Why People Believe Cobots Can’t Do Finishing Tasks
This is a very insightful piece provided by Robotiq on Why People Believe Cobots Can’t Do Finishing Tasks. Thank to Alex Owen-Hill of Robotiq for a great blog!:
Collaborative robots are great for a huge range of tasks… including finishing (e.g. sanding, polishing). But, some people believe that cobots can’t do finishing tasks. Here’s why they are mistaken.
There are a lot of misconceptions about collaborative robots. For example, some people believe that cobots are always inherently safe or that they eliminate the need for human workers. These aren’t true but they are common misunderstandings.
Before the Automate trade fair this year, Universal Robots was featured in an article in Robotics Tomorrow.
In it, they wanted to dispel two common myths about cobots:
1. Cobots can’t handle industrial applications.
2. Cobot’s can’t handle process tasks like sanding.
The first of these is obviously false. Of course cobots can handle industrial applications, that’s what a huge number of our customers use them for!
But, what about that second myth?
Obviously, we at Robotiq know that cobots are suitable for sanding tasks — we recently released our Sanding Kit, after all.
Why do people believe that cobots are not capable of doing tasks like sanding or polishing?
A large part of this misconception could be related to force…
What people believe about cobots
Collaborative robots are immensely popular for tasks like machine tending, pick and place, and packing. These tasks are immediately valuable to businesses and are easy to program (e.g. using hand-guiding to physically move the robot around).
But, there’s a downside to the high popularity of such tasks. People wrongly believe that cobots are only suited to these tasks.
Nothing could be further from the truth!
Cobots are capable of many of the same tasks as industrial robots. In fact, many cobots are just industrial robots with added features… not fewer features! Those added features are, of course, those required to improve the safety of the robot around humans.
I’ll repeat that, because it’s important:
Cobots are industrial robots with added features, not fewer features. This means that cobots can be just as capable in terms of performance (e.g. force and repeatability) than similarly sized industrial robots.
The force a robot can apply to the workpiece is a fundamental property for finishing tasks like sanding and polishing.
Why force is important for finishing.
If you’ve ever sanded a piece of wood (or any other material) by hand, you’ll know that force is vital for finishing tasks. Both sanding and polishing require you to apply a consistent force to the workpiece as you move the abrasive media across its surface.
Robotic sanding and polishing both rely on force control. This ensures that the robot applies a consistent contact force on the workpiece.
On top of this, the robot itself needs to have enough stiffness to maintain this force. This means that its motors must be able to provide enough torque that the sanding end effector keeps a firm contact with the material throughout the entire motion.
However, it’s important to remember that the key to sanding and polishing is consistent force. It is not necessary to provide a very high downward force for sanding. In fact, too high a force can lead to a bad surface finish. The robot just needs to be able to maintain a high enough stiffness, but it doesn’t need to “push hard” on the workpiece.
Sanding and polishing: cobots vs industrial robots
Some people believe that cobots always provide less force than industrial robots. This is not always true — although it is sometimes true — but it is an understandable mistake. Cobots are designed in such a way that they will not apply harmful forces to humans co-workers. Limiting the force that they apply is one of the main ways that they do this. However, just because a cobot has been force-limited doesn’t mean that it has weaker motors than industrial robots. The motors of collaborative robots can often provide just as much torque as a similarly sized industrial robot.
In fact, when you compare collaborative robots with industrial robots with similar properties, they come up looking quite similar.
Check out an example of comparing cobot vs industrial robot torque and read full article here