Suspension device for an in-wheel motor driven wheel

The invention claimed is: 1. A suspension device for an in-wheel motor driven wheel in which a wheel driven by an in-wheel motor unit is suspended on a vehicle body via a suspension structure member and a shock absorber, the suspension structure member comprising: a suspension arm disposed in the vehicle upper position higher than an axle of the wheel and pivotally supporting the wheel with respect to the vehicle body at the vehicle upper position higher than the axle; a lower suspension arm disposed in the vehicle bottom position lower than the axle of the wheel and pivotally supporting the wheel with respect to the vehicle body in the vehicle bottom position lower than the axle; and a link member having an arm connecting portion pivotally connecting a wheel side end portion of the upper suspension arm in the vertical direction, a wheel supporting portion pivotally supporting the wheel in a steering direction, and a shock absorber connecting portion connected to the lower end of the shock absorber such that the in-wheel motor unit is disposed between the shock absorber and the wheel, the shock absorber connecting portion being disposed in the vehicle bottom position lower than an upper end portion of the in-wheel motor unit. 2. The suspension device for the in-wheel motor driven wheel as claimed in claim 1 , wherein the wheel includes a rim to support the tire and a wheel disc connected to the in-wheel motor unit, and the wheel supporting portion is disposed in a position away from the wheel inner side area enclosed by the rim and the wheel disc. 3. The suspension device for the in-wheel motor driven wheel as claimed in claim 1 , wherein the shock absorber connecting portion is disposed in a position between the vehicle body and the vehicle body-side end portion of the in-wheel motor unit. 4. The suspension device for the in-wheel motor driven wheel as claimed in claim 1 , wherein the shock absorber connecting portion is disposed in the vehicle rearward position of the rear end portion of the in-wheel motor unit. 5. The suspension device for the in-wheel motor driven wheel as claimed in claim 1 , wherein he in-wheel motor unit includes a rotating electrical machine, an output shaft of the rotating machine being offset with respect to the axle of the wheel, and the wheel supporting portion is disposed in the vehicle forward position of the shock absorber connecting portion, in the lateral outside position, and in the vehicle rearward position of the output shaft of the rotating machine. 6. The suspension device for the in-wheel motor driven wheel as claimed in claim 5 , wherein a vehicle longitudinal dimension between the shock absorber connecting portion and the wheel supporting portion is shorter than a lateral dimension between the shock absorber connecting portion and the wheel supporting portion. 7. The suspension device for the in-wheel motor driven wheel as claimed in claim 1 , wherein the wheel supporting portion is disposed in a lateral outside position of the shock absorber connecting portion with respect to the vehicle longitudinal centerline and in a vehicle bottom position lower than the arm connecting portion. 8. The suspension device for the in-wheel motor driven wheel as claimed in claim 7 , wherein the wheel supporting portion is disposed in the vehicle upper position higher than the axle of the wheel, and a kingpin axis defined by the wheel supporting portion and a supporting position at which the wheel is supported by the lower suspension arm is positioned such that a scrub radius will be zero. 9. The suspension device for the in-wheel motor driven wheel as claimed in claim 2 , wherein the shock absorber connecting portion is disposed in a position between the vehicle body and the vehicle body-side end portion of the in-wheel motor unit. 10. The suspension device for the in-wheel motor driven wheel as claimed in claim 2 , wherein the shock absorber connecting portion is disposed in the vehicle rearward position of the rear end portion of the in-wheel motor unit. 11. The suspension device for the in-wheel motor driven wheel as claimed in claim 3 , wherein the shock absorber connecting portion is disposed in the vehicle rearward position of the rear end portion of the in-wheel motor unit. 12. The suspension device for the in-wheel motor driven wheel as claimed in claim 2 , wherein the in-wheel motor unit includes a rotating electrical machine, the output shaft of the rotating machine being offset with respect to the axle of the wheel, and the wheel supporting portion is disposed in the vehicle forward position of the shock absorber connecting portion, in the lateral outside position, and in the vehicle rearward position of the output shaft of the rotating machine. 13. The suspension device for the in-wheel motor driven wheel as claimed in claim 3 , wherein the in-wheel motor unit includes a rotating electrical machine, the output shaft of the rotating machine being offset with respect to the axle of the wheel, and the wheel supporting portion is disposed in the vehicle forward position of the shock absorber connecting portion, in the lateral outside position, and in the vehicle rearward position of the output shaft of the rotating machine. 14. The suspension device for the in-wheel motor driven wheel as claimed in claim 4 , wherein the in-wheel motor unit includes a rotating electrical machine, the output shaft of the rotating machine being offset with respect to the axle of the wheel, and the wheel supporting portion is disposed in the vehicle forward position of the shock absorber connecting portion, in the lateral outside position, and in the vehicle rearward position of the output shaft of the rotating machine. 15. The suspension device for the in-wheel motor driven wheel as claimed in claim 2 , wherein the wheel supporting portion is disposed in a lateral outside position of the shock absorber connecting portion with respect to the vehicle longitudinal centerline and in a vehicle bottom position lower than the arm connecting portion. 16. The suspension device for the in-wheel motor driven wheel as claimed in claim 3 , wherein the wheel supporting portion is disposed in a lateral outside position of the shock absorber connecting portion with respect to the vehicle longitudinal centerline and in a vehicle bottom position lower than the arm connecting portion. 17. The suspension device for the in-wheel motor driven wheel as claimed in claim 4 , wherein the wheel supporting portion is disposed in a lateral outside position of the shock absorber connecting portion with respect to the vehicle longitudinal centerline and in a vehicle bottom position lower than the arm connecting portion. 18. The suspension device for the in-wheel motor driven wheel as claimed in claim 5 , wherein the wheel supporting portion is disposed in a lateral outside position of the shock absorber connecting portion with respect to the vehicle longitudinal centerline and in a vehicle bottom position lower than the arm connecting portion. 19. The suspension device for the in-wheel motor driven wheel as claimed in claim 6 , wherein the wheel supporting portion is disposed in a lateral outside position of the shock absorber connecting portion with respect to the vehicle longitudinal centerline and in a vehicle bottom position lower than the arm connecting portion. 20. The suspension device for the in-wheel motor driven wheel as claimed in claim 1 , wherein the shock absorber connecting portion is