Nice technical drawing of a Vette suspension but I dont have a vette.  Just because the non parallel leading links converge to an IC doesn't really play any role in a watts linkage rather thats how anti dive/anti squat is determined and is for the most part is irrelevant.   If my LCAs were mounted level at the center and the upright still had 15 degrees angularity the convergence point would not be the IC or RC.  Technically it would create two roll centers at different heights   To show a point it is best not to clutter the diagram with the other non related components.    You still haven't shown how a parallelogram can create non parallel sides with relatively small amounts of movement. When viewed from the rear at normal ride height my LCA's are level and parallel with each other and the ground.  When viewed from above the inner mount, LCA's and upright create a rectangle.  Since the links cannot change lengths with movement, even the small amount of twist is equally distributed between the two LCA's and they remain a parallelogram.  With that in mind the basic laws of geometry would have to be wrong for your claim of toe change to hold true.   Even if my suspension were to move more dramatically front to rear it would not change the toe angle that is maintained by a parallelogram.   With out the clutter show your work and prove how a parallelogram can change toe with out the hard parts changing lengths.
   The only way toe can change on my suspension would be through the negative camber gain not the twin LCA's.   The slight rotation of the upright acts like a change in caster angle and through that change in the contact patch in relationship to the upright the camber gain with suspension travel would create a change in toe.  You have been barking up the wrong source from day one and think you are an authority while spewing wrong answers.  LOL doesnt quite cover it.
  By reducing the amount of upright rotation to the minimum I also reduced the change in toe to the minimum and thats how I came up with the numbers I did.
  Any time you combine upright rotation with negative camber gain there will be a change in toe with travel. By using longer links that go over center  and separating the mounts on the upright to the max the rotation can be reduced to an insignificant amount.
   After looking more closely at the C4 design it would appear that GM deliberately placed the mount for the toe adjustment rod mount in the wrong place for a sports car.  Built in roll understeer is not a performance option.  Building cars that unskilled drivers could own and drive with out totaling it on their first four wheel drift I believe was their intention.  Not true performance.
    Last:   my LCA's may not be in the form of a wish bone but that is not required to be a control arm.  The criteria involved are as follows, They connect the bottom of the upright to the frame. they control camber, they control toe, they support the weight.  With leading and trailing links supporting forward thrust, the LCA's do not need to help in this task.  What other criteria did a LCA need to meet for your approval?

Last edited by tyrellracing (10/15/2012 6:46 pm)

Here is an interesting approach to anti-roll, and squat control.
http://www.youtube.com/watch?v=bbgjRBT4ltM