Ok.
I read just about everything I found on front suspension design. I'm still far from being an expert. So, here's what bothers me.
The complete weight of the vehicle should be as low as possible, within reasonable limits, it should be capable of handling rider's weight up to 150kgs.
The problem I have is the tire wear at high speed cornering. Need to reduce it as much as possible while keeping the steering/handling performance. The suspension system will be a double wishbone (two A arms) with the shock absorber (suspension element) attached between the two arms, unlike it's usual in automotive applications (lower end on the movable part, the other end fixed to the chassis)
The previous design I made was designed to accommodate use in extreme conditions (off road use) and tire wear was not such an issue. This new design is intended to be used for a comfortable ride on normal paved roads and the suspension should only make the ride comfortable and allow for predictable and reliable handling. The attached image shows the offroad version. It's a parallelogram with four rod ends at the end (holding the kingpin) and two movable pieces allowing the kingpin axis to be at desired angle - about 17 degrees from vertical to meet the tire contact patch on the road/surface.
The new design should have only two rod ends holding the kingpin (one on top, one at the bottom) meaning I need to make the upper and lower arms of unequal length. Need to get the kingpin inclination at proper angle which gives me a rough idea about the length difference between the upper and lower arm, but at the same time, need to minimize the track width changes at the lower end of the wheels as the suspension works to reduce the scrub during suspension travel. Tire scrub at cornering can be addressed with the proper setting of the Ackermann compensation and I'm aware that some will be present.
My confusion starts with choosing the roll center and reaction point (according to
) and basically I could use any of these, but I'd prefer to pick the best solution for the purpose.
I suppose I am missing some obviously better ideas and solutions, but have no doubt someone will turn my head in the right direction.
The offroad version has about 10cm/4" travel (wheel/frame), the road version will be fine with about half of that.
The trike will be pedal driven but will have an option to use an electric assist engine in the back. (rear hub/wheel)
