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We need high speed rail building robots, solar farm building robots, home building robots, healthcare robots. Cheap repairable open robots. Robots that defend us, robots that transport.
More robots than humans. More robot companies diverse in their approaches.
What's the most labor intensive part that remains when robots are putting the modules into place on racks? Attaching cables? I would guess that robots still aren't dexterous enough for that.
So ... tired ... of ... this.
This is NOT a shortage. This is lack of salary. The oil industry somehow manages just fine to get workers to really out of the way places.
Apparently the companies aren't drowning in enough projects to pay more money.
Why is that?
Seems like you could fold them like an accordion into whatever max size can be carried by a forklift, drop them in place, pull them out to unfold, screw the whole prewired assembly down with ground screws, and plug it into the neighboring assembly?
This would probably work best with E/W racking, would go from tightly packed to corrugated.
I’m sure there are challenges I’m not considering, but with modules getting insanely cheap, it seems like racking/assembly/inverters are starting to dominate, and scaling up from single modules to full assemblies assembled in factories seems like a good next step.
(I’ve been building my own 20kw ground mount array, so I’ve had plenty of time to daydream about something we could’ve just dropped and pulled out)
I assume that the current install process is fairly "human optimal". How much of that changes with your product to make it "automation" optimal? Were there small changes here for big wins? Or are you still using the same process with complex automation (the GM way), and do you see challenges arising from that?