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A three axis tactile sensor-probe for robotic use

Published online by Cambridge University Press:  09 March 2009

Štefan Havlík
Štefan Havlík
Affiliation:
Ústav technickej kybernetiky SAV (Institute of Technical Cybernetics) Janka Král'a 3., 97400 Banská Bystrica (Czechoslovakia)
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Abstract

SUMMARY

The paper deals with a three axis reaction force and displacement sensor. The design procedure of the strain gauges sensor for its intended application as a tactile proble is described. The deformable sensor body with strain gauges arrangement allows all three output voltage readings to be directly related with rectangular components of the force displacement vector in a remote contact reference system. The structural orthogonalisation that results in minimal cross component couplings is briefly outlined. The practical use of the designed probe is exemplified by seam following in a robotic welding system.

Type
Articles
Information
Robotica , Volume 4 , Issue 4 , October 1986 , pp. 229 - 235
Copyright
Copyright © Cambridge University Press 1986

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References

1.Mueller, S., “Robots: how far they've come, how far they've got to go” Welding and Metal Fabrication 557563 (10, 1979).Google Scholar
2.Tchvertko, A. I., Timchenko, V.A., & Malitchenko, E.F., “Electromechanical sensors for positional servocontrol of the welding instrument” Automatic Welding (Russian welding journal) No. 7, 5963 (1980).Google Scholar
3.Sergackij, G.I. & Korotun, Ju.M., “Methods for automatic following of weld trajectory” Automatic Welding (Russian welding journal) No. 5, 3843 (1981).Google Scholar
4.Foith, J.P., “Sensoren für das vollmechanische Lichtbogenschweissen-SensorsystemeSchweissen und Schneiden 32, No. 3, 8993 (03, 1980).Google Scholar
5.Bollinger, J.G., “Using a tactile sensor to guide a robotic welding machine” Sensor Review (07, 1981).CrossRefGoogle Scholar
6.Messer, Griesheim, Weld seam control system E4000/E4100 (Prospectus of the sensing device).Google Scholar
7.Presern, S. & Gyergyek, L., “An intelligent tactile sensor-An on-line hierarchical object and seam analyserIEEE Trans. on Pattern Analysis and Machine Intelligence 8, No. 2, 217220 (03, 1983).CrossRefGoogle Scholar
8. Progress report 111−8−2/03, Programs for sensory control of welding robot. Internal publication UTK SAV (Bratislava, 11, 1983 (in Slovak).Google Scholar
9. Progress report 111−8−2/01, Tactile, force-moment and proximity robot sensory system Internal publication UTK SAV Banská Bystrica, 11, 1983).Google Scholar