> Each cable is actually wrapped around the motor axis, then passed through the pulley and tied to a fixed ring in the corner of the panel.
Thanks, when seeing the video again now it makes sense! I didn't catch the counterweight the first time I saw it. Nice! In the Heliogen concept I mentioned previously they got around having to use a counterweight by attaching the other side of the cable to another part of the panel, such that the cable length stays approximately constant. Then they used a spring to compensate for the small changes in cable length that are inherent to the geometry.
> I use one bolt that pulls the mirror holder in the center and 3 bolts that push it in the corners. By screwing or unscrewing the corner bolts you can precisely orient each mirror independently.
Nice! Even in large heliostat fields it is often done in a similar way. It becomes quite labor intensive when you have thousands of heliostats in a field, with 10+ segments each, so there are ongoing efforts to find ways to do it automatically or to get around the need for doing it in the first place.
I didn't take the time to describe the cable-bot concept in detail.
I modeled almost all the mechanical parts with OpenSCAD, but I struggled to model the cable itself.
In the "mechanics" README [0] you can click on any image to view it in an online 3D viewer.
The following note in the same README tries to explain how the cable is used :
English is not my first language, is this sentence clear enough ?You can see these elements in the main 3D viewer [1]
> How are you getting the right mirror orientation for each mirror (aka canting)?
I use one bolt that pulls the mirror holder in the center and 3 bolts that push it in the corners.
By screwing or unscrewing the corner bolts you can precisely orient each mirror independently.
The "panel_board_exploded" view tries to show this [2]
> One trick for closed-loop control with many heliostats/panels is to have a few cameras surrounding the receiver.
Super clever, thanks for the explanation!
I think it might be tricky to calibrate.
[0] https://github.com/remipch/solar_concentrator/blob/master/me...
[1] https://remipch.github.io/solar_concentrator/view_3d.html?mo...
[2] https://remipch.github.io/solar_concentrator/view_3d.html?mo...