The Most Wonderfully Over-Engineered Way to Fix a Broken Clock

In this case, it’s something as innocuous as a broken clock, which could be busted, or simply out of batteries. Either way, bringing it back to life was probably a simple fix, but not an entertaining one. Why pop in a fresh pair of AAs when you can instead throw a considerable amount of engineering and other technology at the problem? Developer Hendrik’s solution was to employ a DIY robotic arm they’d developed which the internet had helped named Serworm Michael simply because Serworm (it looks like a servo-powered worm) and Michael both got the most votes.

The structure of the arm can be created using a standard 3-D printer, but it’s brought to life using a series of Dynamixel XL330-M288-T servos, which can be found for about $20 each, as well as an Arduino MKR WiFi 1010 module and a Raspberry Pi. You’ll need to supply the electronics, but all of the other details needed to build and program your own Serworm Michael arm can be found in Developer Hendrik’s GitHub account.

The arm’s functionality is basic, but its use of servos gives it a level of precision that, as demonstrated here, can be used to accurately advance the hour and minute hands of a clock so it can perform its sole task once again. Could an army of these little arms be used to bring your boss back to life too? It’s hard to say, but the movie version of that experiment will be fun.

Vibevision, author at vibe vision tv.