Micro puree machine with fixed motors

We claim: 1. A micro puree machine comprising a transmission system, the transmission system comprising: a first gear rotatable about a first axis; a mixing shaft operatively coupled to a second gear, the second gear rotatable about a second axis extending in a non-parallel direction relative to the first axis, the second axis being aligned with a central axis of a processing bowl attached to the micro puree machine; and a position motor operatively coupled to the mixing shaft to move the mixing shaft axially along the second axis, the position motor being aligned with the second axis; wherein the first gear is configured to drive the second gear to rotate the mixing shaft about the second axis; and wherein, during axial and rotational movement of the mixing shaft, the position motor is configured to remain in a stationary position relative to a housing of a micro puree machine. 2. The micro puree machine of claim 1 , further comprising a drive motor extending along the first axis. 3. The micro puree machine of claim 2 , wherein the position motor is positioned above the drive motor. 4. The micro puree machine of claim 2 , wherein the housing includes an upper housing, and the position motor is positioned within the upper housing, and wherein the housing further comprises a base for supporting the upper housing. 5. The micro puree machine of claim 4 , wherein the housing further comprises a middle housing extending between the base and the upper housing, and the drive motor is positioned with the middle housing. 6. The micro puree machine of claim 2 , wherein the drive motor is operatively coupled to the first gear. 7. The micro puree machine of claim 1 , wherein the second axis extends at about a 45-degree to about a 55-degree angle relative to the first axis. 8. The micro puree machine of claim 1 , wherein the first gear is a bevel gear. 9. The micro puree machine of claim 1 , wherein the second gear is a bevel gear. 10. The micro puree machine of claim 2 , wherein the drive motor is an AC motor. 11. The micro puree machine of claim 1 , wherein the position motor is a DC motor. 12. The micro puree machine of claim 1 , wherein the mixing shaft is coupled to a first end of an inner shaft, the mixing shaft and the inner shaft being axially moveable along the second axis within a fixed outer shaft. 13. The micro puree machine of claim 12 , wherein a second end of the inner shaft is coupled to a carriage within the housing. 14. The micro puree machine of claim 13 , wherein at least one threaded rod extends through the carriage. 15. The micro puree machine of claim 14 , wherein the position motor is operatively coupled to a plurality of gears housed within a gearbox, and wherein one of the plurality of gears engages the at least one threaded rod for rotation of the at least one threaded rod relative to the carriage. 16. The micro puree machine of claim 15 , wherein the carriage is rotationally constrained such that rotation of the at least one threaded rod relative to the carriage causes the carriage to move axially along the at least one threaded rod. 17. The micro puree machine of claim 16 , wherein the carriage is rotationally constrained by at least one pillar extending through the carriage. 18. The micro puree machine of claim 15 , wherein the at least one threaded rod extending through the carriage includes at least two threaded rods extending through the carriage. 19. The micro puree machine of claim 18 , wherein the carriage is rotationally constrained by the at least two threaded rods. 20. The micro puree machine of claim 15 , wherein the transmission system further comprises a first microswitch on the carriage and a second microswitch on the gearbox and wherein, when the mixing shaft reaches its furthest linear travel limit, the first microswitch activates the second microswitch to change rotational direction of the position motor.