Self-stacking spiral belt conveyor with smooth diameter reduction

What is claimed is: 1. A spiral conveyor comprising: an arrangement of drive members extending in length from tops to bottoms and defining a cylinder having a vertical axis about which the arrangement of drive members is rotatable; a conveyor belt arranged to follow a helical path in multiple tiers up or down the drive members; wherein the conveyor belt extends in thickness from a top side to a bottom side and in width from an inner side at the drive members to an outer side and includes inner side supports standing up from the top side at the inner side and outer side supports standing up from the top side at the outer side to support the bottom side of the conveyor belt at the inner and outer sides on the tier above on the helical path; wherein the outer side supports have first locking structure and the conveyor belt has second locking structure at the outer side at the bottom side that engages the first locking structure on the tier below to lock the tiers together; wherein the drive members have an outer face along which the conveyor belt rides on the helical path and whose distance from the vertical axis is greater in a second segment at the bottom of the drive member than in a first segment extending from the second segment to the top for an upgoing conveyor belt on the helical path or is greater in a second segment at the top of the drive member than in a first segment extending from the second segment to the bottom for a downgoing conveyor belt on the helical path; wherein the distance from the vertical axis to the outer faces of the first segments is constant at a first distance; wherein the drive members include ridges only in the first segment that extend radially outward of the outer faces along a portion of the length of the drive members to positively drive the conveyor belt in the first segment without slip along the helical path. 2. A spiral conveyor as claimed in claim 1 wherein the distance from the outer face of the second segments to the vertical axis varies from the first distance to a greater second distance. 3. A spiral conveyor as claimed in claim 2 wherein the drive members include third segments in which the distance of the outer face from the vertical axis is constant at the second distance. 4. A spiral conveyor as claimed in claim 1 wherein the second locking structure is formed on the outer side support at the bottom side of the conveyor belt. 5. A spiral conveyor as claimed in claim 1 wherein the first locking structure on the outer side supports faces alternately inward and outward along the length of the conveyor belt. 6. A spiral conveyor as claimed in claim 5 wherein the second locking structure comprises two rows of laterally facing teeth across a gap and a wedge protruding into the gap between the two rows of laterally facing teeth to push the first locking structure of the tier below laterally into interlocking engagement with the second locking structure. 7. A spiral conveyor comprising: a conveyor belt extending in width from a first side to a second side and including first side supports standing up from the first side and second side supports standing up from the second side and including locking structure; a plurality of drive members each including a first segment and a second segment and extending in length in a generally vertical direction and rotatable about a vertical axis, wherein the first segment is continuous with the second segment; wherein at least some of the plurality of drive members are arranged to engage the first side of the conveyor belt in the first and second segments in positive engagement only in the first segment and drive the conveyor belt without slip on a helical path in tiers locked together by the locking structure; wherein the plurality of drive members are arranged to space the conveyor belt from the vertical axis so that the distance of the conveyor belt from the vertical axis varies along the length of the drive members; wherein the second segment includes a first portion having an outer face whose distance from the vertical axis is constant at a first distance and a second portion having an outer face whose distance from the vertical axis varies from the first distance to a lesser second distance at the first segment. 8. A spiral conveyor as claimed in claim 7 wherein the first and second segments have outer faces spacing the conveyor belt from the vertical axis and wherein the first segments have ridges extending radially away from the vertical axis to engage the conveyor belt and wherein the second segments are devoid of ridges that engage the conveyor belt. 9. A spiral conveyor comprising: a spiral stacker belt having a plurality of first and second supports at first and second sides of the stacker belt, the belt being capable of traveling up or down a helical path of multiple tiers of the stacker belt spaced apart and supported by the first and second supports on the tier below; a plurality of drive members extending in length in a generally vertical direction and being rotatable about a vertical axis, at least some of which each include: a positive-drive segment having a drive ridge; and an entrance segment devoid of drive ridges, wherein the entrance segment extends upward to the positive-drive segment from below the positive-drive segment for an upgoing spiral stacker belt and extends downward to the positive-drive segment from above the positive-drive segment for a downgoing spiral stacker belt; wherein the entrance segment maintains the first side of the conveyor belt farther from the vertical axis than does the positive-drive segment; wherein the spiral stacker belt enters a helical path about the plurality of drive members along the entrance segment and is positively driven without slip up or down the helical path by the drive ridges in the positive-drive segment; wherein the entrance segment is long enough that multiple tiers of the spiral stacker belt can wrap around the entrance segment before engaging the drive ridges on the positive-drive segment. 10. A spiral conveyor as claimed in claim 9 wherein the length of the positive-drive segment is greater than the length of the entrance segment. 11. A spiral conveyor as claimed in claim 9 wherein the positive-drive segments have outer faces whose distance from the vertical axis is constant along the drive members. 12. A spiral conveyor as claimed in claim 9 wherein the entrance segments include first and second portions and outer faces whose distance from the vertical axis is constant at a first distance in the first portion of the entrance segments and whose distance from the vertical axis varies from the first distance to a lesser second distance in the second portion. 13. A spiral conveyor as claimed in claim 12 wherein the second portion of the entrance segment is adjacent the positive-drive segment. 14. A spiral conveyor belt as claimed in claim 9 wherein the spiral stacker belt includes driven protrusions at the first side that are engaged by the drive ridges in the positive-drive segment of the drive members. 15. A spiral conveyor as claimed in claim 9 wherein the second supports at the second side include locking structure that locks a tier of the spiral stacker belt to the tier above on the helical path. 16. A conveyor belt module comprising: a central portion extending longitudinally from a first end to a second end, laterally from a first side to a second side, and in thickness from a top side to a bottom side; a side support standing up from the top side at the second side, wherein a distal end of the side support has locking