FANUC Series 16i/18i-MB/18i-MB5 Small-Hole Peck Rigid Tapping, Specifications Additional Manual Page 3

Additional Manual
2002/08/19 T.Inagaki
Format
The mode for the small-hole peck rigid tapping cycle is selected when the
M-code in parameter 13410 is specified. The cycle can start by specifying
G84(normal tapping) or G74(reverse tapping) in this mode. This mode is
canceled when G80 is specified or when a reset occurs.
G84 (or G74) X_ Y_ Z_ R_ P_ Q_ F_ K_ ;
X_ Y_ : Hole position data
Z_ : Distance from point R to the bottom of the hole
R_ : Distance from initial level to point R
P_ : Dwell time at the bottom of the hole and at point R when return
is
made.
Q_ : Depth of cut for each cutting feed
F_ : The cutting feedrate
K_ : Number of repeats
G84,G74(G98) G84,G74(G99)
Small-hole high-speed peck rigid
tapping cycle
(Parameter PCP(No.5200#5=0)
(1) The tool operates at a normal
cutting feedrate. The normal
time constant is used.
(2) Retraction can be overridden.
The retraction time constant
is used.
Initial level
Point R Point R Lv.
Q (1)
(2) d
d
Overload torque
Point Z
Initial level
Point R Point R Lv
Q (1)
(2) d
d
Overload torque
Point Z
Small-hole peck rigid tapping
cycle (Parameter PCP
(No.5200#5=1))
(1) The tool operates at a normal
cutting feedrate. The normal
time constant is used.
(2) Retraction can be overridden.
The retraction time constant
is used.
(3) Advance can be overridden.
The normal time constant is
used.
Initial level
Point R Point R Lv.
Q (1) (3)
(2) d
d
Overload torque
Point Z
Initial level
Point R Point R Lv
Q (1) (3)
(2) d
d
Overload torque
Point Z
FANUC Series 16i/18i–MB/18i–MB5
Small-hole peck rigid tapping
A-78641EN
Page
Descri
Title
Drawing No.
p
tionDate Edit
3/14

Contents Summary of FANUC Series 16i/18i-MB/18i-MB5 Small-Hole Peck Rigid Tapping, Specifications Additional Manual

  • Page 1FANUC Series 16i/18i-MB/18i-MB5 Small-hole peck rigid tapping Specifications 1. Specifications .......................................................................................................................................... 2 Outline ........................................................
  • Page 21. Specifications Outline Tapping a deep hole in rigid tapping mode may be difficult because the cutting resistance increases due to chips sticking to the tool or so on. By using this function, when the overload torque detection signal (X4#7 or G275#7) is detected, rigid tapping retraction is begun.
  • Page 3Format The mode for the small-hole peck rigid tapping cycle is selected when the M-code in parameter 13410 is specified. The cycle can start by specifying G84(normal tapping) or G74(reverse tapping) in this mode. This mode is canceled when G80 is specified or when a reset occurs. G84 (or G74) X_ Y_
  • Page 4Explanations Component operation of the cycle Positioning along X-axis and Y-axis Positioning at point R along the Z-axis (Cutting is performed with depth Q, cutting is performed to Z-point, or the overload torque detection signal (X4#7 or G275#7) is detected.) (The cutting override is effective if
  • Page 5Thread lead - In feed per minute mode, the thread lead is obtained from the expression, feedrate ÷ spindle speed. - In feed per revolution mode, the thread lead equals the feedrate speed. Tool length compensation If a tool length compensation (G43,G44, or G49) is specified in the canned cycle, the o
  • Page 6Changing the tapping conditions In a single G84/G74 cycle, tapping override is changed for each tapping operation (advance→drilling→retraction). (When 13400#0 and #1 are both set to '0', override value is not changed.) In parameters, 13411 and 13412, specify the respective rates of change applied wh
  • Page 7If the tapping override becomes smaller than the rate specified in parameter 13413, the tapping override is not changed. The cutting override can be increased up to 200(%). Custom macro interface The number of retractions made during the rigid-tapping and the number of retractions made in response t
  • Page 82. Signals and parameters Signals Over torque signals SKIP OLDTS [Classification] Input signal [Function] Retracts a tool if an overload torque is applied. [Operation] When this signal becomes "1", the control unit operates as follows: • Assuming that an overload torque is applied t
  • Page 9Parameters #7 #6 #5 #4 #3 #2 #1 #0 13400 OTD NOL OLR [Data type] Bit OLR When over torque signal is detected, the override value for rigid-tapping is: 0: not changed. 1: changed. NOL When cutting is reached to the depth of cut per action without the detection of over torque signal, the override valu
  • Page 1013411 Percentage of cutting feedtrate to be changed after over-torque [Data type] Byte [Unit of data] % [Data range] 0~100 This parameter sets the percentage of cutting feedtrate to be changed after an over-torque signal is received in a small-hole peck rigid-tapping. β=α×d1÷100 α:The override value
  • Page 1113413 Lower limit of the percentage of cutting feedtrate in a small-hole peck rigid-tapping cycle [Data type] Byte [Unit of data] % [Data range] 0~100 This parameter sets the lower limit of the percentage of cutting feedtrate changed for in a small-hole peck rigid-tapping. δ=γ×b3÷100 γ:Specified ove
  • Page 12Alarm and message Number Message Descriptions 5215 PECK RGTAP CAN'T BE ・ The small-hole peck rigid-tapping COMMANDED was specified during HPCC mode or the advanced preview control mode. ・ The small-hole peck rigid-tapping was specified during the three-dimensional coordinate conversation mode. ・ The
  • Page 133. Limitations Axis switching Before the tapping axis is changed, the canned cycle must be canceled. If the tapping axis is changed in rigid mode, P/S alarm (No.206) is issued. S command Specifying a rotation speed exceeding the maximum speed for the gear used causes P/S alarm (No.200). Distribution
  • Page 14Cancel Please don't specify a group 01 G code (G00 to G03) / G60 (when parameter MDL (No.5431#0) is set to '1') and G84/G74 in the same block. If they are specified together, G84/G74 is canceled Tool offset In the canned cycle mode, tool offsets are ignored. 3-dimensional coordinate conversion This