New 6-Axis Hexapod Robotic Stages and Cartesian Linear Robots Showcasing at the 2023 Robotics Summit
See live demonstrations on multi-axis precision motion systems for performance automation in May.
Auburn, MA - Discover PI's featured applications for micro-precision 6-axis hexapod parallel kinematic robots, cartesian robots (gantries), and high precision linear-motor and torque motor stages at the 2023 Robotics Summit. The Summit's expo, held annually in Boston, offers hands-on access to state-of-the-art design and development of applications utilizing robotics and intelligent robotic systems and services.
PI's high precision robotics solutions and motion systems find applications in micro-assembly, test & metrology, high speed multi-axis alignment of optics, camera lenses and panels, and laser machining. PI focuses on global growth markets such as Industrial Automation, Semiconductor Manufacturing, Silicon Photonics, Quantum Computing, High Resolution Microscopy, and Life Sciences.
Can't make it to Boston? You can look at a variety of performance automation, photonics, and nanopositioning applications covered by PI system technologies here. https://www.pi-usa.us/en/news-events/virtual-product-demos/?utm_source=Cision&utm_medium=email&utm_campaign=ONLEBT_Cision_email_2023-05_hex-gantry-prd-cat-pages
Have a question? Ask a PI engineer and learn how collaborating with PI can deliver your required results while saving you time and headaches.
Webinars are another way to learn about our latest motion control technologies. Sign up to one of our precision motion design webinars.
Featured Product
Piab's Kenos KCS Gripper
Piab's Kenos KCS gripper enables a collaborative robot to handle just about anything at any time. Combining Piab's proprietary air-driven COAX vacuum technology with an easily replaceable technical foam that molds itself around any surface or shape, the gripper can be used to safely grip, lift and handle any object. Standard interface (ISO) adapters enable the whole unit to be attached to any cobot type on the market with a body made in a lightweight 3D printed material. Approved by Universal Robots as a UR+ end effector.