Router-CIM Automation

RCIM_2016_Header


RCIM_2016_Header


Previous topic Next topic  

RCIM_2016_Header


Previous topic Next topic  

Linear Pocket Unidirectional

 

RcimCycles_113

Linear Unidirectional Pocketing will create a linear pocket cut with the tool cutting in one direction.  At the end of the cut the tool will retract, move back to the start of the next pass, then plunge and cut in the same direction as the last cut, retract, and start over.

 

This is a useful cycle when the geometry of the tool or condition of the material will only permit a satisfactory finish with the tool cutting in one direction (climb or conventional milling).

 

There is a provision for a separate finish pass at the end, which will follow the contour of the entire shape to clean up any tool marks on the edge of the cut.

 

Note: This cycle is only available on 32-bit Operating Systems. If you are running a 64-bit Operating System, you will be able to use the Advanced Pocketing cutting cycles including Advanced Rest Pocketing.

 

Linear Pocket Unidirectional tool path.

Linear Pocket Unidirectional tool path.

 

 

Linear Pocket Unidirectional parameters.

Linear Pocket Unidirectional parameters.

 

The following parameters effect the toolpath creation:

 

Spiral-IN <N>

The value is not applicable to a Linear Pocket function.

 

Spiral – OUT <N>

The value is not applicable to a Linear Pocket function.

 

Zig-Zag <N>

The value is not applicable to a Linear Pocket Unidirectional function.

 

To use the ZigZag function, select the 'Linear Pocket ZigZag' cycle.

 

Zig <Y>

The value represents that the result cut path will be a linear path that will be in a single direction. The cut path will travel in one direction. Once it reaches the end of the path, the cut cycle will retract the tool and move to the next path it has created.

 

Rough Angle <0.0>

This value represents that angle in which the cut path will be made. The default '0.0' represents that the cut path will follow the 0 degree angle in AutoCAD. This needs to be a real number such as 45.0 or 90.0. The value given is in degrees.

 

Start Corner

The value is not applicable to a Linear Pocket function.

 

Finish Allow

The value entered here will be added to Finish Pass above to provide material left for a clean up pass on the pocket with a separate tool.

 

Step Over %

This value is the percentage of the tool diameter between each pass of the tool in the pocket. This needs to be a real number such as 25.0 or 50.0.

 

Climb Mill <Y>

The value represents if the cutting cycle will be doing Climb (CCW) milling <Y> or if you want the cutting cycle to do Conventional (CW) milling <N>

 

CleanUp Pass <N>

A CleanUp Pass is described as an additional tool path that travels around geometry allowing you to use Cutter Compensation for the boundary of the geometry.

 

Ramp-IN <N>

A Ramp-In set to <Y> will allow you to have the cutting cycle enter the cut with a ramp instead of a plunge. If this parameter is changed from the default of <N>, then the parameter of Ramp Angle will need to be defined in degrees.

 

Ramp Angle

If Ramp-IN is set to <Y>, then this parameter would need to be defined. The parameter will need a numeric value defining the degrees of the ramp such as 30 or 45.

 

Stay Down <N>

If this parameter is set to <Y>, it will keep the tool down while in the pocket to continue the shape. If it is set to <N>, it will keep allow the tool to pick up and move to another area of the pocket to continue the shape.

 

Save Shape <N>

If this parameter is set to <Y>, it will apply the cut cycle as usual but it will also give you the geometry that was used to create the cut cycle. The geometry will be added to the layer 'NC_Shape' for additional tool paths if needed.

 

Safety Plane

The safety plane is the index plane Z location.  If a ' * ' is used as the first character, that position is absolute in world Z coordinates, otherwise it is considered to be the distance above the shape.

 

Depth Per Pass

This controls the depth per pass in Z.  It is also the initial Peck Increment.

 

Total Cut Depth

This parameter controls the total depth of the cut.  If a ' * ' is used as the first character, that position is absolute in world Z coordinates.  If it does not, then that distance is considered to be the distance below the initial shape.

 

Feedrate

Initial feedrate to start the drilling operation.

 

Spindle Speed

The RPM value to use for the spindle for this tool path.

 

Before Codes

Values placed here will be output in the cut cycle before the tool enters the material, typically at the height of the Safety Plane once the tool length compensation is set.

 

After Codes

Values placed here will be output in the cut cycle after the tool has retracted from the cut, typically at the height of the Safety Plane after the cut is finished.

 

Sort by Rank #

A numeric value to use for the tool path created to allow the Sequence to place cuts in a specific order when the code is created.

 

**Changing values in the cycle parameters may yield unexpected results with some settings or on some geometry.  Examine the toolpath and NC Code carefully before running your machine tool if you change these default settings.