中文摘要：

提出了一种基于傅氏级数的平面五杆机构计时轨迹综合的代数求解新方法.通过将平面五杆机构拆分为左右2个二杆组,对轨迹综合设计变量进行了解耦.在此基础上,分析得到机构尺寸与连杆曲线谐波参数间的函数关系,并依据这一关系建立了不同传动比条件下平面五杆机构轨迹综合设计方程,通过析配消元法进一步将方程化简为一元四次方程,求解得到了平面五杆机构轨迹综合设计参数计算的通用公式.利用该公式分别计算得到左右2个二杆组的设计参数,进而得到完整机构设计参数.给出了2个数值实例,验证了该方法的有效性和可行性.

英文摘要：

A novel analytical approach is presented to solve path synthesis problems for planar five-bar linkages with timing. Firstly, the planar five-bar linkage is decomposed into two dyads for the purpose of deeoupling the design parameters of the linkage. The relationship between the design parameters of the linkage and the harmonic parameters of the path is obtained, based on which, the new synthesis equa- tions with different transmission ration for planar five-bar linkages are established. A quartic equation is obtained by dialytic elimination. As a result, a general formula is derived for calculation of the design pa- rameters of a planar five-bar linkage. The design parameters of two dyads are obtained with the general formula respectively. At last, all design parameters of the planar five-bar linkage are obtained. Two nu- merical examples are provided to verify the effectiveness of the proposed algorithm.