Work piece coordinate system (“right below“)
2: Work piece coordinate system (“right top“)
3: Work piece coordinate system (“left top“)
4-100: Work piececoordinate system user defined ?? : condition (default=1)
EN : Enable (default=1)
9.2.2 BohrHoriz: Drilling horizontal
ID-Number: 103
E.g.:
<103 \BohrHoriz\
XA=”200″
YA=”300″
ZA=”D/2″
DU=”8″
TI=”35.0″
BM=”XP”
AN=”3″
AB=”32″
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Description
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F_=”STANDARD”
ANA=“15“
??= “_mirror”
EN=”0″
Explanation:
XA : Drill coordinate in X
YA : Drill coordinate in Y
ZA : Drill coordinate in Z
BM : Drill mode(string parameter):
XP =0: X-Plus, i.e. in positive X-direction
XM =1: X-Minus, i.e. in negative X-direction
YP =2: Y-Plus, i.e. in positive Y-direction
YM =3: Y-Minus, i.e. in negative Y-direction
C =4: with free C-angle WI : Angle of drilling in X/Y-level. The angle will be declarated in degrees (e.g. 45.0). These
parameter ist only necessary by BM=C. TI : Depth of drilling
DU : Diameter of drilling
AN : Number of drillings
LA : Lenghts of hole row (alternative LA or AN)
MI : Hole row typ: 0:Start point- 1:Middle point
T_ : T-number (Tool number) (alternative T_ or DU)
AB : Raster distance of drillings
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
by STANDARD the Feedrate of the tool data will be used (default). ANA : Additional start distance
MD : Mode. (Extension for self defined subroutine)
KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.3 BohrUniv: Drilling universal (Space drilling)
ID-number: 104
E.g.:
<104 \BohrUniv\
XA=”500″
YA=”300″
ZA=”17″
CA=”45″
WI=”9″
DU=”8″
TI=”20″
AN=“3“
AB=“32“
F_=STANDARD
Explanation:
XA : Drill coordinate in X (first Drilling) (alternative XA or XM)
YA : Drill coordinate in Y (first Drilling) (alternative YA or YM)
XM : Drill coordinate in X (center hole row) (alternative XA or XM)
YM : Drill coordinate in Y(center hole row) (alternative YA or YM)
ZA : Drill coordinate in Z
CA : Turn angle C-Axis in of X-Y-Level, declarated in degrees.
WI : Swing angle of space drill unite, declarated in degrees.
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Description
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DU : Diameter of drilling
TI : Depth of drilling
AN : Number of drillings
LA : Lenghts of hole row (alternative LA or AN)
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
by STANDARD the Feedrate of the tool data will be used (default). KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.4 UfluBohr: drilling from below
ID-number: 131
E.g.:
<131 \UfluBohr\
XA=”0″
YA=”0″
DU=”8″
WI=”0″
TI=”0″
AB=”10″
F_=”STANDARD”
EN=”0″
Explanation:
XA : Coordinate in X
YA : Coordinate in Y
DU : Drilling diameter
WI : C-angle
TI : Drill depth
AB : Distance of dive in / dive out of drilling holes in direction of C-angles
F_ : Feedrate: cotains either the concrete value in m/min or the key word STANDARD.
By STANDARD the feedrate of tool datas will be used (default). MD : Modus. (extension of self definined start makros)
KO : Coordinate system
ZA : Z-Reference value for the depth
?? : Condition (default=1)
EN : Enable (default=1)
9.2.5 Grooving: Grooving and Sawing
ID-number: 109
E.g.:
<109 \grooveen\
XA=”0″
YA=”200″
XE=”L”
YE=”400″
NB=”5″
RK=”WRKL”
EM=”MOD0″
TV=”5″
MV=”GL”
TI=”67″
MN=”GL”
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PRODUCT INFORMATION Subject : 4.2.7
Description
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OP=”1″
T_=”140″
F_=”STANDARD”
EN=”0″
Explanation:
XA : Start coordinate in X
YA : Start coordinate in Y
XE : End coordinate in X
YE : End coordinate in Y
WI : Angle, declaration only necessary by AN = 1 or 2
AN : Selection of feeding in way. (default=0)
0 = X ENDE_Y ENDE
1 = X ENDE_ANGLE
2 = Y ENDE_ANGLE NB : Groove width
RK : Radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Toolruns left of programmed line
WRKR =2: Tool runs right of programmed line EM : Insert mode
MOD0 =0: Groove has at start- and end-coordinates full depth
MOD1 =1: Groove starts at start- and end-coordinates
MOD2 =2: Start and end-coordinates will be calculated with safety distance.
Suitable for grooving through entire work piece. FM : Feed mode: self definied insertion-resp. start mode (Stringparameter). (alternative declare FM
or
EM) TV : depth
MV : Mode scoring
GL =0: downcut scoring
GGL =1: conventional scoring TI : Groove depth
MN : Mode grooving
GL =0: downcut grooving
GGL =1: conventional grooving OP : Optimizing
0: optimizing off. Free movements by wide groove.
1: optimizing on. Return drive by processing by wide groove. XY : Deliver factor
T_ : Tool number, unit
F_ : Feedrate: contains either the concrete value in m/min or the keyword STANDARD.
By STANDARD the feedrate will be taken from the tool datas (default). KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.6 groove_R: Angled Grooving
ID-number: 124
E.g.:
<124 \groove_R\
XA=”0″
YA=”0″
XE=”0″
YE=”0″
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Description
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ZA=”0″
RK=”WRKL”
WI=”45″
EM=”MOD0″
TV=”0″
MV=”GL”
TI=”0″
MN=”GL”
Explanation:
XA : Start coordinate in X
YA : Start coordinate in Y
XE : End coordinate in X
YE : End coordinate in Y
ZA : Start coordinate in Z
RK : Radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Toolruns left of programmed line
WRKR =2: Tool runs right of programmed line EM : Insert mode
MOD0 =0: Groove has at start- and end-coordinates full depth
MOD1 =1: Groove starts at start- and end-coordinates
MOD2 =2: Start and end-coordinates will be calculated with safety distance.
Suitable for grooving through entire work piece. FM : Feed mode: self definied insertion-resp. start mode (string parameter). (alternative declare FM
or EM) TV : Scoring depth (declaration alternative to scoring Z value)
VZ : Z-value for the scoring (declaration alternative to scoring depth)
MV : Mode scoring
GL =0: downcut scoring
GGL =1: conventional scoring XY : Art of declaration of XY-coordinates
0: XY-declaration to Z-start-level
1: XY-declarations to Z-zero-level TI : Groove depth (declaration alternative to Z-value)
Z_ : Z-value of groove (declarations alternative to depth)
MN : Modus grooving
GL =0: downcut grooving
GGL =1: conventional grooving T_ : Toolnumber, unite
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). XY : Height of XY-value
0: XY-Value on Z-Level
1: XY- Value on Z-0-Level TI : Depth of the groove (Instead of Z-Value)
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
9.2.7 Polygonzug: Polygon milling
ID-number: 119
E.g.:
<119 \Polygonzug\
NM=”_gk.ply”
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PRODUCT INFORMATION Subject : 4.2.7
Description
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XA=”0″
YA=”0″
BR=”46.6″
HE=”100″
WI=”0″
TI=”3″
WZ=”101″
RK=”NOWRK”
F_=”5″
Explanation:
NM : Name of Polygon. Reference to a polygon file *.ply.
XA : Center coordinate in X
YA : Center coordinate in Y
BR : Width (Dimension in X)
HE : Heigth (Dimension in Y)
WI : Turn angle
TI : Depth
WZ : Tool number
RK : Radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Toolruns left of programmed line
WRKR =2: Tool runs right of programmed line 8.2.8 G F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
LOCAL : Polygon Milling can be saved locally (default=0)
STARTLOCAL : start-flag for local Polygon Milling (if LOCAL=1)
ENDLOCAL : end-flag for local Polygon Milling
HU : Tracing stroke for unit with mechanical tracing
MT : mechanical tracing on(1) or off(0)
Note: if mechanical tracing is active, depth(TI) is disabled.
Tracing stroke is only enabled if mechanical tracing(HU) is active 9.2.8 Graphic Comment
ID-number: 152
E.g.:
<152 \Grafischer Comment\
NM=”BOHRKOPF.PLY”
MD=”1″
XA=”0″
YA=”0″
BR=”36.0″
HE=”38.9″
WI=”45″
KO=”01″
ROT=”0″
GRUEN=”0″
BLAU=”255″
STYLE=”0″
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PRODUCT INFORMATION Subject : 4.2.7
Description
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Explanation:
NM : Name of Polygon. Reference to a polygon file *.ply.
XA : Center coordinate in X
YA : Center coordinate in Y
BR : Width (Dimension in X)
HE : Heigth (Dimension in Y)
WI : Turn angle
ROT : Red-Part of the dysplay color
GRUEN: Green- Part of the dysplay color
BLAU : Blue- Part of the dysplay color
STYLE: Linestyle for display (0:SOLIDPEN, 1: DASH, 2: DOT, 3: DASHDOT, 4: DASHDOTDOT,5:
NONE) WIDTH: Line width in pixel (default=1)
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
LOCAL : Graphic Comment can be saved locally (default=0)
STARTLOCAL : start-flag for local Graphic Comment (if LOCAL=1)
ENDLOCAL : end-flag for local Graphic Comment
9.2.9 Pocket: Vertical pocket milling
ID-number: 112
E.g.:
<112 \Tasche\
XA=”0″
YA=”0″
LA=”120″
BR=”20″
RD=”5″
WI=”0″
TI=”2″
ZT=”0″
XY=”80″
DS=“1“
T_=”101″
F_=”STANDARD”
Explanation:
XA : Center coordinate in X
YA : Center coordinate in Y
LA : Lenght (dimension in X)
BR : Width (dimension in Y)
RD : Edges radius
WI : Turn angle
TI : Depth
ZA : Z-Reference value for the depth
ZT : Deliver depth
XY : Delivering in XY-level
T_ : Tool number
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). DS : Turning direction: 0 = clockwise, 1= counter clockwise
OSZVS : feed for oscillating routing
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PRODUCT INFORMATION Subject : 4.2.7
Description
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OSZI : enable oscillating routing yes/no (default : 0)
KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.10 HTasc: Horizontal Pocket Routing ID-number: 123
E.g.:
<123 \HTasc\
XA=”0″
YA=”120″
ZA=”9″
LA=”120″
BR=”40″
RD=”4″
WI=”90″
TI=”20″
ZT=”0″
AB=”10″
T_=”101″
F_=”STANDARD”
DS=“1“
Explanaition:
XA : Center coordinate in X
YA : Center coordinate in Y
ZA : Center coordinate in Z
LA : Lenght (dimension in XY- level vertical to Tool)
BR : Width (dimension in Z)
RD : Edge radius
WI : Turn angle (in XY-level)
TI : Depth
ZT : Deliver depth
MD : Mode. (extension of self defined start macros)
AB : Start distance
T_ : Tool number
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). DS : Turning direction: 0 = clockwise, 1= counter clockwise
KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.11 FreiFormTasche (Free form pocket) ID-number: 181
E.g.:
<181 \FreiFormTasche\
EA=”1:0″
AD=”0″
AZ=”0″
ZU=”0.5″
TI=”0″
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PRODUCT INFORMATION Subject : 4.2.7
Description
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ZT=”0″
XY=”80″
T_=”101″
F_=”5″
DS=”1″
HP=”0″
SP=”0″
YVE=”0″
WW=”1,3,401,403″
ASG=”2″
MX=”0″
MY=”0″
MZ=”0″
MXF=”1″
MYF=”1″
MZF=”1″
Erklärung:
EA : Number of start elements
AD : Distance for last path to clear (normally the outermost contour)
AZ : Start distance in Z
ZU : Infeed speed for sensitive workpieces
TI : Depth
ZT : Step depth
XY : Infeed in XY
T_ : Tool number
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD the Feedrate of the Tooldata will be used (default). DS : direction of rotation: 0 = clockwise, 1= counter clockwise
HP : Hood position (default=0)
0 = Hood controlling automatically
1 = Hood down position
2 = Hood middle position
3 = Hood top position
100= New: Hood inclined position 1 SP : Spindle controlling (default=0)
0 = Spindle controlling automatically
1 = Spindle left
2 = Spindle right
3 = Spindle using left and right YVE : Y-offset of second spindle, if processing has to be done with both spindles.
(default=0) WW : default tool numbers suitable for this macro
ASG : Exhauster
0 = Off
1 = On
2 = Automatic MX : Processing is depend from previous measures in X (default=0)
MY : Processing is depend from previous measures in Y (default=0)
MZ : Processing is depend from previous measures in Z (default=0)
MXF : Measuring factor in X
MYF : Measuring factor in X
MZF : Measuring factor in X
HU : Tracing stroke for unit with mechanical tracing
MT : mechanical tracing on(1) or off(0)
Note: if mechanical tracing is active, depth, step depth and feed adjustment are disabled.
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Description
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Tracing stroke is only enabled if mechanical tracing is active OSZVS : feed for oscillating routing
OSZI : enable oscillating routing yes/no (default : 0)
9.2.12 VTasche: Vector Pocket Routing ID-number: 141
E.g.:
<141 \VTasche\
XA=”100″
YA=”200″
LA=”120″
BR=”50″
RD=”10″
WI=”45″
TI=”10″
ZT=”10″
XY=”80″
T_=”225″
F_=”5″
DS=“1“
A_=“0“
C_“90“
Explanation:
XA : Center coordinate in X
YA : Center coordinate in Y
LA : Lenght (dimension in XY- level vertical to Tool)
BR : Width
RD : Edge radius
WI : Turn angle (in XY-level)
TI : Depth
ZT : Deliver depth
MD : Modus. (extension of self defined start macros)
XY : Delivery
T_ : Tool number
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). DS : Turning direction: 0 = clockwise, 1= counter clockwise
A_ : A-Angle
C_ : C-Angle
KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.13 UflurTasche: Pocketing from below ID-number: 151
E.g.:
<151 \ UflurTasche\
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Description
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XA=”0″
YA=”0″
LA=”120″
BR=”20″
RD=”5″
WI=”0″
AB=“30“
AWI=”90″
TI=”2″
ZT=”0″
XY=”80″
DS=“1“
T_=”125″
F_=”STANDARD”
Explanation:
XA : Center coordinate in X
YA : Center coordinate in Y
LA : Lenght (dimension in XY- level vertical to Tool)
BR : Width
RD : Edge radius
WI : Turn angle (in XY-level)
AWI : Angle of unite
TI : Depth
ZA : Z-Reference value for the depth
ZT : Deliver depth
AB : Start distance
AM : Inserting mode
0: vertival diving
1: dive in the move MD : Modus. (extension of self defined start macros)
XY : Delivery
T_ : Tool number
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). DS : Turning direction: 0 = clockwise, 1= counter clockwise
KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
9.2.14 NC-Code: Free NC-Code ID-Number: 116
E.g.:
<116 \NC-Code\
PA=”( Freier NC-Code )”
UPG=”1″
NM=””
TA=”1″
PR=”1″
XA=”0.0″
YA=”0.0″
ZA=”0.0″
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Description
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Explanation:
PA : NC-row (can occur more than once)
UPG : Inserting drilling from below yes/no 1/0
NM : Drilling from below file names
TA : Tool tcleaning yes/no 1/0
PR : parse NC-row values yes/no 1/0
XA : Insert coordinate in X
YA : Insert coordinate in Y
ZA : Insert coordinate in Z
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
9.2.15 NC-Stop: NC-Stop-Makro ID-Number: 117
E.g.:
<117 \NCStop\
VL=”1″
XA=”34″
YA=”45″
_Y=”1″
XV=”0″
YV=”0″
Explanation:
XA : X-position (drive away position)
YA : Y-position
XV : X-offset (after release vacuum land tighten again)
YV : Y-offset
VL : Release vacuum 1/0
KM : Comment
MD : Mode. (extension of self defined start macro)
_Y : Declare Y-coordinate 1/0
KO : Coordinate system
ZR : display message at realtime
WT : time to wait
?? : condition (default=1)
EN : Enable (default=1)
9.2.16 Universal Macro ID-number: 153
E.g.:
<153 \Universal Makro\
NM=””
XA=”100″
YA=”20″
ZA=”10″
WI=”25″
WZ=”77″
S_=”STANDARD”
F_=”STANDARD”
P1=”0″
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PRODUCT INFORMATION Subject : 4.2.7
Description
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P2=”0″
P3=”0″
P4=”0″
Explanation:
XA : Coordinate in X
YA : Coordinate in Y
ZA : Coordinate in Z
WI : Angle
WZ : Tool
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). S_ : Revolution per minute: contains either the concrete value in m/min or the key word
STANDARD.
By STANDARD the revolution will be used (default). P1 : Free parameter
P2 : Free parameter
P3 : Free parameter
P4 : Free parameter
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
LOCAL : Subroutine can be saved locally (default=0)
STARTLOCAL : start-flag for local subroutine (if LOCAL=1)
ENDLOCAL : end-flag for local subroutine
SM : Revolution mode
0: revolutions in percent
1: in RPM PA : NC-row (can occur more than once)
PR : parse NC-row values yes/no 1/0 (default = 1)
9.2.17 Messen: Measure ID-number: 129
E.g.:
<129 \Messoriz\
XA=”0″
YA=”0″
ZA=”0″
TI=”20″
MD=”X”
MP=”0″
Explanation
XA : X-start position
YA : Y- start position
ZA : Z- start position
TI : depth
MD : Measure direktion “X”,”Y” or “Z”
MP : Measure point
PO : Position (0: at cross 1: at tappet)
T_ : Tool
AB : Distance of dive movement from start position (door rabbit measuring)
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
9.2.18 Probing Actual Location of Workpiece ID-number: 132
E.g.:
<132 \LageVermessen\
X1=”0″
Y1=”B/2″
Z1=”10″
X2=”100″
Y2=”0″
Z2=”10″
X3=”L-100″
Z3=”10″
MM=”VR”
WI=”90″
WZ=”39″
VR=”0″
Explanation:
X1 : Measure point 1 in X
Y1 : Measure point 1 in Y
Z1 : Measure point 1 in Z
X2 : Measure point 2 in X
Y2 : Measure point 2 in Y
Z2 : Measure point 2 in Z
X3 : Measure point 3 in X
Y3 : Measure point 3 in Y
Z3 : Measure point 3 in Z
MM : Measure mode (string parameter):
0: HL (back left, triple measuring)
1: HR (back right, triple measuring)
2: VL (front left, triple measuring)
3: VR (front right, triple measuring)
4: H (from back single measuring)
5: V (from front single measuring)
6: L (from left single measuring)
7: R (from right single measuring) WI : Included Angle
WZ : Tool
VR : Measuring on raw piece edge
PO : Position (0: at cross 1: at tappet)
?? : condition (default=1)
EN : Enable (default=1)
9.2.19 Block: Block macro Allows the combining of several processes to a block. All processes in a block
• Will be shifted by the offset in the block. (excluded contour processing. These relates to the non changed
contour). • Get the coordinate system of the bloch.
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
• Will be calculated with the conditions of the block. (AND-link).
• And will be switched with the block. (EN).
Blocks can be saved and loaded . Files with the saved blocks have the extension .blk.
ID-number: 121
E.g.:
<121 \Block\
XP=”0.0″
YP=”0.0″
ZP=”0.0″
NM=”topfband.blk”
DP=”3″
Explanation:
XP : Position (Offset) in X
YP : Position (Offset) in Y
ZP : Position (Offset) in Z
NM : Name of blocks (filename if block was loaded from a file)
DP : Dependent, i.e. Number of depended makros in a block
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
CS : CNC-Loop (default=0)
9.2.20 Komponente: Component Macro
Refers to a separate WoodWOP-program (MPR-file) which will be included in the main document.
All processes and contourelements in the MPR-file
• Will be shifted by the offset in the block.
• Get the coordinate system of the bloch.
• Will be calculated with the conditions of the block. (AND-link).
• And will be switched with the block. (EN).
Components can include a refer to an extern MPR-file or to a embed MPR-file. If the MPR-file is embeded,
follows after the finish characters of the main document („!“-Characters) the komplete MPR-file of the
components. The component file will practically be „appendet“ to a main program. MPR-files.which are used
in the component macros have the extension .mpr , but are located for usual in a seperat list (./ML4).
ID-number: 139
E.g.:
<139 \Komponente\
IN=”topfband.mpr”
XA=”0.0″
YA=”0.0″
ZA=”0.0″
EM=”0″
VA=”Turnwink 0″
VA=”Durchm1 17″
VA=”Drilling 1″
VA=”Durchm2 12″
VA=”depth 16″
Explanation:
IN : Name of Include-file
XA : Position (Offset) in X
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PRODUCT INFORMATION Subject : 4.2.7
Description
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YA : Position (Offset) in Y
ZA : Position (Offset) in Z
EM : Embed mode
0 = to Include-files will be referred externaly.
1 = Include-File is imbeded internaly. PR : Privat, protected (optional) (default=0)
0 = variable values changeable;_BSX, _BSY, ..., and coordinate systems from
the main document counts also in the macros of the include-file
1 = variable values are inserted as fix in the variable list of the include-file ; _BSX, _BSY, ..., and coordinate systems from the main document counts not in the macros of the include-file
VA : Variable expressions of the components, as many as. As variables will be used the entrys from
the variable table of the include-file .The variable value will be seperated by free characters from
The variable name. “<variable name> <Space> <parameter entry>“ KO : Coordinate system
?? : Condition (default=1)
EN : Enable (default=1)
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PRODUCT INFORMATION Subject : 4.2.7
Description
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9.3 Contour processing makros
9.3.1 Contourfraesen: Routing to a Contour elements
ID-Number: 105
E.g.:
<105 \Contourfraesen\
EA=”1:1″
MDA=”TAN”
RK=”WRKL”
EE=”1:2″
MDE=”TAN_AB”
EM=”1″
RI=”1″
TNO=”101″
SM=”0″
S_=”100″
F_=”20″
AB=”0″
ZA=”2″
Erklärung:
EA : Number of start elements
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self definied start mode RK : Radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: vertical
or self definied start mode MD : Self defined mill mode
EM : Insert mode
0: vertical dive
1: inserting in the move RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: not forward, i.e. conter drawing direction of contour element TNO : T-Number (toolnumber)
SM : Revolution mode
0: revolutions in percent
1: in RPM S_ : Revolutions in percent
S_A : Revolutions in RPM
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default).
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PRODUCT INFORMATION Subject : 4.2.7
Description
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AB : Distance from programmed contour. If distance is negative ist, material will be milled away.
AF : approach distance
ZA : Start coordinate in Z
?? : condition (default=1)
EN : Enable (default=1)
VLS : Extension at startpoint
VLE : Extension at endpoint
STUFEN : routing by steps (default = 0)
ZSTART : Z-Start routing by steps
ANZZST : stepcount for routing by steps
OSZVS : feed for oscillating routing
OSZI : enable oscillating routing yes/no (default : 0)
9.3.2 Contourverleimen: Edgebanding at Contour Element
ID-number: 106
E.g.:
<106 \Contourverleimen\
EA=”1:0″
EE=”1:1″
P59=”1″
AB=”0″
P60=”0″
WS=”3″
F_=”5″
DZ=”0″
S_=”45″
S_=”0”
TL=”1″
M15=”1″
NM=”STANDARD”
KM=”PVC-Kante 2mm”
KN=”32″
KZ=”20″
DK=”0″
KA=“110“
LA=”0″
SV=”0″
SE=”0″
ABN=”20″
RI=”1″
ABV=”30″
ABA=”5″
VA=”2″
ABT=”60″
FK=”2″
TB=”30″
SK=”2″
RSP=“1“
AC=”1″
SL=”100″
SA=”10″
CF=”5″
??=”_nonmirror”
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PRODUCT INFORMATION Subject : 4.2.7
Description
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Explanation
EA : Number of start elements
EE : Number of end elements
P59 : Edge (choosing edge channel)
AB : Distance from programmed contour. If distance is negative, more pressure will be given to work
piece. Z_ : Z-value (optional) (default=0)
P60 : C-angle
WS : Maintanance time
F_ : Feedrate
DZ : define revolution speed relative (default: 0, must be defined prior to S_ and S_P)
S_ : revolution speed (must be „0“ if DZ=1)
S_P : revolution speed (must be „0“ if DZ=0)
TL : Test run (without edge)
0: no test run
1: test run, e.g. without edge material and glue M15 : Test run (without M15 i.e. over work piece)
NM : Name of gluing parameter file
KM : Comment
VM : Gluing makro (Art of gluing unit) – up to WoodWOP-Build 556
KN : Art of gluing unit – WoodWOP-Build 556 or greater
MD : Self defined mode – WoodWOP-Build 556 or greater
TNO : T-Number (tool number)
HL : Heat power in %
HL2 : Heat power 2 in %
KZ : Edge material adding
KB : time for edge supply
AV : distance of glueingdevice (lop point)
DK : Thickness of edge
LA : Slow pull out
SV : Bulb pre snip station
SE : Bulb gluing station
ABN : Distance post press roller on
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward i.e. against drawing direction of contour element ABV : Distance edge transport
ABA : Distance post press roller off
KA : Snipdistance from end only in conjunction with NC-Generator-Option „edge
material grouping“) VA : Waiting time post press roller
ABT : Distance , drive way-sensor
FK : Feedrate sensoring
TB : Sensor area, slow way
SK : Joint correction
KS : Swing snipping saw
SVK : Pre snipping station with bulb
RV : Banding around, i.e. Joint at not cosed contour (optional) (default=0)
RSP : Turnung of gluing station to start point
1: clockwise
0: conter clockwise
Ist parameter not declarated, the minimum turning of gluing station will be calculatedt. AC : Automatic correction of the C-Offset (collision test)
1: ON
0: OFF SL : Splitting length: Length for the splitting of the contour
SA : Safety distance for the collision test.
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
CF : C-Korrekturwinkel:
?? : condition (default=1)
EN : Enable (default=1)
SCA : Specify Glueing section with swivel arm for portal machines
9.3.3 Stegkante: T-molding
ID-number: 136
E.g.:
<106 \Stegkante\
EA=”1:0″
EE=”1:1″
P59=”1″
AB=”0″
P60=”0″
WS=”3″
KA=“0“
RK=”WRKL”
F_=”5″
S_=”45″
TL=”1″
M15=”1″
NM=”STANDARD”
KM=”PVCKante 2mm”
VM=”27″
LA=“1“
KZ=”20″
ABN=”20″
RI=”1″
ABV=”30″
ABA=”5″
VA=”2″
ABT=”60″
KSE=”250″
KSF=”3.5″
ARA=”200“
ARE=”60″
APR=”300″
FK=”2″
TB=”30″
SK=”2″
RSP=“1“
AC=”1″
SL=”100″
SA=”10″
CF=”5″
??=”_nonmirror”
Explanation:
EA : Number of start elements
EE : Number of end elements
P59 : Edge (choosing edge channel)
AB : Distance from programmed contour. If distance is negative, more pressure will be given to work
piece. Z_ : Z-value (optional) (default=0)
P60 : C-angle
WS : Maintanance time
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PRODUCT INFORMATION Subject : 4.2.7
Description
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F_ : Feedrate
S_ : Revolutions
TL : Test run (without edge)
0: no test run
1: test run, e.g. without edge material and glue M15 : Test run (without M15 i.e. over work piece)
NM : Name of gluing parameter file
KA : With glue apply
LA : Slow pull out
RK : Processing side (WRKL = Left, WRKR = Right)
KM : Comment
VM : Makro (art of units)
TNO : T-Number (tool number)
KZ : Edge material addition
ABN : Distance pre rpessure roll on
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward i.e. against drawing direction of contour element ABV : Distance edge transport
ABA : Distance post press roller off
KA : Snipdistance from end only in conjunction with NC-Generator-Option „edge
material grouping“) VA : Waiting time post press roller
ABT : Distance , drive way-sensor
FK : Feedrate sensoring
TB : Sensor area, slow way
SK : Joint correction
KS : Swing snipping saw
KA : With/without glue application
KSE : Distance glue on
KSF : Feedrate while glue application
ARA : Distance pressure roll off
ARE : Distance pressure roll on
APR : Distance post pressing
RV : Banding around, i.e. Joint at not cosed contour (optional) (default=0)
RSP : Turnung of gluing station to start point
1: clockwise
0: conter clockwise
Ist parameter not declarated, the minimum turning of gluing station will be calculatedt. AC : Automatic correction of the C-Offset (collision test)
1: ON
0: OFF SL : Splitting length: Length for the splitting of the contour
SA : Safety distance for the collision test.
CF : C-Korrekturwinkel:
?? : condition (default=1)
EN : Enable (default=1)
AI : Unit with Interface (default=1)
BP : approach feed position (default=0)
9.3.4 Buendigfraesen: Flush Trimming
ID-number: 107
E.g.:
<107 \Buendigfraesen\
EA=”1:1″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
EE=”1:5″
AG=”110″
RI=”1″
AB=”2″
P60=”12″
F_=”STANDARD”
MD=”LI”
AC=”1″
KU=”0”
SL=”100″
SA=”10″
CF=”5″
??=”_nonmirror”
Explanation:
EA : Number of start elements
EE : Number of end elements
AG : Unit
RI : Direction of processing
1: forward i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour. If distance is negative, more pressure will be given to work
piece. P60 : Offset C-axis
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). MD : Mode
LI =0: Tool runs left
RE =1: Tool runs right MOD : Modus (selfdefined start sub program)
Z_ : Z-coordinate
AC : Automatic correction of the C-Offset (collision test)
1: ON
0: OFF KU : finish by grinding yes(1) / no(0) (default=0)
SL : Splitting length: Length for the splitting of the contour
SA : Safety distance for the collision test.
S_ : Revolutions
?? : condition (default=1)
EN : Enable (default=1)
9.3.5 Kappen: End Trimming
ID-number: 108
E.g.:
<108 \Kappen\
EA=”1:1″
EE=”1:1″
P60=”0″
P61=”0″
P62=”1″
RI=”1″
ABV=”0″
ABH=”0″
VH=”1″
VK=”1″
41/70 ———————– Page 42———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
HK=”1″
RK=“1“
Explanation
EA : Number of start element (front edge)
EE : Number of end element (back edge)
P60 : Offset C-Axis front edge
(positiv=away from work piece, negativ=to work piece) F_ : Feedrate
S_ : Revolutions
P61 : Offset C-Axis back edge
(positiv=away from work piece, negativ=to work piece) P62 : Offset C-Axis (free cut angle e.g. 1)
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward i.e. against drawing direction of contour element ABV : Distance edge transport
(positiv=away from work piece, negativ=to work piece) ABH : Distance from programmed contour point back edge
(positiv=away from work piece, negativ=to work piece) VH : =1 -> front edge before back edge
=0 -> back edge before front edge VK : snipping front edge yes/no (1/0)
HK : snipping back edge yes/no (1/0)
MD : Mode
T_ : Tool (optional)
RK : Edge side (optional)
1=Left
2=Right ?? : condition (default=1)
EN : Enable (default=1)
9.3.6 Klink: Corner notching
ID-number: 127
E.g.:
<127 \Klink\
EA=”1:1″
P60=”0″
ABV=”0″
AEV=”0″
MD=”MOD0″
Explanation:
EA : Number of start elements
P60 : Offset C-Axis VK
P61 : Offset C-Axis HK
ABV : Distance element VK
AEV : Distance edge VK
ABH : Distance element HK
AEH : Distance edge HK
MD : nodging mode
MOD0: double side nodging VK and HK
MOD1: nodging only VK
MOD2: nodging only HK
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
MOD : Self defined mode (optional)
RK : Tool radius correction LI=left RE=right
TNO : Unit (optional)
?? : condition (default=1)
EN : Enable (default=1)
9.3.7 Schleifen: Contour Sanding
ID-number: 125
E.g.:
<125 \Schleifen\
EA=”1:1″
MDA=”TAN”
RK=”WRKL”
EE=”1:5″
MDE=”TAN_AB”
RI=”1″
TNO=”101″
SM=”0″
S_=”STANDARD”
F_=”STANDARD”
AB=”0″
P60=”0″
ZA=”0″
Explanation:
EA : Number of start elements
MD : Mode
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs left of programmed line EE : Number of end element
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward i.e. against drawing direction of contour element TNO : T-Number (Toolnumber)
EM : Insert mode
SM : Revolution mode
0: revolutions in Prozent
1: R.P.M. S_ : Revolutions
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AB : Distance to programmed contour. If distance is negative material will be sanded away.
P60 : C-Angle
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
ZA : Start coordinate in Z
OSZVS : feed for oscillating routing
OSZI : enable oscillating routing yes/no (default : 0)
?? : condition (default=1)
EN : Enable (default=1)
9.3.8 Drucken: Pressure Zone at a Contour
ID-number: 134
E.g.:
<134 \Drucken\
EA=”1:0″
RK=”WRKL”
EE=”1:1″
RI=”1″
F_=”5″
AB=”30″
AS=”0″
AN=”30″
TI=”10″
HL=”10″
HO=”0″
Explanation:
EA : Number of start elements
EE : Number of end elements
RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line TNO : T-Number (tool number)
MOD : Self defined mode
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AS : Distance from programmed contour.
AN : Start distance
AB : Stop distance
TI : Pre heat time (in seconds)
HO : Hights (Z-coordinate, measured from Z=0)
HL : Heating power
?? : condition (default=1)
EN : Enable (default=1)
9.3.9 Ritzen: Processing of an Edge at Door Rabbit Prozessing r
ID-number: 138
E.g.:
<138 \Ritzen\
EA=”1:0″
RK=”WRKL”
EE=”1:1″
RI=”1″
44/70 ———————– Page 45———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
F_=”5″
FB=”30″
SB=”10″
TV=”0″
MD=”VKANDHKSLOTTING”
MX=”0″
MY=”0″
MZ=”0″
Explanation:
EA : Number of start element
EE : Number of end element
RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line TNO : T-Number (tool number)
MOD : Self defined mode
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). FB : Distance von of programierten Contour.
SB : Area
TV : Groove hight
?? : condition (default=1)
EN : Enable (default=1
9.3.10 Horizontales Fraesen: Contour Element ID-number: 133
E.g.:
<133 \Contourfraesen\
EA=”1:0″
MDA=”TAN”
RK=”WRKL”
EE=”1:1″
MDE=”TAN_AB”
EM=”0″
RI=”1″
TNO=”156″
SM=”0″
S_=”STANDARD”
F_=”5″3
AB=”0″
ZM=”0″
Explanation:
EA : Number of start element
MDA : Start mode
45/70 ———————– Page 46———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
MD : Self defined mill mode
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode EM : Inserting mode
0: vertival diving
1: dive in the move RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element TNO : T-Number (tool number)
SM : Revolution mode
0: revolutions in Prozent
1: R.P.M. S_ : Revolutions
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AB : Distance to programmed contour. If distance is negative material will be sanded away.
ZM : Z-Mass
XY : Side X/Y. If Horizontal milling will be used to a contour element in of XY-Level
C_ : C-value (If Tool not vertical to XY-level of macro coordinate system)
A_ : A-value (If Tool not vertical to XY-level of macro coordinate system)
KO : Coordinate system (normally horizontal coordinate system A0,A1,…D3, see
default coordinate system) AN : Start distance (optional)
ABT : Stop distance (optional)
?? : condition (default=1)
EN : Enable (default=1)
9.3.11 Vektor Fraesen: 5-Axis Routing ID-number: 140
E.g.:
<140 \Vektorfraesen\
EA=”1:0″
MDA=”TAN”
RK=”WRKL”
EE=”1:1″
MDE=”TAN_AB”
EM=”0″
RI=”1″
TNO=”156″
SM=”0″
S_=”STANDARD”
F_=”5″
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PRODUCT INFORMATION Subject : 4.2.7
Description
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AB=”0″
ZM=”0″
Explanation:
EA : Number of start element
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
MD : Self defined mill mode
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode EM : Inserting mode
0: vertival diving
1: dive in the move RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element TNO : T-Number (tool number)
SM : Revolution mode
0: revolutions in Prozent
1: R.P.M. S_ : Revolutions
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AB : Distance to programmed contour. If distance is negative material will be sanded away.
ZM : Z-Mass
XY : Side X/Y. If Horizontal milling will be used to a contour element in of XY-Level
C_ : C-value (If Tool not vertical to XY-level of macro coordinate system)
A_ : A-value (If Tool not vertical to XY-level of macro coordinate system)
KO : Coordinate system (normally horizontal coordinate system A0,A1,…D3, see
default coordinate system) ?? : condition (default=1)
EN : Enable (default=1)
CR : C-value relative to contour (default=0)
KG : smooth contour
MB : maximum track deviation (or maximum track error)
AS : skip record length smaller than [value]
MW : maximum angular deviation
AW : skip angular movements smaller than [value]
9.3.12 Unterflurfräsen : Routing from below ID-number: 113
E.g.:
47/70 ———————– Page 48———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
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<113 \Unterflur-Fraesen\
EA=”1:1″
RK=”WRKL”
EE=”1:5″
MDE=”TAN_AB”
RI=”1″
TNO=”101″
SM=”0″
S_=”STANDARD”
F_=”STANDARD”
WI=”0″
AN=”30″
AB=”30″
ZA=”3″
Explanation:
EA : Number of start element
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
MD : Self defined mill mode
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode EM : Inserting mode
0: vertival diving
1: dive in the move RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element TNO : T-Number (tool number)
SM : Revolution mode
0: revolutions in Prozent
1: R.P.M. S_ : Revolutions
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AB : Distance to programmed contour. If distance is negative material will be sanded away.
ZM : Z-Mass
XY : Side X/Y. If Horizontal milling will be used to a contour element in of XY-Level
C_ : C-value (If Tool not vertical to XY-level of macro coordinate system)
A_ : A-value (If Tool not vertical to XY-level of macro coordinate system)
ABS : Distance from the contour
KO : Coordinate system (normally horizontal coordinate system A0,A1,…D3, see
default coordinate system) ?? : condition (default=1)
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PRODUCT INFORMATION Subject : 4.2.7
Description
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EN : Enable (default=1)
9.3.13 Vert Getastet-Fraesen: Vertical Touched Routing
ID-number: 128
E.g.:
<128 \Vert Getastet-Fraesen\
EA=”1:0″
MDA=”TAN”
RK=”WRKL”
EE=”1:1″
MDE=”TAN_AB”
RI=”1″
TNO=”230″
EM=”MOD0″
S_=”100″
F_=”5″
WI=”90″
AB=”0″
ZA=”19″
TH=”2″
TM=”0″
_CM=”1″
CM=”1″
HP=”1″
SP=”3″
YVE=”1000″
MX=”1″
MY=”0″
MZ=”0″
ZUA=”0”
ZU=”5”
VLS=”10”
VLE=”10”
Explanation:
EA : Number of start element
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
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PRODUCT INFORMATION Subject : 4.2.7
Description
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0: conter forward, i.e. against drawing direction of contour element TNO : T-Number (tool number)
EM : Insert mode
MOD0 =0: groove has at start and end-coordinates full depth
MOD1 =1: groove starts at start and end coordinates S_ : Revolutions
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). WI : C-angle
AB : Distance from programmed contour.
ZA : Z-value touching
ZWZ : Z-value routing or
TH : touch lift
CM : C-value mode
0: as offset
1: absolut FL : dive in mode
AB : approach distance
_CM : CNew mode
TM : Test Mode, i.e. span touching
MD : Mode
ZUA : Feed adjust Z enable (0/1 default=0)
ZU : Feed adjust Z value (feed)
VLS : Extension at startpoint
VLE : Extension at endpoint
?? : condition (default=1)
EN : Enable (default=1)
9.3.14 Abblasen: Blow Cleaning of Contour ID-number: 126
E.g.:
<126 \Abblasen\
EA=”1:1″
RK=”WRKL”
EE=”1:5″
RI=”1″
F_=”STANDARD”
AB=”0″
P60=”0″
ZA=”0″
Explanation:
EA : Number of start element
RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element TNO : T-Number (tool number)
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AB : Distance from programmed contour.
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PRODUCT INFORMATION Subject : 4.2.7
Description
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P60 : C-Angle
ZA : Start coordinate in Z
?? : condition (default=1)
EN : Enable (default=1)
9.3.15 Laser-Anzeige: Showing Contour by Laser ID-number: 154
E.g.:
<154 \Laser-Anzeige\
EA=”1:1″
RK=”WRKL”
EE=”1:5″
RI=”1″
F_=”STANDARD”
ZY=”1″
NR=”1”
Explanation:
EA : Number of start element
EE : Number of ende elements
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). ZY : Number of Zycles (only reticule laser)
NR : Laser Number
?? : condition (default=1)
EN : Enable (default=1)
9.3.16 NC-New: Discharge Macros (outdated) For changing of technology values. With a NC-New-Makro there can also be changed several technology
values together like feedrate and revolution.
ID-number: 118
E.g.:
<118 \NCNew\
FF=32
EA=”1:1″
F_=”10″
S_=“80“
Explanation:
FF : Funktion sflag (always 32)
EA : Number of refer element
Z_ : New value for Z-axis
F_ : New value for feedrate
M_ : New M-funktion
S_ : New value for evolution
C_ : New value for C-axis
A_ : New value for A-axis
G_ : New G-funktion
NC_ : New NC-sentence
HL : New heat power
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PRODUCT INFORMATION Subject : 4.2.7
Description
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HL2 : New heat power 2
?? : condition (default=1)
EN : Enable (default=1)
DS_TYPn (n =1..10): Type of Discharge, see below for details
DS_WERn (n =1..10): Value of Discharge Type (1 to 10)
DS_STRn (n =1..10): distance of Discharge Type (1 to10)
Dischharge Type:: Variables DS_TYP1 to DS_TYP10 can be assigned one of eleven possible values, their
meanings are::
1: New value for feedrate
2: New value for C-axis
3: New value for evolution
4: New value for Z-axis
5: New M-function
6: New G-function
7: New NC-sentence
8: New value for A-axis
9: New heat power
10: New heat power 2
11: Edge Sanding Length (%)
9.3.16 Technology Macro: Discharge Macros
Modify Technology Paramters. Several (up to 16) parameters like feed or c-axis can be changed at a time.
ID-Number: 180
Example.:
<180 \Neustr\
FF=32
EA=”1:2″
EE=”1:3″
DS_TYP1=”1″
DS_WER1=”12″
DS_ORT1=”3″
DS_STR1=”0″
DS_TYP2=”2″
DS_WER2=”-45″
DS_ORT2=”2″
DS_STR2=”0″
KM=”This is a Comment”
AU=”0″
FN=””
Explanation:
FF : Function-flag (always 32)
EA : Number of reference element (start element)
EE : Number of reference element (end element)
KM : comment (string)
AU : macro was generated automatically (value=1) or entered manually (value=0)
FN : filename (only set if macro was loaded from or saved to a file)
DS_TYPn: (n =1..16) Type of Discharge, see below for details
DS_WERn: (n =1..16) Value of Discharge Type
DS_ORTn: (n =1..16) Discharge type vaild at start (value=2)- or end (value=3)- point
DS_STRn: (n =1..16) distance of Discharge Type
Discharge Type: Variables DS_TYP1 to DS_TYP10 can be assigned one of eleven possible values:
1: New value for feedrate
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Description
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2: New value for C-axis
3: New value for evolution
4: New value for Z-axis
5: New M-function
6: New G-function
7: New NC-Set
8: New value for A-axis
9: New heat power
10: New heat power 2
11: Edge Sanding Length (relative)
9.3.17 Ablauf: Run Macro (Sequence Macro)
Allows the grouping of several contour processes to one run. Application: Rabbet with several tools,
complets edge processing . All processes in the run macro
• Relates to start and end point of run macro
• Will be calculated with the condition of the run macro (AND-link)
• And will be switched off with the run macro (Reminder: Space button puts processing to comment)
Run macros can be saved and loaded. Files withnsaved run macros have the extension .abl.
ID-number: 122
E.g.:
<122 \Ablto\
EA=”1:1″
EE=”1:5″
RI=”1″
NM=”profil1.abl”
DP=”2″
Explanation
EA : Number of Startelements (Vorofkante)
EE : Number of Endeelements (Hinterkante)
RI : Direction of Processing
1: vorwärts, i.e. in Zeichnungsdirection of Contour elementses
0: nicht vorwärts, i.e. gegen Zeichnungsdirection of Contour elementses NM : Name of Abltomakros (Filename falls Ablto of a File geladen wurde)
DP : Dependent, i.e. Number abhängiger Makros im Ablto
?? : condition (default=1)
EN : Enable (default=1)
9.3.18 Contour routing with C-Axis
ID-number: 149
E.g.:
<149 \Contourfraesen mit C-Achse\
EA=”1:0″
MDA=”TAN”
RK=”WRKL”
EE=”1:1″
MDE=”TAN_AB”
EM=”0″
RI=”1″
TNO=”101″
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PRODUCT INFORMATION Subject : 4.2.7
Description
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C_=”0″
SM=”0″
S_=”STANDARD”
F_=”5″
AB=”0″
ZA=”-3″
HP=”0″
SP=”0″
YVE=”0″
MX=”0″
MY=”0″
MZ=”0″
Explanation:
EA : Number of Startelements (Vorofkante)
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line EE : Number of end element
MD : Self defined router mode
MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode SM : Revolution mode
0: revolutions in Prozent
1: R.P.M. EM : Insert mode
0: horizontal dive
1: dive in move RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element TNO : T-Number (toolnumber)
C_ : C-value
S_ : Evolutions
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). AB : Distance from programmed contour.
VLS : Extension at startpoint
VLE : Extension at endpoint
OSZVS : feed for oscillating routing
OSZI : enable oscillating routing yes/no (default : 0)
ZA : Start coordinate in Z
?? : condition (default=1)
EN : Enable (default=1)
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PRODUCT INFORMATION Subject : 4.2.7
Description
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9.3.19 Routing with a FK-Unit
ID-Number: 161
Bsp.:
<161 \ FK-Fraesen\
EA=””
RK=”WRKL”
VK=”0″
HK=”1″
EE=””
RI=”1″
TNO=”1″
F_=”10″
EL=”-20″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element RK : radius correction:
NOWRK =0: Tool runs on programmed line
WRKL =1: Tool runs left of programmed line
WRKR =2: Tool runs right of programmed line AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
F_ : Feedrate: contains either the concrete value in m/min or the key word STANDARD.
By STANDARD theFeedrate of the Tooldatas will be used (default). EL : Distance
?? : condition (default=1)
EN : Enable (default=1)
9.3.20 Routing with a CF-Unit
ID-Number: 158
Bsp.:
<158 \CF-Fraesen\
EA=”1:0″
EE=”1:9″
BK=“0“
RI=”1″
TNO=”101″
AB=”0″
FS=”10″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
?? : condition (default=1)
EN : Enable (default=1)
FS : Cuting feed
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PRODUCT INFORMATION Subject : 4.2.7
Description
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9.3.21 Gluing with a CF-Unit
ID-Number: 159
Bsp.:
<159 \CF-Leimen\
NM=”STANDARD”
KM=”PVC-Kante 2mm REHAU”
EA=”1:0″
EE=”1:9″
BK=”0″
DK=”0″
RI=”1″
TNO=”101″
AB=”0″
C_=”10″
KZ=”10″
KUH=”0″
KUV=”0″
KTA=”10″
STR=”10″
AC=”0″
WA=”0″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
?? : condition (default=1)
EN : Enable (default=1)
BK : Definition edge (0: begin of edge , 1: end of edge)
DK : Thick edge (0: no, 1: Yes)
C_ : C-angle
KZ : Kantenlängezugabe
KUH : Kantenueberstand vorne
KUB : Kantenueberstand hinten
KTA : Kantentransport aus
STR : Strahler
AC : Automatic correction of the C-Offset (collision test)
1: ON
0: OFF SL : Splitting length: Length for the splitting of the contour
SA : Safety distance for the collision test.
9.3.22 Flush trimming with a CF-Unit
ID-Nummer: 157
Bsp.:
<157 \CF-Buendigfraesen\
EA=””
EE=””
BK=”0″
RI=”1″
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Description
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TNO=”101″
AB=”0″
C_=”10″
TT=”10″
SLQ=”10″
AC=”0″
TS=”0″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
BK : Definition edge (0: begin, 1: end)
C_ : C-angle
CF : C- correction angle
TT : touch depth
SLQ : Splitting length for quality
TS : With touch(1: Yes, 0: No)
?? : condition (default=1)
EN : Enable (default=1)
9.3.23 Pressure with a CF-Unit
ID-Nummer: 165
Bsp.:
<165 \CF-Druck\
EA=””
EE=””
RI=”1″
TNO=”101″
AB=”0″
HO=”10″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
?? : condition (default=1)
EN : Enable (default=1)
HO : Height
9.3.24 Cutting with a CF-Unit ID-Nummer: 166
Bsp.:
<166 \CF-Kappen\
EA=”1:0″
EE=”1:9″
RI=”1″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
TNO=”101″
AB=”0″
C_=”0″
HF=”1″
VF=”1″
HK=”1″
VK=”1″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour. (Begin)
C_ : Distance from programmed contour. (end)
TNO : T-Number (toolnumber)
HK : end
VK : begin
HF : Hinterkante kappen mit Faseanschlag
VF : Vordererkante kappen mit Faseanschlag
?? : condition (default=1)
EN : Enable (default=1)
9.3.25 Sanding with a CF-Unit
ID-Nummer: 167
Bsp.:
<167 \CF-Schleifen\
EA=”1:0″
EE=”1:9″
RI=”1″
TNO=”101″
AB=”0″
S_=”10″
Erklärung:
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
S_ : Rotation
?? : condition (default=1)
EN : Enable (default=1)
9.3.26 Contur operation with a CF-Unit
ID-Nummer: 170
Bsp.:
<170 \CF-KTRStation\
EA=”1:0″
EE=”1:9″
RI=”1″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
TNO=”101″
AB=”0″
EA : Number of Startelements (Vorofkante)
EE : Number of end element
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward, i.e. against drawing direction of contour element AB : Distance from programmed contour.
TNO : T-Number (toolnumber)
?? : condition (default=1)
EN : Enable (default=1)
9.3.27 Operation without contour with a CF-Unit
ID-Nummer: 169
Bsp.:
<169 \CF-Station\
SNO=”101″
EA : Number of Startelements (Vorofkante)
SNO : Station-Number (toolnumber)
?? : condition (default=1)
EN : Enable (default=1)
9.3.28 Foiling (Heissprägen)
ID-Number: 135
E.g.:
<135 \Heisspraegen \
EA=”1:0″
EE=”1:1″
AB=”-0.5″
Z_=”1″
P60=”0″
SLS=”1001″
WSA=”1754″
ZPE=”0.3″
F_=”5″
S_=”50″
M15=”1″
NM=”STANDARD”
KM=”Kante”
VM=”180″
KN=”180″
TNO=”STANDARD”
ABN=”90″
RI=”1″
ABA=”90″
ST=”1″
AC=”0″
SL=”50″
SA=”2″
59/70 ———————– Page 60———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
CF=”5″
??=”_nonmirror AND _nonymirror “
MX=”0″
MY=”0″
MZ=”0″
MXF=”1″
MYF=”1″
MZF=”1″
HP=”0″
SP=”0″
YVE=”0″
WW=””
ASG=”2″
RSEL=”0″
RWID=”0″
Explanation:
EA : Number of start elements
EE : Number of end element
AB : Distance
Z_ : Z-value (optional) (default=0)
P60 : OffsetC
SLS : Heating
WSA : Backw. Dist. Heat lamp off
advice: parameter WSA and ZPE are permuted, this behaviour was never changed due to compatibility reasons
ZPE : Delay Embossing Roll On
F_ : Feed
S_ : Speed
M15 : Test run (without M15 i.e. over work piece)
NM : parameter-file name
KM : comment for parameter-file
VM : macro name
KN : ID
TNO : Tool
ABN : Dist. Swinging bolt on
ABA : Withdrawal Clearing
?? : condition (default=1)
EN : Enable (default : 1)
RI : Direction (1=In, 2= Out)
ST : Heating Lamp On
AC : AutoCorrect
SL : Splitting length: Length for the splitting of the contour
CF : CFactor
SA : Safety distance
HL : heating power
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
9.4 Konsolen und Saugermacros: Vacuum Cup Macros
9.4.1 Single-Vacuum-Cup
ID-number: 114
E.g.:
<114 \Sauger\
XA=”300″
YA=”B-70″
WI=”45″
TY=”0″
Explanation
XA : X-position of cup center
YA : Y-position of cup center
WI : Turn angle of cups
TY : Typ of cups (0 bis 19)
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
9.4.2 SaugerK: Vaccum cups (parallel to Y-Axis)
ID-number: 115
E.g.:
<115 \SaugerK\
XA=”0″
AN=”1″
YA1=”0″
YA2=”0″
YA3=”0″
YA4=”0″
YA5=”0″
YA6=”0″
YA7=”0″
YA8=”0″
WI1=”0″
WI2=”0″
WI3=”0″
WI4=”0″
WI5=”0″
WI6=”0″
WI7=”0″
WI8=”0″
TY1=”0″
TY2=”0″
TY3=”0″
TY4=”0″
TY5=”0″
TY6=”0″
TY7=”0″
TY8=”0″
61/70 ———————– Page 62———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
Explanation:
XA : X coordinate of console
AN : Number of cups
YA1 : Y coordinate of 1 cup
YA2 : Y coordinate of 2 cup
YA3 : Y coordinate of 3 cup
YA4 : Y coordinate of 4 cup
YA5 : Y coordinate of 5 cup
YA6 : Y coordinate of 6 cup
YA7 : Y coordinate of 7 cup
YA8 : Y coordinate of 8 cup
WIx : Angle of cup x
TY1 : Typ of 1 cup
TY2 : Typ of 2 cup
TY3 : Typ of 3 cup
TY4 : Typ of 4 cup
TY5 : Typ of 5 cup
TY6 : Typ of 6 cup
TY7 : Typ of 7 cup
TY8 : Typ of 8 cup
VA1 : Vakuum cup 1: 1=on 0=of
VA2 : Vakuum cup 2: 1=on 0=of
VA3 : Vakuum cup 3: 1=on 0=of
VA4 : Vakuum cup 4: 1=on 0=of
VA5 : Vakuum cup 5: 1=on 0=of
VA6 : Vakuum cup 6: 1=on 0=of
VA7 : Vakuum cup 7: 1=on 0=of
VA8 : Vakuum cup 8: 1=on 0=of
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
8.4.3 SaugerL: Konsolensauger längs (parallel to X-Axis)
ID-Number: 130
E.g.:
<130 \SaugerL\
YA=”0″
AN=”1″
XA1=”0″
XA2=”0″
XA3=”0″
XA4=”0″
TX1=”0″
TX2=”0″
TX3=”0″
TX4=”0″
WI1=”0″
WI2=”0″
WI3=”0″
WI4=”0″
WI5=”0″
WI6=”0″
WI7=”0″
WI8=”0″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
VA1=“1“
VA2=“1“
VA3=“1“
VA4=“1“
Erklärung:
YA : Y Coordinate of Konsole
AN : Number of Sauger
XA1 : X Coordinate of 1 cups
XA2 : X Coordinate of 2 cups
XA3 : X Coordinate of 3 cups
XA4 : X Coordinate of 4 cups
XA5 : X Coordinate of 5 cups
XA6 : X Coordinate of 6 cups
XA7 : X Coordinate of 7 cups
XA8 : X Coordinate of 8 cups
WIx : Angle of cup x
TX1 : Typ of 1 cups
TX2 : Typ of 2 cups
TX3 : Typ of 3 cups
TX4 : Typ of 4 cups
TX5 : Typ of 5 cups
TX6 : Typ of 6 cups
TX7 : Typ of 7 cups
TX8 : Typ of 8 cups
VA1 : Vakuum Sauger 1: 1=on 0=off
VA2 : Vakuum Sauger 2: 1=on 0=off
VA3 : Vakuum Sauger 3: 1=on 0=off
VA4 : Vakuum Sauger 4: 1=on 0=off
VA5 : Vakuum Sauger 5: 1=on 0=off
VA6 : Vakuum Sauger 6: 1=on 0=off
VA7 : Vakuum Sauger 7: 1=on 0=off
VA8 : Vakuum Sauger 8: 1=on 0=off
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
Note: you can save up to 20 parallel-to-x-axis suction cups although for clarity reasons only 8 ones are used
in the example above
9.4.4 Transport: Work piece Transport with Vacuum Carpet
ID-number: 148
E.g.:
<148 \OfTransport\
XA=”100″
YA1=”200″
YA2=”200″
T_=”16″
KL=”241″
KR=”241″
XV=”1000″
KI=”1″
LI=”1″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
RE=”1″
Explanation:
XA : Start coordinate in X
YA1 Start coordinate in Y left vacuum carpet
YA2 : Start coordinate in Y right vacuum carpet
F_ : Feedrate
T_ : Tool
KL : WZ-Descriptor left
KR : WZ-Descriptor right
XV : X-offset
KI : Critical, i.e. not to lift workpiece but sliding/pull out
LI : Left
RE : Right
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
9.4.5 Transport: Part handling with bridge
ID-Nummer: 184
Bsp.:
<184 \Transport\
XA1=”2″
YA1=”3″
ZA1=”4″
T_=”92″
XA2=”7″
YA2=”8″
ZA2=”9″
ST=”1″
F_=”5″
AM=”6″
RE=”1″
RI=”2″
KO=“00“
??=”999″
Erklärung:
XA1 : X-Offset table
YA1 : Y- Offset table
ZA1 : Z- Offset table
XA2 : X- Offset table
YA2 : Y-Versatz Stapel
ZA3 : Z-Versatz Stapel
ST : Stapelnummer
F_ : Feed
RE : Cleaning
RI : Direction (1=In, 2= Out)
UM : restack (0 = inactive, 1 = activ)
AM : Mode
KO : Coordinate system
?? : condition (default=1)
EN : Enable (default=1)
MD : userdefined transport mode.
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
T_ : Tool
9.4.6 Gebietsmakro: Area Macro
ID-number: 182
E.g.:
<182 \Gebiet\
EA=”1:0″
WE=”1″
SF=”0″
RT=”0″
RW=”1″
PT=”1″
HS=”1″
VS=”1″
XP=”0″
XM=”0″
YP=”0″
YM=”0″
ZH=”1″
ZV=”1″
SX=”0″
SY=”1″
HV=”1″
T_=”102″
AS=”0″
RX=”50″
RY=”50″
MB=”10″
AZ=”20″
ZU=”0.5″
ZA=”-3″
F_=”STANDARD”
SW=”300”
Explanation:
EA : Number of start elements
WE : the area macro defines the outer contour of a workpiece if WE equals 1
SF : the area macro defines the outer contour of a blocked area if SE equals 1
RT : Remainder contour when RT=1
RW : Partcontour with cutting remainder when RW=1
PT : Generae automatic parameters when PT=1
HS : Process horizontal cuttings when HS=1 (man. Parameter)
VS : Process vertical cuttings when VS=1 (man. Parameter)
XP : Vertical cuttings in X+ sequence
XM : Vertical cuttings in X- sequence
YP : Horizontal cuttings in Y+ sequence
YM : Horizontal cuttings in Y- sequence
ZH : Zigzag sequence horizontal
ZV : Zigzag sequence vertical
SX : Cutting sequence X+ for vertical cuttings
SY : Cutting sequence Y+ for horizontal cuttings
HV : Horizontal cuttings before vertical cuttings
T_ : Tool number
AS : Additional distance for cutting
RX : Grid size X
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
RY : Grid size Y
MB : Minimal cutting path length
AZ : Start distance in Z-Axis
ZU : Infeed speed for Z-Axis when doing remainder cutting
ZA : Z-Reference value for the depth
F_ : Feed
?? : Condition (default=1)
EN : Enable (default=1)
SW : Threshold for cross cutting
MD : selfdefined mode
TR : separate cuttings (1=on, 0=off)
NS : NCStop (1=on, 0=off)
OSZVS : feed for oscillating routing
OSZI : enable oscillating routing yes/no (default : 0)
9.4.7. Extrudieren: Extruding Edge along a contour
ID-Number: 187
E.g.:
<187 \Extruder\
MDA=”TAN”
MDE=”TAN_AB”
EA=”1:0″
EE=”1:1″
P59=”1″
AB=”0.0″
AC=”0″
SL=”50″
SA=”2″
CF=”5″
P60=”0.0″
WS=”0.0″
F_=”1.8″
DZ=”1″
S_=”0″
S_P=”100″
TL=”1″
M15=”1″
NM=”STANDARD”
KM=”Extrudieren”
VM=”290″
KN=”290″
TNO=”STANDARD”
RV=”0″
ABN=”55.0″
ABA=”10″
VA=”0.8″
ABT=”58.0″
FK=”0.5″
TB=”28.0″
SK=”15.0″
??=”_nonmirror AND _nonymirror “
MX=”0″
MY=”0″
MZ=”0″
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
MXF=”1″
MYF=”1″
MZF=”1″
HP=”0″
SP=”0″
YVE=”0″
WW=”290″
ASG=”2″
KAT=”Extruder”
MNM=”Extruder”
RSEL=”0″
RWID=”0″
Explanation:
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode EA : Number of start elements
EE : Number of end element
P59 : Edge (choosing edge channel)
AB : Distance from programmed contour. If distance is negative, more pressure will be given to work
piece. Z_ : Z-value (optional) (default=0)
P60 : C-angle
WS : Maintanance time
F_ : Feedrate
S_ : revolution speed (must be „0“ if DZ=1)
TL : Test run (without edge)
0: no test run
1: test run, e.g. without edge material and glue M15 : Test run (without M15 i.e. over work piece)
NM : Name of gluing parameter file
KM : Comment
VM : Gluing makro (Art of gluing unit) – up to WoodWOP-Build 556
KN : Art of gluing unit – WoodWOP-Build 556 or greater
MD : Self defined mode – WoodWOP-Build 556 or greater
TNO : T-Number (tool number)
HL : Heat power in %
HL2 : Heat power 2 in %
KZ : Edge material adding
DK : Thickness of edge
LA : Slow pull out
SV : Bulb pre snip station
SE : Bulb gluing station
ABN : Distance post press roller on
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward i.e. against drawing direction of contour element ABV : Distance edge transport
ABA : Distance post press roller off
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PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
KA : Snipdistance from end only in conjunction with NC-Generator-Option „edge
material grouping“) VA : Waiting time post press roller
KA : Snipdistance from end only in conjunction with NC-Generator-Option „edge
VA : Waiting time post press roller
ABT : Distance , drive way-sensor
FK : Feedrate sensoring
TB : Sensor area, slow way
SK : Joint correction
KS : Swing snipping saw
SVK : Pre snipping station with bulb
RV : Banding around, i.e. Joint at not cosed contour (optional) (default=0)
RSP : Turnung of gluing station to start point
1: clockwise
0: conter clockwise
Ist parameter not declarated, the minimum turning of gluing station will be calculatedt. AC : Automatic correction of the C-Offset (collision test)
1: ON
0: OFF 9.4.8. Easyedge: Edgebanding using Easyedge device along a contour
ID-Number: 188
E.g.:
<188 \Easyedge\
MDA=”TAN”
MDE=”TAN_AB”
EA=”1:0″
EE=”1:0″
P59=”1″
AB=”-2″
AC=”0″
SL=”50″
SA=”2″
CF=”5″
P60=”-55″
WKS=”2″
FKA=”3″
TL=”1″
M15=”1″
NM=”STANDARD”
KM=”PVC-Kante 2mm REHAU”
VM=”262″
KN=”262″
TNO=”STANDARD”
KZ=”25″
KB=”1″
AV=”0″
DK=”0″
LA=”0″
RV=”1″
AAE=”55″
RI=”0″
OA=”10″
AAA=”55″
WKE=”1″
68/70 ———————– Page 69———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
ALA=”50″
KLA=”0″
??=”_nonmirror AND _nonymirror “
MX=”0″
MY=”0″
MZ=”0″
MXF=”1″
MYF=”1″
MZF=”1″
HP=”0″
SP=”0″
YVE=”0″
WW=””
ASG=”2″
KAT=”Easyedge”
MNM=”Easyedge”
RSEL=”0″
RWID=”0″
Explanation:
MDA : Start mode
TAN =0: tangential
SEI =1: from side
SEN =2: vertical
or self defined start mode MDE : Start mode
TAN_AB =0: tangential
SEI_AB =1: from side
SEN_AB =2: horizontal
or self defined start mode EA : Number of start elements
EE : Number of end element
P59 : Edge (choosing edge channel)
AB : Distance from programmed contour. If distance is negative, more pressure will be given to work
piece. Z_ : Z-value (optional) (default=0)
P60 : C-angle
WKS : Maintenance time for fixing the edgebanding material at contour start
FKA : feed at the beginning of the edge
S_ : revolution speed (must be „0“ if DZ=1)
TL : Test run (without edge)
0: no test run
1: test run, e.g. without edge material and glue M15 : Test run (without M15 i.e. over work piece)
NM : Name of gluing parameter file
KM : Comment
VM : Gluing makro (Art of gluing unit) – up to WoodWOP-Build 556
KN : Art of gluing unit – WoodWOP-Build 556 or greater
MD : Self defined mode – WoodWOP-Build 556 or greater
TNO : T-Number (tool number)
HL : Heat power in %
HL2 : Heat power 2 in %
KZ : Edge material adding
DK : Thickness of edge
LA : Slow pull out
SV : Bulb pre snip station
SE : Bulb gluing station
69/70 ———————– Page 70———————–
PRODUCT INFORMATION Subject : 4.2.7
Description
woodWOP- file 9-080-42-7190 -D00 Juli 26th 2006
AAE : distance pin roller on
RI : Direction of processing
1: forward, i.e. in drawing direction of contour element
0: conter forward i.e. against drawing direction of contour element OE : Offset pin roller
AAA : distance pin roller off
VA : Waiting time post press roller
KA : Snipdistance from end only in conjunction with NC-Generator-Option „edge
WKE : Maintenance time for fixing the edgebanding material at contour ending
ALA : distance glue application
FK : Feedrate sensoring
TB : Sensor area, slow way
KLA : correction for glue application
KS : Kappsappsäge schwenken
SVK : Vorkappstation mit Strahler
KS : Swing snipping saw
SVK : Pre snipping station with bulb
RV : Banding around, i.e. Joint at not cosed contour (optional) (default=0)
RSP : Turnung of gluing station to start point
1: clockwise
0: conter clockwise
Ist parameter not declarated, the minimum turning of gluing station will be calculatedt. AC : Automatic correction of the C-Offset (collision test)
1: ON
0: OFF
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