The spring‐assisted gantry robots, described in this paper, were designed primarily for the rapid transfer of lightweight objects from one point to another, e.g. to pick objects from a conveyor belt and to place them in a box. The average amount of work required for pick‐and‐place operations carried out by a conventional gantry robot was decided. Springs were added to conserve the kinetic energy of the main bar, which slides in the X‐direction and the work of the same pick‐and‐place operation was decided. A theoretical study showed that when the spring constant was optimized the required motor work of the spring‐assisted robots were 42–95 percent less than the required work of the conventional robot. The conceptual robot exists in mathematical models in Matlab and SIMULINK.
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1 February 2002
Review Article|
February 01 2002
Spring‐assisted gantry robots versus conventional gantry robots: spring constant optimization and work minimization Available to Purchase
Sten Grahn;
Sten Grahn
Sten Grahn is with the Department of Mechanical Engineering, Linköping University, Sweden
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Gert Johansson
Gert Johansson
Gert Johansson is with the Department of Mechanical Engineering, Linköping University, Sweden
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Publisher: Emerald Publishing
Online ISSN: 1758-5791
Print ISSN: 0143-991X
© MCB UP Limited
2002
Industrial Robot (2002) 29 (1): 53–60.
Citation
Grahn S, Johansson G (2002), "Spring‐assisted gantry robots versus conventional gantry robots: spring constant optimization and work minimization". Industrial Robot, Vol. 29 No. 1 pp. 53–60, doi: https://doi.org/10.1108/01439910110410060
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