Ok. So in this diagram. I am expanding on the space escalator. Its usage for solar panels
on the sides (represented in dark red)
and the light red, represents the battery placement.
the turquioise blue, represents the elevator in which a person can use as an access point to the batteries. Orange box represents a living residential space per every, say 1 kilometer (not 100 meters), for this person who is the maintenance.
The entrance to the elevator, can be placed alongside that orange box extending to the most outer surface (in grey) in that layer of the pyramid.
So the person enters the residential box first, and from there, enter into the elevator.
The elevator, can access the batteries, standing on the platform surrounding the batteries,
to navigate around it. Then the person, can access the batteries for both maintenance and replacement. (Therefore the batteries should be modular and can be carried by the elevator as well)
The purple represents the tracks.
The purpose of the solar and the batteries of course is to charge the machines. And probably the tracks, if it can't draw energy from ground surface. Each layer of the pyramid should have a charging station point for the machines.
The solar panels should be customized as well. As in, the higher it goes up, the lower the temperature. So electrodes that prevents the glass panels from forming frost can be placed as part of the solar panels. The heat that is generated from these electrodes can be drawn from the solar energy itself, though that would counter the purpose of saving the energy into the battery. It is depleting it. So it should be relatively small energy it draws as compared to energy it saves, and the batteries can also be, charged by electricity from the ground surface (as well), if choose to be.
I will upload the diagram (link)