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Line 1: {{Short description\|Four-bar straight-line mechanism}} ~~[[Image:Hoekens linkage animated.gif\|right\|Chebyshev's Lambda Mechanism]]~~ [[File:~~Tchebyshevs~~Chebyshev ~~plantigrade~~Lambda ~~machine~~Linkage.gif\|thumb\|~~Tchebyshevs~~'''Animation ~~plantigrade~~of ~~machine]]~~the Chebyshev Lambda Linkage'''<br> Dimensions (unit length {{mvar\|a}}): ~~[[File:Lambda mechanism.svg\|upright=0.5\|thumb\|Lambda Mechanism]]~~ {{legend-line\|solid cyan\|Link 2: {{mvar\|a}}}} {{legend-line\|solid green\|Link 4: {{math\|2.5''a''}}}} {{legend-line\|solid yellow\|Link 3: {{math\|2.5''a'' + 2.5''a''}}}} Link 1 (horizontal distance between ground joints): {{math\|2''a''}}]] [[File:Tchebyshevs plantigrade machine.gif\|thumb\|Chebyshev's plantigrade machine.]] [[File:Chebyshev Table Linkage.gif\|thumb\|A Chebyshev Translating Table Linkage, which combines together two [[cognate linkage]]s: the [[Chebyshev linkage\|Chebyshev Linkage]] and Chebyshev Lambda Linkage.]] ~~The~~In [[kinematics]], the '''Chebyshev's Lambda ~~Mechanism~~Linkage'''<ref name="Wolfram">{{Cite web\|url=http://demonstrations.wolfram.com/ChebyshevsLambdaMechanism/\|title=Chebyshev's Lambda Mechanism – Wolfram Demonstrations Project\|website=demonstrations.wolfram.com}}</ref> is a [[four-bar ~~mechanism~~linkage]] that converts [[rotational motion]] to approximate [[straight-line motion]] with approximate constant velocity.<ref name=DOM>{{~~cite~~Cite book \|url=http://www.designofmachinery.com/DOM/ \|title=Design of Machinery \|year=2011}}</ref> It is so-named because it looks like a lowercase Greek letter [[lambda]] (λ).<ref name=etudes /> The precise design trades off straightness, lack of [[acceleration]], and the proportion of the driving rotation that is spent in the linear portion of the full curve.<ref name=DOM134>{{~~cite~~Cite book \|url=http://www.designofmachinery.com/DOM/Chap_03_3ed_p134.pdf \|title=DOM p134 Hoecken linkage }}</ref> The example to the right spends over half of the cycle in the near -straight portion. ~~Coupler~~The coupler (link 3) point stays within 1% positional tolerance ~~with~~while intersecting the ideal straight line 6 times. The linkage was first shown in Paris on the [[Exposition Universelle (1878)]] as "The Plantigrade Machine".<ref>{{Cite web\|url=http://mech.spbstu.ru/Dzenushko_Dainis:_Walking_mechanisms_survey#The_Chebyshev_Walking_Mechanism\|title = Dzenushko Dainis: Walking mechanisms survey – Department of Theoretical and Applied Mechanics}}</ref><ref name=etudes>{{~~cite~~Cite web \|url=~~http~~https://~~www.~~etudes.ru/en/etudes/~~stopohod~~chebyshev-plantigrade-machine/ \|title=~~Archived~~Tchebyshev's plantigrade machine — Mathematical ~~copy~~Etudes \|accessdate=2014-11-16 \|url-status=dead \|~~archiveurl~~archive-url=https://web.archive.org/web/~~20141129015429~~20170728024836/http://www.etudes.ru/en/etudes/~~stopohod/~~chebyshev-plantigrade-machine \|archivedate=~~2014~~2017-1107-2928 }}</ref> The Chebyshev Lambda Linkage is a [[cognate linkage]] of the [[Chebyshev linkage]].▼ The Chebyshev's Lambda Mechanism is a [[cognate linkage]] of the [[Chebyshev linkage]].▼ The Chebyshev's Lambda ~~Mechanism~~Linkage is used in vehicle suspension mechanisms, walking robots, and rover wheel mechanisms. In 2004, a study completed as a Master of Science Thesis at [[Izmir Institute of Technology]], introduced a new mechanism design ~~introduced~~ by combining two symmetrical Lambda ~~Mechanism~~linkages to distribute the force evenly on to ground with providing the straight vertical wheel motion.<ref>{{Cite thesis \|last1=Barlas \|first1=Fırat \|title=Design of a Mars Rover suspension mechanism \|url=https://openaccess.iyte.edu.tr/xmlui/handle/11147/3449 ~~Design~~\|publisher=Izmir Institute of ATechnology ~~Mars~~\|access-date=3 April 2021 \|date=June 2004 \|hdl=11147/3449\|type=Master Thesis }}</ref> It was then designed, manufactured, and tested in the Earth Rover ~~Suspension~~Project ~~Mechanism~~of Los Angeles City College Electronics Club.<ref>{{Citation\|title=Moxie Video Intro It\|url=https://vimeo.com/117774490\|language=en\|access-date=2022-11-17}}</ref>▼ ▲The linkage was first shown in Paris on the [[Exposition Universelle (1878)]] as "The Plantigrade Machine".<ref>http://mech.spbstu.ru/Dzenushko_Dainis:_Walking_mechanisms_survey#The_Chebyshev_Walking_Mechanism</ref><ref>{{cite web\|url=http://www.etudes.ru/en/etudes/stopohod/ \|title=Archived copy \|accessdate=2014-11-16 \|url-status=dead \|archiveurl=https://web.archive.org/web/20141129015429/http://www.etudes.ru/en/etudes/stopohod/ \|archivedate=2014-11-29 }}</ref> == See also ==▼ The Chebyshev's Lambda Mechanism looks like the Greek letter lambda, therefore the linkage is also known as Lambda Mechanism.<ref>{{cite web\|url=http://www.etudes.ru/en/etudes/stopohod/ \|title=Archived copy \|accessdate=2014-11-16 \|url-status=dead \|archiveurl=https://web.archive.org/web/20141129015429/http://www.etudes.ru/en/etudes/stopohod/ \|archivedate=2014-11-29 }}</ref> <!-- New links in alphabetical order please --> ▲~~The~~ [[Chebyshev's ~~Lambda~~linkage]], ~~Mechanism is a~~the [[~~cognate~~Cognate linkage\|cognate]] of the [[Chebyshev lambda linkage]]. ▲Chebyshev's Lambda Mechanism used in vehicle suspension mechanisms, walking robots and rover wheel mechanisms. In 2004, a study completed as a Master of Science Thesis at [[Izmir Institute of Technology]], a new mechanism design introduced by combining two symmetrical Lambda Mechanism to distribute the force evenly on to ground with providing the straight vertical wheel motion.<ref>https://openaccess.iyte.edu.tr/handle/11147/3449 Design of A Mars Rover Suspension Mechanism</ref> [[Hoeckens linkage]], a linkage that produces a very similar locus using one less link but an additional slider. [[Leg mechanism]]▼ Double Lambda Chebyshev Mechanism rover suspension design manufactured and tested in Earth Rover Project of Los Angeles City College Electronics Club<ref>https://vimeo.com/117774490 Video of The Earth Rover Moxie</ref> ▲==See also== [[Straight line mechanism]] [[Peaucellier–Lipkin linkage]] (an 8-bar linkage) [[Chebyshev linkage]] [[Four-bar linkage]] [[Hoeckens linkage]] ▲[[Leg mechanism]] == References == [http://www.designofmachinery.com/DOM/ Design of Machinery -– esp' p134] {{~~reflist~~Reflist}} == External links == {{~~commons~~Commons category\|Chebyshev's Lambda Mechanism}} [http://www.designofmachinery.com/DOM/Chap_03_3ed_p134.pdf Hoeckens approximate straight-line mechanism] (diagram and table of lengths) [http://flash.lakeheadu.ca/~kliu/hoekens.jpg Hoeckens straight line linkage] {{Webarchive\|url=https://web.archive.org/web/20110706184142/http://flash.lakeheadu.ca/~kliu/hoekens.jpg \|date=2011-07-06 }} (Homemade example) [https://web.archive.org/web/20141129015429/http://www.etudes.ru/en/etudes/stopohod/ Video of computer simulation of Tchebychev walking machine] (Стопоход Чебышева). [http://www.alexdenouden.nl/artikelen2/vierstangen.htm alexdenouden.nl] -– Rectilinear motion after "Tchebychev" [http://mw.concord.org/modeler1.3/mirror/mechanics/peaucellier.html A simulation] {{Webarchive\|url=https://web.archive.org/web/20110725190957/http://mw.concord.org/modeler1.3/mirror/mechanics/peaucellier.html \|date=2011-07-25 }} using the Molecular Workbench software [http://www.mekanizmalar.com/hoekens_linkage.html How does a Hoecken's Linkage Work?] (Interactive Flash Animation) [[Category:Straight line mechanisms]] [[Category:Linkages (mechanical)]]