Wheel suspension for motor vehicles

The invention claimed is: 1. A wheel suspension for a motor vehicle, comprising: a wheel carrier comprising a wheel flange; a first lower separate suspension link and a second lower separate suspension link ( 12 , 14 ) per wheel carrier arranged at a defined angle to each other and articulated to the body of the motor vehicle and also to a wheel carrier ( 16 ), wherein the first lower suspension link comprises a forward lower transverse arm having a first end and a second end, the forward lower transverse arm first end pivotally connected to the wheel carrier at a first pivot point of the wheel carrier and located on or in proximity to a center vertical axis of said wheel flange and the wheel carrier, the forward lower transverse arm second end pivotally connectable to the body of the vehicle, the forward lower arm having a longitudinal centerline positioned essentially in a transverse direction of the motor vehicle relative to a transverse axis of the vehicle extending through the wheel flange; wherein the second lower suspension link comprises a rear lower transverse arm having a rear lower arm first end and a rear lower transverse arm second end, the rear lower transverse arm first end pivotally connected to the wheel carrier at a second pivot point of the wheel carrier, the rear lower transverse arm second end pivotally connectable to the body, the rear lower transverse arm having a longitudinal centerline set at a rearward angle relative to the centerline of the forward lower arm; the wheel carrier having opposed first and second sides, the wheel flange on the first side, the first and second pivot points on the second side; and a McPherson strut pivotally connected by a rubber metal sleeve joint to the forward lower transverse arm adjacent to the wheel carrier and connectable to the body, the McPherson strut being aligned with the center vertical axis of the wheel flange and the wheel carrier, wherein the McPherson strut is disposed relative to the forward lower transverse arm and the centerlines of the lower transverse arms are skewed relative to each other to be slightly out of a horizontal plane, and a plane that contains both lower transverse arm centerlines is disposed at or nearly perpendicular to a longitudinal centerline of the strut viewed in the transverse direction of the vehicle, wherein the front suspension link is arranged such that while the suspension is mounted on the vehicle and the wheel carrier deflects and/or is steered, a center point of the pivotal connection of the McPherson strut on the forward lower transverse arm viewed in a transverse direction of the vehicle is displaced along a line of travel disposed adjacent to the longitudinal centerline of the McPherson strut approximately parallel to the longitudinal centerline axis of the McPherson strut. 2. The wheel suspension according to claim 1 , wherein the forward lower transverse arm has the longitudinal centerline set at a forward angle of 0-4° relative to the transverse axis of the vehicle extending through the center of the wheel flange; wherein the McPherson strut is tilted from the vertical in a transverse direction toward said vehicle in the range of 5° to 10° and is tilted from the vertical in a rearward direction and in an inwards transverse direction away from the wheel carrier in the range of 5° to 10°, when the suspension is mounted on the vehicle. 3. The wheel suspension according to claim 1 , wherein the pivotal connections of the lower transverse arms are disposed horizontally when the suspension is mounted on the vehicle, wherein a body-side bearing of the forward lower transverse arm in the transverse direction of the motor vehicle is stiffer than in the direction of the longitudinal axis of the McPherson strut. 4. The wheel suspension according to claim 1 , wherein the wheel carrier has first and second opposed sides, wherein the wheel flange is on the first side of the wheel carrier and the first and second pivot points are on the second side of the wheel carrier, wherein the second pivot point is offset rearwardly relative to the first pivot point. 5. The wheel suspension according to claim 4 , wherein the second pivot point is located above the first pivot point. 6. The wheel suspension according to claim 1 , wherein the body-side bearing points and their rubber-metal sleeve joints of the lower transverse arms are aligned essentially horizontally at about the same height. 7. The wheel suspension according to claim 1 , wherein the first pivot point and second pivot point are provided by ball joints. 8. The wheel suspension according to claim 1 , wherein an absorber cylinder of the shock absorber is coupled to the forward lower transverse arm via a support part which is arc shaped with a fork connecting part with interposition of the rubber metal sleeve joint of the forward lower transverse arm between prongs of the fork connecting part in the vicinity of the wheel carrier, an attachment screw attaching the rubber metal sleeve joint of the forward lower transverse arm between the prongs of the fork, wherein an axis of the sleeve joint is aligned as is the attachment screw in the longitudinal direction of the motor vehicle. 9. The wheel suspension according to claim 1 , wherein the front suspension link is arranged such that while the suspension is mounted on the vehicle and the wheel carrier deflects and/or is steered, a center point of the pivotal connection of the McPherson strut on the forward lower transverse arm viewed in a transverse direction of the vehicle is displaced along a line of travel disposed adjacent to the longitudinal centerline of the McPherson strut approximately parallel at an angle between 0 and 5 degrees to the longitudinal centerline axis of the McPherson strut. 10. A wheel suspension for motor vehicles, comprising a wheel carrier comprising a wheel flange; a first lower separate suspension link and a second lower separate suspension link per wheel carrier, wherein the first lower suspension link comprises a forward lower transverse arm pivotally connected to the wheel carrier at a first pivot point located on the wheel carrier and located along an inclined center vertical axis of the wheel carrier, the forward lower transverse arm pivotally connectable to the body of the vehicle, the forward lower transverse arm having a longitudinal centerline set at a forward angle relative to a transverse axis of the vehicle extending through a center of the wheel flange, wherein the forward lower transverse arm is positioned essentially in a transverse direction of the motor vehicle, wherein the second lower suspension link comprises a rear lower transverse arm pivotally connected to the wheel carrier at a second pivot point located on the wheel carrier and pivotally connectable to the body, the rear lower transverse arm having a longitudinal centerline set at a rearward angle relative to the centerline of the forward lower transverse arm, the forward lower arm and the rear lower transverse arm are arranged at a defined angle to each other and are articulated to the body of the motor vehicle and also to the wheel carrier, a McPherson strut which, oriented at a defined angle to a vertical direction, is articulated via a pivot point to the body of the motor vehicle and to the front lower suspension link, such that the strut is pivotally connected to the forward lower arm adjacent to the wheel carrier and connectable to the body, wherein at least the front lower suspension link is arranged in such a way that, while the suspension is mounted on the vehicle when the wheel is deflected and/or steered, the pivot point of the McPherson strut on the suspension link, viewed in a transverse direction of the v