Cutter collision analysis of five-axis machining based on visibility cone theory

Yu Gang Duan; Zhi Bing Liu; Xi Bin Wang; San Qiang Xiao

doi:10.13196/j.cims201411020

Cutter collision analysis of five-axis machining based on visibility cone theory

Yu Gang Duan, Zhi Bing Liu^*, Xi Bin Wang, San Qiang Xiao

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

For the collision problem between cutter and workpiece in CNC machining of sculpture surfaces, a method was proposed for checking cutter collision based on visibility cone theory. The visibility cone algorithm was derived with point visibility, and a visibility cone model on any sample point was established. Boolean operation of cutter axis vector and visibility cone was used to judge the collision of cutter and workpiece, and the minimum rotation angle of cutter axis to be rotated was calculated. Whether the new cutter axis was in the feasible cutter orientations was checked out. Through applying this method to the integral impeller machining, the collision detection problem in CNC machining was solved to provide efficient method of tool-path planning.

Original language	English
Pages (from-to)	2814-2819
Number of pages	6
Journal	Jisuanji Jicheng Zhizao Xitong/Computer Integrated Manufacturing Systems, CIMS
Volume	20
Issue number	11
DOIs	https://doi.org/10.13196/j.cims201411020
Publication status	Published - 1 Nov 2014

Keywords

5-axis machining
Cutter collision
Tool-path planning
Visibility cone

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10.13196/j.cims201411020

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title = "Cutter collision analysis of five-axis machining based on visibility cone theory",

abstract = "For the collision problem between cutter and workpiece in CNC machining of sculpture surfaces, a method was proposed for checking cutter collision based on visibility cone theory. The visibility cone algorithm was derived with point visibility, and a visibility cone model on any sample point was established. Boolean operation of cutter axis vector and visibility cone was used to judge the collision of cutter and workpiece, and the minimum rotation angle of cutter axis to be rotated was calculated. Whether the new cutter axis was in the feasible cutter orientations was checked out. Through applying this method to the integral impeller machining, the collision detection problem in CNC machining was solved to provide efficient method of tool-path planning.",

keywords = "5-axis machining, Cutter collision, Tool-path planning, Visibility cone",

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AU - Duan, Yu Gang

AU - Liu, Zhi Bing

AU - Wang, Xi Bin

AU - Xiao, San Qiang

PY - 2014/11/1

Y1 - 2014/11/1

N2 - For the collision problem between cutter and workpiece in CNC machining of sculpture surfaces, a method was proposed for checking cutter collision based on visibility cone theory. The visibility cone algorithm was derived with point visibility, and a visibility cone model on any sample point was established. Boolean operation of cutter axis vector and visibility cone was used to judge the collision of cutter and workpiece, and the minimum rotation angle of cutter axis to be rotated was calculated. Whether the new cutter axis was in the feasible cutter orientations was checked out. Through applying this method to the integral impeller machining, the collision detection problem in CNC machining was solved to provide efficient method of tool-path planning.

AB - For the collision problem between cutter and workpiece in CNC machining of sculpture surfaces, a method was proposed for checking cutter collision based on visibility cone theory. The visibility cone algorithm was derived with point visibility, and a visibility cone model on any sample point was established. Boolean operation of cutter axis vector and visibility cone was used to judge the collision of cutter and workpiece, and the minimum rotation angle of cutter axis to be rotated was calculated. Whether the new cutter axis was in the feasible cutter orientations was checked out. Through applying this method to the integral impeller machining, the collision detection problem in CNC machining was solved to provide efficient method of tool-path planning.

KW - 5-axis machining

KW - Cutter collision

KW - Tool-path planning

KW - Visibility cone

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JF - Jisuanji Jicheng Zhizao Xitong/Computer Integrated Manufacturing Systems, CIMS

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Cutter collision analysis of five-axis machining based on visibility cone theory

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Keywords

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