Scale agnostic mechanical design principles: Difference between revisions
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This is is set of elegant natural design principles <br> | |||
that have been found and compiled by the [[author]] of this wiki <br> | |||
These principles are meant for recomposable modular mechanical systems. <br> | |||
== List of principles == | |||
* [[Self centering]] – more concrete: '''[[Multi V-groove self-centering]]''' | * [[Self centering]] – more concrete: '''[[Multi V-groove self-centering]]''' | ||
* [[Positive locking]] – more concrete: '''[[ReChain positive locking mechanism]]''' | * [[Positive locking]] – more concrete: '''[[ReChain positive locking mechanism]]''' | ||
* [[Form closure]] | |||
* [[Design principle of passive pretension]] – [[clip connector]]s applied such that pretension remains <br>(for strong connections clips orthogonal to load) | * [[Design principle of passive pretension]] – [[clip connector]]s applied such that pretension remains <br>(for strong connections clips orthogonal to load) | ||
'''Tension principles:''' | '''Tension principles:''' | ||
* [[Tension redirection principle]] – more concrete: '''[[ReChain tension redirection method]]''' | * [[Tension redirection principle]] – more concrete: '''[[ReChain tension redirection method]]''' | ||
* [[Rebar chain tensioning]] (tension applied only after loose pre-assembly). <br>This last one builds on pretty much all the other principles here. | * [[Rebar chain tensioning]] (tension applied only after loose pre-assembly). <br>This last one builds on pretty much all the other principles here. | ||
== Limits to the scale agnosticness == | |||
There is a bit of overhead to all these principles when consequently applied applied. <br> | |||
So they may become increasingly practical the smaller the mechanical parts of the systems become. <br> | |||
Much like standardized electronic building elements (R,C,L) and dicgital circuits <br> | |||
became increasingly practical with progressing miniaturization. <br> | |||
Related here is the topic of: [[Digital control over reversibly composable units of matter]]. <br> | |||
Also the principles may only come into full effect of their benefit once applied applied together. <br> | |||
As so done in: [[ReChain frame systems]] <br> | |||
== Related == | == Related == | ||
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* [[Design principles for crystolecular systems]] | * [[Design principles for crystolecular systems]] | ||
* [[The DAPMAT demo project]] | * [[The DAPMAT demo project]] | ||
---- | |||
* [[Digital control over reversibly composable units of matter]] | |||
Revision as of 18:51, 18 July 2025
This is is set of elegant natural design principles
that have been found and compiled by the author of this wiki
These principles are meant for recomposable modular mechanical systems.
List of principles
- Self centering – more concrete: Multi V-groove self-centering
- Positive locking – more concrete: ReChain positive locking mechanism
- Form closure
- Design principle of passive pretension – clip connectors applied such that pretension remains
(for strong connections clips orthogonal to load)
Tension principles:
- Tension redirection principle – more concrete: ReChain tension redirection method
- Rebar chain tensioning (tension applied only after loose pre-assembly).
This last one builds on pretty much all the other principles here.
Limits to the scale agnosticness
There is a bit of overhead to all these principles when consequently applied applied.
So they may become increasingly practical the smaller the mechanical parts of the systems become.
Much like standardized electronic building elements (R,C,L) and dicgital circuits
became increasingly practical with progressing miniaturization.
Related here is the topic of: Digital control over reversibly composable units of matter.
Also the principles may only come into full effect of their benefit once applied applied together.
As so done in: ReChain frame systems
Related
- ReChain frame systems & ReChain index & Category:ReChain
- RepRec pick-and-place robots & Category:RepRec
Non scale agnostic: