Clip applier adapted for use with a surgical robot

1. A surgical fastening instrument comprising:

• an end effector having a jaw assembly capable of supporting and deploying a fastener onto tissue;
  
  a shaft assembly capable of rotation about an axis operably interfacing with the end effector for transmitting an actuation motion to the end effector where the shaft assembly contains at least one fastener;
  
  a jaw closure cam disposed substantially about the jaw assembly, the jaw closure cam moving relative to the jaw assembly;
  
  a gear drive train connected to the shaft assembly, the gear drive train configured to receive power and control from a robotic system, the gear drive train adapted to separately control rotation of the shaft assembly, opening and closing of the jaws and advancement of the fastener from the shaft into the jaw assembly, the gear drive train comprising(i) a first pinion coupled to a first robotic input, the first pinion in mechanical communication with a worm gear where the worm gear is affixed to the shaft assembly such that rotation of the pinion in a first direction rotates the shaft assembly in a first direction;
  
  (ii) a second pinion coupled to a second robotic input, the second pinion in mechanical communication with a first rack where the first rack is in mechanical communication with a fastener feed assembly such that rotation of the second pinion in a first direction moves the first rack in a first linear direction advancing the fastener in the shaft assembly; and
  
  (iii) a third pinion coupled to a third robotic input, the third pinion in mechanical communication with a second rack where the second rack is in mechanical communication with a jaw open and close assembly such that rotation of the third pinion in a second direction moves the second rack in a second linear direction actuating the jaw open and close assembly;
  
  wherein the first, second, and third pinions are each adapted to rotate independent of the other pinions.