How to Create a Multiaxis Project Curves Operation

Introduction

This tutorial explains how to create a Multiaxis feature with the ProjectCurves toolpath.The toolpath projects a user-defined geometry curve ontothe drive surface in order to create the toolpath.The curve that is projectedonto the drive surface can be geometry that is selected, or it can bea pattern that is defined in the Surface Paths tab of the Multiaxis Wizard.This tutorial explains using geometry as the projection curves.

Example File

If you are connected to the Internet, the part file for this example can be downloaded automatically by clicking the following link: Project Curves Example 1.bbcd

Once you download and saved the zip file, extract the files on your system in an easy place to remember.You can then open the file to use with this tutorial.All files for the tutorials in this help system available for download can be found by clicking on the following link: http://www.bobcad.com/helpfiles.

In the example fileprovided, the stock and Machine Setup are already defined for the part.The part is simulated using the BC Table-Table machine.

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Part 1) Add the Feature

  1. In the CAM Tree Manager, right-click MachineSetup and click Mill Multiaxis.

  2. In the MultiaxisWizard, select Surfaceand click Project Curves.

  3. Click Next>>to go to the Posting settings.

Part 2) Define the Posting Parameters

  1. The Work Offset # is automatically set tothe value defined in the Machine Setup.

    You can change the value here to update the Work Offset # for the feature.

  2. Click Next>>to go to the Multiaxis Posting settings.

Part 3) Define the Multiaxis Posting Parameters

  1. Notice, at the top of the dialog box, that the Use Machine Settings checkbox is selected.

    This means that the Multiaxis Posting parameters for the feature usethe same parameters as the machine that is selected in Current Settings.

    You can clear the Use Machine Settingscheck box to define the Multiaxis Posting parameters of the featureseparately from the current machine settings.

    For this example, no changes are needed.

  2. Click Next>>to go to the Tool settings.

Part 4) Define the Tool Parameters

  1. To define the tool, click ToolCrib.

    In the Tool Crib, on the leftside, click the Endmill Rough category.

    Click Add From Tool Library.

  2. In the SelectTool dialog box, click anywhere in the row labeled 1/32Flat Endmill - Standard.

    Click OK.

    In the Milling Tool Crib, clickOK.

  3. Depending on your Tool Library, a tool holdermay already be assigned for the selected tool.A holder is assignedif the Holder Label box displays a label (and the Assign Tool Holderbutton is labeled Remove Tool Holder).If a holder is already assigned,skip to step 4.

    To assign a tool holder, click AssignTool Holder.

    In the Milling Tool Holder Library,in the CAT 40 Holder list,click anywhere in the row labeled 0.25inch I.D. Arbor CAT 40.

    Click OK.

  4. Click Next>>to go to the Parameters.

Part 5) Select Geometry

  1. Under Patternnext to Type, confirm User Defined is selected.

    To define the projection curves, click Projection.

    The Mill Multiaxis Wizard hides and the Feature Geometry Picking dialog appears int eh Data Entry Manager.

  2. In the Quick Selection group, of the Home ribbon, clickPick By Layer.

  3. To confirm the selection, click OK.

  4. To define the surface being machined, inthe Pattern group, click Drive Surfaces.

  5. Click to select the top surface as shownnext.

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  6. Click OK.

Part 6) Define the Parameters

  1. In the Patterngroup, next to Projection Direction,click the down arrow and select Z-axis.

    This projects the selected geometry along the Z-axis.

  2. In the DriveSurfaces Offset box, type -0.01.

    This forces the tool into the stock (in-feed) by the specified value.

  3. At the top of the dialog box, click Link.

  4. Click Retracts.

    In the Clearance Area group,confirm that the Height isset to 2.00.

    This value is automatically set, to the value from the Machine Setup,when the feature is created.(Updating the Clearance Plane in theMachine Setup doesn't update existing Multiaxis features.)

    Click OK.

  5. To calculate the toolpath, at the bottomof the Multiaxis Wizard, clickCompute.

The result is shown next.The ProjectionCurves layer is hidden, and the part is made transparent (press T) to better show the toolpath.

(Because of the negative drive surface offsetvalue, the toolpath is below the surface of the part geometry.)

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Part 7) Simulate the Program

  1. To view program simulation, in the quick access toolbar, of the CAM Tree Manager, click .

For help with simulation, view GettingStarted with Simulation.

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  1. To close the simulation, click Exit Simulation.

This concludes the tutorial.

Related Topics

ProjectCurves