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Battery requirements for next gen mobile robots

Robots are on the move. Once limited to warehousing and logistics roles, the autonomous capabilities of mobile robots have become a game-changer in plant applications. Particularly Automated Guided Vehicles (AGVs), which can now deliver payloads of 1000 lbs and make automated decisions about how they navigate a plant

Mobile robots, in the form of AGVs, have been on the market for nearly two decades. But a topical innovation in the sector is creating new power requirements that the battery market must respond to. Michele Windsor explains

Once, mobile robots were limited to warehousing and logistics roles. But advances in the collaborative robot market have introduced production ready mobile robots with payloads of over 1000lbs. This has been a game changer for companies like Kuka, Omron and Clearpath, who have already introduced very advanced systems, with installed applications across North America, Asia and Europe.

Robots such as Kuka’s KMR iiwa and Clearpath’s OTTO are best thought of as AGVs with autonomous navigation and a conventional six axis robot mounted on them, allowing the machine to be continually redeployed around the plant.

Often fitted with crane-like feet, allowing the robot to fix in place, and provide the stable platform required for accuracy and respectability.

The autonomous nature of modern mobile robots is another game changer. Conventional AGVs follow tracks around the plant, which can be very old-fashioned tram-style magnetic lines or very advanced honeycomb-style high speed systems.

But autonomous robots can respond to their environments and make on the fly decisions about how they navigate a plant.

The former are like buses, reliably following a single route, while the latter are more like Ubers – actively changing direction and purpose as required.

Allowing AGVs to be freed from mains supply are portable power solutions like batteries.  

Again, there are a couple of different options available for charging the batteries; opportunity charging or battery exchange strategy. 

Opportunity charging requires AGVs to work in shifts, returning to a charging station several times a day. 

Battery exchange on the other hand is ideal for getting an AGV back into action quickly, as the battery can be substituted with a fully charged one either manually or automatically.

With so many options available, it is no wonder that autonomous mobile robots were one of the key themes at 2019’s Automated trade show in Chicago.

In fact, the trend was so significant that the next Automate show, due to be held in Detroit in 2021, is expected to be dominated by a new generation of mobile robots.

Generally speaking, the AGV base and the industrial robot running on it use the same battery. As a result, an AGV that might have a run time of twelve hours can find that run time to cut in half.

This shouldn’t provide a health and safety issue, because the robots currently on the market freeze in place on interruption, rather than attempting to return to a specifically defined starting position.

However, this could present a problem as more robots are introduced to the market by start-up or less reliable manufacturers. The danger is that future iterations will not share that safety back-up.

The rapidly changing world of robotics, where mounted mobile robots were a fiction just a few years ago, means that battery manufacturers have to develop just as rapidly and we have to be as flexible as our robot OEM counterparts.

We’ve achieved this at Accutronics with our Accupro custom design and manufacturing service, which allows us to work with mobile robot manufacturers to deliver exactly what they need, to suit their requirements – from footprint to volume power density.

Michele Windsor has worked in the battery industry for nearly a decade and has produced countless white papers and guidance documents on the subject.

Michele Windsor is marketing manager of robot battery manufacturer Accutronics.

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