Disc recliner mechanism for use in an automotive vehicle

What is claimed is: 1. A disc recliner mechanism for use in an automotive vehicle, the disc recliner mechanism comprising: a guide plate; a tooth plate with an outer lip extending circumferentially therearound and having a plurality of teeth extending radially inward therefrom, the outer lip having an axial outer surface axially facing and rotatably engaging the guide plate; at least one pawl mounted between the guide plate and tooth plate, the pawl including a toothed outer edge and a radially inner cam surface; and a cam rotatably mounted between the guide plate and the tooth plate, the cam including a radially outer cam profile for selectively engaging the radially inner cam surface of the pawl, wherein rotation of the cam moves the pawl between an extended position in which the pawl engages the tooth plate to lock the disc recliner mechanism, and a retracted position in which the pawl disengages the tooth plate to unlock the disc recliner mechanism; and wherein the outer lip of the tooth plate includes a channel recessed in the axial outer surface for retaining lubricant and reducing rotational friction between the tooth plate and the guide plate. 2. The disc recliner mechanism of claim 1 further comprising at least one cam lobe disposed on the radially outer cam profile and at least one cam follower disposed on the radially inner cam surface. 3. The disc recliner mechanism of claim 2 wherein the cam lobe includes an engagement surface for selectively engaging the radially inner cam surface of the pawl. 4. The disc recliner mechanism of claim 3 wherein the engagement surface of the cam lobe includes a notch to create a gap between the cam lobe and the cam follower for reducing friction therebetween when the cam lobe selectively engages the cam follower. 5. The disc recliner mechanism of claim 4 wherein the tooth plate is rotatably coupled to the guide plate and rotation of the cam in a first direction moves the pawl to the extended position to prevent rotation between the tooth plate and the guide plate, and rotation of the cam in a second direction opposite the first direction moves the pawl to the retracted position to allow rotation between the tooth plate and the guide plate. 6. The disc recliner of claim 5 wherein rotation of the cam in the first direction causes the cam lobe to engage the cam follower, thereby moving the pawl to the extended position in which the pawl engages the tooth plate to lock the disc recliner mechanism and prevent rotation between the tooth plate and the guide plate. 7. The disc recliner of claim 6 further comprising a pawl retractor plate operatively mounted adjacent the cam, wherein rotation of the cam simultaneously rotates the pawl retractor plate. 8. The disc recliner mechanism of claim 7 wherein rotation of the pawl retractor plate in the second direction due to rotation of the cam in the second direction moves the pawl radially inward to the retracted position in which the pawl disengages the tooth plate to unlock the disc recliner mechanism and allow rotation between the tooth plate and the guide plate. 9. The disc recliner mechanism of claim 8 wherein the pawl further includes an axially extending pip for engaging the pawl retractor plate when the pawl retractor plate is rotated in the second direction, thereby moving the pawl radially inward to the retracted position. 10. The disc recliner mechanism of claim 9 wherein the guide plate further includes at least one pair of axially extending guides between which the pawl is mounted. 11. The disc recliner mechanism of claim 10 further comprising a cam shaft operatively coupled to the cam. 12. The disc recliner mechanism of claim 11 further comprising a spring operatively coupled to the cam shaft to rotatably bias the cam in the first direction. 13. The disc recliner mechanism of claim 11 further comprising a spring operatively coupled to the cam to rotatably bias the cam in the first direction. 14. The disc recliner mechanism of claim 12 further comprising a retaining ring for rotatably coupling the guide plate and the tooth plate. 15. The disc recliner mechanism of claim 14 wherein the retaining ring includes a radially outer planar edge and a radially inner planar edge with a plurality of axially extending protrusions. 16. The disc recliner mechanism of claim 15 wherein the radially outer planar edge of the retaining ring is attached to the guide plate by an axial weld, and the axially extending protrusions engage the tooth plate to rotatably couple the guide plate and the tooth plate and to prevent axial separation of the guide plate and the tooth plate. 17. The disc recliner mechanism of claim 16 wherein the guide plate includes an outer lip extending circumferentially therearound, the outer lip including opposite radially outer and radially inner edges. 18. The disc recliner mechanism of claim 17 wherein the outer lip of the tooth plate also includes opposite radially outer and radially inner edges, the plurality of teeth extending from the radially inner edge. 19. The disc recliner mechanism of claim 18 wherein the outer lip of the tooth plate is disposed between the outer lip of the guide plate and the toothed outer edge of the pawl such that the radially outer edge of the tooth plate faces the radially inner edge of the guide plate. 20. A disc recliner mechanism for use in an automotive vehicle, the disc recliner mechanism comprising: a guide plate; a tooth plate with an outer lip extending circumferentially therearound, the outer lip having a plurality of teeth extending radially inward therefrom; at least one pawl mounted between the guide plate and tooth plate, the pawl including a toothed outer edge and a radially inner cam surface with at least one cam follower; and a cam rotatably mounted between the guide plate and the tooth plate, the cam including a radially outer cam profile with at least one cam lobe, the cam lobe having an engagement surface for selectively engaging the radially inner cam surface of the pawl, wherein rotation of the cam moves the pawl between an extended position in which the pawl engages the tooth plate to lock the disc recliner mechanism, and a retracted position in which the pawl disengages the tooth plate to unlock the disc recliner mechanism; and wherein the engagement surface of the cam lobe includes a notch to create a gap between the cam lobe and the cam follower for reducing friction therebetween when the cam lobe selectively engages the cam follower. 21. The disc recliner mechanism of claim 20 wherein the outer lip of the tooth plate rotatably engages the guide plate. 22. The disc recliner mechanism of claim 21 wherein the outer lip of the tooth plate includes a channel for retaining lubricant and reducing rotational friction between the tooth plate and the guide plate. 23. The disc recliner mechanism of claim 22 wherein the tooth plate is rotatably coupled to the guide plate and rotation of the cam in a first direction moves the pawl to the extended position to prevent rotation between the tooth plate and the guide plate, and rotation of the cam in a second direction opposite the first direction moves the pawl to the retracted position to allow rotation between the tooth plate and the guide plate. 24. The disc recliner mechanism of claim 23 wherein rotation of the cam in the first direction causes the cam lobe to engage the cam follower, thereby moving the pawl to the extended posi