基于 "从设计到价值"(DtV)的多种方法,结合模拟技术和团队合作的优先顺序,优化气动齿轮齿条传动器

G Maiocchi, L Vigliano, G Nicoletto
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摘要

本文介绍的研究重点是用于阀门驱动的气动齿轮齿条传动装置的重新设计和创新,并将其作为一个案例研究,探讨基于 "从设计到价值"(DtoV)流程的多种方法的潜力,同时结合利用有限元分析模拟的设计技术,并高度重视团队合作。本案例研究的最终目的是展示如何根据日益增长的精益生产需求,优化设计,在保持性能的同时提高重量效率,并简化设计,降低部件结构的复杂性。指导所有活动的原则是重视团队合作的力量,将团队的重点放在安全性和可靠性上。在初始阶段,应用了 "从设计到价值 "流程所预见的所有工具,对构成其价值来源的产品内容进行了分类。随后的成果是提出了有效的施工方案,并推动了第二阶段的工作,即对执行器进行重新设计。该项目的特点是将 "公式设计 "技术与先进的有限元分析模拟("分析设计")相结合,旨在进行应力、变形和拓扑优化。实验验证分为两个步骤,首先是一个初步的 "模拟 "原型,然后是一个完整的详细原型,通过直接进行一系列深入测试来确认计算和模拟结果。初步获得的结果表明,基于所述多方法的方法可以优化推杆的设计,同时保证安全性、可靠性和性能。在所研究的案例中,重量有望减轻 8%,经济效益有望提高近 20%。
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Multimethodology based on Design-to-Value (DtV), integrated with simulation techniques and prioritization of teamwork for the optimization of a pneumatic rack & pinion actuator
The investigations here presented focus on the redesign and innovation of a pneumatic rack and pinion actuator for valve actuation, as a case study for investigating the potential of a multimethodology based on the Design to Value (DtoV) process, coupled with design techniques utilizing FEA simulations and giving high priority to teamwork. The final objective of this case study is to show how it is possible to optimize the design, increasing weight efficiency while maintaining performance, and to simplify it, with a reduction of components construction complexity, according to the growing demand for a lean production. The principle that guided all the activities was valorizing the power of teamwork, focusing the team on Safety and Reliability. In an initial phase, all the instruments foreseen by “Design-to-Value” process have been applied, obtaining a classification of the contents of the product constituting its sources of value. Subsequent outputs are proposals for efficient construction solutions, driving a second phase, dedicated to the re-design of the actuator. The peculiarity of this project has been to combine the “Design by Formulas” techniques with advanced FEA simulations (“Design by Analysis”), aiming to stress, deformation, and topology optimization. A two-step experimental validation is used, based on a preliminary “mockup” prototype followed by a complete detailed prototype, for confirming the results of the calculations and simulations, by directly performing a series of in-depth tests. Preliminary obtained results show that the approach based on the described multimethodology, makes it possible to optimize the design of the actuator, maintaining safety, reliability, and performance. In the case studied, the weight reduction is expected to be 8% and economic efficiency increase is expected to be near 20%.
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