Interference-Free Tool Path with High Machinability for 4- and 5-Axes NC Machining of Free-Formed Surfaces

공구간섭과 절삭성을 고려한 자유 곡면의 4, 5축 NC 가공을 위한 공구 경로 산출

  • Published : 1998.02.01

Abstract

NC machines with 4 or 5 axes are capable of various tool approach motions, which makes interference-free and high machinablity machining possible. This paper deals with how to integrate these two advantages (interference-free and high machinability machining) in multi-axes NC machining with a ball-end mill. Feasible tool approach region at a point on a surface is first computed, then among which an approach direction is determined so as to minimize the cutting force required. Tool and spindle volumes are considered in computing the feasible tool approach region, and the computing time is improved by trans-forming surface patches into minimal enclosing spheres. A cutting force prediction model is used for estimating the cutting force. The algorithm is developed so as to be applied to 4- or 5-axes NC machining in common.

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