Viscous rotational speed control device

The invention claimed is: 1. A rotational speed control device comprising: a housing containing a viscous fluid; a shaft disposed in the housing and rotatable relative to the housing; a rotor coupled with the shaft for rotation with the shaft relative to the housing in the viscous fluid, wherein the rotor is axially displaceable along the shaft, the rotor including an impeller that is oriented to drive the rotor axially on the shaft in a first direction with rotation of the rotor by the viscous fluid acting on the impeller; and a spring mechanism disposed in the housing and acting on the rotor, the spring mechanism biasing the rotor axially on the shaft in a second direction, opposite from the first direction, wherein a braking torque between the rotor and the housing is varied according to an axial position of the rotor on the shaft. 2. A rotational speed control device according to claim 1 , wherein the rotor comprises a braking section that is cooperable with the housing. 3. A rotational speed control device according to claim 2 , wherein the braking torque is a function of a distance between an interior wall of the housing and the braking section of the rotor, wherein the interior wall includes varying diameters along an axial length of the housing. 4. A rotational speed control device according to claim 3 , wherein the interior wall comprises a first clearance section having a first diameter defining a low-shear/low-brake section and a second clearance section having a second diameter, narrower than the first diameter, defining a high-shear/high-brake section, the second clearance section being axially spaced from the first clearance section. 5. A rotational speed control device according to claim 4 , wherein the interior wall comprises a third clearance section having a third diameter, narrower than the second diameter, defining a high drive section for the impeller. 6. A rotational speed control device according to claim 3 , wherein the braking section of the rotor is part conical-shaped. 7. A rotational speed control device according to claim 6 , wherein the interior wall comprises a first clearance section having a first diameter defining a low-shear/low-brake section and a second clearance section having a tapered diameter that tapers in correspondence with the part conical-shaped braking section of the rotor, the second clearance section defining a high-shear/high-brake section and being axially spaced from the first clearance section. 8. A rotational speed control device according to claim 2 , wherein the rotor is substantially T-shaped in cross section, and wherein a cross portion of the T-shape comprises the braking section. 9. A rotational speed control device according to claim 2 , wherein an interior wall of the housing comprises a shoulder defining a circumferential platform, and wherein the braking torque is a function of a variable shear gap between the braking section of the rotor and the circumferential platform. 10. A rotational speed control device according to claim 2 , wherein the rotor further comprises a circular slot formed in the braking section that is disposed facing the first direction, and wherein the housing comprises a circular ridge in axial alignment with the circular slot, the circular slot and the circular ridge being engageable in a high-shear axial position of the rotor. 11. A rotational speed control device according to claim 1 , wherein an interior wall of the housing comprises a plurality of stepped shoulders along an axial length of the housing defining a corresponding plurality of internal diameters. 12. A rotational speed control device according to claim 1 , wherein the impeller comprises a spiral channel in an exterior surface of the rotor. 13. A rotational speed control device according to claim 11 , wherein the rotor comprises a braking section that is cooperable with the housing, the braking section being defined by the exterior surface of the rotor. 14. A rotational speed control device according to claim 1 , wherein the rotor comprises a plurality of concentric cylinders, and wherein the housing comprises a plurality of circular grooves separated by at least one cylindrical ridge, the cylinders and the grooves being engageable in a nested configuration depending on the axial position of the rotor. 15. A rotational speed control device according to claim 14 , wherein the rotor comprises two concentric cylinders, and wherein the housing comprises two circular grooves. 16. A rotational speed control device according to claim 1 , further comprising a drive control band disposed between the rotor and an interior wall of the housing, the drive control band defining a constant length inside diameter for the impeller across an axial displacement range of the rotor. 17. A rotational speed control device according to claim 1 , wherein the spring mechanism comprises a spring. 18. A rotational speed control device comprising: a housing containing a viscous fluid; a shaft disposed in the housing and rotatable relative to the housing; a rotor rotationally fixed to the shaft for continuous rotation with the shaft relative to the housing in the viscous fluid, wherein the rotor is axially displaceable along the shaft between a low-shear position in which the rotor is subjected to a first shear braking torque and a high-shear position in which the rotor is subjected to a second shear braking torque greater than the first shear braking torque; and a spring mechanism disposed in the housing and biasing the rotor toward the low-shear position. 19. A rotational speed control device according to claim 18 , wherein the rotor comprises an impeller that is configured to drive the rotor axially toward the high-shear position with rotation of the rotor. 20. A rotational speed control device according to claim 18 , wherein a braking torque on the shaft is a function of an axial position of the rotor on the shaft. 21. A rotational speed control device according to claim 18 , wherein the spring mechanism comprises a spring. 22. A rotational speed control device comprising: a housing containing a viscous fluid; a shaft disposed in the housing and rotatable relative to the housing; a rotor coupled with the shaft for rotation with the shaft relative to the housing in the viscous fluid, wherein the rotor is axially displaceable along the shaft between a low-shear position and a high-shear position; and a spring mechanism disposed in the housing and biasing the rotor toward the low-shear position, wherein the rotor comprises an impeller that is configured to drive the rotor axially toward the high-shear position with rotation of the rotor, and wherein an effectiveness of the impeller is dependent on a clearance between an outside diameter of the impeller and an inside diameter of the housing. 23. A rotational speed control device comprising: a housing containing a viscous fluid; a shaft disposed in the housing and rotatable relative to the housing; a rotor coupled with the shaft for rotation with the shaft relative to the housing in the viscous fluid, wherein the rotor is axially displaceable along the shaft between a low-shear position and a high-shear position; and a spring mechanism disposed in the housing and biasing the rotor toward the low-shear position, wherein a braking torque on the shaft is a function of an axial position of the rotor on the shaft, wherein the housing comprises a first inside diameter and a second insid