Typical Header Variables * g1 p+ j* \2 [1 X! B1 M8 {
| [/tr] |
Variable * _, \2 G6 E9 ?" c3 R* ^
| Use
1 H( [( x5 z/ t. o ^6 q |
||PART_NAME||
' P* R' c3 S/ v5 H# M y | Name file name (ELT file)
* z, W8 S& d6 n9 s( W9 O9 q2 H |
||XML_DOC_PATH||
9 c7 n' Y- {5 V7 ` | Path (ELT file)
; Y1 w5 `, P. z! d3 ]' b |
||XML_REP_PROG_NUMBER||
2 T H* }- \+ Z9 x- T. o0 Q | program number
3 O& h( z. |8 @" J7 I6 I$ ^% @ |
||XML_REP_PROG_COMMENT||
: [# e. M# U- v: j; m( X | program comment Y& _) @3 o, m6 _8 X
|
||DATE_SDD||
5 F. C H7 S7 |9 |7 N4 r3 k | Date - Day + m, H4 [, O& l. B
|
||DATE_SMM||
" v, [9 N4 @3 G8 ?5 ? | Date- Month
. Y2 Z9 L6 B$ x) {8 ]$ r2 l |
||DATE_SYY||
7 K& G u/ f- y7 p, D! N | Date - Year [1 l" Q( p( J1 k k M0 {' J2 ^
|
||PART_NAME||
- w3 ?2 k0 c: B6 S' A | User Name
! b5 M1 l4 x) Q m |
9 r3 y# `/ [* x" D7 r |
, f; `' E3 M& ~2 a4 g$ \ |
Typical Body Variables 9 A N8 r: |9 s3 S8 J0 R% d
| [/tr] |
Variable
- m) [0 l; K; @& e6 n$ y1 } | Use ' d( l8 }! I9 J7 H9 J4 ], J9 b
|
||TP_NAME|| 9 `: ]5 l0 q8 n8 d4 K+ M
| TP Name
$ n/ @5 y+ v/ {. u% q* t |
||TP_COMMENT||
8 ~$ x" r/ a1 v N1 a | TP Comment , e% d7 n2 b% G0 ]
|
||PROC_NAME||
% V# n( e# N$ W( A$ q | Procedure Name (short)
4 p4 ^% \2 {+ h- H) v |
||PROC_LONGNAME|| ; s8 J9 s0 X$ @7 t
| Procedure Name (long)
2 M0 K/ `; S+ @0 X |
||PROC_UCSNAME|| + z4 b# B( D2 R- M0 @
| Procedure -BKS , v [% `* i% B- l
|
||PROC_COMMENT|| . k4 L6 Y6 V& o7 X# w4 F
| Procedure Comment 4 G& u0 U; s# R' G2 T: n
|
||XML_CLEAR_PLANE||
0 w" i1 M8 ~5 ] | Clearance Plane
+ \# v. d* R) g' ^ |
||SPIN_SPEED|| , D) D) d' V2 A4 q9 h- \7 E0 s
| Spindle Speed
6 x1 N. J3 X/ Z |
||MCH_FEED||
# {0 r& z4 N& N- H | Machine Feed
. _( G1 Y" u0 s& i+ s0 ? |
||XML_SURF_OFF|| : {) ^/ d8 s" z* }4 l: E
| Surface Offset (general) , O, a, ~% l* P- D
|
||XML_SURF_TOL|| 9 X3 {6 r. M5 C: R! e: Q) Q
| Surface Tolerance $ _8 N4 m* O9 n: k
|
||XML_H_STEP|| $ g- n) `' R' S5 f' c, x; S* b
| Horizontal Step . |& a5 O+ r0 W" f% k
|
||XML_V_STEP||
' i3 B1 o4 L* `* H | Vertical Step(general)
6 h1 a4 q/ a' h! x7 Z0 a$ O |
||XML_ELECTRODE||
# s9 [ ?+ B3 R+ e& X6 L1 ` | Electrode Machining (Yes/No) 2 w% _5 T( }6 L/ z6 M0 f
|
||XML_ELEC_SPARK_3D_GAP||
. U- M! u% P; O, Y | Spark Gap + 3D Orbit : u; |) q x- h3 i, K' i ]
|
||XML_ELEC_PLAN_GAP||
( F! D0 T: A; R& U% a- } | Orbit Planar Gap
! Y. Z! A. `- n, G1 ~# D4 Z |
||CYC_PECK|| % C* a2 i: D& @
| Drill Cycle Peck 8 @/ f" x H% K3 E3 J" E4 x3 z
|
||CYC_DWELL|| ( v* ?; d" Y; d0 S0 G* E6 g& o
| Drill Cycle Dwell 5 j& m9 `9 m. B# V% b/ z7 T! P
|
||CYCLE_1...12|| ' X! f8 `9 S5 Y, V' L" V. \9 S, _
| Drill Cycle
- T4 b, n0 i6 Y" L |
||TOOL_NAME||
, Q3 |$ i# m: ` | Tool Name 1 m- Q0 @6 p' l5 o: t9 b A G
|
||TOOL_CMNT|| 8 N9 n! \4 ?, u2 u0 S- j7 T' M
| Tool Comment . ]( X) h% S8 N; J8 D
|
||E_TOL_TYPE|| 5 S& L+ V6 B) u$ P3 `* F
| Tool Type (see below)
0 t! m, V+ M" W3 S2 L0 n, Q/ c |
||DIAMETER_|| , r* M* u' k- ?9 w+ M6 G' d) ~' q
| Tool Diameter 3 r K8 e: T1 C! _& x
|
||TOOL_RAD||
9 ^; e J' x8 o6 K+ M | Tool Radius 5 D; M3 e- H9 V/ A
|
||TOOL_NUM||
0 w3 v% ?& C9 S5 l2 r" t4 M | Magazine Number
% s, h& B; e0 e& ^' K |
||TEETH_NUM||
. U6 b4 {8 B! \8 H7 {( k | Number of Teeth
3 _$ j) C! Z' a; J4 y |
||CLEAR_LENG||
3 |" ~/ A" I6 ^5 ~5 Q* y E- Z& z | Clear Length 4 a$ h$ M3 _4 t) @6 @& ]; R
|
||CUT_LENGTH||
' ?( D, {/ K. u) v: F# Y# h. [/ s | Cutting Length & k( _ k% D4 e
|
||XML_MIN_CLEAR_LEN||
d1 o8 ?( B: p! i( ~6 R I+ _5 h- p | Minimum Clear Length
* x/ }$ R* H/ F6 v. j5 L |
||TOOL_TOTAL_LENGTH||
# l* Q5 v3 K3 x' v1 z& O8 _ | Total Tool Length ' I- ]8 m; W" G. R4 t6 P
|
||CON_ANG|| / w$ Q% X" j* q0 c/ S9 }
| Tool Conic Angle
3 F$ r3 c" H% w% R2 p8 |. o E |
||TOOL_ANGLE|| + u Q% Z+ s2 m! O
| Tool Tip Angle 3 w/ G9 R ~6 o& U
|
||SHANK_CON||
4 w' {% P! g! G; e/ R | Spindle Conic height
/ J9 y! P6 Y! w$ W- j W |
||SHANK_TOT|| X' s3 i z7 h/ P
| Shank Total height.
+ s0 X9 H% t$ h0 P |
||SHANK_BOT||
J, I& T& Z9 }% p+ d8 [ l | Shank Bottom radius
3 J! i, g2 j& m2 I |
||SHANK_TOP|| ; ?/ y2 A9 o$ D) e% E; M
| Shank Top radius
& i6 c6 k/ ?3 D; ?9 [; K |
||HOLD_CON01|| * g2 `0 B5 D% U+ ]# q* H
| Holder Conic height (holders 1 to 10) 4 a" A* W' j7 X2 `7 L' e( _
|
||HOLD_TOT01|| . g0 B/ @ k7 Y' s+ M5 K
| Holder Total height (holders 1 to 10) ! m9 e* u a# y6 c& l& u: R
|
||HOLD_TOP01||
5 A2 D; u3 o" Y6 Z- ] | Holder Top radius (holders 1 to 10)
/ q$ l; s* e/ s. @9 q8 g) Z |
||HOLD_BOT01||
8 n2 K4 _' @+ V8 X | Holder Bottom radius (holders 1 to 10)
2 K8 L: [6 e' t @ |
||X_MAX||
/ `( [8 l$ o+ b( p, g. p! J: z | Maximum X
: g. o" {7 U0 [+ d9 t) r |
||X_MIN||
4 J5 k/ s" X$ e1 |3 L+ V% O2 q | Minimum X ! J( z. w9 u0 M8 c7 i
|
||Y_MAX||
+ f/ Y/ M- B# Y | Maximum Y - y& v$ h- u1 ?" t9 C
|
||Y_MIN|| : S* E, z' w# ]* Q& [) O
| Minimum Y / J" b( T9 G6 V# A5 \) y
|
||Z_MAX||
% s: D( o+ S1 ?. ~4 Y | Maximum Z
2 d" h* [" F8 Y: g9 {) s) T* B |
||Z_MIN|| 3 Z2 K3 W7 R4 P/ l3 Q0 q5 U# n
| Minimum Z
/ @: W+ ] `$ f8 v |
||AIR_TIME|| 0 G8 b- o b! ?8 y6 \% t
| Rapid Motion Time 0 Z4 D5 h" J3 k- F, w5 Y) d
|
||FEED_TIME||
, a/ Q- Z0 x6 ]5 R3 e3 F* s | Cutting Motion Time ( p J% r5 A; Z0 d' d+ C1 V
|
||TOTAL_TIME||
1 H6 p0 I+ Z5 N T | Air Feed Time
# ]5 f- D5 ]' K; `) }- x |