Difference between revisions of "Robotic manipulator"

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(Created page with " * steward plattform (parallel robotics * stiffened classical robot arms * designs avoiding sliding rails * designs avoiding ball bearings * small angle designs")
 
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[Todo: add intro]
  
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= Compactness operation-frequency and degrees-of-freeodom=
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== Mill style ==
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== Manipulator style ==
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= Type of mechanical chaining =
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== Serial robots ==
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Purely mechanical serial robotics can expose the problem of unintended differential bearings.
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When the control of the second joint from the root is threaded through the first joint by e.g. a conical gear
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turning the first joint will cause the second joint to move too when no measures are taken.
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['''Todo:''' add mechanical equivalent circuit diagram to make this more clear]
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['''Todo:''' discuss methods for preventing or compensating that, e.g. small angle designs]
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Examples of stiffened classical robot arms potentially suitable for APM systems:
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* K. Eric Drexlers robot arm design [add reference]. It mitigates the "unintended differential bearing effect" by using flexible nanotubes and a very high gearing ratios.
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* Another design by J. Storrs Hall [http://www.foresight.org/Conferences/MNT6/Papers/Hall/] [Todo: analyze and shortly discuss]
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== Parallel robots ==
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* steward plattform
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* parallel mechanics form industrial designs and DIY 3D printers
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= Further criteria =
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== Classification based on bearing types ==
  
* steward plattform (parallel robotics
 
* stiffened classical robot arms
 
 
* designs avoiding sliding rails
 
* designs avoiding sliding rails
 
* designs avoiding ball bearings
 
* designs avoiding ball bearings
* small angle designs
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= Use cases of robotic manipulators in APM systems =
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* [[robotic mechanosyntesis core]]s
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* [[DME assembly robotics]]
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* [[microcomponent assembly robotics]]
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* higher level convergent assembly robotics
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= Related =
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* [[Gem-gum tentacle manipulator]]
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* [[Organically shaped truss crane]]
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[[Category:General]]

Latest revision as of 10:48, 3 November 2024

[Todo: add intro]

Compactness operation-frequency and degrees-of-freeodom

Mill style

Manipulator style

Type of mechanical chaining

Serial robots

Purely mechanical serial robotics can expose the problem of unintended differential bearings. When the control of the second joint from the root is threaded through the first joint by e.g. a conical gear turning the first joint will cause the second joint to move too when no measures are taken. [Todo: add mechanical equivalent circuit diagram to make this more clear] [Todo: discuss methods for preventing or compensating that, e.g. small angle designs]

Examples of stiffened classical robot arms potentially suitable for APM systems:

  • K. Eric Drexlers robot arm design [add reference]. It mitigates the "unintended differential bearing effect" by using flexible nanotubes and a very high gearing ratios.
  • Another design by J. Storrs Hall [1] [Todo: analyze and shortly discuss]

Parallel robots

  • steward plattform
  • parallel mechanics form industrial designs and DIY 3D printers

Further criteria

Classification based on bearing types

  • designs avoiding sliding rails
  • designs avoiding ball bearings

Use cases of robotic manipulators in APM systems

Related