Divert chutes in sorting-conveyor systems

What is claimed is: 1. A divert chute comprising: an upper end for positioning adjacent a side of a sorting conveyor conveying parcels in a conveying direction; a lower end defining the length of the chute with the upper end; an upstream side and a downstream side spaced apart from the upstream side in the conveying direction and defining the width of the chute; a slide region extending from the upper end to the lower end and having a flat outer surface; an array of rollers extending above the level of the flat outer surface at the upper end closer to the downstream side than to the upstream side, wherein a portion of the flat outer surface lies between the upstream side and the array of rollers; wherein the rollers have high-friction peripheries; and wherein the rollers are rotatable in a direction down the chute toward the lower end to resist the conveying-direction momentum of the parcels and help roll the parcels onto the slide region and toward the lower end. 2. A divert chute as in claim 1 wherein the array of rollers is characterized by a best-fit line that diverges from the conveying direction downstream. 3. A divert chute as in claim 1 wherein the slide region surrounds the array of rollers. 4. A divert chute as in claim 1 wherein the length of the slide region in the conveying direction upstream of the array of rollers is greater than the length of the array of rollers in the conveying direction. 5. A divert chute as in claim 1 wherein the high-friction peripheries of the rollers are made of a rubber or elastomeric material. 6. A divert chute as in claim 1 wherein the rollers are freely rotatable on axles defining axes of rotation parallel to the conveying direction. 7. A divert chute as in claim 1 further comprising a roller-actuating mechanism selectively or continuously rotating the rollers down the chute. 8. A divert chute as in claim 1 wherein the downstream side at the lower end is downstream of the downstream side at the upper end. 9. A sorting conveyor system comprising: a sorting conveyor conveying parcels in a conveying direction and having a series of sorting sections with diverters selectively diverting the parcels off a side of the sorting conveyor; a plurality of divert chutes disposed along the side of the sorting conveyor to receive the parcels diverted off the side, each of the divert chutes including: an upper end adjacent the side of the sorting conveyor; a lower end defining the length of the chute with the upper end; an upstream side and a downstream side spaced apart from the upstream side in the conveying direction and defining the width of the chute; a slide region extending from the upper end to the lower end and having a flat outer surface; an array of rollers protruding above the level of the flat outer surface at the upper end closer to the downstream side than to the upstream side in position to receive airborne parcels, wherein a portion of the flat outer surface lies between the upstream side and the array of rollers; wherein the rollers have high-friction peripheries; and wherein the rollers are rotatable in a direction down the chute toward the lower end to resist the conveying-direction momentum of the airborne parcels and redirect the parcels onto the slide region and toward the lower end. 10. A sorting conveyor system as in claim 9 comprising a plurality of the divert chutes disposed along both sides of the conveyor and wherein the sorting sections selectively divert parcels off both sides of the sorting conveyor onto the divert chutes. 11. A sorting conveyor system as in claim 9 wherein the diverters divert the parcels obliquely off the side of the sorting conveyor. 12. A sorting conveyor system as in claim 9 wherein the plurality of divert chutes are contiguous and include walls separating contiguous divert chutes. 13. A sorting conveyor as in claim 12 wherein the walls are recessed downward from the upper ends of the divert chutes. 14. A sorting conveyor system as in claim 12 wherein the walls have a jog in the conveying direction and toward the lower end. 15. A sorting conveyor system as in claim 9 wherein the upper flat surfaces of the slide regions of all the divert chutes form a single continuous flat surface. 16. A sorting conveyor system as in claim 9 wherein the slide region and the array of rollers are realized by a stationary mat formed by a modular conveyor belt made of interconnected flat-top belt modules and integrated-roller belt modules. 17. A sorting conveyor system as in claim 9 wherein the sorting conveyor includes a conveyor belt advancing in the conveying direction and having a plurality of belt rollers supporting the parcels and wherein the diverters selectively actuate the belt rollers to rotate to divert the parcels onto the divert chutes. 18. A method for sorting parcels comprising: conveying parcels in a conveying direction; selectively diverting parcels onto a declining divert chute having a slide section with a parcel-contacting flat upper surface and having an array of rollers extending above the level of the flat upper surface and tilted downward along the declining divert chute and rotatable in a direction transverse to the conveying direction and positioned in the divert chute to receive airborne parcels; resisting the conveying-direction momentum of the airborne parcels with the array of rollers arranged to rotate in a direction transverse to the conveying direction; redirecting the parcels atop the rollers to the slide section by rotation of the rollers in the direction down the divert chute; sliding the parcels received from the array of rollers down the slide section of the divert chute by gravity. 19. The method of claim 18 comprising also resisting the conveying-direction momentum of the parcel with a high-friction material on the outer surface of the rollers.