Embedding safety I/Os in ABB robots enhances man-machine collaboration17 October 2017

Embedding safety in robots ABB is embedding extended safety I/Os within its series of robot controllers

Safe man-machine collaboration attainable using safety I/Os that prevents unnecessary disruption to production

ABB is embedding extended safety I/Os within its series of robot controllers to improve the flexibility, safety and reliability of collaboration between robots and people. The shift to low volume, high mix production in shorter cycles means that people need to work more frequently in closer proximity to robots – changing materials and programs, and inspecting new processes. This makes collaboration an important tool for maintaining productivity as well as safety.

A light curtain, laser scanner, safety mat, E-stop and acknowledge button, for example, are connected to ABB’s safety module which is integral to the ABB robot controller. Should a human enter the robot’s cell to undertake maintenance, the safely-limited speed of the robot can be triggered, if permitted, as opposed to a safe stop. The robot moves very slowly and within the pre-defined safe work zone using SafeMove2; ABB’s latest generation safety certified robot monitoring software. Once the human leaves the cell, the robot can resume its faster operational speed with or without acknowledgement, depending on the used safety sensors and application safety requirements.

Material handling applications, such as palletizing, are typical of the applications that are set to benefit from this approach.

The solution increases machine uptime, while improving productivity. A single safety I/O channel can be individually reintegrated, which provides higher machine productivity and availability.

As the safety I/Os are controlled by the safety module inside the robot controller, there is no need for third party stand-alone safety PLCs to be used. This saves costs as the combination of I/O and robot controller frees up space that would normally be needed for a separate cabinet. It also reduces the time associated with the set-up and operation of robotic production cells. This standardized solution leads to reduced spares, less wiring and lower operational costs as well as easy engineering through common diagnostics. Space saving is achieved due to more flexible use of SafeMove2 functions in combination with extended safety I/Os. Each safety I/O channel LED not only indicates the process state but also the fault state, which saves operational costs and simplifies maintenance work. Extreme condition (-XC) modules are available for high shock, vibration and temperature requirements.

Mark Venables

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