B&R, a unit of ABB’s Robotics and Discrete Automation business, announced the integration of ABB robots into its automation portfolio. With the ability to offer unprecedented levels of machine flexibility and precision, merging robotics with machine control into one unified architecture will enable manufacturers to embrace the trend of mass customization and optimize their lot size one processes.
Fully integrating ABB’s robots into its automation systems means that B&R will now be able to supply machine builders with machine automation and robotics from a single source. Machine builders will be able to buy their robots from B&R along with all their control, I/O and drive components.
“The integration of ABB’s robot fleet into the B&R portfolio makes us a true one-stop-shop. We are the only company to offer industrial automation customers the entire range of integrated hardware and software solutions around control, actuation, robotics, sensing and analytics and electrification. Our strength lies in our ability to combine ABB and B&R products into one solution, supported by our deep application expertise. This will help manufacturers increase their flexibility, at all levels including machines, to support shorter product cycles and to make much smaller lots of greater variety,” said Sami Atiya, President of ABB’s Robotics and Discrete Automation business.
Machine builders will be able to choose from a wide range of ABB robots, including articulated arm, SCARA, delta and palletizer robots in various sizes and with various payloads. This is particularly important for machine applications where a high degree of synchronization with other components is required, for example with picking solutions. With ABB robots integrated into the machine automation system, customers will benefit from an unprecedented level of synchronization between robotics and machine control. Since the robot will no longer require a dedicated controller, all interfaces between the machine and the robot are eliminated, while the fact that all axes and sensors will now communicate on a common network increases precision to the previously unimaginable microsecond range.