Waypoint Robotics/Productive Robotics omnidirectional 7 DoF mobile manipulator combines the easiest to use, most capable omnidirectional autonomous mobile robot with the simplest and most flexible 7 axis collaborative robot arm. The Vector AMR's omnidirectional mobility enables fast, precise docking in any direction or orientation so the OB7 can perform accurate and precise grasping or picking tasks, taking full advantage of the cobots' 7 degrees of freedom (7 DoF) and superior dexterity. It can be powered using Waypoint's EnZone wireless charger that provides on-demand energy and opportunity charging for longer run times. Workers can use this mobile platform to perform repetitive tasks such as machine tending, quality assurance sampling, material replenishment, packaging, and many others, so they can focus on the high skilled jobs for which they are uniquely qualified. It has never been easier or more cost effective to deploy a mobile manipulator for manufacturing and logistics applications.
Humans and robots can now share tasks - and this new partnership is on the verge of revolutionizing the production line. Today's drivers like data-driven services, decreasing product lifetimes and the need for product differentiation are putting flexibility paramount, and no technology is better suited to meet these needs than the Omron TM Series Collaborative Robot. With force feedback, collision detection technology and an intuitive, hand-guided teaching mechanism, the TM Series cobot is designed to work in immediate proximity to a human worker and is easier than ever to train on new tasks.
The ST Robotics Workspace Sentry robot and area safety system are based on a small module that sends an infrared beam across the workspace. If the user puts his hand (or any other object) in the workspace, the robot stops using programmable emergency deceleration. Each module has three beams at different angles and the distance a beam reaches is adjustable. Two or more modules can be daisy chained to watch a wider area. "A robot that is tuned to stop on impact may not be safe. Robots where the trip torque can be set at low thresholds are too slow for any practical industrial application. The best system is where the work area has proximity detectors so the robot stops before impact and that is the approach ST Robotics has taken," states President and CEO of ST Robotics David Sands.