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First, the G code and its functions
G00------ Quick positioning
G01------Linear interpolation
G02------clockwise circular interpolation
G03------clockwise circular interpolation
G04------Timed suspension
G05------Interpolation through the intermediate point
G06------Parabolic interpolation
G07------Z spline interpolation
G08------Feed acceleration
G09------Feeding deceleration
G10------ data setting
G16------ polar programming
G17------Machining XY plane
G18------Processing XZ plane
G19------Processing YZ plane
G20------Inch size (Fanaco system)
G21-----Metric size (Fanaco system)
G22------ radius size programming
G220-----Use on the system operation interface
G23------diameter size programming
G230-----Use on the system operation interface
G24------ subroutine ends
G25------ jump processing
G26------Cycle processing
G30------ rate cancellation
G31------ magnification definition
G32------ Equal pitch thread cutting, inch sizes
G33------ equal pitch thread cutting, metric
G34------ Increased pitch thread cutting
G35------ Reduced pitch thread cutting
G40------Tool compensation / tool offset logout
G41------Tool compensation - left
G42------Tool compensation - right
G43------Tool Offset - Positive
G44------Tool Offset - Negative
G45------Tool offset +/+
G46------Tool Offset +/-
G47------Tool offset -/-
G48------Tool Offset -/+
G49------Tool Offset 0/+
G50------Tool offset 0/-
G51------Tool offset +/0
G52------Tool Offset -/0
G53------Line offset, logout
G54------Set workpiece coordinates
G55------Set the workpiece coordinate two
G56------Set workpiece coordinate three
G57------Set workpiece coordinate four
G58------Set workpiece coordinate five
G59------Set workpiece coordinate six
G60------ accurate path mode (fine)
G61------Accurate path mode (middle)
G62------ accurate path mode (coarse)
G63------Tapping
G68------ tool offset, inner angle
G69------Tool offset, outer corner
G70------Inch size inch (this is Siemens, FANU is G21)
G71------Metric size mm
G74------Return to reference point (machine zero)
G75------Return to programmed coordinate zero
G76------Threaded compound cycle
G80------ fixed cycle logout
G81------Circular fixed cycle
G331-----Threaded fixed cycle
G90------Absolute size
G91------relative size
G92------Prefabricated coordinates
G93------Time reciprocal, feed rate
G94------Feed rate, feed per minute
G95------feed rate, feed per revolution
G96 ------ constant line speed control
G97------Cancel constant line speed control
Second, G code function detailed
Rapid positioning
Format: G00 X(U)__Z(W)__
Description:
(1) This command causes the tool to quickly move to the specified position according to the point control mode. The workpiece must not be machined during the move.
(2) All programmed axes move at the same speed as the parameter defines. When one axis finishes the programmed value, it stops, while the other axes continue to move.
(3) The coordinates of no motion do not need to be programmed.
(4) G00 can be written as G0
example:
G00 X75 Z200
G01 U-25 W-100
First, X and Z go to 25 points to point A at the same time, then Z to go back to point 75 and then to point B.
Linear interpolation
Format: G01 X(U)_Z(W)_F_(mm/min)
Description:
(1) This command moves the tool to the specified position in the linear interpolation mode. Movement speed is determined by the F command
Feed rate. All coordinates can be linked together.
(2) G01 can also be written as G1
example:
G01 X40 Z20 F150
Two-axis linkage from point A to point B
Circular interpolation
Format 1: G02X(u)_Z(w)_I_K_F_
Description:
(1) When X and Z are at G90, the arc end point coordinate is the absolute coordinate value of the relative programmed zero point. At G91,
The end point of the arc is the incremental value relative to the starting point of the arc. Regardless of G90, G91, I and K are the incremental coordinates of the center of the arc relative to the starting point.
I is the X direction value and K is the Z direction value. The center coordinates must not be omitted during circular interpolation unless programmed in other formats.
(2) When programming the G02 command, you can directly edit the quadrant circle, the whole circle, and so on.
Note: When the quadrant is over, the gap compensation will be automatically performed. If the input gap compensation at the end of the parameter area is different from the actual backlash of the machine, obvious cuts will be produced on the workpiece.
(3) G02 can also be written as G2.
Example: G02 X60 Z50 I40 K0 F120
Format 2: G02X(u)_Z(w)_R(+-)_F_
Description: (1) can not be used for programming the entire circle
(2) R is the radius of the single-sided R arc of the workpiece. R is a symbol, and "+" means that the arc angle is less than 180 degrees;
"-" means that the arc angle is greater than 180 degrees. Where "+" can be omitted.
(3) It is based on the coordinates of the end point. When the length of the end point and the starting point is greater than 2R, the arc is replaced by a straight line.
Example: G02 X60 Z50 R20 F120
Format 3: G02X(u)_Z(w)_CR=_(radius) F_
Format 4: G02X(u)_Z(w)_D_(diameter) F_
These two programming formats are basically the same as format 2
Circular interpolation
Note: The format is the same as the G02 command except that the arc rotates in the opposite direction.
Timed pause
Format: G04_F_ or G04_K_
Note: The machining movement is suspended, and the processing continues after the time is up. The pause time is specified by the data following F. The unit is seconds. The range is from 0.01 seconds to 300 seconds.
Intermediate point circular interpolation
Format: G05X(u)_Z(w)_IX_IZ_F_
Description: X, Z is the end point coordinate value, IX, IZ is the intermediate point coordinate value. Other similar to G02/G03
Example: G05 X60 Z50 IX50 IZ60 F120
Acceleration/deceleration
Format: G08
Note: They are in a single line in the block. When running to this segment in the program, the feed rate will increase by 10%. If you want to increase by 20%, you need to write two separate segments.
Radius programming
Format: G22
Note: If you are on a separate line in the program, the system runs in a radius mode. The values in the program are also based on the radius.
Diameter size programming
Format: G23
Note: If you are on a separate line in the program, the system runs in diameter. The lower values in the program are also based on the diameter.
Jump processing
Format: G25 LXXX
Description: When the program executes to this program, it transfers the block specified by it. (XXX is the block number).
Cyclic processing
Format: G26 LXXX QXX
Description: When the program executes to this program, the block specified by it starts from this segment as a loop body, and the number of loops is determined by the value after Q.
Rate cancellation
Format: G30
Description: One line in the program alone, used in conjunction with G31, to log out the function of G31.
Magnification definition
G31 F_
G32: Equal pitch thread machining (Inch)
G33: Equal pitch thread machining (metric)
Format: G32/G33 X(u)_Z(w)_F_
Description:
(1) X, Z are the coordinates of the end point, and F is the pitch
(2) G33/G32 can only process single-pole and single-start threads.
(3) Change in X value, can process taper thread
(4) When using this command, the spindle speed should not be too high, otherwise the tool wears a lot.
Set workpiece coordinate / set spindle maximum (low) speed
Format: G50 S_Q_
S is the maximum speed of the spindle, and Q is the minimum speed of the spindle.
Set the workpiece coordinates
Format: G54
There can be several coordinate systems in the system, G54 corresponds to the first coordinate system, and its origin position value is set in the machine parameters.
G55: Set the workpiece coordinate two
G56: Set workpiece coordinate three
G57: Set workpiece coordinate four
G58: Set the workpiece coordinate five
G59: Set the workpiece coordinate six
Accurate path
Format: G60
In the actual machining process, when several actions are connected together, when programming with an accurate path, there will be a buffering process (meaning deceleration) during the next processing.
Continuous path mode
Format: G64
Relative to the G60, it is mainly used for roughing.
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Reference point (machine zero)
Format: G74 XZ
(1) No other content may appear in this paragraph.
(2) The coordinates appearing after G74 will be returned to zero by X and Z.
(3) Before using G74, you must confirm that the machine is equipped with a reference point switch.
(4) It is also possible to perform single-axis zero return.
Return to programmed coordinate zero
Format: G75 XZ
Return to the starting point of the programmed coordinates
Format: G76
Return to the position where the tool starts machining.
External circle (inner circle) canned cycle
Format: G81_X(U)_Z(W)_R_I_K_F_
Description:
(1) X, Z are the end point coordinate values, and U, W are the incremental values of the end point relative to the current point.
(2) R is the diameter of the starting section to be machined.
(3) I is the rough car feed, K is the fine car feed, I and K are signed numbers, and the symbols of the two should be the same.
The symbol convention is as follows: cutting from the outward central axis (outer circle) is "-", and this is "+".
(4) Different X, Z, R determine the switch with different outer circle, such as: taper or no degree, forward taper or reverse taper, left cut or right cut.
(5) F is the speed of cutting (mm/min)
(6) After the machining is finished, the tool stops at the end point.
Example: G81 X40 Z 100 R15 I-3 K-1 F100
Processing process:
1) G01 feeds twice the I (the first knife is I, and the last knife is I+K), for deep cutting:
2) G01 two-axis interpolation, cutting to the end section, if the machining is finished, stop:
3) G01 retracts the knife I to the safe position, and at the same time, the auxiliary cutting surface is smoothed.
4) G00 fast feed to the high working surface I, reserve I for the next cutting process, repeat to 1.
Absolute value programming
Format: G90
Description:
(1) When the G90 is programmed, all coordinate values programmed in the future are based on the programmed zero point.
(2) After the system is powered on, the machine is in the G state.
N0010 G90 G92 x20 z90
N0020 G01X40 Z80 F100
N0030 G03X60 Z50 I0 K-10
N0040 M02
Incremental programming
Format: G91
Note: When G91 is programmed, all coordinate values are calculated from the previous coordinate position as the starting point.
The programmed value of the motion. In the next coordinate system, always use the previous point as the starting point to program.
Example: N0010 G91 G92 X20 Z85
N0020 G01X20 Z-10 F100
N0030 Z-20
N0040 X20 Z-15
N0050 M02
Set the workpiece coordinate system
Format: G92 X_ Z_
Description:
(1) G92 only changes the coordinate value currently displayed by the system, does not move the coordinate axis, and reaches the set coordinates.
The purpose of the origin.
(2) The effect of G92 is to change the displayed tool nose coordinate to the set value.
(3) The XZ behind the G92 can be programmed separately or fully.
G94—feed rate, feed per minute
Description: This is the default state of the machine's power on.
Subroutine call
Format: G20 L_
N_
Description:
(1) L is the program name after the subroutine N to be called, but N cannot be input.
Only numbers 1 to 99999999 are allowed after N.
(2) The procedures in this paragraph shall not appear beyond the above description.
Subroutine returns
Format: G24
Description:
(1) G24 indicates the end of the subroutine and returns to the next segment of the subroutine call.
(2) G24 and G20 appear in pairs.
(3) No other instructions are allowed in this paragraph of G24.
Third, G code programming examples
Example: Through the following example to illustrate the transfer process of parameters in the subroutine call process, please pay attention to the application
Program name: P10
M03 S1000
G20 L200
M02
N200 G92 X50 Z100
G01 X40 F100
Z97
G02 Z92 X50 I10 K0 F100
G01 Z-25 F100
G00 X60
Z100
G24
If you want to call multiple times, please use the following format
M03 S1000
N100 G20 L200
N101 G20 L200
N105 G20 L200
M02
N200 G92 X50 Z100
G01 X40 F100
Z97
G02 Z92 X50 I10 K0 F100
G01 Z-25 F100
G00 X60
Z100
G24
G331 - threading cycle
Format: G331 X_ Z_I_K_R_p_
Description:
(1) X-direction diameter change, X=0 is straight thread
(2) Z is the length of the thread, either absolute or relative programming
(3) I is the length of the tail in the X direction after the thread is cut, ± value
(4) The diameter difference between the outer diameter of the R thread and the root diameter, positive value
(5) K pitch KMM
(6) The number of cycles of p-threading, that is, a few cuts
prompt:
1. Each infeed depth is R÷p and rounded, and the last knife does not enter the knife to smooth the thread surface.
2, the internal thread retreat according to the positive and negative direction of X to determine the value of the I value.
3. The starting position of the threading cycle is to align the tool tip with the outer circumference of the thread.
example:
M3
G4 f2
G0 x30 z0
G331 z-50 x0 i10 k2 r1.5 p5
G0 z0
M05
Fourth, supplementary and precautions
1, G00 and G01
There are two kinds of G00 motion trajectories: straight line and polyline. This command is only used for point positioning and cannot be used for cutting.
G01 moves in the linear motion to the target point specified by the command at the specified feedrate, and is generally used for cutting.
2, G02 and G03
G02: Clockwise circular interpolation
G03: counterclockwise circular interpolation
3, G04 delay or pause command
Generally used for forward and reverse switching, machining blind holes, stepped holes, turning and grooving
4, G17, G18, G19 plane selection command
Designated plane machining, generally used in milling machines and machining centers
G17: XY plane, which can be omitted or a plane parallel to the XY plane
G18: XZ plane or plane parallel to it, only XZ plane in CNC lathe, no special designation
G19: YZ plane or plane parallel to it
5, G27, G28, G29 reference point command
G27: Return to the reference point to check and confirm the reference point position
G28: Automatically return to the reference point (via the middle point)
G29: Return from reference point, use with G28
6, G40, G41, G42 radius compensation
G40: Cancel tool radius compensation
G41: Left compensation
G42: Right compensation
7, G43, G44, G49 length compensation
G43: Positive length compensation
G44: Length negative compensation
G49: Cancel tool length compensation
8, G32, G92, G76
G32: thread cutting
G92: thread cutting canned cycle
G76: Thread cutting compound cycle
9, turning processing: G70, G71, 72, G73
G71: Axial roughing compound cycle instruction
G70: Finishing compound cycle
G72: face turning, radial roughing cycle
G73: Profile roughing cycle
10. Milling machine and machining center:
G73: High speed deep hole drilling
G83: Deep hole drilling
G81: Drilling cycle
G82: Deep hole drilling cycle
G74: Left-hand thread processing
G84: Right-hand thread processing
G76: Fine boring cycle
G86: Boring processing cycle
G85: Reaming
G80: Cancel the loop instruction
11, programming mode G90, G91
G90: Absolute coordinate programming
G91: incremental coordinate programming
12, spindle setting instructions
G50: setting of maximum spindle speed
G96: Constant line speed control
G97: Spindle speed control (cancel constant line speed control command)
G98: Return to reference point (last hole)
G99: Return to point R (middle hole)
13. Spindle forward and reverse stop command M03, M04, M05
M03: Spindle forward transmission
M04: Spindle reversal
M05: Spindle stop
14, cutting fluid switch M07, M08, M09
M07: Mist cutting fluid is on
M08: Liquid cutting fluid is on
M09: Cutting fluid off
15. Sports stop M00, M01, M02, M30
M00: Program pause
M01: Plan to stop
M02: Machine reset
M30: The program ends and the pointer returns to the beginning.
16, M98: call subroutine
17, M99: return to the main program
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