Automated footwear lacing systems, devices, and techniques

What is claimed is: 1. A lacing engine apparatus for an automated footwear platform, the apparatus comprising: a housing including a lace channel for receiving a portion of a lace cable; a drivetrain disposed within the housing, the drivetrain including a motor delivering rotational input to a worm drive; and a lace take-up mechanism for accumulating a length of lace cable upon activation, the lace take-up mechanism including a variable lace spool, the variable lace spool including a spiral lace groove divided into a lateral lace groove and a medial lace groove by a central lace channel running across a major diameter of the variable lace spool, the central lace channel adapted to receive the lace cable, wherein upon rotation of the variable lace spool, the lace cable is progressively received along increasing lengths of the lateral lace groove and the medial lace groove. 2. The lacing engine apparatus of claim 1 , wherein upon rotation of the variable lace spool, the lace enters the spiral lace groove at a medial lace engagement point and a lateral lace engagement point. 3. The lacing engine apparatus of claim 2 , wherein upon continued rotation of the variable lace spool, the lace cable continues to accumulate along both the lateral lace groove and the medial lace groove. 4. The lacing engine apparatus of claim 3 , wherein after each 180 degrees of rotation the lace cable crosses over the central lace channel in transitioning from the medial lace groove to the lateral lace groove and from the lateral lace groove to the medial lace groove as the lace cable continues to accumulate on the spiral lace groove. 5. The lacing engine apparatus of claim 1 , wherein the drivetrain further includes a worm gear disposed on an inferior surface of the variable lace spool and positioned to receive rotational input from the worm drive. 6. A footwear assembly comprising: a footwear upper portion; a footwear lower portion affixed to the footwear upper portion and including an interior recess; a lacing engine disposable within the interior recess and configured to adjust a lace cable routed into the interior recess from the footwear upper portion, the lacing engine comprising: a lace take-up mechanism for accumulating a length of lace cable upon activation, the lace take-up mechanism including a variable lace spool, the variable lace spool including a spiral lace groove divided into a lateral lace groove and a medial lace groove by a central lace channel running across a major diameter of the variable lace spool, the central lace channel adapted to receive the lace cable. 7. The footwear assembly of claim 6 , wherein the lacing engine further comprises: a housing enclosing the lace take-up mechanism and including a lace channel for receiving a portion of the lace cable. 8. The footwear assembly of claim 6 , wherein the lacing engine further comprises: a drivetrain disposed within the housing, the drivetrain including a motor delivering rotational input to the lace take-up mechanism. 9. The footwear assembly of claim 8 , wherein the drivetrain further includes a worm gear disposed on an inferior surface of the variable lace spool and positioned to receive rotational input from a worm drive. 10. The footwear assembly of claim 6 , wherein upon rotation of the variable lace spool, the lace cable is progressively received along increasing lengths of the lateral lace groove and the medial lace groove. 11. The footwear assembly of claim 6 , wherein upon rotation of the variable lace spool, the lace cable enters the spiral lace groove at a medial lace engagement point and a lateral lace engagement point. 12. The footwear assembly of claim 11 , wherein upon continued rotation of the variable lace spool, the lace cable continues to accumulate along both the lateral lace groove and the medial lace groove. 13. The footwear assembly of claim 12 , wherein after each 180 degrees of rotation the lace cable crosses over the central lace channel in transitioning from the medial lace groove to the lateral lace groove and from the lateral lace groove to the medial lace groove as the lace cable continues to accumulate on the spiral lace groove. 14. A lacing engine for adjusting a lace cable within an automated footwear assembly, the lacing engine comprising: a lace take-up mechanism for accumulating a length of the lace cable upon activation, the lace take-up mechanism including a variable lace spool, the variable lace spool including a spiral lace groove divided into a lateral lace groove and a medial lace groove by a central lace channel running across a major diameter of the variable lace spool, the central lace channel adapted to receive the lace cable. 15. The lacing engine of claim 14 , wherein the lacing engine further comprises: a housing enclosing the lace take-up mechanism and including a lace channel for receiving a portion of the lace cable. 16. The lacing engine of claim 14 , wherein the lacing engine further comprises: a drivetrain disposed within the housing, the drivetrain including a motor delivering rotational input to the lace take-up mechanism. 17. The lacing engine of claim 16 , wherein the drivetrain further includes a worm gear disposed on an inferior surface of the variable lace spool and positioned to receive rotational input from a worm drive. 18. The lacing engine of claim 14 , wherein upon rotation of the variable lace spool, the lace cable is progressively received along increasing lengths of the lateral lace groove and the medial lace groove. 19. The lacing engine of claim 14 , wherein upon rotation of the variable lace spool, the lace enters the spiral lace groove at a medial lace engagement point and a lateral lace engagement point. 20. The lacing engine of claim 19 , wherein upon continued rotation of the variable lace spool, the lace cable continues to accumulate along both the lateral lace groove and the medial lace groove.