TOPOLOGICAL SYNTHESIS FOR LINKAGE MECHANISM DESIGN USING THE MINIMUM POTENTIAL ENERGY PRINCIPLE

机译：基于最小势能原理的连杆机构拓扑综合

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A mechanism is a device transmits motion in a predetermined manner in order to accomplish specific objectives. Mechanism design can be divided into three steps: type synthesis, number synthesis and dimensional synthesis, where the number synthesis is also called topological synthesis. In this paper, a new approach for topological synthesis and dimensional synthesis of linkage mechanism design with pin joints is presented. This approach is based on the discrete element approach which always provides clear definitions of number of linkages and joints. In order to extend its applications beyond the compliant mechanism, a novel analysis method based on the principle of minimum potential energy for linkage topology optimization is employed. Unlike the traditional FEM based approaches, this novel analysis method can be applied to multiple joint linkage designs directly. Genetic Algorithm is chosen as the optimizer. Finally, a few design examples from the proposed method are presented.

机译：机制是一种设备，它以预定的方式传输运动以实现特定的目标。机制设计可以分为三个步骤：类型综合，数字综合和维综合，其中数字综合也称为拓扑综合。本文提出了一种新型的销钉连接机构设计拓扑综合和尺寸综合的方法。此方法基于离散元素方法，该方法始终提供连杆和接头数量的清晰定义。为了将其应用扩展到顺应性机制之外，采用了一种基于最小势能原理的新型分析方法，用于链接拓扑优化。与传统的基于FEM的方法不同，这种新颖的分析方法可以直接应用于多个联合连杆设计。选择遗传算法作为优化器。最后，给出了所提出方法的一些设计实例。

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《American Society of Mechanical Engineers(ASME) International Design Engineering Technical Conference and Computers and Information in Engineering Conference(DETC2005) vol.2 pt.B: 31st Design Automation Conference; 20050924-28; Long Beach,CA(US)》|2005年|P.931-937|共7页
会议地点 Long BeachCA(US)
作者
Hae Chang Gea; Jaehyun Kwon;
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Department of Mechanical and Aerospace Engineering, Rutgers, The State University of New Jersey, Piscataway, NJ 08854;

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正文语种 eng
中图分类自动化系统;
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TOPOLOGICAL SYNTHESIS FOR LINKAGE MECHANISM DESIGN USING THE MINIMUM POTENTIAL ENERGY PRINCIPLE

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