This page provides step-by-step instructions to guide you through using the 3+2 Axis machining mode, with the ‘User-defined’ machining direction.
With this machining direction:
The tool orientation that CAM Assist uses to create the toolpath strategy can only come from the +X, -X, +Y, -Y, and +Z axes.
The tool then operates on the partfrom a fixed orientation, which means that the orientation cannot change during cutting.
Step-by-step instructions
Selecting a part and opening CAM Assist
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1. <b>Select a part</b> - you have the choice of using: <ul> <li>Your own part.</li> <li>One of the Demo Parts provided by CAM Assist, available from:</li> <ul> <li>The opening CAM Assist menu (see <a href="https://cloudnc.atlassian.net/wiki/spaces/CAFSNCUG/pages/153223231/Getting+Started+with+a+Demo+Part" target="_blank">Getting Started with a Demo.</a>)</li> <li><a href="https://cloudnc.atlassian.net/wiki/spaces/CAFSNCUG/pages/145096925/CAM+Assist+Ribbon" target="_blank">The CAM Assist Ribbon.</a></li> </ul> </ul> </ol> |
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CAM Assist works with the Siemens NX manufacturing environment and manufacturing templates. |
Open CAM Assist - in the /wiki/spaces/CAFSNCUG/pages/145096925, click CloudNC CAM Assist.
Specifying the ‘3+2 Axis’ machining mode
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Within CAM Assist's <a href="https://cloudnc.atlassian.net/wiki/spaces/CAFSNCUG/pages/152174681/Setup+Tab" target="_blank">Setup tab</a>: |
For Machining Mode - select ‘3+2 Axis’.
For Machining Direction - select ‘User-defined’.
Configuring the ‘Target setups’
Ensure at least one ‘setup’ is checked.
The content of the ‘Target setups’ section reflects the workpiece configuration of the part, as displayed in the 'Geometry View’ of the Siemens NX Operation Navigator.
If you want CAM Assist to create a toolpath strategy for a setup, ensure that the respective setup's checkbox (such as 'Setup 1') is checked.
For each setup that you’ve checked:
Choose from the options shown in ‘User-defined’ options, below.
(Optional) Avoidance geometry - see Avoidance Geometry, below.
Optional - configure required parameters within CAM Assist’s other tabs:
Click OK.
The CAM Assist UI closes.
CAM Assist now computes a toolpath strategy for the part within Siemens NX.
‘User-defined’ options
The following table shows the options available for the 3+2 Machining mode (user-defined).
Option | Details | How to Use | ||
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Same direction for roughing and finishing | Checked - indicates you want to machine the part in the same direction for both roughing and finishing operations. Unchecked - indicates you want to machine the part using different directions for the roughing and finishing operations.
| Check/Uncheck the checkbox. | ||
Select roughing directions | These options are only displayed if ‘Same direction for roughing and finishing’ is unchecked.
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Select finishing directions | These options are only displayed if ‘Same direction for roughing and finishing’ is unchecked.
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Avoidance geometry | (Optional) see Avoidance Geometry, below. | |||
Keep roughing order | Checked - tool orientations will be ordered in the same sequence as they are selected (this applies to ‘Select roughing directions’, see below). Unchecked - tool orientation will be sequenced by CAM Assist but may not be in the order selected. | Check/Uncheck the checkbox. | ||
Workholding security | Use the slider to set the ‘Workholding security’ for the specified setup.
| Move the slider to the required position. Based on the slider’s position, the ‘Largest available tool’ is the largest tool diameter that will be available by CAM Assist to calculate a toolpath strategy.
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Avoidance Geometry
This geometry ensures that machining operations do not occur in specific portions of the stock for this setup, such as the space under the part or between the vise jaws.
These blocked out portions (Avoidance geometry) are different from fixture bodies. While fixture bodies MUST be avoided, the Avoidance Geometry is considered part of the stock and may be gouged in specific cases. For example, drilling a through-hole may pierce the avoidance geometry but not the fixture.
Fixture bodies also require clearance from any tool, whereas all roughing tools may touch the surface of the Avoidance geometry.