autonomous mobile robots ( AMRs ) move around about constantly, so they can ’ t equitable be plugged in. rather, each runs on a battery to perform its work. So how do you go about keeping that battery charged up for uninterrupted productiveness on the warehouse shock ? Enter opportunity load and autonomous charging. We ’ ll discuss the details of each battery solution, highlighting their differences .
What is Opportunity Charging?
You ’ re using your smart earphone all day, and the battery lento creeps down to 20 percentage. Yikes ! time to put the call on your radio charging platform for a jerk of might. In virtual terms, that ’ s how opportunity charging for AMRs works, excessively .
Opportunity charging provides smaller bursts of exponent to robots throughout the day, as each drives over charging contacts in the warehouse floor to maintain its ability to keep working. Each automaton takes itself to be charged as needed, driving over one of the respective charging contacts in the warehouse floor. Robots have a few natural breaks in their work, so they use these to replenish energy for new tasks.
Because AMRs drive over charging areas on their own, there ’ s no human treatment required, leaving workers to focus on more important matters. The robots don ’ thyroxine interrupt themselves to recharge either, merely driving over charging touch poles during necessary movement and between tasks .
*Drawback : To charge these batteries, they ’ ra hit with excessively high cathexis currents ( typically 3x the normal rate ) to promptly deliver appreciable blame. The gamey rate of charge stresses the battery, limiting its useful life .
What is Autonomous Charging?
Let ’ s go back to that smartphone comparison. This meter, rather of wirelessly giving your device a burst of office, you plug it into its charging adapter and give it time to recover. autonomous barrage charging for robots is a piece exchangeable .
here, each automaton stops working to charge its battery to entire office ( like your phone on an adapter ). The AMR works continuously until the battery falls below a defined doorway ( i.e. 20 percentage ), then drives and docks itself to a charging station. After the complete charge cycle, the automaton returns to the deck fix to work.
The drawback to autonomous charge is the downtime when the automaton ’ mho work stops for it to recharge .
rather of risking barrage damage or limiting the automaton ’ second work, reclaim your productiveness with a automaton equipped with a hot-swappable battery .
IAM Robotics machines Swift™ and Bolt™ use the like basal, which integrates manual hot-swappable batteries, letting you command your automaton to drive to a battery swap area when its charge is gloomy. There, fair one person is needed to quickly and safely remove and exchange the depleted battery without powering down the machine. Hot swappable batteries are normally small, and IAM Robotics machines use batteries that are 3.5 times the normal size for maximum power. so, how do we make hot swapping so easy ? Our secret lies in a patent mechanism combined with our 120Ah battery to enable a single person to swap its larger AMR battery. Batteries take less than three minutes to swap, so the robots lose about no running meter before returning to the floor .
*Benefit : Both back up batteries and charging stations are minimal cost burdens, so you can easily provide power to your automaton fleet.
The IAM Approach to Robot Battery Charging
sol which is the best automaton battery charging solution—opportunity charging or autonomous charging ? Each administration has alone needs, so we encourage you to weigh both options .
As for IAM Robotics, we ’ re all in on autonomous charging. The fact is that for us, the burdens of opportunity charge are excessively great to ignore. Just think of all the infrastructure that goes into opportunity charge, like installing multiple mission points throughout your facility. That ’ s a massive investing, opposed to a single charge point in autonomous charging applications. not only that, but AMRs have free-range apparent motion on the warehouse floor, and it ’ s challenging to map out the best charger placements for machines that are constantly on the proceed .
We know that budget and productivity are top priorities for your casual operations. Our machines like Bolt provide hours of labor, with negligible downtime for barrage exchange, keeping the warehouse floor active. What ’ s more, we appreciate public toilet a much as you do, so our models include no-touch, self-docking and charging capabilities .