Automotive latch including bearing to facilitate release effort

We claim: 1. A latch comprising: a housing having a slot for a striker; a ratchet rotationally mounted on the housing and biased for release of the striker from the slot and retaining of the striker in the slot dependent upon an angular position of the ratchet with respect to the housing, the ratchet having a ratchet surface; a pawl rotationally mounted on the housing and biased towards the ratchet, the pawl having a pawl surface; and a bearing cage positioned on a body of the pawl, the bearing cage containing a bearing in a structure allowing rotation of the bearing within the bearing cage during rotation of the ratchet and the pawl, such that during said rotation of the ratchet and the pawl, the rotation of the bearing within the bearing cage is induced by one or more contact regions between an exterior surface of the bearing and at least one of the pawl surface and the ratchet surface adjacently located relative to the exterior surface: wherein the exterior surface of the bearing experiences rolling friction with respect to both the pawl surface as a cam surface and the ratchet surface as a cam surface during rotation of the pawl. 2. The latch of claim 1 , wherein the one or more contact regions are one or more localized contact regions with respect to the exterior surface having a spheroidal shape. 3. The latch of claim 2 , wherein the structure that allows rotation of the bearing within the bearing cage comprising a slot in one or more sidewalls of the bearing cage, and wherein an axis of rotation of the bearing varies in position as the bearing travels along the slot in the one or more sidewalls of the bearing cage. 4. The latch of claim 2 , wherein the spheroidal shape is a sphere. 5. The latch of claim 2 , wherein the bearing is a composite of a spheroid and a cylindroid. 6. The latch of claim 2 , wherein the structure that allows rotation of the bearing within the bearing cage comprises a pair of slots, and wherein the bearing is a spheroid contained between a pair of opposed sidewalls of the bearing cage, the spheroid residing between the slot in each of the pair of opposed sidewalls such that the spheroid is free to rotate along a length of the slots. 7. The latch of claim 1 , wherein the one or more contact regions comprises an elongated contact region with respect to the exterior surface having a cylindroid shape. 8. The latch of claim 1 further comprising a pair of opposed sidewalls of the bearing cage on the pawl, each sidewall of the pair of opposed sidewalls being on an opposite side of a body of the ratchet such that a portion of the body of the ratchet is overlapped by respective portions of the pair of opposed sidewalls during the rotation the pawl and the ratchet. 9. The latch of claim 1 further comprising a pair of sidewalls of the bearing cage on either side of a body of the ratchet such that a portion of the body of the ratchet is overlapped by respective portions of the sidewalls during the rotation of the pawl and the ratchet. 10. The latch of claim 1 further comprising a pair of opposed sidewalls of the bearing cage on the ratchet, each sidewall of the pair of opposed sidewalls being on an opposite side of a body of the pawl such that a portion of the body of the pawl is overlapped by respective portions of the pair of opposed sidewalls during relative movement between the pawl and the ratchet. 11. A latch comprising: a housing having a slot for a striker; a ratchet rotationally mounted on the housing and biased for release of the striker from the slot and retaining of the striker in the slot dependent upon an angular position of the ratchet with respect to the housing, the ratchet having a ratchet surface; a pawl rotationally mounted on the housing and biased towards the ratchet, the pawl having a pawl surface; and a bearing positioned within a structure allowing rotation of the bearing between the pawl surface and the ratchet surface during rotation of the ratchet and the pawl, such that during said rotation of the ratchet and the pawl, the rotation of the bearing is induced by one or more localized contact regions between an exterior surface of the bearing and at least one of the pawl surface and the ratchet surface adjacently located relative to the exterior surface; wherein the exterior surface has a spheroidal shape and the exterior surface of the bearing experiences rolling friction along both the pawl surface and the ratchet surface during rotation of the pawl. 12. The latch of claim 11 , wherein the structure that allows rotation of the bearing comprises a bearing cage connected to the pawl and having a plurality of slots, and wherein an axis of rotation of the bearing is of variable position along the plurality of slots in the bearing cage connected to the pawl. 13. The latch of claim 11 , wherein the spheroidal shape is a sphere. 14. The latch of claim 11 , wherein the bearing is a composite of a spheroid and a cylindroid. 15. The latch of claim 11 wherein the structure allowing rotation of the bearing comprises a bearing cage located on the pawl and having a pair of opposed sidewalls of a bearing cage on the pawl, the bearing cage containing the bearing, each sidewall of the pair of opposed sidewalls being on an opposite side of a body of the ratchet such that a portion of the body of the ratchet is overlapped by respective portions of the pair of opposed sidewalls during the rotation of the pawl and the ratchet. 16. The latch of claim 11 further comprising a pair of opposed sidewalls of a bearing cage on the ratchet, the bearing cage containing the bearing, each sidewall of the pair of opposed sidewalls being on an opposite side of a body of the pawl such that a portion of the body of the pawl overlaps a portion of the pair of opposed sidewalls during relative movement between the pawl and the ratchet. 17. The latch of claim 11 , wherein the structure allowing rotation of the bearing comprises a bearing cage, and wherein the bearing is a spheroid contained between a pair of opposed sidewalls of the bearing cage, the spheroid residing between a slot in each of the pair of opposed sidewalls such that the spheroid is free to rotate along a length of the slots. 18. The latch of claim 17 , wherein the bearing cage is on the ratchet. 19. A latch comprising: a housing having a slot for a striker; a ratchet rotationally mounted on the housing and biased for release of the striker from the slot and retaining of the striker in the slot dependent upon an angular position of the ratchet with respect to the housing, the ratchet having a ratchet surface; a pawl rotationally mounted on the housing and biased towards the ratchet, the pawl positioned at an initial primary latched position when the ratchet retains the striker in the slot, the pawl having a pawl surface; and a bearing cage coupled to the pawl, the bearing cage containing a bearing in a structure allowing rotation of the bearing within the bearing cage, such that wherein as the pawl is rotated about a pawl pivot axis from the initial primary latched position, the bearing is driven by the pawl to induce the rotation of the bearing within the bearing cage at a contact region between an exterior surface of the bearing and the pawl surface adjacently located relative to the exterior surface; wherein the exterior surface of the bearing experiences rolling friction along both the pawl surface and the ratchet surface during rotation of the pawl. 20. The latch of claim 19 , wherein the bearing cage is coupled to the pawl pivot ax