Suitable mechanisms

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This article is a stub. It needs to be expanded.

Basically just a list of mechanisms that could be useful for future advanced diamondoid gemstone based nanosystems.

Unlike in macroscale machinery with machine parts at the lowermost possible size limit
there is no space for tiny screws much tinyer than the parts to clamp together housings like gearboxes and such.
Thus there is a need for designs that differ quite a bit from conventional designs.
See design principles listed on the page: RepRec pick-and-place robots (GemGum).

Under the lens of this constrains a particular set of mechanisms/machine-elements emerges as especially promising.
This page is a collection of such mechanisms.

These mechanisms also allows for interesting 3D printable mechanics that can cope without any metal screws whatsoever.
A few big 3D printable screws suffice.

Related

External links

Bearings and Gearings

Couplings

  • https://en.wikipedia.org/wiki/Coupling#Oldham
  • Oldham coupling inspired gear coupling
    Two linear-rack-gearbearings with each two rollers sandwiched atop each other.
    Their rolling direction is are arranged 90° to each other. Thus they act the same as an Oldham coupling. But with rolling rather than sliding.
  • (Schmidt coupling - this needs a lot of pins (ideally gear-bearings) thus listed in the likely unsuitable section further below)

Joints



For quick-release:


Joints are useful for:

  • self centering
  • positive locking
  • connection by form closure

Chains

For end-effectors and preceding



Special screwdrivers end-effector mechanisms that:

  • put zero torque on the manipulated structure ("space screwdriver")
  • decouple tensioning from unloaded screwing structure ports (wiki-TODO: explain that principle more clearly with sketch)

These screwdrivers end-effector mechanisms shall operate on "tension-force hydrants".
See ReChain frame systems.


Likely useful for tensioning and other things



Positive displacement pumps

Probably too many small pins, too low stiffness, and better solutions present