电子设计工程
電子設計工程
전자설계공정
Electronic Design Engineering
2015年
20期
96-99
,共4页
插补离散化%动态前瞻%指令周期%轮廓误差
插補離散化%動態前瞻%指令週期%輪廓誤差
삽보리산화%동태전첨%지령주기%륜곽오차
interpolation discretization%dynamic look-ahead%instruction cycle%contour error
为了解决传统的点位控制算法在加工复杂轨迹时速度频繁变化造成的机床抖动、加工效率低等问题,提出连续轨迹平滑过渡算法. 文中首先指出插补离散化导致连续轨迹需要跨段过渡,然后提出两种连续轨迹单周期过渡方案并对比其算法执行效率和轮廓误差.为实现直线与圆弧过渡间平滑过渡,对比求根公式、用弧长近似弦长等多种算法的执行效率. 仿真结果表明,在保证轮廓误差的前提下,实现了多段轨迹的连续加工,有效地提高了加工效率.
為瞭解決傳統的點位控製算法在加工複雜軌跡時速度頻繁變化造成的機床抖動、加工效率低等問題,提齣連續軌跡平滑過渡算法. 文中首先指齣插補離散化導緻連續軌跡需要跨段過渡,然後提齣兩種連續軌跡單週期過渡方案併對比其算法執行效率和輪廓誤差.為實現直線與圓弧過渡間平滑過渡,對比求根公式、用弧長近似絃長等多種算法的執行效率. 倣真結果錶明,在保證輪廓誤差的前提下,實現瞭多段軌跡的連續加工,有效地提高瞭加工效率.
위료해결전통적점위공제산법재가공복잡궤적시속도빈번변화조성적궤상두동、가공효솔저등문제,제출련속궤적평활과도산법. 문중수선지출삽보리산화도치련속궤적수요과단과도,연후제출량충련속궤적단주기과도방안병대비기산법집행효솔화륜곽오차.위실현직선여원호과도간평활과도,대비구근공식、용호장근사현장등다충산법적집행효솔. 방진결과표명,재보증륜곽오차적전제하,실현료다단궤적적련속가공,유효지제고료가공효솔.
When machining complex counters, the conventional PTP control causes jitter of the machine, reduces machining efficiency due to the frequent changes of feed rate. A new control algorithm was put forward to realize smooth transition for continuous path. The existence of interpolation discretization was pointed out. The execution efficiency of two single-period transition solution was compared. In order to realize the smooth transition of line and arc, this paper compared the instruction cycle of radical formula and approximation method. The simulation result indicated that, while ensuring the precision of contour error, the continuous interpolation was realized, which effectively improved the machining efficiency.
