Cycle 852 ENH.REC.TURNING, AX.
ISO programming
G852
Application
Refer to your machine manual.
This function must be enabled and adapted by the machine manufacturer.
This cycle enables you to recess right-angled slots in transverse direction. With recess turning, a recessing traverse to plunging depth and then a roughing traverse are alternatively performed. The machining process thus requires a minimum of retraction and infeed movements. Extended scope of function:
- You can insert a chamfer or curve at the contour start and contour end.
- In the cycle you can define angles for the side walls of the slot
- You can insert radii in the contour edges
You can use the cycle either for roughing, finishing or complete machining. Turning is run paraxially with roughing.
The cycle can be used for inside and outside machining. If the start diameter Q491 is larger than the end diameter Q493, the cycle runs outside machining. If the start diameter Q491 is less than the end diameter Q493, the cycle runs inside machining.
Related topics
- Cycle 851 SIMPLE REC TURNG, AX for simple recess turning of rectangular slots in plane direction
Roughing cycle sequence
The control uses the position of the tool at cycle call as the cycle starting point. If the Z coordinate of the starting point is less than Q492 Contour start in Z, the control positions the tool in the Z coordinate to Q492 and begins the cycle there.
- From the cycle starting point, the control performs a recessing traverse until the first plunging depth is reached.
- The control machines the area between the starting position and the end point in transverse direction at the defined feed rate Q478.
- If the input parameter Q488 is defined in the cycle, plunging elements are machined at the programmed feed rate for plunging.
- If only one machining direction Q507=1 was specified in the cycle, the control lifts off the tool to the set-up clearance, retracts it at rapid traverse and approaches the contour again with the defined feed rate. With machining direction Q507=0, infeed is on both sides.
- The tool recesses to the next plunging depth.
- The control repeats this procedure (steps 2 to 4) until the slot depth is reached.
- The control returns the tool to set-up clearance and performs a recessing traverse on both side walls.
- The control returns the tool at rapid traverse to the cycle starting point.
Finishing cycle sequence
The control uses the position of the tool at cycle call as the cycle starting point. If the Z coordinate of the starting point is less than Q492 Contour start in Z, the control positions the tool in the Z coordinate to Q492 and begins the cycle there.
- The control positions the tool at rapid traverse to the first slot side.
- The control finishes the side wall of the slot at the defined feed rate Q505.
- The control finishes the slot floor at the defined feed rate. If a radius for contour edges Q500 was specified, the control finishes the entire slot in one pass.
- The control retracts the tool at rapid traverse.
- The control positions the tool at rapid traverse to the second slot side.
- The control finishes the side wall of the slot at the defined feed rate Q505.
- The control returns the tool at rapid traverse to the cycle starting point.
Notes
- This cycle can be executed only in the FUNCTION MODE TURN machining mode.
- The tool position at cycle call defines the size of the area to be machined (cycle starting point)
- From the second infeed, the control reduces each further traverse cutting movement by 0.1 mm. This reduces lateral pressure on the tool. If you specified an offset width Q508 for the cycle, the control reduces the cutting movement by this value. After pre-cutting, the remaining material is removed with a single cut. The control generates an error message if the lateral offset exceeds 80% of the effective cutting width (effective cutting width = cutter width – 2*cutting radius).
- If you programmed a value for CUTLENGTH, then it will be taken into account during the roughing operation in this cycle. A message is displayed and the plunging depth is automatically reduced.
Note on programming
- Program a positioning block to the starting position with radius compensation R0 before the cycle call.
Cycle parameters
Help graphic | Parameter |
---|---|
Q215 Machining operation (0/1/2/3)? Define extent of machining: 0: Roughing and finishing 1: Only roughing 2: Only finishing to final dimension 3: Only finishing to oversize Input: 0, 1, 2, 3 | |
Q460 Set-up clearance? Reserved; currently no functionality | |
Q491 Diameter at contour start? X coordinate of the contour starting point (diameter value) Input: –99999.999...+99999.999 | |
Q492 Contour start in Z? Z coordinate of the contour starting point Input: –99999.999...+99999.999 | |
Q493 Diameter at end of contour? X coordinate of the contour end point (diameter value) Input: –99999.999...+99999.999 | |
Q494 Contour end in Z? Z coordinate of the contour end point Input: –99999.999...+99999.999 | |
Q495 Angle of side? Angle between the edge of the contour starting point and a line parallel to the turning axis. Input: 0...89.9999 | |
Q501 Starting element type (0/1/2)? Define the type of element at the beginning of the contour (circumferential surface): 0: No additional element 1: Element is a chamfer 2: Element is a radius Input: 0, 1, 2 | |
Q502 Size of starting element? Size of the starting element (chamfer section) Input: 0...999.999 | |
Q500 Radius of the contour corner? Radius of the inside corner of the contour. If no radius is specified, the radius will be that of the indexable insert. Input: 0...999.999 | |
Q496 Angle of second side? Angle between the edge of the contour end point and a line parallel to the turning axis. Input: 0...89.9999 | |
Q503 End element type (0/1/2)? Define the type of element at the contour end: 0: No additional element 1: Element is a chamfer 2: Element is a radius Input: 0, 1, 2 | |
Q504 Size of end element? Size of the end element (chamfer section) Input: 0...999.999 | |
Q478 Roughing feed rate? Feed rate during roughing. If M136 has been programmed, the value is interpreted by the control in millimeters per revolution; without M136, in millimeters per minute. Input: 0...99999.999 or FAUTO | |
Q483 Oversize for diameter? Diameter oversize on the defined contour. This value has an incremental effect. Input: 0...99.999 | |
Q484 Oversize in Z? Oversize of the defined contour in the axial direction. This value has an incremental effect. Input: 0...99.999 | |
Q505 Finishing feed rate? Feed rate during finishing. If M136 has been programmed, the value is interpreted by the control in millimeters per revolution; without M136, in millimeters per minute. Input: 0...99999.999 or FAUTO | |
Q463 Maximum cutting depth? Maximum infeed (radius value) in the radial direction. The infeed is distributed evenly to avoid abrasive cuts. Input: 0...99.999 | |
Q507 Direction (0=bidir./1=unidir.)? Cutting direction: 0: Bidirectional (in both directions) 1: Unidirectional (in direction of contour) Input: 0, 1 | |
Q508 Offset width? Reduction of the cutting length. After pre-cutting, the remaining material is removed with a single cut. If required, the control limits the programmed offset width. Input: 0...99.999 | |
Q509 Depth compensat. for finishing? Depending on the material, feed rate, etc., the tool tip is displaced during an operation. You can correct the resulting infeed error with the depth compensation factor. Input: –9.9999...+9.9999 | |
Q488 Feed rate for plunging (0=auto)? Definition of the feed rate during plunging. This input value is optional. If it is not programmed, then the feed rate defined for turning operations applies. Input: 0...99999.999 or FAUTO |
NC programs contained in this User's Manual are suggestions for solutions. The NC programs or individual NC blocks must be adapted before being used on a machine.
Change the following contents as needed:
- Tools
- Cutting parameters
- Feed rates
- Clearance height or safe position
- Machine-specific positions (e.g., with M91)
- Paths of program calls
Some NC programs depend on the machine kinematics. Adapt these NC programs to your machine kinematics before the first test run.
In addition, test the NC programs using the simulation before the actual program run.
With a program test you determine whether the NC program can be used with the available software options, the active machine kinematics and the current machine configuration.
11 CYCL DEF 852 ENH.REC.TURNING, AX. ~ | ||
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12 L X+75 Y+0 Z+2 FMAX M303 | ||
13 CYCL CALL |