Typical Header Variables , D J& f' o# V7 X! H) u
| [/tr] |
Variable & P+ i5 e \8 z6 c/ B1 o
| Use
9 P/ i0 n" G* E: H/ S* {: C0 J |
||PART_NAME||
4 L2 a( n0 \) B& v1 T | Name file name (ELT file)
7 {( X* ]6 e8 |) t, b |
||XML_DOC_PATH||
) V, F# a' V% M& |& m | Path (ELT file) 2 R3 N7 d' x3 x8 T8 n2 _( ?* ]/ a2 q
|
||XML_REP_PROG_NUMBER|| 5 L0 X: ~$ g9 ?6 Q
| program number
' I( E4 B2 ~. ` |
||XML_REP_PROG_COMMENT||
1 W; v% B0 \+ Q3 n; J | program comment
1 e3 R. m7 }! @% {6 b6 C6 h: l( @ |
||DATE_SDD|| / z7 U4 m- d0 p3 @
| Date - Day
! x+ C# o0 E% h+ I3 J% K |
||DATE_SMM|| + y1 E2 g @- n, Y, R( v
| Date- Month 3 B8 X. Y# \. X
|
||DATE_SYY||
g1 u7 G% S% d# V | Date - Year
, D0 I1 ?5 }5 Z4 k |
||PART_NAME||
5 k1 I/ D2 }* w/ g7 B | User Name ) E2 p- j1 x3 p7 R
|
, P8 H2 |! B& S" k& H | 8 [) B& k( R ~+ x; q. l
|
Typical Body Variables
( i; J- q: T0 n `2 @ | [/tr] |
Variable
; m( @+ @1 d$ e% p | Use ' ^5 s6 |% X8 X5 I+ d
|
||TP_NAME||
5 F4 l0 d4 Z5 c1 G6 t | TP Name
8 P* T5 Z, W R0 U A3 t |
||TP_COMMENT|| % S! d/ @0 l* F* j
| TP Comment
3 @6 X& W6 D! W) Z' w7 s+ b4 K7 O# @ |
||PROC_NAME||
, n, a3 c9 }0 ]% D) L2 Q* q c | Procedure Name (short) - B( V, a9 o' R( e. e2 i. b
|
||PROC_LONGNAME|| & Y! `( w* g0 |$ T
| Procedure Name (long)
$ e# H0 t7 Z1 @9 h- o |
||PROC_UCSNAME||
, a( `+ ]" E, } | Procedure -BKS
5 S- E- W, E M, E3 P |
||PROC_COMMENT||
2 H) q J( ~) _7 ^6 w6 y$ j | Procedure Comment
! Y. A+ u% t0 e v |
||XML_CLEAR_PLANE||
% |; v; l0 @& o | Clearance Plane
7 n+ F4 b B3 w& T2 v6 Z |
||SPIN_SPEED|| ' Z4 B% Q4 q" k, g4 r( }
| Spindle Speed ; y% X- s0 t& u" R# f6 B
|
||MCH_FEED|| " ^) {; P' F' Y1 S% W+ w( h7 J
| Machine Feed
* f/ O0 R6 w8 d: n7 ?( T( n& O* o |
||XML_SURF_OFF||
$ ^5 H) L( J# k* L2 D! E | Surface Offset (general)
; k/ V9 {8 ]3 E8 } |
||XML_SURF_TOL|| 9 i( x* }) d9 \+ v, o# t0 P
| Surface Tolerance 3 R7 Z* {3 q" L' g
|
||XML_H_STEP||
( D$ L# Y+ H. `+ M | Horizontal Step ; I+ a, ^+ T% R/ M6 M
|
||XML_V_STEP||
4 U; x# d+ c% k5 f5 h | Vertical Step(general)
& P& o L1 K2 U: ]! E6 n |
||XML_ELECTRODE|| : I8 l. ~' e- F" V r
| Electrode Machining (Yes/No)
( ]0 u( |- _) j+ `! K |
||XML_ELEC_SPARK_3D_GAP|| ) ~- r9 _, R3 z) P6 D
| Spark Gap + 3D Orbit " @" v* X% F/ r3 s3 H/ {4 S
|
||XML_ELEC_PLAN_GAP||
* f) Q) t5 u, w: H | Orbit Planar Gap
; @9 n ]1 G3 \! e& g7 m8 q |
||CYC_PECK||
/ J( N+ O- y3 h6 c7 N N4 w' Y | Drill Cycle Peck
" {* r2 l- e1 i5 N5 [0 W |
||CYC_DWELL||
/ `1 D, C; m9 J | Drill Cycle Dwell
1 j' d& c4 l" H1 E) U |
||CYCLE_1...12|| ' \# j( J% r0 }7 {6 {: v8 ^. O
| Drill Cycle ! W4 ]; y4 j% g) a7 Q2 M
|
||TOOL_NAME||
: G! Y) Q. t+ ]2 G8 r7 h7 f7 N | Tool Name
' Y q0 l" Q3 y' X |
||TOOL_CMNT|| ' L# j4 l' h3 q8 K6 C, k
| Tool Comment , ]. N2 [/ v6 Y, _
|
||E_TOL_TYPE||
. ?& w$ G8 m( x3 M' c+ d | Tool Type (see below) 7 [6 `- N2 w2 ?5 y$ N
|
||DIAMETER_||
$ u2 K+ s, w% P) m | Tool Diameter
* f! g/ }9 w) \% j. T4 h6 d. A |
||TOOL_RAD|| # X7 f& W+ I+ `; t
| Tool Radius % s9 }8 `; R2 H4 \
|
||TOOL_NUM||
5 |6 Y- i+ x2 j% b7 U6 o* ?1 z- ^ | Magazine Number
( l: s5 T9 F. X) q |
||TEETH_NUM||
1 `, W0 w7 ?+ g6 R2 X% ]( [7 N- s | Number of Teeth + s% w$ d. t6 W$ |" s" u
|
||CLEAR_LENG||
" w% h* `( l% E8 f | Clear Length $ a$ d4 |* w v5 \3 M
|
||CUT_LENGTH|| ; _+ [/ E5 D. g: i7 J6 I
| Cutting Length 2 s" Q+ i, `! H. S
|
||XML_MIN_CLEAR_LEN|| - K% q5 m2 y3 r$ X9 R
| Minimum Clear Length n, z: a9 H. O4 E- b
|
||TOOL_TOTAL_LENGTH|| 4 v, [. ]3 j# o* y, P4 l, x+ D
| Total Tool Length
/ q/ H8 ~. ^+ C% G3 h, P) }& r |
||CON_ANG|| , q5 F' s$ `0 W; y: J7 i4 C2 b
| Tool Conic Angle
* h& D7 T) O9 d. Y' [ |
||TOOL_ANGLE||
& @) g4 ^2 q2 w/ [" @8 V | Tool Tip Angle 0 z' F Z0 h, N
|
||SHANK_CON||
! d- l9 l# O: @ | Spindle Conic height % T2 Z6 T% P- d0 h
|
||SHANK_TOT||
$ C5 v7 ]( c) P$ W$ g3 G! M | Shank Total height. & D; q/ J2 G3 s. d
|
||SHANK_BOT||
- I, i4 L- G( d" y | Shank Bottom radius - B; F$ D+ j* q2 n3 g
|
||SHANK_TOP||
: f0 D) g/ Y9 x( A- v | Shank Top radius ) |5 U2 R: g: z, ~
|
||HOLD_CON01|| 9 Y2 E2 Y& C+ d; L2 X
| Holder Conic height (holders 1 to 10) ( h" j( E% _: i8 }+ D4 A! w
|
||HOLD_TOT01||
# l N& J% V2 X | Holder Total height (holders 1 to 10)
" r; t8 h) p9 A1 E* ? |
||HOLD_TOP01||
$ a* ]' i' V$ W8 [1 r) K# k | Holder Top radius (holders 1 to 10)
6 r4 u" s2 K5 }. z |
||HOLD_BOT01|| . g9 o* Y2 G: i* m _
| Holder Bottom radius (holders 1 to 10)
: b; _6 B, X7 }4 M6 L+ ? |
||X_MAX||
& [6 ]5 ]. r3 }. V8 m | Maximum X ( m |( B" d" c; i' b0 Y
|
||X_MIN|| 3 o8 h, A8 P0 o G, P
| Minimum X 6 U+ b, E# c0 i) g) _; I# [
|
||Y_MAX||
: W1 O t: H3 d# a# V7 R | Maximum Y
2 x2 {5 N K6 a$ V |
||Y_MIN||
. c/ c8 f3 C8 _ t& i* j | Minimum Y
3 c" T5 _* P: B8 z# T2 y |
||Z_MAX|| 2 P* s! X2 e2 h0 M& w* D
| Maximum Z
/ ~; s0 u) O8 y% d* f4 U# j |
||Z_MIN||
6 l* Y: I4 G4 E" ?3 S/ Z$ O* K5 j: z | Minimum Z 0 T, ~, N0 M* x
|
||AIR_TIME||
# Q9 d; t4 V8 U! C: X | Rapid Motion Time
/ `+ |; g1 P- M6 \# _ |
||FEED_TIME||
0 l2 {, m% _, o* |; _ | Cutting Motion Time
, F/ L9 ?. v8 x3 v |
||TOTAL_TIME|| $ V; v n6 g/ O" V* y4 P, |* C8 z
| Air Feed Time , ~9 D! s% e. _7 D0 x2 \
|