Brushroll cleaning feature with spaced brushes and friction surfaces to prevent contact

What is claimed: 1. A vacuum cleaner agitator system comprising: a housing; an inlet nozzle through a lower surface of the housing; an agitator chamber in the housing adjacent to and in fluid communication with the inlet nozzle; a rotary agitator comprising: a spindle extending along a longitudinal direction from a first spindle end to a second spindle end, the spindle being mounted to the housing within the agitator chamber, and rotatable about a rotation axis that is parallel with the longitudinal direction, agitating devices arranged between the first spindle end and the second spindle end and projecting from the spindle to a first radial height at which the agitating devices extend through the inlet nozzle when the spindle rotates, and one or more friction surfaces projecting from the spindle to a second radial height that is less than the first radial height and dimensioned such that the one or more friction surfaces do not extend through the inlet nozzle when the spindle rotates; and a cleaning blade comprising a linear contact surface extending along the longitudinal direction, the cleaning blade being mounted to the housing adjacent the spindle and movable between a first position in which the contact surface is spaced from the one or more friction surfaces when the spindle rotates, and a second position in which the contact surface engages the one or more friction surfaces when the spindle rotates; wherein the one or more friction surfaces and the agitating devices are spaced about a circumference of the spindle a sufficient distance to prevent the agitating devices from being pinched between the one or more friction surfaces and the linear contact surface when the cleaning blade is in the second position and the agitator is rotated in at least one direction. 2. The vacuum cleaner agitator system of claim 1 , wherein the agitating devices comprise at least one helical row of bristles extending from a first point proximal to the first spindle end to a second point proximal to the second spindle end. 3. The vacuum cleaner agitator system of claim 2 , wherein the one or more friction surfaces extend continuously from the first point to the second point. 4. The vacuum cleaner agitator system of claim 2 , wherein the linear contact surface extends continuously from the first point to the second point. 5. The vacuum cleaner agitator system of claim 2 , wherein the cleaning blade comprises a metal plate that extends continuously from the first point to the second point. 6. The vacuum cleaner agitator system of claim 1 , wherein the agitating devices comprise two helical rows of bristles extending from the spindle on opposite sides of the rotation axis, and the one or more friction surfaces comprise two helical protrusions extending from the spindle on opposite sides of the rotation axis, each friction surface being circumferentially spaced between the two helical rows of bristles. 7. The vacuum cleaner agitator system of claim 1 , wherein the one or more friction surfaces comprise one or more helical protrusions. 8. The vacuum cleaner agitator system of claim 1 , wherein: the rotary agitator further comprises a pulley located between the first spindle end and the second spindle end; the agitating devices are arranged between the first spindle end and the pulley; and the one or more friction surfaces extend continuously between the first spindle end and the pulley. 9. The vacuum cleaner agitator system of claim 8 , wherein the linear contact surface extends continuously between the first spindle end and the pulley. 10. The vacuum cleaner agitator system of claim 1 , wherein the linear contact surface continuously engages at least one point on the one or more friction surfaces throughout a complete rotation of the rotary agitator when the cleaning blade is in the second position. 11. The vacuum cleaner agitator system of claim 1 , wherein the linear contact surface is spaced from the rotation axis by a distance greater than the first radial height when the cleaning blade is in the first position. 12. The vacuum cleaner agitator system of claim 1 , wherein the cleaning blade contacts the one or more friction surfaces when the cleaning blade is in the second position. 13. The vacuum cleaner agitator system of claim 1 , wherein each of the one or more friction surfaces is located around a circumference of the spindle about 40 degrees in advance of a respective agitating device. 14. The vacuum cleaner agitator system of claim 1 , wherein the second radial height is about 6 millimeters less than the first radial height. 15. A vacuum cleaner agitator system comprising: a housing; an inlet nozzle through a lower surface of the housing; an agitator chamber in the housing adjacent to and in fluid communication with the inlet nozzle; a rotary agitator comprising: a spindle extending along a longitudinal direction from a first spindle end to a second spindle end, the spindle being mounted to the housing within the agitator chamber, and rotatable about a rotation axis that is parallel with the longitudinal direction, agitating devices arranged between the first spindle end and the second spindle end and projecting from the spindle to a first radial height at which the agitating devices extend through the inlet nozzle when the spindle rotates, and one or more friction surfaces projecting from the spindle to a second radial height that is less than the first radial height; and a cleaning blade comprising a linear contact surface extending along the longitudinal direction, the cleaning blade being mounted to the housing adjacent the spindle and movable between a first position in which the contact surface is spaced from the one or more friction surfaces when the spindle rotates, and a second position in which the contact surface engages the one or more friction surfaces when the spindle rotates; wherein the one or more friction surfaces and the agitating devices are spaced about a circumference of the spindle by a circumferential distance, and a radial distance between the first radial height and a surface of the spindle adjacent each agitating device is less than the circumferential distance such that the agitating devices cannot contact the one or more friction surfaces when the agitator is rotated in at least one direction. 16. The vacuum cleaner agitator system of claim 15 , wherein the agitating devices comprise bristles. 17. The vacuum cleaner agitator system of claim 15 , wherein the agitating devices comprise flexible flaps. 18. The vacuum cleaner agitator system of claim 15 , wherein the second radial height is dimensioned such that the one or more friction surfaces do not extend through the inlet nozzle when the spindle rotates. 19. The vacuum cleaner agitator system of claim 15 , wherein the agitating devices extend in at least one helical row from a first point proximal to the first spindle end to a second point proximal to the second spindle end. 20. The vacuum cleaner agitator system of claim 15 , wherein the linear contact surface comprises an edge of a metal plate that continuously engages at least one point on the one or more friction surfaces throughout a complete rotation of the rotary agitator when the cleaning blade is in the second position.