FancyKiddo published a new build:

Read more about this build...

 

That guy has 2 problems, one which I already mentioned, one which I didn't.

1st) it moves a variable amount of weight. Depending on the weight that is placed on the board, the motor will be unable to move it without losing steps. This design doesn't run into that problem.
2nd) the enclosed sides mean that I can't use my stupidly-long A axis. The open sides in this design take that into account, though I didn't mention in.

I get the problem that you're trying to solve: we wouldn't want the Z axes to tilt along one of the other ones. It seems that in this case, that might be well-served by a suspension system (like a suspension bridge) applied to each Z axis instead of trying to find internal rigidity.

Or we could turn one of the faces (the one parallel to the X axis) into a few triangles, which would ensure the rigidity of all those faces.

Thanks for taking a look! If you have other suggestions, I'll consider those, too!

 

Oh, I checked that thread on my laptop without signing in, so the picture was tiny and I didn't realize that one of the walls is open. That's actually a great idea for making it more rigid!

I agree on the square being simpler in theory, but it wouldn't be simpler in practice once I have the lengths figured out for the short sides. Then it's just slapping parts together one way or the other. I'm avoiding a square because I can easily run 3 motors on one axis, but adding a fourth one would double the work that I need to do/money that I need to spend without adding rigidity.

 

Good news! Got this thing built and working (finally)! Will be updating the build post soon with a log and notes on what I'd change now.