Easy-entry seat-back release system for vehicle seat

The invention claimed is: 1. A seatback-motion controller for mounting on a vehicle seat including a seat base and a seat back mounted for pivotable movement relative to the seat base between an upright use position and a forward-leaning easy-entry position, the seatback-motion controller comprising: a seat-back lock adapted for locking the seat back to the seat base in the upright use position, the seat-back lock including a latch comprising a pivotable swing arm, a motion-blocking latch pin mounted on the swing arm to pivot therewith, and a latch-return spring configured to apply a force to the swing arm to urge the motion-blocking latch pin into a pin-receiving slot formed in a sector plate included in the seat base to lock the seat back in the upright use position; and a seat-back release manager comprising a friction cam designed to cooperate with neighboring components to manage ergonomic characteristics associated with operation of the seatback-motion controller, the friction cam being arranged to engage directly with the sector plate included in the seat base to block pivotable movement of the seat back from the upright use position to the forward-leaning easy-entry position and being separated from and independent of the seat-back lock, wherein the motion-blocking latch pin has a withdrawn position located outside of the pin-receiving slot to disable the seat-back lock and free the seat back for pivotable movement from the upright use position to the forward-leaning easy-entry position. 2. The seatback-motion controller of claim 1 , wherein the friction cam blocks pivotable movement of the seat back from the upright use position to the forward-leaning easy-entry position even when the motion-blocking latch pin is in the withdrawn position. 3. The seatback-motion controller of claim 1 , wherein the swing arm is arranged to pivot about a latch pivot axis to move the motion-blocking latch pin from a locked position to a withdrawn position and to engage the friction cam to cause the friction cam to move from an engaged position to a disengaged position. 4. The seatback-motion controller of claim 3 , wherein the seatback-release manager includes a cam-pivot post aligned with the latch pivot axis to support the friction cam for pivotable movement about the latch pivot axis between the engaged and disengaged positions. 5. The seatback-motion controller of claim 3 , wherein the friction cam includes a wedge formed to include a base-contact surface arranged to engage a cam-contact surface included in the seat base when the friction cam is moved to the engaged position and a finger cantilevered to the wedge and formed to include a downwardly facing latch contact surface arranged to be engaged by the motion-blocking latch pin to cause the friction cam to pivot from the engaged position to the disengaged position during pivoting movement of the swing arm about the latch pivot axis associated with movement of the motion-blocking latch pin from the locked position to the withdrawn position to withdraw the motion-blocking latch pin from the pin-receiving slot. 6. The seatback-motion controller of claim 1 , wherein the seat-back release manager further includes a cam-return spring configured to yieldably apply a torque to the friction cam to maintain frictional contact between the friction cam and the seat base until the motion-blocking latch pin has been moved out of the pin-receiving slot to engage the friction cam and pivot the friction cam. 7. The seatback-motion controller of claim 1 , further comprising a latch actuator coupled to the swing arm and configured to apply an external force to the swing arm to cause the swing arm to pivot to move the motion-blocking latch pin from the pin-receiving slot to a position outside the pin-receiving slot and to engage the friction cam to cause the friction cam to pivot and move from an engaged position to a disengaged position. 8. The seatback-motion controller of claim 1 , wherein the swing arm is an L-shaped member and includes a short segment and a relatively longer long segment coupled to the short segment, the latch further includes a swing-arm pivot post coupled to the swing arm at the intersection of the short and long segments to support the swing arm for pivotable movement about a latch pivot axis, the motion-blocking latch pin is coupled to a free end of the long segment, and the latch-return spring is coupled to a free end of the short segment. 9. The seatback-motion controller of claim 8 , further comprising a latch actuator coupled to the long segment of the swing arm and configured to apply an external force to the long segment of the swing arm to cause the swing arm to pivot about the latch pivot axis to move the motion-blocking latch pin from the pin-receiving slot to a position outside the pin-receiving slot. 10. The seatback-motion controller of claim 9 , wherein the friction cam includes a wedge formed at an inner end thereof to mate with a cam-pivot post of the seatback-release manager, and the friction cam also includes a finger cantilevered to an outer end of the wedge and formed to include a downwardly facing latch contact surface arranged to be engaged by the motion-blocking latch pin to cause the friction cam to pivot from an engaged position to a disengaged position during pivoting movement of the swing arm associated with movement of the motion-blocking latch pin to withdraw the motion-blocking latch pin from the pin-receiving slot. 11. The seatback-motion controller of claim 1 , wherein the friction cam includes a base-contact surface arranged to engage a cam-contact surface of the seat base when the friction cam is in an engaged position. 12. The seatback-motion controller of claim 11 , wherein the base-contact surface and the cam-contact surface are curved and have radiuses of curvature. 13. The seatback-motion controller of claim 1 , wherein the friction cam is made of a press and sintered powdered material. 14. The seatback-motion controller of claim 1 , wherein the seat-back release manager further includes a cam-return spring configured to yieldably apply a torque to maintain the friction cam in frictional contact with the seat base without affecting movement of the motion-blocking latch pin from the receiving slot. 15. The seatback-motion controller of claim 1 , further comprising a foundation adapted to be coupled to the seat back to pivot therewith relative to the seat base about a seat-back pivot axis, wherein the seat-back lock is coupled to the foundation to move therewith during pivoting movement of the seat back relative to the seat base. 16. The seatback-motion controller of claim 15 , wherein the swing arm is arranged to pivot relative to the foundation about a latch pivot axis to move the motion-blocking latch pin relative to the foundation between a locked position in the pin-receiving slot and a withdrawn position located outside of the pin-receiving slot. 17. The seatback-motion controller of claim 16 , wherein the seat-back release manager includes a cam-pivot post coupled to the foundation to move therewith, and the friction cam is mounted on the cam-pivot post for pivotable movement between an engaged position establishing frictional contact with the seat base to block pivotable movement of the seat back from the upright use position to the forward-leaning easy-entry position even when the motion-blocking latch pin is in the withdrawn position and a disengaged position disengaging the seat base to free the seat back for pivotable movement from the upright use position to the forward-leaning easy-entry position.