Blower assembly for a vehicle

What is claimed: 1. A blower assembly, comprising: a housing having a scrolled wall; a motor having an output shaft extending within said housing; an impeller positioned within said housing and mounted to said output shaft for creating an airflow along an airflow path within said housing; an airflow outlet; and a scroll cut-off positioned between said scrolled wall and said air flow outlet, said scroll cut-off rotatable between a first position forming a substantially continuous wall with said scrolled wall and said air flow outlet and defining an air gap, and a second position wherein the air gap is increased; and an actuator for rotating said scroll cut-off around a substantially central axis extending through said scroll cut-off from the first position to a second position for reducing the airflow. 2. The blower assembly of claim 1 , wherein a shape of said scroll cut-off is selected from an oval, a semi-oval, an oblong, a semi-oblong, an ovate, a semi-ovate, an ovoid, a semi-ovoid, an ellipse and a semi-ellipse. 3. The blower assembly of claim 2 , wherein said scroll cut-off and said impeller define an air gap having a minimum distance in the first position. 4. The blower assembly of claim 3 , wherein the air gap defined by said scroll cut-off and said impeller has a maximum distance in the second position. 5. The blower assembly of claim 1 , wherein the shape of said scroll cut-off is selected from a partial piece of an oval, a semi-oval, an oblong, a semi-oblong, an ovate, a semi-ovate, an ovoid, a semi-ovoid, an ellipse and a semi-ellipse. 6. The blower assembly of claim 5 , wherein said scroll cut-off and said impeller define an air gap having a minimum distance in the first position. 7. The blower assembly of claim 6 , wherein the air gap defined by said scroll cut-off and said impeller has a maximum distance in the second position. 8. A vehicle incorporating the blower assembly of claim 1 . 9. A blower assembly, comprising: a housing having a scrolled wall; a motor having an output shaft extending within said housing; an impeller positioned within said housing and mounted to said output shaft for creating an airflow along an airflow path within said housing; an airflow outlet; a rotatable scroll cut-off positioned between said scrolled wall and said air flow outlet; and an actuator for rotating said scroll cut-off around a substantially central axis extending through said scroll cut-off between a first position forming a substantially continuous wall with said scrolled wall and said air flow outlet and defining an air gap, and a second position forming a substantially continuous wall with said scrolled wall and said air flow outlet and wherein the defined air gap is increased from the first position to the second position for reducing the airflow. 10. The blower assembly of claim 9 , wherein a shape of said rotatable scroll cut-off is selected from an oval, a semi-oval, an oblong, a semi-oblong, an ovate, a semi-ovate, an ovoid, a semi-ovoid, an ellipse and a semi-ellipse. 11. The blower assembly of claim 10 , wherein said rotatable scroll cut-off and said impeller define an air gap having a minimum distance in the first position. 12. The blower assembly of claim 11 , wherein the air gap defined by said rotatable scroll cut-off and said impeller has a maximum distance in the second position. 13. The blower assembly of claim 9 , wherein the shape of said rotatable scroll cut-off is selected from a portion of an oval, a semi-oval, an oblong, a semi-oblong, an ovate, a semi-ovate, an ovoid, a semi-ovoid, an ellipse and a semi-ellipse. 14. The blower assembly of claim 13 , wherein said rotatable scroll cut-off and said impeller define an air gap having a minimum distance in the first position. 15. The blower assembly of claim 14 , wherein the air gap defined by said rotatable scroll cut-off and said impeller has a maximum distance in the second position. 16. The blower assembly of claim 9 , wherein said scroll cut-off rotates about its central axis between the first and second positions. 17. A method of changing a rate of airflow in a blower assembly comprising the steps of: creating an airflow using an impeller positioned within a housing having a scrolled wall; establishing an air gap between a scroll cut-off in a first position and said impeller, said air gap determining the rate of the airflow; and adjusting the air gap to affect the rate of airflow by rotating said scroll cut-off around a substantially central axis extending through said scroll cut-off from the first position to a second position. 18. The method of changing a rate of airflow in a blower assembly of claim 17 , wherein said scroll cut-off forms a substantially continuous surface with said scrolled wall and an air flow outlet in the first position such that the established air gap is minimized, and a substantially continuous surface with said scrolled wall and said air flow outlet in the second position such that the established air gap is maximized.