I am too tired to go through with the CAD

on every component so i'll just write it in text.

 

On the left of this drawing, that is supposedly

pure metal. Cut from the metal cube by CNC.

You can see the bars as structural support,

which should have side holes if needed

for extra support later on.

 

The green square area on the floor is supposedly

hollow spaces. Leaving just enough surface area

to support incoming earthen floor.

 

The right of this drawing, that is the compressed

earth flooring, which will be placed on top

of this frame. *And slid into it resting on the bottom.

 

Then, we add the walls. Four walls, left, right,

up, down, on top of this flooring, once the flooring

has enough cement at the bottom, where it connects.

 

The walls will be shorter than the metal bars,

so the bars will protrude a bit above the walls,

if to add more flooring by adding the metal frame

again and welding them. And so forth.

 

The spaces between of course will be covered

by contruction aggregates/cement.

 

The design needs a lot of work,

as what you see in the drawing is a waste

of much material (metal). Notice metal

may bend, but it will not tear. At least

not against the weight of the compressed earth

flooring or walls. So just enough for structural

integrity is the way to go. These

would be the principles. From this,

one can build housing units in record time,

and cheaper. Depending on how the metals are

sourced...