Typical Header Variables . r2 Z9 _# e P
| [/tr] |
Variable " m3 W" R) K; Z6 X& o/ E2 U
| Use ' k5 x9 K! J8 ?7 o3 ^
|
||PART_NAME||
, }, g- E6 j3 }( u; B: }+ h | Name file name (ELT file) ' W+ X; J/ m a/ V6 i
|
||XML_DOC_PATH|| O6 n2 I& y# X, q
| Path (ELT file)
: `& G8 a) s Y- |. M+ V7 a |
||XML_REP_PROG_NUMBER||
" L0 f/ a. u3 [' J C | program number
' @' r2 [' K7 r$ x6 c+ E2 ] |
||XML_REP_PROG_COMMENT|| . q9 T- R: G: R+ o1 J1 ]/ I
| program comment # [2 w( C# R& w- {8 a. U2 K8 ?
|
||DATE_SDD||
" A4 w _& r4 a' p& { | Date - Day 4 G- T$ ^& G. P, B. j
|
||DATE_SMM|| 3 Q0 @, Y" ^: B+ n( }
| Date- Month : X& X" d( P' A
|
||DATE_SYY||
8 m) V* W! P% z, c* t | Date - Year
! i6 d' M" q2 Z; E8 P4 w |
||PART_NAME||
; [ |* A8 d$ K' A | User Name " P1 {8 w3 q1 G. m' u5 D; g) i
|
F3 q. E3 Z: |& ^6 @/ A |
0 j9 q f& J3 {4 `, o7 m: r |
Typical Body Variables
q/ w) [9 ^: d | [/tr] |
Variable : a( _9 A* Q, G
| Use & I5 O7 q+ j8 R! U
|
||TP_NAME|| ! ]$ h9 f: F3 J; i; ^+ I
| TP Name 7 A! N1 L) K1 H3 M, P8 @
|
||TP_COMMENT|| ; o% z8 p9 R( R; m, t
| TP Comment \- i# f! w8 s! V% Y
|
||PROC_NAME|| ' b9 k& J# u0 n' m% |0 T( ` i
| Procedure Name (short)
! ?6 b/ ~5 M9 s6 M |
||PROC_LONGNAME||
# V* | n5 R! h% y& v3 V* H2 \" g | Procedure Name (long)
: q) q$ M2 M5 X/ } u |
||PROC_UCSNAME||
# J; X3 H8 m: y- l$ A) Y$ I8 x2 [ | Procedure -BKS $ s4 y# W* o7 O, |) @3 `9 }
|
||PROC_COMMENT|| 1 S& Q X6 J3 ]3 L
| Procedure Comment $ L7 T; r, t8 V+ W# P
|
||XML_CLEAR_PLANE|| 7 X. @. J/ }( }8 m5 F+ l
| Clearance Plane 0 G* a/ w, [ }, a6 P8 e
|
||SPIN_SPEED|| 4 r# Z! W7 Y# ~1 H: O, t
| Spindle Speed * z# w: F* d) R) v
|
||MCH_FEED|| : n: U% y1 y$ s7 _7 N) z
| Machine Feed 3 r% ]) H2 C0 c: W
|
||XML_SURF_OFF|| ) N$ p( L! r% D$ @8 P
| Surface Offset (general) 6 @( Q4 ~% E; {% |
|
||XML_SURF_TOL|| 7 ]+ V$ g/ y# `3 e& ?+ L# ~
| Surface Tolerance 9 y* u' v0 u l! V
|
||XML_H_STEP||
8 Q; g) c1 Q, `: u- w/ G% z* ]6 V | Horizontal Step
# f J" `' A1 O; M" c |
||XML_V_STEP|| 5 a4 {7 U2 ?# H1 @$ x3 m# R1 `
| Vertical Step(general)
9 X8 J) L" Q( P0 ]( n7 n0 Q5 t& d |
||XML_ELECTRODE|| 6 n, Q3 l R9 C' K t) r
| Electrode Machining (Yes/No) 5 e0 I x3 l+ d5 f2 C: y
|
||XML_ELEC_SPARK_3D_GAP|| 2 f( z3 t: G2 v, Q' T
| Spark Gap + 3D Orbit 5 _0 `$ _2 A: c4 l9 V5 W) I7 }+ U
|
||XML_ELEC_PLAN_GAP||
0 W* R/ H. \1 {2 g/ J | Orbit Planar Gap
9 C9 s+ _3 M' ]8 Q' k |
||CYC_PECK||
* ?2 M, V9 t2 K6 s4 }) c | Drill Cycle Peck
( n% P/ D' o7 P |
||CYC_DWELL|| $ H$ ?5 j4 J, h8 v! M# `: X, B4 Y
| Drill Cycle Dwell : }* |% T' X, j" ~9 P4 r. |9 d
|
||CYCLE_1...12|| 7 r& n! t% Q9 [( w
| Drill Cycle
' K1 Y5 d8 E6 O7 d |
||TOOL_NAME||
( ]# Q6 O/ k1 m) R. [; Z3 n | Tool Name
4 y, R$ I0 f! P( m j |
||TOOL_CMNT||
' W# b. [( F! M/ `9 O | Tool Comment
+ j6 H! j! |0 A) ] s/ k3 w |
||E_TOL_TYPE|| - {$ r% C% }$ g3 \, p! ]
| Tool Type (see below)
( ~" R9 m$ g" d! `' }! i |
||DIAMETER_||
, I+ t. u; }, q% Z | Tool Diameter
( f6 o a# D4 h3 D8 F8 C8 l- { |
||TOOL_RAD||
) E' y4 u1 y2 r I3 U. F | Tool Radius
7 p5 \, [7 W4 C: J |
||TOOL_NUM||
4 ~, y: x" Q$ `7 I+ }# v. J: d* \5 E( T | Magazine Number 5 h6 l* C2 @* W3 k) U5 S
|
||TEETH_NUM||
$ [" F4 r8 _4 B | Number of Teeth
! M- a1 Y0 `+ v, h/ p; L" { |
||CLEAR_LENG|| 7 z6 K8 q" { [
| Clear Length 5 d, R% i7 J/ [* K8 _
|
||CUT_LENGTH||
: M: Z5 q, p* M! a7 ~ | Cutting Length
& @+ m: x& K. K9 j |
||XML_MIN_CLEAR_LEN||
, y6 v5 x/ ^' \, I1 y | Minimum Clear Length + j$ n2 Y; T4 C" N" |4 k( q2 W9 L
|
||TOOL_TOTAL_LENGTH|| 3 i# g6 r6 l4 I- K, }; f& [
| Total Tool Length
9 n. ~. t2 k. v# c, P- F |
||CON_ANG||
; B( l2 Y# p) s4 @ | Tool Conic Angle t% D5 s$ m% e, H: T, A. [
|
||TOOL_ANGLE|| : T# R" U# K7 ?9 v8 c0 l1 A- q6 o
| Tool Tip Angle A8 p. a4 H& v1 q. z8 a. Z
|
||SHANK_CON|| 9 N. C( y1 t* J; Z% S
| Spindle Conic height 2 O4 {4 r& T+ k8 \1 U% v
|
||SHANK_TOT||
0 _4 V" T) ]% {0 M1 Q6 i6 `" w. K | Shank Total height.
3 m* {: d9 a- G |
||SHANK_BOT||
9 {9 ]- e$ M n6 A+ ~1 `9 } | Shank Bottom radius
4 A) T' V- T3 K# K* b' _ |
||SHANK_TOP|| 6 Q. S5 X' Z$ l
| Shank Top radius 3 @9 ^5 k3 P/ l$ z) |! f A. B+ ~
|
||HOLD_CON01|| 8 k. Z) ]; ]$ r/ D! L7 R* M0 K
| Holder Conic height (holders 1 to 10) 8 P" ~; J$ Z* d @# m$ j* ~6 S; \
|
||HOLD_TOT01||
; a+ H1 _/ m5 k- e | Holder Total height (holders 1 to 10) & h3 L; N( ~0 t" S. |9 v
|
||HOLD_TOP01|| 6 p3 |; X* G9 D8 n
| Holder Top radius (holders 1 to 10) / E3 m: E. C8 u! e g( x8 Y
|
||HOLD_BOT01||
+ T# M' I% J) _1 F- g | Holder Bottom radius (holders 1 to 10)
2 a$ A6 x" D8 L4 E |
||X_MAX||
/ s* j( W! b. U9 J | Maximum X
$ X- i! i+ O: d# V. z5 a |
||X_MIN|| - |( h3 h) m5 e* Z0 X u& y/ p& o
| Minimum X
+ j! x6 o0 N! t3 K! ~1 ]% ^ |
||Y_MAX|| " L/ y$ l; p0 R/ @; u3 T# _
| Maximum Y
5 s( I1 j- W* N" I! ?3 H9 |$ ` |
||Y_MIN|| + _, n3 n4 ]9 V
| Minimum Y
/ S" a! v$ Y7 V1 Z" w |
||Z_MAX|| " R) k% F2 t5 [7 t! h& g- D
| Maximum Z , b" O$ }7 Y. z
|
||Z_MIN|| ! @9 R# p8 a& `3 P
| Minimum Z 1 { k$ N R9 R! R7 D% \- u% p
|
||AIR_TIME|| + l! c3 d$ r$ T! S! a
| Rapid Motion Time
! P8 d( I: f! M3 \2 E C {- l `* v |
||FEED_TIME||
2 |, s3 ^6 B8 d- D3 c. u# H | Cutting Motion Time ( O( n7 X0 @% \- H- A
|
||TOTAL_TIME|| , n7 I( L* U, N, ^6 W, Q
| Air Feed Time
8 O- C6 ]' ~. Q: Y0 d5 Y( ` |