Diverting conveyor with magnetically driven movers

What is claimed is: 1. A conveyor comprising: a conveyor belt including: a plurality of tracks extending across the conveyor belt transverse to the direction of belt travel; a plurality of movers retained in the tracks to move along the tracks across the conveyor belt, the movers having metallic elements and contact faces for engaging conveyed articles; a magnetic field source including a stator providing a magnetic field that interacts with the metallic elements in the movers to propel the movers along the tracks and conveyed articles engaged by the contact faces transversely across the conveyor belt; wherein the stator forms a linear motor with the metallic elements operating as forcers driven by the stator. 2. A conveyor as in claim 1 wherein the metallic elements are electrically conductive and the stator forms a linear induction motor with the metallic elements. 3. A conveyor as in claim 1 wherein the metallic elements are permanent magnets and the stator forms a linear synchronous motor with the metallic elements. 4. A conveyor as in claim 1 wherein the metallic elements are permanent magnets arranged in Halbach arrays and the stator forms a linear synchronous or a brushless dc motor with the metallic elements. 5. A conveyor as in claim 1 wherein the metallic elements are made of a ferromagnetic material combined with a plastic binder and molded to form at least a portion of the movers. 6. A conveyor as in claim 1 wherein the metallic elements are made of a ferromagnetic material on an electrically conductive material. 7. A conveyor as in claim 1 wherein the metallic elements are made of a ferromagnetic material and have a series of teeth and wherein the stator has poles matching the teeth to form the linear motor with the metallic elements. 8. A conveyor as in claim 1 wherein the movers include metal plates. 9. A conveyor as in claim 1 wherein the conveyor belt includes a top conveying surface and wherein the tracks comprise transverse slots within the conveyor belt that open onto the top conveying surface and wherein the metallic elements reside in the slots and wherein the contact faces reside at or above the top conveying surface. 10. A conveyor as in claim 9 wherein the slots have an inverted-T shape and the movers include bases containing the metallic elements and the movers include shanks connected between the bases and the contact faces and wherein the bases are slidably retained in the inverted-T-shaped slots. 11. A conveyor as in claim 1 wherein the metallic elements are disposed in the movers below the contact faces and wherein the magnetic field source is disposed below and proximate to the conveyor belt across a gap. 12. A conveyor as in claim 1 wherein the conveyor belt includes a top conveying surface and wherein the movers include pushers on which the contact faces are formed to push conveyed articles across the top conveying surface in an extended position of the movers and wherein hinges on the movers allow the pushers to fold down in a retracted position to a level at or below the top conveying surface. 13. A conveyor as in claim 12 wherein the contact faces are flush with or below the level of the top conveying surface when the pushers are in the retracted position. 14. A conveyor as in claim 12 comprising two movers in each track and wherein each of the pushers folds down at a respective outside edge of the conveyor belt to allow the other pusher to push conveyed articles off the side edge over the folded-down pusher. 15. A conveyor comprising: a conveyor belt having a top conveying surface and including: a plurality of tracks extending across the conveyor belt transverse to the direction of belt travel; a plurality of movers retained in the tracks to move along the tracks across the conveyor belt, the movers having contact faces for engaging conveyed articles; wherein the movers include pushers on which the contact faces are formed to push conveyed articles across the top conveying surface in an extended position of the movers and joints allowing the pushers to fold down in a retracted position of the movers to a level at or below the level of the top conveying surface. 16. A conveyor as in claim 15 wherein the contact faces are flush with or below the level of the top conveying surface when the pushers are in the retracted position. 17. A conveyor as in claim 15 comprising two movers in each track and wherein each of the pushers folds down at a respective outside edge of the conveyor belt to allow the other pusher to push conveyed articles off the side edge over the folded-down pusher. 18. A conveyor as in claim 15 further comprising a magnetic field source providing a magnetic field that interacts with the movers to propel the movers along the tracks and conveyed articles engaged by the contact faces in the extended position transversely across the conveyor belt. 19. A method for moving articles across the conveying surface of a conveyor, comprising: creating a magnetic field that varies spatially or temporally across the width of a conveyor with a linear stator; coupling the magnetic field to metallic elements in movers mounted in the conveyor to propel the movers across the width of the conveyor with the varying magnetic field; engaging articles on a conveying surface of the conveyor with the movers to move the articles across the width of the conveying surface. 20. The method of claim 19 further comprising lowering the movers to a level at or below the level of the conveying surface at an outside edge of the conveyor.