Optimal Synthesis of Cam-Linkage Mechanisms for Precise Path Generation

The paper proposes a method for the optimal synthesis of planar mechanisms, where a combination of cams and linkages is used in order to obtain a precise path generation. As a first step, based on Gruebler 's mobilize criterion, a linkage mechanism is considered, with as many degrees of freedom as required by the generation task. One or more disk cams are then synthesized in order to reduce the system's mobility and to obtain a single-input combined mechanical system. The final combined mechanism is able to guide a coupler point through any number of precision positions. A strategy for the global optimization of the synthesis process, based on evolutionary theory, is also proposed. A goal function is defined on the basis of dimensional and kinematic constraints and performance criteria, while a genetic algorithm is employed as an optimum searching procedure. An industrial application of the proposed methodology is described, where a path generation problem with time prescription is dealt with. The objective of the generation task is to guide a coupler point along a figure-eight trajectory, with a constant tangential velocity. Such a task is required by polishing machines for fiber optic connectors and similar components. A kinematic simulation of the optimal mechanism is used to validate the proposed synthesis methodology.

[1]  Arthur G. Erdman,et al.  Computer-Aided Mechanism Design: Now and the Future , 1995 .

[2]  J. A. Cabrera,et al.  Optimal synthesis of mechanisms with genetic algorithms , 2002 .

[3]  Fan Y. Chen Mechanics and Design of Cam Mechanisms , 1982 .

[4]  A. Saxena Synthesis of Compliant Mechanisms for Path Generation using Genetic Algorithm , 2005 .

[5]  Sundar Krishnamurty,et al.  Optimal synthesis of mechanisms using nonlinear goal programming techniques , 1992 .

[6]  B. Roth,et al.  Synthesis of Path-Generating Mechanisms by Numerical Methods , 1963 .

[7]  S. Kota,et al.  Optimal Synthesis of Mechanisms for Path Generation Using Fourier Descriptors and Global Search Methods , 1997 .

[8]  M R Smith,et al.  Design of a combined cam-linkage mechanism with an oscillating roller follower by an analytical method , 2005 .

[9]  Jorge Angeles,et al.  An unconstrained nonlinear least-square method of optimization of RRRR planar path generators , 1988 .

[10]  P. Krishnaswami,et al.  A Computer-Aided Design Technique for Semi-Automated Infinite Point Coupler Curve Synthesis of Four-Bar Linkages , 1995 .

[11]  D. C. Tao,et al.  Applied linkage synthesis , 1964 .

[12]  V. Cossalter,et al.  On the use of natural coordinates in optimal synthesis of mechanisms , 2000 .

[13]  S. S. Douglas,et al.  Optimal Mechanism Design for Path Generation and Motions With Reduced Harmonic Content , 2004 .

[14]  Joris De Schutter,et al.  Input Torque Balancing Using an Inverted Cam Mechanism , 2005 .

[15]  Jahangir Rastegar,et al.  Kinematics synthesis of linkage mechanisms with cam integrated joints for controlled harmonic content of the output motion , 2004 .

[16]  H. Zhou,et al.  Optimal synthesis of crank–rocker linkages for path generation using the orientation structural error of the fixed link , 2001 .

[17]  D. Kohli,et al.  Synthesis of cam-link mechanisms for exact path generation , 1979 .

[18]  Arthur G. Erdman,et al.  Mechanism Design : Analysis and Synthesis , 1984 .

[19]  Yi Liu,et al.  Automated Type Synthesis of Planar Mechanisms Using Numeric Optimization With Genetic Algorithms , 2005 .

[20]  L. Romdhane,et al.  A combined genetic algorithm-fuzzy logic method (GA-FL) in mechanisms synthesis , 2004 .

[21]  Ferdinand Freudenstein,et al.  Kinematic Synthesis of Linkages , 1965 .

[22]  S. N. Kramer,et al.  Selective Precision Synthesis of the Four-Bar Motion Generator With Prescribed Input Timing , 1979 .

[23]  Zhijia Yang,et al.  Optimal design of cam-linkage mechanisms for dynamic-force characteristics , 1990 .