Precision Machining Construction Set: Difference between revisions
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In order to cover vertical, horizontal mills, lathes, and other configurations including articulations (robotic arms), we begin with scalable, modular pieces that build upon one another. These are summarize in the Precision Machining Pattern Language: | In order to cover vertical, horizontal mills, lathes, and other configurations including articulations (robotic arms), we begin with scalable, modular pieces that build upon one another. These are summarize in the Precision Machining Pattern Language: | ||
<html><img src="https://docs.google.com/drawings/d/1zMbTVXCuIXz8WFDMv3OlQyC59mKH5otttdohScaDt24/pub?w=640&h= | <html><img src="https://docs.google.com/drawings/d/1zMbTVXCuIXz8WFDMv3OlQyC59mKH5otttdohScaDt24/pub?w=640&h=400"></html> | ||
[https://docs.google.com/drawings/d/1zMbTVXCuIXz8WFDMv3OlQyC59mKH5otttdohScaDt24/edit edit] | [https://docs.google.com/drawings/d/1zMbTVXCuIXz8WFDMv3OlQyC59mKH5otttdohScaDt24/edit edit] | ||
Revision as of 02:05, 22 April 2013
Introduction
The Open Source Ecology (OSE) program for developing precision machines involves a construction set approach typical of other OSE developments, such as the Tractor Construction Set. For precision machining - this paradigm manifests as the Precision Machining Construction Set.
In order to cover vertical, horizontal mills, lathes, and other configurations including articulations (robotic arms), we begin with scalable, modular pieces that build upon one another. These are summarize in the Precision Machining Pattern Language:
Links
- CNC Multimachine Specification - basic force and concept specifications from 2012
- CNC Mill