IPR Robotics offers a wide range of servo-driven 7th axis linear rails for industrial robots. These rails come in ten different sizes and are constructed from modular high strength extruded aluminum sections to handle payloads of 100 kg to 1600 kg or from steel to handle 2000 kg payloads. This variety of rail sizes allows each application to be sized correctly, controlling the space required and the price point. The drive train design of these rails utilizes helical gear-racks and is proven over 10 years to be repeatable and reliable, even in tough foundry applications.
Easily integrate Gocator® 3D line profile and snapshot sensors with a variety of industrial robots to deliver high-performance 3D results in vision guidance, flexible inspection, material dispensing, and automated assembly with smart pick-and-place. Adding 3D vision to a robot turns repetitive, fixed motion into smart movement that can unlock greater value for your automation investment.
Simpler, stronger, and more precise. ATI Industrial Automation has developed a series of Manual Tool Changers that provides a cost-effective solution for quickly changing tools by hand. They feature a unique design that combines high strength, excellent repeatability, and a patent-pending screw-cam locking mechanism with multiple fail-safe features, which resists vibration and prevents loosening. These robust and compact Manual Tool Changers can handle payloads up to 80 pounds (36 kg) and pass pneumatics and electrical signals.
Hexapod micro-motion robots are based on a very flexible concept that can easily solve complex motion and alignment problems in fields including Optics, Photonics, Precision Automation, Automotive, and Medical Engineering.
DENSO is the world's largest manufacturer - and user - of small assembly robots, employing over 17,000 of its robots in its own facilities. Over 77,000 additional DENSO robots are used by other companies worldwide. The compact, high-speed robots are used in traditional manufacturing sectors, as well as in advanced-technology applications in the medical, pharmaceutical and life sciences industries. Learn more about DENSO Robotics
ElectroCraft exhibits its motion control product offer at Robotic related events at trade show and demonstrations across the world. We attend these events and conferences not only to show our motor and drive product offering, but to discuss and learn more about challenges involved with developing commercial robotics across markets.
Challenges on the loading dock are characteristic of greater pressures from the rise of e-commerce. Loading and unloading freight from trailers, trucks and shipping containers are arduous, repetitive tasks plagued by high turnover. Even with regularly available staff, manually unloading freight and the constant lifting and twisting results in fatigue and inconsistent, declining productivity. Robotics capable of fully automating unloading tasks bring a new paradigm to the dock. High performance and ﬂexibility push unloading from a labor-heavy, manual chore to an automated, reﬁned process. High-performing DC workers can take more desirable positions, with relief from unpleasant work conditions. Management gets to replace uncertainty and stafﬁng challenges with a reliable, automated process, with data to fuel continuous improvement.
MATE provides strength, control and balance while the exoskeleton transfers much of the burden away from the arms to the pelvis. It increases work quality and efficiency by providing consistent movement assistance during manual and repetitive tasks. Key benefits include: • Reduced muscular and cardiac fatigue • Improved posture • Improved precision of repetitive tasks • Follows physiological movements without resistance or misalignment • Improved job quality
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.
Robotmaster delivers unmatched, full-function off-line programming capability for robots - easy programming of precise robot motion control and quick generation of path trajectories of any size, with minimal programmer intervention. Our strong background in CAD/CAM (Computer Aided Manufacturing) software has enabled us to bring a revolutionary approach to programming industrial robots.