At least it being a fully integrated hub(less) electric motor makes it a much more sensible of a solution than many other tries with all kinds of belt drives and gears and cogs and stuff.
Adding a bunch of unsprung weight is a poor decision when it comes to handling though, and that’s something pretty important in a motorbike that’s trying to do more than just low speed commuting. Such a design will also be putting a lot of vibration through the motor components which is not good for longevity. It’s more a case of going for the (admittedly distinctive) aesthetic rather than being sensible.
Makes me wonder about the wheel’s rotational inertia, too. In theory, a hubless wheel could be lower mass overall without the need for a center axle/hub and spokes connecting the outside to the center. But that’s all weight saved in the center of the wheel with lower effect on overall rotational inertia. Visually, the picture that makes the thumbnail in this post shows that the brake disc has to be further from the center of the wheel, which I imagine adds a lot more weight (more material necessary for the overall brake disc being a larger circle) and a lot more rotational inertia (further from the center).
Maybe the whole design itself can save weight in certain places that make up for the weight added in other places. But I just have a ton of questions, and am overall pretty skeptical of the long term potential of this design.
Well thanks for correcting me, that is wild. I can’t imagine it’s actually pragmatic.
At least it being a fully integrated hub(less) electric motor makes it a much more sensible of a solution than many other tries with all kinds of belt drives and gears and cogs and stuff.
Even the tire change is pretty simple.
Adding a bunch of unsprung weight is a poor decision when it comes to handling though, and that’s something pretty important in a motorbike that’s trying to do more than just low speed commuting. Such a design will also be putting a lot of vibration through the motor components which is not good for longevity. It’s more a case of going for the (admittedly distinctive) aesthetic rather than being sensible.
Makes me wonder about the wheel’s rotational inertia, too. In theory, a hubless wheel could be lower mass overall without the need for a center axle/hub and spokes connecting the outside to the center. But that’s all weight saved in the center of the wheel with lower effect on overall rotational inertia. Visually, the picture that makes the thumbnail in this post shows that the brake disc has to be further from the center of the wheel, which I imagine adds a lot more weight (more material necessary for the overall brake disc being a larger circle) and a lot more rotational inertia (further from the center).
Maybe the whole design itself can save weight in certain places that make up for the weight added in other places. But I just have a ton of questions, and am overall pretty skeptical of the long term potential of this design.
Looks cool, though, I guess.