Lug loader

We claim: 1. An apparatus for transporting successive workpieces in a flow direction, with the workpieces in a generally transverse orientation, the apparatus comprising: a plurality of conveyor modules arranged consecutively in the flow direction to form a continuous workpiece support surface, wherein each of the conveyor modules includes corresponding first and second endless conveyors spaced laterally apart across the flow direction and oriented substantially parallel to the flow direction, wherein a downstream end of a first one of the first endless conveyors overlaps an upstream end of a next consecutive one of the first endless conveyors in the flow direction, and said first one is laterally offset from said next consecutive one, and wherein one or more of the conveyor modules further includes a third endless conveyor spaced laterally apart from the corresponding first and second endless conveyors and oriented substantially parallel to the flow direction; and a drive system having a plurality of drives operatively coupled with corresponding ones of the endless conveyors, wherein the drive system is configured to drive each of the first and second endless conveyors independently of one another and independently of the endless conveyors of another one of the conveyor modules; wherein the drive system is selectively operable to drive the first and second endless conveyors to thereby adjust skew angles of the successive workpieces and gaps between the successive workpieces while transporting the workpieces in the flow direction on the plurality of conveyor modules. 2. The apparatus of claim 1 , further including a first transfer disposed upstream of the conveyor modules and positioned to transfer the successive workpieces to said first one of the conveyor modules disposed at an upstream end of the plurality of conveyor modules. 3. The apparatus of claim 1 , wherein at least one of said drives is operatively coupled with the third endless conveyor, and the drive system is selectively operable to drive the third endless conveyor independently of the corresponding first and second endless conveyors. 4. The apparatus of claim 3 , wherein the third endless conveyor is positioned at a different vertical height than the corresponding first endless conveyor. 5. The apparatus of claim 1 , wherein the third endless conveyor and the corresponding second endless conveyor are operatively coupled to a corresponding one of the drives, such that the third endless conveyor and the corresponding second endless conveyor are driven synchronously by the drive system. 6. The apparatus of claim 1 , wherein the drive system is selectively operable to drive some or all of the endless conveyors in a first rotary direction and in an opposite second rotary direction. 7. The apparatus of claim 1 , wherein said plurality of conveyor modules includes 2-5 of said conveyor modules. 8. The apparatus of claim 7 , wherein the first transfer includes at least one endless belt or chain that overlaps one of the endless conveyors in the flow direction, the apparatus further comprising a second transfer positioned to accept the successive workpieces from a last one of the conveyor modules disposed at a downstream end of the plurality of conveyor modules, wherein the second transfer includes another endless belt or chain that overlaps one of the endless conveyors of said last one of the conveyor modules. 9. The apparatus of claim 8 , wherein the drive system is configured to drive the endless conveyors to transport the successive workpieces on the conveyor modules at a generally constant velocity between the first one of the conveyor modules and the last one of the conveyor modules. 10. A system for transporting successive workpieces in a flow direction, wherein the workpieces are oriented generally transverse to the flow direction, the system comprising: a plurality of conveyor modules arranged consecutively in the flow direction to form a continuous workpiece support surface, wherein each of the conveyor modules includes corresponding first and second endless conveyors spaced laterally apart across the flow direction and oriented substantially parallel to the flow direction, wherein a downstream end of a first one of the first endless conveyors overlaps an upstream end of a next consecutive one of the first endless conveyors in the flow direction, and said first one is laterally offset from said next consecutive one, and wherein one or more of the conveyor modules further includes a third endless conveyor spaced laterally apart from the corresponding first and second endless conveyors and oriented substantially parallel to the flow direction; a drive system coupled with the endless conveyors and selectively operable to drive the first and second endless conveyors of each of the conveyor modules independently of one another and independently of the endless conveyors of another one of the conveyor modules; a vision camera positioned to detect the successive workpieces on the plurality of conveyor modules; and a computer system operatively coupled with the drive system and the vision camera, the computer system configured to control the drive system based at least on data from the vision camera to thereby adjust skew angles of the successive workpieces and gaps between the successive workpieces while the successive workpieces are transported in the flow direction on the endless conveyors of the conveyor modules. 11. The system of claim 10 , wherein the drive system includes a plurality of drives, each of the drives operatively coupled with a corresponding one of the endless conveyors. 12. The system of claim 11 , wherein each of the conveyor modules includes a corresponding one or more third endless conveyors spaced apart from the corresponding first and second endless conveyors across the flow direction and oriented generally parallel to the flow direction. 13. The system of claim 12 , wherein the drive system further includes additional drives operatively coupled with corresponding ones of the third endless conveyors, the additional drives operable to drive the third endless conveyors independently of the corresponding first or second endless conveyors. 14. The system of claim 12 , wherein at least some of the drives are operatively coupled with a corresponding one of the second endless conveyors and a corresponding one of the third endless conveyors, such that some or all of the third endless conveyors are driven synchronously with the corresponding second endless conveyors. 15. The system of claim 14 , wherein the drives include servo motors. 16. The system of claim 12 , wherein the third endless conveyors are disposed at a different vertical height than the first endless conveyors, such that the first and second endless conveyors are collectively operable to support workpieces of a first length and the first and third endless conveyors are collectively operable to support workpieces of a second length. 17. The system of claim 11 , wherein the drives include servo motors. 18. The system of claim 11 , wherein the drive system is selectively operable to drive the first and second endless conveyors in a first rotary direction and in an opposite second rotary direction. 19. The system of claim 11 , wherein the plurality of conveyor modules includes 2-5 of said conveyor modules. 20. The system of claim 19 , wherein a first one of the conveyor modules is positioned to accept the successive workpieces from a first transfer upstream of the conveyor modules and a last one o