中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2015年
3期
304-307
,共4页
侧铣%非可展直纹面%解析法%加工误差
側鐉%非可展直紋麵%解析法%加工誤差
측선%비가전직문면%해석법%가공오차
flank milling%non-development ruled surface%analytical method%machining error
提出了加工非可展直纹面刀轴矢量的解析解法,给出了解析解法的加工误差,并将其与“R 偏置法”的侧铣加工方法的误差进行了比较。计算结果证明,该方法减小了理论误差。应用 MATLAB 绘制了依据该方法计算出的叶片刀轴轨迹。最后,通过数控加工试验验证了所提出方法的正确性。加工结果表明,加工误差在允许加工误差范围内,叶轮加工表面质量好。
提齣瞭加工非可展直紋麵刀軸矢量的解析解法,給齣瞭解析解法的加工誤差,併將其與“R 偏置法”的側鐉加工方法的誤差進行瞭比較。計算結果證明,該方法減小瞭理論誤差。應用 MATLAB 繪製瞭依據該方法計算齣的葉片刀軸軌跡。最後,通過數控加工試驗驗證瞭所提齣方法的正確性。加工結果錶明,加工誤差在允許加工誤差範圍內,葉輪加工錶麵質量好。
제출료가공비가전직문면도축시량적해석해법,급출료해석해법적가공오차,병장기여“R 편치법”적측선가공방법적오차진행료비교。계산결과증명,해방법감소료이론오차。응용 MATLAB 회제료의거해방법계산출적협편도축궤적。최후,통과수공가공시험험증료소제출방법적정학성。가공결과표명,가공오차재윤허가공오차범위내,협륜가공표면질량호。
lytical method,provided the analytical method’s machining error and compared with the “R offset暠This paper proposed machining non-developable ruled surface cutter axis vector’s ana-flank milling method’s error.The results prove that the prposed melhod can reduce the theoretical er-rors.Then the blade tool path trajectory was drew by the algorithm with MATLAB software.Finally, NC machining experiments verified the proposed algorithm,the machining results show that the ma-chining errors are within the allowable machining error range and the machining surface quality of im-peller is good.
