> Also mechanical advantage seems to be a major tradeoff. There is a reason biology tugs on ropes and lets reaction surfaces slide around instead.
I'm not sure I understand. Do you think that there's a biological benefit to ropes and sliding (compared to this)? Or is it simply that ropes/sliding are easier to evolve? You probably know this, but (in case others are unaware) there are rotary "engines" in biology (e.g., bacterial flagellum and F0F1 ATPase), but, obviously, they are not quite like this spherical gear.
Imagine two sliding surfaces held agains each other and pulled by ropes.
You can shape the surfaces the way you want for the movement you need. Make them as big or small depending on how much compressive load you need to transfer. You can place as many ropes, controlled ropes or just stretch ropes to have as much flexibily, control and ability to survive tension as you need.
You can do all of this with pretty crappy materials and high tolerances.
When compared to that, gears that transfer all of the load through individual small teeth that must be made from incredible materials and struggle if you need multiple degrees of freedom there's really no competition.
Unless you need to deal with fast spinning things or simple 1dof fixed axis rotations gears are terrible technology and they rarely ever evolved not because they are hard but because they have huge weeknesses and barely any advantages.
The only gears that ever evolved that I know of are used for syncing movement.
Also, "ropes" have the benefit of driving wide ranges of rotation while requiring relatively small muscle contraction distance, by attaching close to a joint's pivot point, which meshes well with muscle fiber physical characteristics and limits.
E.g. a 135° forearm range driven by a 4-5cm tri/bicep contraction
Example of 1D gear used in planthopper used for syncing the movement of the legs [1]. Even there the gears are only used for young planthoppers, and adults use another syncing mechanism after their skin molts away.
I'm not sure I understand. Do you think that there's a biological benefit to ropes and sliding (compared to this)? Or is it simply that ropes/sliding are easier to evolve? You probably know this, but (in case others are unaware) there are rotary "engines" in biology (e.g., bacterial flagellum and F0F1 ATPase), but, obviously, they are not quite like this spherical gear.