Weighing and sorting roller belt conveyor and associated method

What is claimed is: 1. A weighing system comprising: a conveyor belt arranged to advance in a travel direction along a travel path from an upstream end to a downstream end and having a plurality of article-supporting rollers actuatable to rotate toward a side of the conveyor belt in a transverse direction transverse to the travel direction; a weighing zone extending along a first length of the travel path in which one or more weight sensors mounted in the conveyor belt and coupled to the rollers to measure downward forces on the rollers applied by articles atop the rollers and produce weight signals indicative of the weights of the articles proportional to the downward forces; a roller-actuation zone extending along a second length of the travel path in which an actuator selectively actuates the article-supporting rollers as they pass through to push articles in the transverse direction; a controller: receiving the weight signals; determining the weights of the articles from the weight signals; selectively actuating and deactuating the rollers passing through the roller-actuation zone as a function of the weights of the articles. 2. A weighing system as in claim 1 wherein the roller-actuation-zone along the second length is downstream of the weighing zone along the first length. 3. A weighing system as in claim 1 wherein the roller-actuation-zone along the second length overlaps the weighing zone along the first length. 4. A weighing system as in claim 1 wherein the roller-actuation-zone and the second length coincide with the weighing zone and the first length. 5. A weighing system as in claim 1 wherein the controller compares the weights to a predetermined weight range, classifies articles whose weights are outside the weight range as out-of-range articles and articles whose weights are within the weight range as in-range articles, and actuates the article-supporting rollers passing through the roller-actuation zone to rotate in the transverse direction either for only the out-of-range articles or for only the in-range articles, whereby the out-of-range articles and the in-range articles exit the conveyor belt along different paths. 6. A weighing system as in claim 5 comprising a first conveyor at the side of the roller-actuation zone and a second conveyor at the downstream end of the travel path and wherein the controller actuates the article-supporting rollers passing through the roller-actuation zone for out-of-range articles to push the out-of-range articles in the transverse direction onto the first conveyor and deactuates the article-supporting rollers passing through the roller-actuation zone for in-range articles to convey the in-range articles to the second conveyor. 7. A weighing system as in claim 5 wherein the conveyor belt has adjacent first and second lanes extending from the upstream end to the downstream end and wherein the weighing system comprises: an infeed conveyor feeding articles onto the first lane of the conveyor belt at the upstream end; wherein only the first lane extends through the weighing zone; wherein the controller actuates the article-supporting rollers passing through the roller-actuation zone for either only the out-of-range articles or only the in-range articles to direct either only the out-of-range articles or the in-range articles to the second lane. 8. A weighing system as in claim 1 comprising a plurality of roller-actuation subzones in the roller-actuation zone. 9. A weighing system as in claim 8 wherein the controller compares the weights to a plurality of predetermined weight ranges each corresponding to one of the roller-actuation subzones and actuates the article-supporting rollers passing through the roller-actuation subzone corresponding to the weight range each article's weight falls in. 10. A weighing system as in claim 1 wherein the conveyor belt includes axles defining axes parallel or oblique to the travel direction about which article-supporting rollers rotate. 11. A weighing system as in claim 1 wherein the rollers are roller balls. 12. A weighing system as in claim 1 wherein the rollers are stacked rollers. 13. A weighing system as in claim 1 wherein the controller is external to the conveyor belt. 14. A weighing system as in claim 13 further including receivers external to the conveyor belt and wherein the conveyor belt includes transmitters that receive the weight signals from the weight sensors and transmit the weight signals to the receivers, which send the weight signals to the controller. 15. A weighing system as in claim 14 wherein the weight sensors and the transmitters reside in the rollers. 16. A weighing system as in claim 14 wherein the weight sensors and the transmitters are passive and powered via inductive or capacitive coupling between the receivers and the transmitters. 17. A weighing system as in claim 14 wherein the conveyor belt includes local controllers between the weight sensors and the transmitters converting the weight signals into digital weight signals transmitted by the transmitters to the receivers. 18. A weighing system as in claim 14 further comprising a power source external to the conveyor belt and wherein the conveyor belt includes rechargeable storage elements powering the weight sensors and local charging circuits connected to the rechargeable storage elements and coupled to the power source external to the conveyor belt to recharge the rechargeable storage elements from the power source. 19. A weighing system as in claim 1 wherein the conveyor belt includes axles on which the rollers are mounted and wherein the weight sensors are connected between the ends of the axles and the conveyor belt. 20. A weighing system comprising: a conveyor belt arranged to advance in a travel direction along a travel path from an upstream end to a downstream end and having a plurality of article-supporting rollers actuatable to rotate toward a side of the conveyor belt in a transverse direction transverse to the travel direction; a weighing zone extending along a first length of the travel path in which one or more weight sensors measure the weights of articles conveyed by the conveyor belt and produce weight signals indicative of the weights of the articles; a roller-actuation zone extending along a second length of the travel path in which an actuator selectively actuates the article-supporting rollers as they pass through to push articles in the transverse direction; a controller: receiving the weight signals; determining the weights of the articles from the weight signals; selectively actuating and deactuating the article-supporting rollers passing through the roller-actuation zone as a function of the weights of the articles; wherein the weight sensor is a checkweigher below the conveyor belt having a weighing surface in contact with the rollers passing through the weighing zone. 21. A weighing system as in claim 20 wherein the checkweigher includes a belt and the weighing surface is the outer surface of the belt. 22. A conveyor belt comprising: a series of rows of one or more belt modules hingedly linked together; a plurality of article-supporting rollers mounted in the belt; a plurality of weight sensors coupled to the rollers to measure downward forces on the rollers applied by articles atop the rollers and to produce weight signals proportional to the downward forces. 23. A conveyor belt as in claim 22 wherein the weight sensors are mo