Robotics

The pi4-workerbot – more adaptable than the average industrial robot

The pi4-workerbot – more adaptable than the average industrial robot
The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)
The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)
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The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)
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The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)
The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)
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The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)

Industrial robots are generally programmed to carry out one task and one task only. While they are extremely quick and efficient at performing their assigned task, adapting them to other tasks can be a time consuming and expensive endeavor. In an effort to introduce robots with greater flexibility into industrial inspection and assembly systems, the EU-funded PISA research project has developed the pi4-workerbot. The multi-tasking robot is similar in size to a human being and features two arms, three cameras, fingertip sensitivity and can even produce a variety of facial expressions.

The robot’s size allows it to be employed at pretty much any modern standing or sitting workstation found in an industrial manufacturing environment. Whereas most conventional industrial robotic arms have six degrees of freedom with one swivel point at the shoulder, each of the workerbot’s two arms have seven degrees of freedom with an additional rotation joint that corresponds to the human wrist. This gives the robot the ability to transfer a workpiece from one hand to the other, allowing it to view a complex component from all angles.

The pi4-workerbot’s three cameras include a forehead-mounted 3D camera to capture its general surroundings and two other cameras that are used for inspection purposes. This allows it to inspect one aspect of an object with its left eye and another aspect with its right eye at the same time. Measuring an object with one eye while identifying whether a coating has been perfectly applied with the other, for example.

The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)
The pi4-workerbot can be adapted to a wide range of tasks (Image: pi4_robotics GmbH)

The researchers also provided the robot with fingertip sensitivity. If the strength of the grip is set correctly, the robot is able to hold an egg without cracking it, says Dr.-Ing. Dragoljub Surdilovic, head of the working group at the Fraunhofer Institute for Production Systems and Design Technology IPK in Berlin where the robot was developed.

The team even gave the workerbot a variety of facial expressions. When work is going smoothly it will smile, while a bored look will indicate it is waiting for work so the production manager knows the production process can be sped up.

The robot was designed to give German manufacturers the technology needed to adapt to a variety of different product versions and fluctuating volumes. With manufacturers having to deal with workforce requirements that change in line with orders on company books, the idea is for manufacturers to lease the workerbots from pi4_robotics when needed.

3 comments
3 comments
William H Lanteigne
Google Karel Capek and R.U.R.
dsiple
but does it do windows, or take out the trash; clean up after parties?
Matt Rings
How many times have you thought \"I wish I had three hands...\"? Now\'s the time to break out of the \"copy the human\" mold for robots, and give them a few more practical parts: three (or four) hands (two holding, one or two taskers), three eyes (two forward for stereo-depth, and one 360\' eye for situational awareness/safety while moving)...

Although the human body is an exercise in efficient design, we can go a bit further with robotic/automation machinery.

Of course, I classify a true robot as anything capable of independent movement/work with a changing environment/random interactions; while a machine is just programmed to do a few simple tasks without much variable environmental interaction. Most of what passes for \"robots\" are simply humanoid-looking machines, with remote-controlled actions by an operator, not independent, software-controlled interactions.

/R
Doc