Laser Precision While Drilling 500 Micro Holes Per Second: How Beckhoff and Bi.Lab Fashion the Future

Linear servomotors and TwinCAT software team up for a high-speed 3D laser machining center 

With accelerations up to 12g, micrometer-level precision, and drilling 500 micro holes per second, Bi.Lab Advanced Engineering showcases the cutting-edge capabilities of its laser processing center by synchronizing linear drives with laser pulses. The machine builder relies on the flexibility and performance of Beckhoff’s control and drive automation technology. 

Bi.Lab, founded in 2002 in Casalecchio di Reno, Italy, is a mechanical design office with marked expertise in laser technology, assembly automation, robotics, and image processing. Their developments are incorporated into prototypes and customized machines for industry leaders in packaging, textiles, automotive parts, medical technology, print, and food. The secret to their success across industries lies in the advanced automation technology provided by Beckhoff. “Looking back, this partnership that began all those years ago was a pivotal moment for our company,” recalls Marco Faretra, partner and managing director at Bi.Lab. 

PC-based control: Bi.Lab’s automation backbone 

To meet growing customer demand for turnkey special machines, Bi.Lab started looking for a standard automation platform. “We’ve always depended on our customers’ resources and implemented automation with their preferred systems,” explains Faretra. Nevertheless, the rising complexity of projects required a single platform that could handle diverse technologies and varying levels of complexity. Thus, the search for a strategic partner offering a flexible and high-performance solution for all requirements began 

Today, every automation project at Bi.Lab is implemented using PC-based control technology and the TwinCAT engineering environment from Beckhoff, which provides the flexibility, reliability, and high performance needed to meet each customer’s unique requirements.  “The modular and comprehensive Beckhoff portfolio also supports seamless integration with third-party hardware and software when requested by customers or required by specific applications. This open system architecture ensures Bi.Lab can always select the ideal components,” explains Lorenzo Bruscoli, automation developer and partner at Bi.Lab. 

Concept to cutting in two months flat 

Recently, Bi.Lab developed one of its most cutting-edge projects to date for a customer in the automotive industry. The challenge was to develop a system for cutting and drilling pipes using a highly dynamic 3D laser processing center. The project required accelerations of over 3g on a cutting surface of 800 x 600 mm, with laser-point positioning accuracy within tolerances of hundredths of a millimeter. With Beckhoff’s automation technology, the first prototype achieved an extraordinary dynamic of 12g on the secondary axis. “This result was also due in part to the support of the Beckhoff product specialists,” explains Marco Faretra.

This solution laid the groundwork for a wide variety of subsequent applications. The dynamic nature of the process and the need to increase accuracy to within a few hundredths of a millimeter required an extremely rigid structure. “When developing the frame for the laser processing center, we used virtual prototyping techniques and relied on our experience in highly dynamic system design,” adds Davide Carati, mechanical engineer at Bi.Lab. 

Bi.Lab’s experience in research and development, combined with rigorous testing of potential dynamic performance, allowed the company to deliver a fully functional machine to the customer in just two months. The fast turnaround was achieved by leveraging an established automation and control architecture, with PC-based control ensuring the required dynamics and precision. The customer needed to achieve ‘clean’ processing, meaning the pipes had to be processed without leaving any residue inside – even with a large material thickness-to-diameter ratio. This requires exceptional precision and repeatability in laser positioning. 

The Beckhoff system played a decisive role in meeting the customer’s requirements and delivering the machine on time. At the heart of the machine is a CX5140 Embedded PC powered by an Intel Atom® quad-core processor (1.91 GHz clock frequency) to handle the automation and control functionality. For the gantry axes, Bi.Lab relies on AL8000 linear servomotors and an AX5206 2-channel servo drive, ensuring the necessary high dynamics and positioning precision. 

Positioning and path control are handled by the TwinCAT NC PTP and TwinCAT NC I motion software modules, with the latter enabling seamless G-code execution and interpretation. TwinCAT takes care of axis interpolation, efficiently processing kinematic data from both linear motors while also accounting for mass and inertia values. As Lorenzo Bruscoli explains, “This enabled us to calculate the torque and speed setpoints for each axis precisely and transfer them cyclically to the servo drives via EtherCAT.” The entire process, including the safety functions implemented with TwinSAFE components, was programmed with TwinCAT. 

Open control delivers pinpoint precision

The laser processing center showcases the full potential of Beckhoff’s PC-based control; an open control platform that delivers exceptional flexibility, intuitive operation, and seamless integration of third-party hardware and software modules. Thanks to its precise synchronization of drive axes with pulses from the external laser source, the system can create up to 500 micro holes per second with pinpoint accuracy in a predefined pattern.   

Ready to push the limits of speed and precision? Contact your local Beckhoff sales engineer today.

Paxton Shantz is the Digital Manufacturing Industry Manager at Beckhoff Automation