Ball bearing application for seat recliner disk mechanisms

What is claimed is: 1. A vehicle seat comprising: a seat base and a seat back rotationally connected at a pivot, the seat base rotatable about the pivot between a plurality of rotational positions relative to the seat base; a recliner disk positioned at the pivot, wherein the recliner disk includes a guide plate coupled to the seat base and a tooth plate coupled to the seat back; and a plurality of bearings positioned between the guide and tooth plates, the plurality of bearings and the guide and tooth plates being free of an internal braking mechanism, wherein engagement of the guide and tooth plates with the plurality of bearings provide for substantially free rotational movement between the plurality of rotational positions, the plurality of bearings fixing a relative axial position of the guide plate relative to the tooth plate; wherein; the guide plate includes a first groove within which the plurality of bearings are disposed, wherein the first groove defines a track within which the plurality of bearings travel as the seat back is rotated between the plurality of rotational positions; and the tooth plate includes a second groove that opposes the first groove, wherein the first and second grooves define a bearing channel within which the bearings are disposed to secure the guide and tooth plates in a fixed axial position relative to one another. 2. The vehicle seat of claim 1 , further comprising: a guide ring disposed proximate the bearing channel, wherein the guide ring positions each of the plurality of bearings within the bearing channel. 3. The vehicle seat of claim 2 , wherein the guide ring includes a plurality of bearing receptacles, wherein each bearing receptacle of the plurality of bearing receptacles receives a corresponding bearing of the plurality of bearings, wherein the corresponding bearing is configured to slidably engage the bearing receptacle to allow the bearing to rotate within the bearing receptacle. 4. The vehicle seat of claim 2 , wherein rotation of the tooth plate at a first rotational speed results in the plurality of bearings and the guide ring to rotate relative to the bearing channel at a second rotational speed that is less than the first rotational speed. 5. The vehicle seat of claim 1 , wherein the guide plate extends over at least a portion of the tooth plate, wherein the first groove is defined within an inward-facing surface of the guide plate and wherein the second groove is defined within an outward-facing surface of the tooth plate. 6. The vehicle seat of claim 2 , wherein the plurality of bearings are equally spaced within the bearing channel. 7. A vehicle seat comprising: a seat back rotationally operable about a rotational axis relative to a seat base; a guide plate of the seat base that rotates about the rotational axis relative to a tooth plate of the seat back; and internal bearings positioned within a bearing channel defined between first and second grooves of the guide and tooth plates, respectively, to secure an axial position of the guide plate relative to the tooth plate. 8. The vehicle seat of claim 7 , wherein the second groove opposes the first groove to define the bearing channel within which the internal bearings are disposed to secure the guide and tooth plates in a fixed axial position relative to one another. 9. The vehicle seat of claim 8 , further comprising: a guide ring disposed between the guide and tooth plates, wherein the guide ring positions each of the internal bearings within the bearing channel. 10. The vehicle seat of claim 9 , wherein the guide ring includes a plurality of bearing receptacles, wherein each bearing receptacle of the plurality of bearing receptacles receives a corresponding bearing of the plurality of bearings, wherein the corresponding bearing is configured to slidably engage the bearing receptacle to allow the bearing to rotate within the bearing receptacle. 11. The vehicle seat of claim 9 , wherein rotation of the tooth plate at a first rotational speed results in the plurality of bearings and the guide ring to rotate relative to the bearing channel at a second rotational speed that is less than the first rotational speed. 12. The vehicle seat of claim 8 , wherein the guide plate extends over at least a portion of the tooth plate, wherein the first groove is defined within an inward-facing surface of the guide plate and wherein the second groove is defined within an outward-facing surface of the tooth plate. 13. The vehicle seat of claim 8 , wherein the internal bearings are free of a braking mechanism. 14. A vehicle seat comprising: guide and tooth plates coupled to a seat base and a seat back, respectively, wherein the tooth plate and the seat back rotate about an axis; and bearings positioned between opposing first and second grooves of the guide and tooth plates, respectively, wherein the bearings provide for substantially unimpeded rotation of the tooth plate relative to the guide plate that is free of lateral deviation relative to the axis. 15. The vehicle seat of claim 14 , wherein the guide plate, seat back and bearings rotationally operate about a rotational axis of the tooth plate. 16. The vehicle seat of claim 14 , wherein the first and second grooves define a bearing channel within which the bearings are disposed to secure the guide and tooth plates in a fixed axial position relative to one another and relative to the axis. 17. The vehicle seat of claim 16 , further comprising: a guide ring disposed between the guide and tooth plates, wherein the guide ring positions each of the plurality of bearings within the bearing channel. 18. The vehicle seat of claim 17 , wherein the guide ring includes a plurality of bearing receptacles, wherein each bearing receptacle of the plurality of bearing receptacles receives a corresponding bearing of the plurality of bearings, wherein the corresponding bearing is configured to slidably engage the bearing receptacle to allow the bearing to rotate within the bearing receptacle.