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- Title
Feedrate scheduling of a five-axis hybrid robot for milling considering drive constraints.
- Authors
Li, Guangxi; Liu, Haitao; Yue, Wei; Xiao, Juliang
- Abstract
Characterized by high rigidity and precision, large working space, and reconfigurability, hybrid kinematic machines are widely used in the five-axis machining of large parts in situ. The feedrate is limited by the velocity, acceleration, and jerk of actuated joints in high-speed machining due to the nonlinear motion introduced by the use of revolute joints and parallel kinematic module. To achieve a good balance between the machining accuracy and efficiency, an offline feedrate-scheduling algorithm considering the drive constraints of a five-axis hybrid machine is proposed. By adding a dimension of the curve parameter, the feedrate profile expressed by a cubic uniform B-spline is mapped into a two-dimensional curve with the redefined control points. Then, the feedrate-scheduling process is completed by iteratively modulating the control points of feedrate profile. The velocity, acceleration, and jerk of actuated joints are calculated by the kinematic analysis for a dual non-uniform rational basis spline (NURBS) toolpath. Based on this, the feedrate constraint equations are derived considering the geometry and drive constraints. The scheduled feedrate profile remains constant in most parameter intervals, while it changes smoothly in transition intervals without violating constraints. Simulations and experiments are carried out on the TriMule600/800 machining platform, and the results validate the correctness and effectiveness of the proposed algorithm.
- Subjects
HIGH-speed machining; MACHINE parts; ROBOTS; SCHEDULING; MACHINING
- Publication
International Journal of Advanced Manufacturing Technology, 2021, Vol 112, Issue 11/12, p3117
- ISSN
0268-3768
- Publication type
Article
- DOI
10.1007/s00170-020-06559-1