轻量化机器人抓取器的材料替代与拓扑优化研究

IF 0.8 Q3 MULTIDISCIPLINARY SCIENCES
Mohd Nizam Sudin, N. Md Daud, S.A Shamsudin, F. R. Ramli
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引用次数: 0

摘要

抓手是机器人需要的,因为它是机器人直接接触被抓物体的部分。在不影响功能或性能的情况下,它的重量应该尽可能小。本研究旨在通过修改机械手的材料和拓扑结构来重新考虑轻型机械手的构造。采用有限元法对几种夹持材料进行了静应力评估。在有限元分析结果的基础上,采用加权客观法选择最优候选材料。使用Fusion 360软件,所选材料的拓扑结构进行了优化,以实现减轻40%重量的目标。此外,建议的优化几何形状然后进行微调,使其能够尽可能高效地制造。验证机械手设计的最后一步是应力静态分析。改进后的夹持器质量为0.08 kg,比原来的质量减少了94%,安全系数为3.67%,满足了机器人夹持器的预期性能水平。利用不同的材料和优化夹持器的拓扑结构可以显著降低机器人夹持器的整体质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Note on Redesign Material Substitution and Topology Optimization in a Lightweight Robotic Gripper
The gripper is required because it is the portion of the robot that makes direct contact with the object being grasped. It should weigh as little as possible without compromising functionality or its performance. This study aims to reconsider the construction of a lightweight robotic gripper by modifying the gripper's materials and topology. Using the finite element (FE) method, several types of gripper materials were evaluated for static stress. On the basis of the results of the FE analysis, the optimal material candidate was chosen using the weighted objective method. Using the Fusion 360 software, the topology of the selected material was then optimized in an effort to achieve the 40% weight reduction’s objective. In addition, the suggested optimized geometry is then fine-tuned so that it can be manufactured as efficiently as possible. The final step in the validation of the robotic gripper's design was stress static analysis. The revised gripper design has a mass of 0.08 kg, a reduction of 94% from the original mass, and a safety factor of 3.67%, which satisfies the desired level of performance for the robotic gripper. Utilizing different materials and optimizing the gripper's topology can significantly reduce the overall mass of a robotic gripper.
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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
45
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