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标题: 发那科310I系统的有没有人用过啊? [打印本页]
作者: 宵夜有风    时间: 2014-1-14 13:51
标题: 发那科310I系统的有没有人用过啊?
发那科310I系统的有没有人用过啊?谁有编程手册?好多指令不太懂啊~~求大神
作者: gongfei2419    时间: 2014-1-14 18:56
30i\31i吧
作者: HC小丁    时间: 2014-1-14 19:32
gongfei2419 发表于 2014-1-14 18:56 # _8 o1 O* a0 W; }; D% C
30i\31i吧
$ d3 U. X; T* c; d
有300i、310i、320i都有,310i好像是触摸屏的了和30i、31i基本操作一样,与0I有所区别
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作者: shixzc    时间: 2014-1-15 11:59
GE FANUC 310i SERIES CONTROL; w, S# \& k$ ^+ ^2 U
PREPARATORY FUNCTION
& f4 O  l$ e7 ~, N8 R* \The preparatory function codes are used to establish modes of operation. The following G codes are listed in their numeric sequence and also by group. In any group, one G code will cancel the other. The * denotes the default code when power is applied to the control.
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5 K% O' ~0 R  _# O; x% UUp to five G codes may be programmed on one line. If a line contains conflicting G codes, such as G00 G01, the last one read will control, but not in all cases.: B  v8 R0 m* c+ |& r- Z$ L4 U$ [
CODE     GROUP  DESCRIPTION                               MODAL   STD./OPT% P* e/ T6 I' w
CODE                                      GROUP DESCRIPTION MODAL STD./OPT* ^$ ]2 I' ~0 e' b: X
G00 01 Point to point positioning YES Standard4 n7 }' ^) c* C4 a6 |. t. s0 M
G01*  01 Linear interpolation YES Standard
8 M! S4 _  P& _. MG02  01 Circular interpolation-CW Arc YES Standard
; a7 M3 u+ ~" F6 g" d9 P' yG03  01 Circular interpolation-CCW Arc YES Standard5 w8 e8 z4 |1 C# m" R: i! n. @/ Z
G04  00 Dwell NO Standard, d. v* t% R5 I: Q
G09 00 Deceleration NO Standard
5 t9 w8 s! R9 K' j5 V3 Q( L$ J; yG10  00 Programmable data input mode SOME Optional' ^; W3 G1 C: h8 a& g, ?/ \
G11 00 Programmable data input mode cancel YES Optional: r. T" c. c4 C) K3 i
G10.6 00 Tool retract and recover NO Optional' i4 B0 T( Z7 u
G12.1 26 Polar coordinate interpolation  YES  Optional
0 v, K4 N4 P! C9 j6 D8 i. P. K/ \G13.1* 26 Polar coordinate interpolation cancel YES Optional
/ g- h2 j' @4 Y4 WG18* 16 ZX plane selection YES Standard3 N+ P8 R* s$ P8 t4 ^* A& i: s$ O
G19 16 YZ plane selection YES Standard2 K! ~5 t- f& T7 y0 r0 J4 y' `. n
G20 01 Turning cycle YES Standard
6 [$ n* A) c9 d* cG21 01 Threading cycle YES Standard
2 d/ G' e# X  |5 z! Q* IG24 01 Facing cycle YES Standard
  F+ L) d# d' ~* r- O  OG22 04 Stored stroke check ON YES Optional
" u. ~& y$ u& E6 I# f  xG23 04 Stored stroke check Off YES Optional" [* B7 r3 f. l* y: ~
G27 00 Reference point return check NO Standard
% F: g. I* b$ Z2 E. OG28 00 Reference point return  NO Standard: N9 T% k" \6 c
G29 00 Return from reference point  NO Standard
4 a+ B0 t$ r1 I: ^G30 00 2nd, 3rd & 4th reference point return NO Optional
+ T0 D3 r, M, C7 G; l9 dG30.1 00 Floating reference point return NO Optional
& ~3 c8 k- \) _% U1 |( \% {  U, ~G31 00 Skip function  NO Optional
8 {. k4 S/ t1 c* tG33 01 Thread cutting, constant lead YES Standard4 F- {3 p! P# @2 f- }# u& @& l
G40* 07 Tool nose radius compensation cancel YES Standard. u9 i& Q8 }* M; P5 W9 W& n5 e  f
G41 07 Tool nose radius compensation Left YES Standard; x- B% @- \, U
G42 07 Tool nose radius compensation Right YES Standard+ ~( n! i4 s$ \3 P, a: [
G43.7 23 Tool offset compensation (extended tool selection) YES Optional9 h- F6 ?. ]6 f
G52 00 Local coordinate system shift YES 2 axis only
- c4 V# j0 a8 Q+ f/ X; PG53 00 Machine coordinate system selection NO Standard6 ^, b% s- z( `
G54 14 Work coordinate system 1 selection YES Standard
. v  P1 ?, Y7 s) \+ P! y$ b  y4 s6 v5 jG55 14 Work coordinate system 2 selection YES Standard
- P3 _( b; g& _  z) GCODE                                      GROUP DESCRIPTION MODAL STD./OPT' v# f. p. m! @$ R
G56 14 Work coordinate system 3 selection YES Standard4 K& S* s2 e+ \8 A! s4 Y
G57 14 Work coordinate system 4 selection YES Standard0 I# ?  Q5 M9 g  H& t: _
G58 14 Work coordinate system 5 selection YES Standard4 e- R  ~2 R: G) H
G59 14 Work coordinate system 6 selection YES Standard; O$ O9 A3 l! k& q5 i. b; S
G61 15 Exact stop mode YES Standard- R+ h0 y: A! q1 Y3 P5 p/ O7 I
G62 15 Automatic corner override YES Standard
: o+ G. _4 j$ O. p( r4 ^G64* 15 Cutting mode YES Standard' u# H! ?; C7 t9 I1 t4 i
G65 00 Marco call NO Optional0 `! `% \9 f3 M8 \% M
G66 12 Macro mode call A YES Optional( {0 J( C& D( d0 l+ t& H
G67* 12 Macro mode call cancel YES Optional7 P. W3 i+ Y* [' C! A; ~  K0 y4 p
G68 13 Balance cutting YES Optional
8 o/ T3 o4 z/ Q. C! T/ RG69 13 Cancel balance cutting YES Optional" ]* d4 C( ]0 H
G70 06 Inch programming YES Standard; E: p3 d. I" x& B
G71 06 Metric programming  YES Standard. r1 o& G9 g0 C, a1 _
G72 00 Finishing cycle YES Optional
$ ]9 S) ~6 b6 {3 V  c5 eG73 00 Stock removal-turning YES Optional' s2 P9 |* V9 F$ p7 ?
G74 00 Stock removal-facing YES Optional
; |2 ~/ b' }! s2 v8 I6 h) O( l- [G75 00 Pattern repeat YES Optional
  b# z+ K, [& L' ~# S  \G76 00 Peck drilling in Z axis YES Optional
1 S3 G( C/ `: C% E$ mG77 00 Grooving-X axis YES Optional
6 G; n# O  X! ~/ |G78 00 Threading cycle YES Optional
3 h! l4 U$ ^# iG80* 09 Canned cycle cancel YES Optional
- n! R. C; U1 t9 JG83 09 Face drilling cycle YES Optional
4 t3 o8 r) G. ^G84 09 Face tapping cycle YES Optional
& S* ^8 W6 o2 d( T! J% B1 sG85 09 Face boring cycle YES Optional) b0 p& |8 d  b0 x& e8 }
G87 09 Side drilling cycle YES Optional3 y9 r; h7 G. B$ U2 t8 J2 B
G88 09 Side tapping cycle YES Optional1 M1 }; g+ t1 `" u+ o% |
G89 09 Side boring cycle YES Optional9 r* o6 N& J* J% U" ^0 Z
G90* 03 Absolute dimension input YES Standard) P( B9 X, b5 q$ N- D1 T2 Z1 C
G91 03 Incremental dimension input YES Standard
1 c9 @- F9 ?3 C3 I6 n: r4 g4 a4 i9 y3 |G92 00 Work change/ maximum table speed NO Standard6 Z1 w# N* S! N2 ^! q% Z" j
G94 05 Inches (MM) per minute feedrate YES Standard
% ^# L1 l/ b  A4 QG95* 05 Inches (MM) per table revolution YES Standard
( t' X* A6 m( s6 P1 A: M! U3 C' YG96 02 Constant surface speed YES Standard2 O) |9 K) K4 C, Z0 R( p+ @4 H
G97* 02 Direct rpm YES Standard
* N7 S" w0 ?3 T0 OG98* 10 Canned cycle initial level return YES Optional
0 j, C  r8 n0 h& N  r3 U6 \* bG99 10 Canned cycle R point level return YES Optional



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