Next Generation of Precision CNC Machining

How Automation Will Power the Next Generation of Precision CNC Machining

You’re probably asking yourself: “Do we really need a next generation of COMPUTER NUMERICAL CONTROL machining? ” Milling CNC machining and turning CNC Machining have been around for centuries and there is a reason that they get the job done. If we take a note from manufacturing history that we saw a shift in the 1950s when computer numeric controls (CNC) were applied to the existing technology. The first modern CNC mill was born flash-forward 70 years to today. The need for even greater speed and ability to handle design complexity have pushed the limits of what a traditional CNC machine can handle. So what’s following?

Let’s walk through the critical components needed for the next generation of COMPUTER NUMERICAL CONTROL machining.

The Machines Behind turn-milling CNC Machining – Next Generation of Precision CNC Machining

We have some really amazing technology partners building incredible milling and turning CNC machines. Haas and Mazak are two of the leaders in industrial machinery because they keep improving technology and offering new capabilities. Whether it’s expanding the number of tools stationed on one machine, tighter tolerances, more complexity with multi-axis milling like 5 axis CNC machining, or just the capacity to build larger parts, all of these features help companies change the world by enabling style innovation.

The Software Drives turn-milling CNC Machining

We’re in a digital globe. Everything and everyone is connected together. This pipeline of 0s and 1s has pushed innovation forward at mind-blowing speeds. Most tech companies employ hundreds or thousands of developers who are tasked with testing the limitations of our generation’s tools. Software is the backbone of development.
So , let’s take that concept and apply it to turn-milling CNC machining. Our team of developers have designed automation into every step process, coming from upload to production. In fact, a lot of people don’t know that all of us digitally manufacture your part at time of upload! Crazy, right? The CAD file you send is analyzed and receives automated design intended for manufacturing feedback, so when you are ready to start creation on that component, so are we all.

Hardware + Software program = Next Era Enabled by Automation

Imagine a world where there was peanut butter but no jelly, Wayne yet simply no Garth, or if you’re younger, Woody but no Buzz. The magic comes from combining the two together. In the COMPUTER NUMERICAL CONTROL machining world, we need the partnership of hardware and software. That’s what guarantees fast and reliable service every time.

Take a look at this photo of our machining facility taken during a busy workday. Do you notice anything missing? The answer is the number of operators setting every machine . To be totally transparent we do have some, that is because of our automated system, we do not need as many.

Another great example in which combining hardware and software program can enable development is within the robotic cell. When your aim is to be faster than the competition, you scrutinize every element of your production procedure. In this case, we found an opportunity to speed up material prep to get milling. In the process, we maximized automation, and also increased safety and reliability within that creation cellular.

These are just two of the ways automation is creating a totally scalable service through software that is blazing the trail for another era of CNC engineering.