IEEE Access (Jan 2020)

A Path Planning Method for V-Shaped Robotic Cutting of Nomex Honeycomb by Straight Blade Tool

  • Ruoyu Cui,
  • Jianfu Zhang,
  • Pingfa Feng,
  • Dingwen Yu,
  • Zhijun Wu

DOI
https://doi.org/10.1109/ACCESS.2020.3021121
Journal volume & issue
Vol. 8
pp. 162763 – 162774

Abstract

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V-shaped cutting by straight blade tool has been proposed as a typical process to quickly remove large volumes of Nomex honeycomb. To meet the process requirements of V-shaped cutting by robots, a major problem is that the six degrees of freedom of the straight blade tool must be precisely programmed. In this paper, a path planning method for the V-shaped robotic cutting process is presented. The determining method of path parameters for cylindrical parts is firstly analyzed, with an optimization model proposed. The position of path points is pre-generated by robotic machining module of CAM software, and machining files in the robot language are output. Considering the requirement of V-shaped cutting path, a special post-processing program is developed to translate the CAM software generated machining files into final files for V-shaped cutting, which converts the reciprocating milling path into the V-shaped processing path and adds the orientation data of the path points. Furthermore, the robot machining files generated by the post-processing program are verified in MATLAB. V-shaped cutting experiments on Nomex honeycomb were carried out using 6-axis robot and ultrasonic cutting system to verify the presented method. Results show that the cylindrical surface of the machined workpiece is consistent with the expectation.

Keywords