Applied Sciences (Sep 2023)

Tolerance Synthesis of Delta-like Parallel Robots Using a Nonlinear Optimisation Method

  • Allaoua Brahmia,
  • Adlen Kerboua,
  • Ridha Kelaiaia,
  • Ameur Latreche

DOI
https://doi.org/10.3390/app131910703
Journal volume & issue
Vol. 13, no. 19
p. 10703

Abstract

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Robotic systems require high accuracy in manipulating objects. Positioning errors are influenced by geometric tolerances and various sources. This paper introduces a new technique based on the interior-point algorithm optimisation method to allocate tolerances to the geometric parameters of a robot. This method consists of three steps. First, a method for modelling the kinematic problem as well as the geometric errors must be used. The Denavit–Hartenberg rule is the most suitable method for this modelling case. Then, a mathematical model for tolerance allocation is developed and used as a nonlinear multivariable optimisation problem. Finally, the “interior-point” algorithm is used to solve this optimisation problem. The accuracy and efficiency of the proposed method, in determining the tolerance allocations for a Delta parallel robot, is illustrated via calculation and simulation results. The values of the dimensional tolerances found are optimal. As a result, these values always keep the accuracy less than or equal to the imposed value.

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