Flexxbotics resolution’s breakthrough innovation, the FlexxCORE know-how, permits the robots to securely join and talk with Hexagon machines.
Boston, MA – Could 21, 2024 – Flexxbotics, delivering workcell digitalization for robot-driven manufacturing, at this time introduced superior robotic machine tending in-line inspection connectivity appropriate with the total line-up of Hexagon inspection gear. Now, corporations can allow robot-driven manufacturing with Flexxbotics utilizing Hexagon to realize precision high quality with six sigma consistency and quicker cycle-times.The brand new Flexxbotics capabilities allow greater yields and larger throughput on complicated components for elevated revenue per half.
Flexxbotics resolution’s breakthrough innovation, the FlexxCORE know-how, permits the robots to securely join and talk with Hexagon machines. With Flexxbotics the robots obtain closed-loop suggestions primarily based on automated inspection outcomes enabling real-time changes to CNC machine packages for autonomous course of management. With in-line inspection, Flexxbotics orchestrates the fleets of robots within the sensible manufacturing unit to realize steady unattended operations.
Hexagon gives a variety of Coordinate Measuring Machines (CMMs) for prime precision measuring duties, in addition to, laser scanners, laser instrument setters, infrared probing methods, radio wave-probing methods and manufacturing probe methods. Flexxbotics compatibility consists of Hexagon’s PC-DMIS CMM for bridge and gantry CMMs, the TEMPO robotic-enabled CMM system, NC measuring software program, the total Q-DAS product line for Statistical Course of Management (SPS), and Clever Machine Management (IMC).
“We imagine in-line inspection applied sciences make autonomy within the sensible manufacturing unit potential, offering the closed-loop coordination vital for autonomous course of management,” stated Tyler Modelski, CTO & Co-founder of Flexxbotics. “That is why we have now targeted on making inspection gear interoperable with CNC machines and the manufacturing robots which management and coordinate robot-driven manufacturing.”
Flexxbotics robotic workcell digitalization is the spine of the Good Manufacturing facility, delivering robot-driven manufacturing at scale with autonomous course of management for steady operations. Flexxbotics’ SaaS/hybrid structure runs each on-line and offline so manufacturing continues with or with out web entry, and Flexxbotics works with current enterprise methods equivalent to CAD/CAM, DNC, SCADA/HMI, IIoT, MES, ERP, PLM and others for complete course of integration.
A full set of bi-directional communications, transforms and routing capabilities can be found in Flexxbotics for the inspection instruments, robots, and equipment which can be linked together with loading packages, sending directions, updating parameters and standing consciousness relying on the equipment’s capabilities so the robots drive the Hexagon gear together with the CNC machines and different asset within the sensible manufacturing unit.
“We see the inspection gear within the sensible manufacturing unit because the ‘eyes & ears’ of the robots operating lights out manufacturing,” stated Tyler Bouchard, CEO & Co-founder of Flexxbotics. “By connecting Hexagon’s inspection capabilities to manufacturing robotics with Flexxbotics, world corporations are in a position to obtain subsequent technology manufacturing at unprecedented scale.”
About Flexxbotics
Flexxbotics robotic workcell digitalization is the spine of the Good Manufacturing facility delivering autonomous course of management for subsequent technology machining environments. Flexxbotics SaaS/hybrid options allow robot-driven manufacturing at scale. Flexxbotics breakthrough, the FlexxCORE™ know-how, seamlessly connects and coordinates robots with current automation gear, IT methods and folks. Extra highly effective, versatile and open, Flexxbotics revolutionizes the usage of robotics in complicated manufacturing. Go to www.flexxbotics.com to study extra and observe us on LinkedIn.