Automated pipetting system

1. An automated pipetting system for performing programmed pipetting procedures on an array of fluid containing test tubes, vials, or wells, comprising:

• a rigid overhead frame defining a horizontal X-Y pipetting area, which is supported and spaced vertically above a horizontal table for holding test tube arrays;
  
  a pair of X-axis guide shafts fixedly mounted and spaced apart in parallel on two opposite sides of the frame;
  
  a pair of X-axis helical screw shafts rotatably mounted in the frame, each disposed adjacent and parallel to a respective one of said X-axis guide shafts, and X-axis drive means for driving said screw shafts synchronously in rotation;
  
  a subframe having roller sections extending at opposite ends thereof rolling on the X-axis guide shafts, said roller sections each having a support wall provided with a helix engagement portion engaging said X-axis helical screw shafts for moving said subframe in the X-axis directions in response to rotation thereof;
  
  a pair of Y-axis guide shafts supported on the subframe spaced apart parallel to each other;
  
  a Y-axis helical screw shaft rotatably mounted in the subframe between and parallel to the two Y-axis guide shafts, and Y-axis means for driving said screw shaft in rotation;
  
  a carriage having a pair of roller sections rolling on the Y-axis guide shafts, and a support wall provided with a helix engagement portion engaging said Y-axis helical screw shaft for moving said carriage in the Y-axis directions in response to rotation thereof; and
  
  at least one row of probes mounted on said carriage for movement in the Z-axis directions, and Z-axis drive means for independently driving respective ones of said probes in the Z-axis directions relative to the test tube array on said table wherein said X, Y and Z axes respectively define mutually perpendicular planes.