You don't actually think I'll want to get in it, far less drive it do you!?
How important is the rear suspension on a Reverse-Trike?
Has anyone built one, or know of a design using a hard-tail (no swinging-arm or damping whatsoever)?
I can't see how a vertical suspension movement would really improve the handling over a hard-tail set up... sure, maybe an issue for comfort, but
let's be honest - is a Reverse Trike based on a Formula single-seater going to have any real levels of comfort anyway?
Would be interested in any thoughts!
quote:
Originally posted by scootz
How important is the rear suspension on a Reverse-Trike?
Has anyone built one, or know of a design using a hard-tail (no swinging-arm or damping whatsoever)?
I can't see how a vertical suspension movement would really improve the handling over a hard-tail set up... sure, maybe an issue for comfort, but let's be honest - is a Reverse Trike based on a Formula single-seater going to have any real levels of comfort anyway?
Would be interested in any thoughts!
It would improve grip to have suspension. Roads are uneven and an unsprung wheel has the tendency to skip off the top of bumps. The suspension
pushes the wheel down more quickly than gravity alone so it stays in contact with the road more. Other than that, there's no twist so you
don't need it to adjust the height of 2 wheels on 1 axle.
With no bending of joints or compressing of bushes, the rear wheel will stay pointing straight even in fast corners.
Cheers guys!
quote:
Originally posted by scootz
is a Reverse Trike based on a Formula single-seater going to have any real levels of comfort anyway?
It is a ridiculous idea James, but it keeps my brain busy!
You don't actually think I'll want to get in it, far less drive it do you!?
Hmm... interesting! Conventional wisdom says that the driven wheel suspension frequency (read stiffness of suspension since we are being approximate)
should be approx 20% or so less than the non driven wheel.
But that is for 4 wheels and assumes that the rear wheels follow the same approximate track as the front wheels.
Clearly for this (reverse trike?) this is not the case. Are we to assume that bumps always extend across the track radially or tangentially? I think
neither, at least not always.
In short I havn't a bl00dy clue to the answer!
If I were to guess I'd say.........make it 40% softer but damp it twice as much - but thats just a guess.
Cheers and enjoy your musings
David
I`m also building a reverse trike. What kind or role does the lenght of the rear swingarm play?
To keep the overall length of the vehicle as short as possible, I`d like to use as short swingarm as possible. Is it bad in terms of handling or is
longer swingarm better in general?
With 3 wheeled vehicles, long and wide is good for stability. I'd want to keep the wheel base in proportion to the track though. 1.6:1 is supposed to be a good balance between straight line stability and eager cornering. I can't remember where I heard this though.
quote:
Originally posted by smart51
With 3 wheeled vehicles, long and wide is good for stability. I'd want to keep the wheel base in proportion to the track though. 1.6:1 is supposed to be a good balance between straight line stability and eager cornering. I can't remember where I heard this though.
I`m not trying make the vehicle short, I`m just trying to keep the vehicle from getting ridigulously long. There will be two seats behind each other, the engine behind them plus the rear wheel. Therefore I`d like to use a short swingarm.
quote:
Originally posted by iank
I've seen that figure used and it's probably reasonable as a first approximation ... Problem is it's difficult to change once built and tested - reverse trikes being the easiest cars to adjust with different swing arms and wishbones for aspect ratio. BUT I don't know if the aspect ratio's for 4 wheelers translate into 3 wheelers in a straightforward sense