Amazing how I am monitored everywhere I go. XD
Must be like a reality TV show from your end.
People watching.
Not entertaining for me. It's torture.
It was a big chunk of grounded meat somewhere among the small ones
and i think the middle wasn't cooked well.
anyway, will watch it.
I think I just saw a drill that resembles my design in the youtube shorts mr musk.
they always show that matches my design as the channel talks about it.
i can't find the video link only the channel that's shown. (edit: found it. will include.)
there was a drawing about a cement ring that is pushed up to the surface of the digs
and manually connected afterwards or something like that.
mine is metal, and welded by robotic arms, so completely automated, also
the volume of surface area covered is large.
but it appears foundations are quite similar.
just heads up in case you/we get complaints by the designers.
similar method it seems.
not too sure how they work but, it seems there are steps involved and requires machines after the dig. judging by the video.
maybe mine is more efficient don't know. kindly look into it.
i'm going to improve it. i have an idea.
bit complicated so i won't get it at the first try.
ok so.
let's say the length and size of the drill matches that video.
not too sure how they work by the video.
but the animation and real life looks to be two different things.
one is automation as it moves forward, and the real life is manual after the dig with usage of machines.
my idea is this. lets say 50% of that length to the back is dedicated in placing my metal panels.
first 1/2 of that 50% will be metal plates. but. they are in layers.
so when one is depleted, new one below will replace it.
that would mean. there would be a dedicated pushing up mechanism from the base to push up the layer to be placed on the surface of the dig. (also will need to rotate following the diameter of the cylinder to cover other areas.)
then another grab mechanism will enter the gap between first layer and second layer from the side, and attach itself to the panel, then push itself up the surface.
1/2 of the 50% will be dedicated in fusing those plates. so the plates will need to have a protruding portion that covers the layer below it for the robotic welding to follow through.
once all the layers are placed within the digging machine,
workers can restock the required plates again.* entering to the back of the digging machine.
the plates will need to be held in place altogether. to cover all the areas as a solid ring.
once they are being held in place,
an robotic arm will start welding and fusing them together.
so no rotating the plates following the diameter.
rather, 3/4 of that 50% needs to dedicated to few different types of panels,
and robotic arms that would extend to match the diameter of the ring from
1 and 2 plates distance from the first.
then the robotic arm, which could be placed next to 1 per plate,
can fuse them altogether.
i need sleep now i think you get the idea. i will need to make it better.
this way, it will be whole lot faster.
so placement of those plates and way they would have slightly protruding portion over the other to cover each other just at the edges, so for the welding arm to fuse them together.
probably better to fuse sideways as well as i thought of before, with a predesigned plating for that.
so it will rotate to fit the gaps and keeps on fusing the plates.
the plates will be honeycomb design to later accomodate spraying of cement. for cement to latch on to. so it doesn't necessarily need be honeycomb.
this way, whole lot faster i believe.