![mazak live tooling post for feature cam mazak live tooling post for feature cam](https://www.espritcam.com/sites/default/files/2019-08/Mazak-logo.jpg)
This is a modified version of the HARD6T post for Hardinge, It uses G0 for all rapid movements.
#Mazak live tooling post for feature cam software
You would compensate your size to 0.235” at this point, either through your CAM software or utilizing Tool Comp commands in your cut file. This is a special post created just for NC-RUN verification, it is based on the okuma OSP5000 control.
![mazak live tooling post for feature cam mazak live tooling post for feature cam](https://mazakfiles.blob.core.windows.net/web-site/image/96ad2b4824054ee39757dfbf00fd4c4d/03_ax_maintenance_1.png)
It’s easy – if you interpolate a 0.250” hole with a 0.236” tool and only a 0.248” gage pin will fit, then your tool is undersized by 0.001” (use half of the value since it is undersized on each side). You can do this several ways, but my preferred method is to mill a feature and then use accurate tools to verify the dimension – gage pins or blocks work well for this. Knowing this, you’ll want to make sure the first thing you do when setting up a precise job is to dial in your actual tool diameter. Xbuild will now open the post processor reading for editing. Click on the Edit Button to start editing the current post processor. Just like a haircut: you can take more off, but you can’t put it back on. Your current post processor is located at the bottom right of your FeatureCAM screen To open the post double click your left mouse button on the post processor name. They know that if you’re going to make something using their tools, you’ll be a lot happier if the feature it cuts comes out under-dimensioned instead of over-dimensioned. Compensation for Holding Tight TolerancesĬompensate your tools – Tool manufacturers aren’t perfect, so they engineer their tools to be a little forgiving. Gauge pins can be used measure an under-dimensioned feature before machining it to an exact size. No matter what, at the end of your warmup, make sure to measure all your tools for absolute precision and holding tight tolerances. Allowing the machine to run for 10-20 minutes with all components moving allows for the components to reach an ideal temperature, and will help mitigate the effects of thermal expansion during milling. Now, all of this is fine if you’re only looking to hold tight tolerances in your Z axis, but if you combine the spindle warm up with machine movement in all axis, this will help even further. Designed to bring maximum efficiency, reliability and value to precision small-parts production, this high-value.
#Mazak live tooling post for feature cam series
The highlighted area is where you can click and choose/change the post that you are using. Designed and built in Kentucky, the QT-Ez Series of CNC Turning Centers gives shops access to Mazak reliability and quality in an affordable, easy-to-use package backed by the industry’s best warranty and outstanding customer support. But, you also need to allow the internal components to reach a steady operating temperature to account for thermal expansion. You need to select a Post Processor that supports live tooling. A typical procedure will only warm up the spindle, which is critical for spreading grease to prevent premature bearing wear. Run a warmup routine – While this is standard procedure with most CNC machines, consider running something a bit more strenuous. Spindle Warm Up for Holding Tight Tolerances Spindle warm up and a warm up routine can help in holding tight tolerances when machining.