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The SCARA is a type of industrial robot. The acronym stands for Selective Compliance Assembly Robot Arm^[1] or Selective Compliance Articulated Robot Arm.^[2]

By virtue of the SCARA's parallel-axis joint layout, the arm is slightly compliant in the X-Y direction but rigid in the Z direction, hence the term: Selective Compliance. This is advantageous for many types of assembly operations, i.e., inserting a round pin in a round hole without binding.

The second attribute of the SCARA is the jointed two-link arm layout similar to human arms, hence the often-used term, Articulated. This feature allows the arm to extend into confined areas and then retract or "fold up" out of the way. This is advantageous for transferring parts from one cell to another or for loading or unloading process stations that are enclosed.

SCARAs are generally faster than comparable Cartesian robot systems. Their single pedestal mount requires a small footprint and provides an easy, unhindered form of mounting. On the other hand, SCARAs can be more expensive than comparable Cartesian systems and the controlling software requires inverse kinematics for linear interpolated moves. However, this software typically comes with the SCARA and is usually transparent to the end-user.

Sankyo Seiki, Pentel and NEC presented the SCARA robot as a completely new concept for assembly robots in 1981. The robot was developed under the guidance of Hiroshi Makino, a professor at the University of Yamanashi.^[2] Its arm was rigid in the Z-axis and pliable in the XY-axes, which allowed it to adapt to holes in the XY-axes.^[3]^[4]

Animations

Source: ^[5]

Direct kinematics of a SCARA robot
Inverse kinematics of a 5R parallel robot
Direct kinematics of a 5R parallel robot

References

^ "SCARA Robots - Fanuc". www.fanuc.eu. Retrieved 2021-05-27.
^ ^a ^b "The Robot Hall of Fame - Powered by Carnegie Mellon University". www.robothalloffame.org. Retrieved 2021-05-27.
^ Assembly robot US Pat. 4,341,502 https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US4341502.pdf
^ Westerland, Lars (2000). The Extended Arm of Man, A History of the Industrial Robot. ISBN 91-7736-467-8.
^ Simionescu, P.A. (2014). Computer Aided Graphing and Simulation Tools for AutoCAD users (1st ed.). Boca Raton, Florida: CRC Press. ISBN 978-1-4822-5290-3.

External links

Why SCARA? A Case Study – A Comparison between 3-axis r-theta robot vs. 4-axis SCARA robot by Innovative Robotics, a division of Ocean Bay and Lake Company

[1] "SCARA Robots - Fanuc". www.fanuc.eu. Retrieved 2021-05-27.

[:0-2] "The Robot Hall of Fame - Powered by Carnegie Mellon University". www.robothalloffame.org. Retrieved 2021-05-27.

[3] Assembly robot US Pat. 4,341,502 https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US4341502.pdf

[4] Westerland, Lars (2000). The Extended Arm of Man, A History of the Industrial Robot. ISBN 91-7736-467-8.

[5] Simionescu, P.A. (2014). Computer Aided Graphing and Simulation Tools for AutoCAD users (1st ed.). Boca Raton, Florida: CRC Press. ISBN 978-1-4822-5290-3.

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+{{Cleanup rewrite|date=March 2021}}
-HI MUM AND DAD THIS IS MY FRIEND AND I DID NOT GET TO SEE YOU GUYS TODAY AND I DID NOT GET TO SEE YOU GUYS TODAY AND I DID NOT GET TO SEE YOU GUYS TOMORROW AT WORK I HAVE TO BE UP EARLY TOMORROW TO WORK IN A LITTLE WHILE I’M HERE TO HELP WITH MY FAMILY BUT I’M GOING BACK IN A BIT AND THEN I’LL GET BACK WITH ME AND I WILL LET YOU KNOW IF YOU WANT ME OR YOU WANT ME TOO
+[[File:KUKA Industrial Robot KR10 SCARA.jpg|thumb|Typical SCARA robot, made by [[KUKA]]]]
+[[File:SCARA configuration.png|thumb|right|[[Kinematic diagram]] of SCARA configuration]]
+The '''SCARA''' is a type of [[industrial robot]]. The acronym stands for '''Selective Compliance Assembly Robot Arm'''<ref>{{Cite web|title=SCARA Robots - Fanuc|url=https://www.fanuc.eu/de/en/robots/robot-filter-page/scara-series/selection-support|access-date=2021-05-27|website=www.fanuc.eu|language=en}}</ref> or '''Selective Compliance Articulated Robot Arm'''.<ref name=":0">{{Cite web|title=The Robot Hall of Fame - Powered by Carnegie Mellon University|url=http://www.robothalloffame.org/inductees/06inductees/scara.html|access-date=2021-05-27|website=www.robothalloffame.org}}</ref>
+By virtue of the SCARA's parallel-axis joint layout, the arm is slightly [[Compliant mechanism|compliant]] in the X-Y direction but rigid in the Z direction, hence the term: Selective Compliance. This is advantageous for many types of assembly operations, i.e., inserting a round pin in a round hole without binding.
+The second attribute of the SCARA is the jointed two-link arm layout similar to human arms, hence the often-used term, Articulated. This feature allows the arm to extend into confined areas and then retract or "fold up" out of the way. This is advantageous for transferring parts from one cell to another or for loading or unloading process stations that are enclosed.
+SCARAs are generally faster than comparable [[Cartesian robot]] systems. Their single pedestal mount requires a small footprint and provides an easy, unhindered form of mounting. On the other hand, SCARAs can be more expensive than comparable Cartesian systems and the controlling software requires [[inverse kinematics]] for [[Linear interpolation|linear interpolated]] moves. However, this [[software]] typically comes with the SCARA and is usually transparent to the end-user.
+[[Nidec Sankyo|Sankyo Seiki]], [[Pentel]] and [[NEC]] presented the SCARA robot as a completely new concept for assembly robots in 1981. The robot was developed under the guidance of [[Hiroshi Makino]], a professor at the [[University of Yamanashi]].<ref name=":0" /> Its arm was rigid in the Z-axis and pliable in the XY-axes, which allowed it to adapt to holes in the XY-axes.<ref>Assembly robot US Pat. 4,341,502 https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US4341502.pdf</ref><ref>{{cite book|title=The Extended Arm of Man, A History of the Industrial Robot|isbn=91-7736-467-8|date=2000|first=Lars|last=Westerland}}</ref>
 ==Animations==

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Revision as of 23:55, 16 September 2021

Animations

See also

References

External links