Region-based toolpath generation for robotic milling of freeform surfaces with stiffness optimization

•A robot posture optimization model considering the orientation of tool axis is established to obtain posture with high stiffness.•A robot posture-based surface subdivision method is developed to reduce the variation of robot postures on each sub-region.•The feed direction of toolpath is optimized t...

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Bibliographic Details
Published in:Robotics and computer-integrated manufacturing 2020-08, Vol.64, p.101953, Article 101953
Main Authors: Liao, Zhao-Yang, Li, Jing-Rong, Xie, Hai-Long, Wang, Qing-Hui, Zhou, Xue-Feng
Format: Article
Language:English
Subjects:
Curvature
Degrees of freedom
Feed direction
Industrial robots
Kinematics
Machine shops
Milling (machining)
Optimization
Posture
Posture optimization
Robotic milling
Robots
Stiffness
Stiffness optimization
Toolpath generation
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Summary:•A robot posture optimization model considering the orientation of tool axis is established to obtain posture with high stiffness.•A robot posture-based surface subdivision method is developed to reduce the variation of robot postures on each sub-region.•The feed direction of toolpath is optimized to further improve robot stiffness.•Simulations and experimental studies show the method can considerably improve the robot stiffness in freeform surface machining. Because of industrial robots’ relatively low stiffness, many research efforts have been performed to improve the robot stiffness by optimizing the robot posture. For freeform surfaces with large curvature, however, the expected high stiffness posture may undergo excessive changes that exceed the robot joint speed limit. Therefore, the stiffness optimization may not achieve the expected results in actual machining owing to the limitation of robot kinematics and conventional toolpath pattern. To address this problem, a region-based toolpath generation method is proposed to improve robot stiffness in this study for robotic milling of freeform surfaces. To provide the possibility of higher stiffness robot posture, not only the redundant degree of freedom (DOF) of the robot but also the orientation of tool axis during machining is optimized. Under the influence of surface curvature and position, the change of high stiffness posture has regionality. A surface subdivision method is proposed to divide the surface into multiple sub-regions, so that actual robot posture with better stiffness can be obtained. For each sub-region, the feed direction of toolpath is optimized to further enhance robot stiffness. Simulations and experimental studies are conducted, and show that the proposed toolpath generation method can improve the robot stiffness in freeform surface machining.
ISSN:0736-5845
1879-2537
DOI:10.1016/j.rcim.2020.101953