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HSM was good but Volumill was a bit better. Cutting “Jaws of Life” blades out of S-7 tool steel was the test at that time and Volumill in CAMWorks cut a more consistent chip load especially around the pivot hole where HSM spiked pretty badly in tool load. Roughly three years ago I tried both CAMWorks and HSMWorks.
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To make sure that what is there works and then also steadily improves.įirst though a bit of background for HSM Adaptive from my experience. But there are a number of things that go on under the radar with Autodesk HSM (A-HSM) that are parts of an ongoing quest to improve the program. In that train of thought there were some pretty amazing results achieved by Helical in testing with HSM’s Adaptive that was something I could not talk about until today.
Autodesk inventor 2015 hsm software#
In my last post I talked about the idea of software quality control.
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opposite of the blue arrow).Well it is not really a secret for those of us who use it but for everyone else I am sure there is a lot they don’t know.
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Machining is always done from positive Z towards negative Z (e.g. The red, green, and blue arrows correspond to the X, Y, and Z-axes respectively. The coordinate system is placed at the origin of the tool orientation. Whenever an operation is selected, a small coordinate system is drawn on top of the model to indicate the tool orientation. To change the tool orientation of a single operation only, open the Geometry tab for the operation, and change the settings in the Tool Orientation section.Ī tool orientation can be specified as one of the following:įor most common cases, using Use Point/Plane is the easiest way to define the tool orientation, since that allows you to select any point or vertex as the origin of the tool, and any face, edge, or plane as the orientation. If the default WCS is incorrect, you can change it in the Setup dialog box. coordinate systems) you may want to define for your operations.īy default, new operations are created using the WCS (Work Coordinate System) of the current setup. If you do not wish to add Inventor HSM-specific data to your design model, you can create a separate assembly for the Inventor HSM data and insert the parts you want to machine as assembly components, which leaves the component part files unaffected by the Inventor HSM add-in - the machining data and toolpaths will reside only in the assembly file along with any extra reference geometry (e.g. The toolpaths can then be regenerated by the receiver from the file containing only the parameters. Simply right-click the operation(s) and choose Clear Toolpath before saving the document. If you wish to send the file by e-mail or similar, you may want to clear the not required toolpath data from the file before sending it. You will notice that the toolpath data of machining operations can cause the size of your files to grow considerably. To remove the Inventor HSM-specific data from a part or assembly file, simply delete all operations from the CAM Browser and save the file. This Inventor HSM data remains within the file even if it is edited on a system that does not have the Inventor HSM add-in installed. The machining operations created in a part or assembly are stored with the Inventor file itself - including the generated toolpath. Restriction: Assemblies are not supported in Inventor LT. In this example, you would click CAM tab 2D Milling panel 2D Pocket. You select the first operation you wish to perform on the workpiece by clicking the appropriate icon from the command ribbon. For more information about creating a setup, see the Help topic: Setup Reference. If you do not create a setup manually before adding your first operation, a setup with default parameters is created for you automatically. A setup defines a number of general properties for a set of machining operations - including the Work Coordinate System (WCS), the stock geometry, fixtures, and the machining surfaces. Normally a machining operation, like pocketing, is started by creating a Setup. The following example illustrates a 2D Pocket strategy which is used to remove the interior cavity of a part. For a description of the individual machining strategies, please refer to the Inventor HSM Help topics: About 2D Machining Strategies and About 3D Machining Strategies. The type of toolpath required naturally depends on the geometry of your part. To create your first machining operation, simply select any of the toolpath strategies from the CAM toolbar. The CAM Browser lets you view and modify all machining-related data in the current part or assembly. Once a part or assembly file is loaded and a strategy selected from the CAM ribbon, the CAM Browser becomes active replacing the familiar Inventor Model Browser.