Drive mechanism for automated footwear platform

The claimed invention includes: 1. A footwear apparatus comprising: an upper portion including a lace cable for tightening the footwear apparatus; a lower portion coupled to the upper portion and including a cavity to receive a middle portion of the lace cable; and a lacing engine positionable within the cavity to engage the lace cable, the lacing engine comprising: a housing including a superior surface, an inferior surface, and an enclosed volume between the superior surface and the inferior surface; a lace spool including an axis of rotation perpendicular to the superior surface of the lace spool and at least partially disposed within a recess in the superior surface of the lacing engine, the lace spool further including a lace channel bisecting a superior portion of the lace spool to receive the middle portion of the lace cable and route the lace cable onto a spool recess portion of the lace spool upon rotation of the lace spool; and a drive mechanism comprising: a gear motor; a gear box coupled to a motor shaft extending from the gear motor, the gear box including a drive shaft extending axially in a direction opposite the gear motor; a worm drive coupled to the drive shaft to control rotation of the worm drive in response to gear motor activation, wherein the worm drive is slidably keyed to the drive shaft to transfer axial loads away from the gear box and motor; and a worm gear to translate rotation of the worm drive transversely to rotation of the lace spool to tighten or loosen the lace cable. 2. The footwear apparatus of claim 1 , further comprising a bushing coupled to the drive shaft opposite the worm drive from the gear box. 3. The footwear apparatus of claim 2 , wherein the bushing is operable to transfer axial loads from the worm drive onto a portion of the housing of the lacing engine, the axial loads generated from the worm drive slidably engaging the bushing. 4. The footwear apparatus of claim 3 , wherein at least a portion of the axial loads from the worm drive are generated by tension forces on the lace cable transmitted from the lace cable to rotational forces on the lace spool and through mechanical coupling between the lace spool and the worm gear onto the worm drive. 5. The footwear apparatus of claim 4 , wherein the lace cable is rotated onto the lace spool such that the tension forces generate axial loading on the worm drive away from the gear box. 6. The footwear apparatus of claim 1 , wherein the worm drive includes a worm drive key on a first end surface of the worm drive, the first end surface adjacent to the gear box. 7. The footwear apparatus of claim 6 , wherein the worm drive key is a slot bisecting through at least a portion of a diameter of the first end surface of the worm drive. 8. The footwear apparatus of claim 7 , wherein the drive shaft includes a pin extending radially adjacent to the gear box to engage the worm drive key. 9. The footwear apparatus of claim 1 , wherein the lace spool is coupled to the worm gear through a clutch mechanism to allow the lace spool to rotate freely upon deactivation of the clutch mechanism. 10. The footwear apparatus of claim 1 , wherein the lace spool is keyed to the worm gear with a keyed connection pin extending from a spool shaft portion of the lace spool in one axial direction to allow for approximately one revolution of the worm gear when the drive apparatus is reversed before reengaging the lace spool.