Monoaxial coarse-fine adjusting mechanism for optical instruments, such as microscopes

1. Apparatus for accomplishing coarse-fine adjustments in optical instruments, comprising:

• a support member;
  
  a coarse focus knob rotatably supported and frictionally engaged to said member, said knob having an internal bearing surface;
  
  a coarse focus shaft coupled to said coarse focus knob, said shaft having first and second pair of slots defined therein for receiving and locating a pair of drive roller assemblies, said first pair of slots being formed longitudinally in said coarse focus shaft and said second pair of slots being formed transverse to said first pair of slots;
  
  a fine focus shaft concentrically received in said coarse focus shaft, said coarse and fine shafts being coupled to a mechanism for translating rotary motion into linear motion;
  
  a fine focus knob mounted to said fine focus shaft;
  
  a pair of drive roller assemblies, each assembly including a friction wheel and an axle, said assemblies being received in said first and second pairs of slots such that said friction wheels engage said fine focus shaft and a portion of said axles engage said internal bearing surface of said coarse focus knob; and
  
  biasing means mounted between said coarse focus shaft and said pair of drive roller assemblies, said biasing means including first and second resilient members, said first resilient member biasing said friction wheels against said fine focus shaft and said axles against said coarse focus knob internal bearing surface, said second resilient member biasing said axles against said longitudinal slots in opposite directions of rotation to thereby remove backlash upon rotation of said fine shaft in either direction, said friction wheels being capable of slipping on said fine shaft when resistance is encountered by said translating mechanism.