By April 29, 2016 Read More →

Collaborative robots are bringing down the fences

160429_Fanuc_2Collaborative robots – or cobots as most are affectionately known – are bringing the fences down in manufacturing and production facilities all over the world. Unlike early industrial robots that had to be isolated behind a protective cage, this new wave of robots comes equipped with sensors, vision and, in most cases, plenty of programmed self-control, enabling people and robots to work safely side-by-side, explains Steve Capon, technical manager at FANUC UK.

FANUC has recently launched a collaborative robot with an impressive payload capacity of up to 35kg. Compared to its yellow cousins, the Kermit-green FANUC CR-35iA is a totally cage-free species of robot. Designed for tasks like heavy workpiece transfer and parts assembly, robot and human operator can work collaboratively alongside each other without a safety fence.

Certified to meet the requirements of international standard ISO 10218-1, if it comes in contact with a human co-worker or any object with a certain force, it stops or retracts immediately.

This newest development represents a significant leap in addressing robotic safety hazards. Although it doesn’t eliminate the need for comprehensive workplace risk assessments, the increased adoption of peripheral safety devices is enabling robots and humans to work in close proximity of each other, eradicating the fear of interrupting production or worse, causing an accident.

Until recently, the mindset of most people was if you have a robotic hazard you banish humans from the robot working area with a physical guarding solution. That thought process for many is changing thanks to rapid advancements in sophisticated software control technology and integrated safety. This now means that you can impose set limits on how fast your robot works and the operational areas it can and can’t enter, programme your robot to slow down as it approaches a hazard rather than coming to an abrupt standstill, and even introduce presence-sensing detection.

160429_Fanuc_1Above all, the newest robotic software is enabling manufacturers to think more creatively around how automation equipment is deployed and how companies can boost production efficiencies whilst also saving space in valuable commercial real estate. “Safety risks vary depending on the selected robot and application,” emphasises Steve. “One of the key advantages of being able to embed more of the safety-related functions into the robot controller is you can design out the various safety hazards whilst also eliminating the need for external fixtures or mechanical devices to supply this functionality.

FANUC recently demonstrated an example of a fenceless robot cell in collaboration with Rockwell Automation. In this showcase, Rockwell safety laser scanners were installed close to floor scanning horizontally for any approach to the system. As an intrusion got closer, these scanners informed the robot system to operate slower. Additional mini scanners were concealed under the FANUC robot system mounting, providing an invisible shield and initiating the robot to stop when the box of light is encroached.

Setting your safe limits

Many of these developments, including FANUC’s Dual Check Safety (DCS) Position and Speed Check solutions, were initiated in the automotive sector on FANUC CNC robots. However, the trend for built in logic and safety motion is rapidly spilling into other markets, including packaging and palletising.

In addition to meeting the safety requirements for electronic control systems, DCS Speed and Position Check offers significant benefits to applications where the travel of the robot needs to be restricted due to floor space or process limits that are less than the full reach of the robot. Restricting the robot motion in Cartesian space means the robot can be restrained to exactly designated safe area in which it works; something that is not possible with systems that limit robot motion externally using limit switches.

What’s more, this software works across the whole robot model, not just a single point. For example, Position Check can identify multiple areas of the robot, including any attached end effectors. The safe zones around the robot arm and its end effector can be modelled within the software, using geometric shapes of up to eight vertical lines each. These areas can be adapted – enabled and disabled to change the areas that the robot is not allowed to enter – depending on the task it is undertaking and the changing conditions within the defined area.

This is a useful feature for applications that require an operator to load parts into a fixture, for example. An operator can safely walk into the area because the robot will stop the task it is performing. And when the operator leaves the defined area, the robot is able to continue with its task.

The DCS Speed Check functionality makes it possible to define the maximum speed that the robot can travel during normal operation. Speed can also be changed in reaction to a defined event, in addition to ensuring that the robot holds a position when necessary. This can be used for zero speed monitoring, explains Steve  “Often, there are rotary fixtures within a cell which must not move while the operator is undertaking a loading procedure. The DCS Speed Check functionality allows the speed of the fixture to be monitored, and ensures it remains motionless when required. There are also process safety benefits to this, for example if the robot is working with delicate products that need to be moved at low speeds.”

Ultimately, the onus on safety still rests with humans. Even with all these technology advancements and comprehensive workforce training you can’t risk becoming risk complacent. Deep within our human genetic makeup is that niggling desire to test the boundaries and ‘see what happens’. Every intentional and unintentional scenario when interacting with robots should be factored in when conducting regular risk assessments. With safety, getting it mostly right isn’t an option.

Visit the FANUC website for more information.

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