發(fā)那科310I系統(tǒng)的有沒有人用過啊？

宵夜有風(fēng)

發(fā)那科310I系統(tǒng)的有沒有人用過啊？誰有編程手冊？好多指令不太懂啊~~求大神

gongfei2419

30i\31i吧

HC小丁

gongfei2419 發(fā)表于 2014-1-14 18:56
30i\31i吧

有300i、310i、320i都有，310i好像是觸摸屏的了和30i、31i基本操作一樣，與0I有所區(qū)別

shixzc

GE FANUC 310i SERIES CONTROL
& S" h7 m- u# \( J7 yPREPARATORY FUNCTION
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.

Up 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.
CODE     GROUP  DESCRIPTION                               MODAL   STD./OPT
CODE                                      GROUP DESCRIPTION MODAL STD./OPT
* ~" U* `1 K" A+ MG00 01 Point to point positioning YES Standard
G01*  01 Linear interpolation YES Standard
/ l* p# J! g' X- L2 eG02  01 Circular interpolation-CW Arc YES Standard
G03  01 Circular interpolation-CCW Arc YES Standard
G04  00 Dwell NO Standard
. H" u- a. U- U1 @, ]- qG09 00 Deceleration NO Standard
  Q" M1 k" e! n& O6 OG10  00 Programmable data input mode SOME Optional
0 X3 x$ q' \9 s0 a5 A; y3 `- LG11 00 Programmable data input mode cancel YES Optional
$ c6 u9 H6 h8 }" m1 }, L) kG10.6 00 Tool retract and recover NO Optional
9 S6 M! s, Y* _2 N% n4 D+ `: pG12.1 26 Polar coordinate interpolation  YES  Optional
G13.1* 26 Polar coordinate interpolation cancel YES Optional
, w! r4 B* }. }; WG18* 16 ZX plane selection YES Standard
G19 16 YZ plane selection YES Standard
% l2 [$ I: A1 _$ k" @4 n3 ~/ iG20 01 Turning cycle YES Standard
G21 01 Threading cycle YES Standard
+ u& z( N/ ~" o- I7 ?1 dG24 01 Facing cycle YES Standard
G22 04 Stored stroke check ON YES Optional
4 Q/ o! B9 r% H* HG23 04 Stored stroke check Off YES Optional
: e. N  z; z6 o' {3 }$ E5 e2 a1 bG27 00 Reference point return check NO Standard
G28 00 Reference point return  NO Standard
% e; E  S# k( I' K4 uG29 00 Return from reference point  NO Standard
G30 00 2nd, 3rd & 4th reference point return NO Optional
7 X% i* Z9 @, TG30.1 00 Floating reference point return NO Optional
8 Y1 m2 }6 O" j2 XG31 00 Skip function  NO Optional
G33 01 Thread cutting, constant lead YES Standard
G40* 07 Tool nose radius compensation cancel YES Standard
1 \9 q7 V) L* W7 @G41 07 Tool nose radius compensation Left YES Standard
$ X7 q, G* [5 i/ c+ H, ^1 z3 d+ d5 MG42 07 Tool nose radius compensation Right YES Standard
$ m7 q4 j& S: w* ]G43.7 23 Tool offset compensation (extended tool selection) YES Optional
G52 00 Local coordinate system shift YES 2 axis only
G53 00 Machine coordinate system selection NO Standard
) E% u, h4 ^0 K3 cG54 14 Work coordinate system 1 selection YES Standard
. ^% ]1 X3 {* ?: D6 uG55 14 Work coordinate system 2 selection YES Standard
1 s. S: y7 M' ~CODE                                      GROUP DESCRIPTION MODAL STD./OPT
, j& X* P( ^6 S, W) n& BG56 14 Work coordinate system 3 selection YES Standard
3 t1 C: G, B. V& y6 v( G8 i; G- L  GG57 14 Work coordinate system 4 selection YES Standard
G58 14 Work coordinate system 5 selection YES Standard
G59 14 Work coordinate system 6 selection YES Standard
1 b* N) I  L. p, G: HG61 15 Exact stop mode YES Standard
G62 15 Automatic corner override YES Standard
G64* 15 Cutting mode YES Standard
G65 00 Marco call NO Optional
8 V# n- _' m+ g0 J3 U7 q  J# zG66 12 Macro mode call A YES Optional
! e2 g8 t  E: H* QG67* 12 Macro mode call cancel YES Optional
G68 13 Balance cutting YES Optional
6 M1 r7 G' W& y% [8 c9 ]. BG69 13 Cancel balance cutting YES Optional
% R9 K1 @4 W, i( R9 bG70 06 Inch programming YES Standard
* x3 o0 H+ @7 ~G71 06 Metric programming  YES Standard
G72 00 Finishing cycle YES Optional
G73 00 Stock removal-turning YES Optional
G74 00 Stock removal-facing YES Optional
9 `2 e: Y8 w! w, g4 dG75 00 Pattern repeat YES Optional
3 X: p) J6 ]8 V, uG76 00 Peck drilling in Z axis YES Optional
7 T2 A2 Z5 q( PG77 00 Grooving-X axis YES Optional
% o' [* k& v- pG78 00 Threading cycle YES Optional
! [5 f# u* S  H0 T' p" uG80* 09 Canned cycle cancel YES Optional
- F9 m8 J3 e& PG83 09 Face drilling cycle YES Optional
9 X1 k2 ~# [- {6 f- t7 _G84 09 Face tapping cycle YES Optional
; J6 }0 K; a) H# R8 JG85 09 Face boring cycle YES Optional
2 ^$ {# ?& L1 x  l! nG87 09 Side drilling cycle YES Optional
) u- z- D( x2 i1 [0 d/ C% YG88 09 Side tapping cycle YES Optional
+ {# N+ E2 h5 [9 D' i0 Y3 v# d% SG89 09 Side boring cycle YES Optional
G90* 03 Absolute dimension input YES Standard
, G1 }6 r1 j# F4 _2 X1 TG91 03 Incremental dimension input YES Standard
8 _# Y% J) j/ ~  V% \4 _1 O$ I+ k3 uG92 00 Work change/ maximum table speed NO Standard
" B: _/ [" Q+ l1 G. B0 U- uG94 05 Inches (MM) per minute feedrate YES Standard
8 n" N% W$ Y9 fG95* 05 Inches (MM) per table revolution YES Standard
0 h8 _4 U! B1 Y6 A6 a  v: cG96 02 Constant surface speed YES Standard
; j& _7 g* e; V" e1 {G97* 02 Direct rpm YES Standard
G98* 10 Canned cycle initial level return YES Optional
G99 10 Canned cycle R point level return YES Optional