Electric vehicle drum brake dust evacuation and cooling concept

The invention claimed is: 1. A wheel end motor and brake assembly for a vehicle comprising: a support securely attachable to a vehicle axle element and having a pair of brake shoes pivotally mountable thereon, a wheel spindle interconnected with one end of the axle element, a wheel hub rotatable around the spindle, an electric motor unit disposed between the one end of the axle element and the spindle to produce rotation of the hub relative to the axle element, a brake drum securable to the hub for rotation together with the hub relative to the spindle by way of the electric motor unit, the brake drum including a circumferential perimeter wall overlying the brake shoes, a fan rotor interconnected with the circumferential perimeter wall of the brake drum for rotation together with the drum and the wheel hub relative to the spindle, and a perforated dust shield attachable to the support on an axial side of the brake shoes opposite the fan rotor, wherein, during vehicle operation, air drawn by blades on the fan rotor through openings in the wall of the brake drum carries debris out through perforations in the dust shield and away from the wheel end motor and brake assembly, and the fan rotor is interconnected with the circumferential perimeter wall by keys received in slots. 2. The assembly of claim 1 , wherein the dust shield forms a void permitting passage of brake actuator structure therethrough. 3. The assembly of claim 1 , wherein the keys are distributed around an inner surface of the circumferential perimeter wall of the brake drum. 4. The assembly of claim 3 , wherein the fan rotor includes a substantially U-shaped web portion interconnected by the keys with the circumferential perimeter wall of the brake drum. 5. The assembly of claim 1 , wherein the blades on the fan rotor are provided on a fan impeller detachably secured to the fan rotor. 6. The assembly of claim 1 , wherein the dust shield is perforated by way of slots extending radially with respect to the dust shield. 7. The assembly of claim 1 , wherein the brake drum includes a rib on the circumferential perimeter wall, the rib extending around an end of the drum opposite a mounting flange on the drum used to attach the drum and the wheel hub together. 8. The assembly of claim 1 , wherein the slots are distributed around an outer circumference of a rim located at one axial end of the fan rotor. 9. A vehicle including a wheel end motor and brake assembly, the assembly comprising: a support securely attachable to a vehicle axle element and having a pair of brake shoes pivotally mountable thereon, a wheel spindle interconnected with one end of the axle element, a wheel hub rotatable around the spindle, an electric motor unit disposed between the one end of the axle element and the spindle to produce rotation of the hub relative to the axle element, a brake drum securable to the hub for rotation together with the hub relative to the spindle by way of the electric motor unit, the brake drum including a circumferential perimeter wall overlying the brake shoes, a fan rotor interconnected with the circumferential perimeter wall of the brake drum for rotation together with the drum and the wheel hub relative to the spindle, and a perforated dust shield attachable to the support on an axial side of the brake shoes opposite the fan rotor, wherein, during vehicle operation, air drawn by blades on the fan rotor through openings in a wall of the brake drum carries debris out through perforations in the dust shield and away from the wheel end motor and brake assembly of the vehicle, and the fan rotor is interconnected with the circumferential perimeter wall by keys received in slots. 10. The vehicle according to claim 9 , wherein the dust shield forms a void permitting passage of brake actuator structure therethrough. 11. The vehicle of claim 10 , wherein the blades on the fan rotor are provided on a fan impeller detachably secured to the fan rotor. 12. The vehicle of claim 10 , wherein the dust shield is perforated by way of slots extending radially with respect to the dust shield. 13. The vehicle of claim 10 , wherein the brake drum includes a rib on the circumferential perimeter wall, the rib extending around an end of the drum opposite a mounting flange on the drum used to attach the drum and the wheel hub together. 14. The vehicle of claim 9 , wherein the keys are distributed around an inner surface of the circumferential perimeter wall of the brake drum. 15. The vehicle of claim 14 , wherein the fan rotor includes a substantially U-shaped web portion interconnected by the keys with the circumferential perimeter wall of the brake drum. 16. The vehicle of claim 9 , wherein the slots are distributed around an outer circumference of a rim located at one axial end of the fan rotor. 17. A process of ventilating a wheel end motor and brake assembly for a vehicle, comprising: providing a support securely attachable to a vehicle axle element and a pair of brake shoes pivotally mountable thereon, a wheel spindle interconnected with one end of the axle element, a wheel hub rotatable around the spindle, an electric motor unit disposed between the one end of the axle element and the spindle to produce rotation of the hub relative to the axle element, and a brake drum securable to the hub for rotation together with the hub relative to the spindle by way of the electric motor unit, the brake drum including a circumferential perimeter wall overlying the brake shoes, interconnecting a fan rotor with the circumferential perimeter wall of the brake drum for rotation together with the drum and the wheel hub relative to the spindle, attaching a perforated dust shield to the support on an axial side of the brake shoes opposite the fan rotor, and introducing air into the assembly through openings in the wall of the brake drum with blades on the fan rotor during vehicle operation, thereby carrying debris away from the wheel end motor and brake assembly through perforations in the dust shield with the air, wherein the fan rotor is interconnected with the circumferential perimeter wall by keys received in slots. 18. The process of claim 17 , wherein the dust shield forms a void permitting passage of brake actuator structure therethrough. 19. The process of claim 17 , wherein the keys are distributed around an inner surface of the circumferential perimeter wall of the brake drum. 20. The process of claim 19 , wherein the fan rotor includes a substantially U-shaped web portion interconnected by the keys with the circumferential perimeter wall of the brake drum.