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丛秀娟 《现代制造技术与装备》2011,(3):20-22
通过对创新问题的分析研究,阐述了TRIZ对解决创新问题所起到的作用,归纳了TRIZ的理论基础及基本内容,介绍了TRIZ的创新设计过程模型,并将其应用到电源插头的创新设计中。电源插头创新方案的提出验证了TRIZ创新设计过程模型的正确性及可行性。 相似文献
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科学的设计方法是实现产品创新设计的关键。在分析比较AD(公式化设计)与TRIZ设计方法的基础上,提出了基于AD与TRIZ的产品创新设计模型。将TRIZ中的冲突解决理论运用于查找AD中的耦合源,通过重新定义功能参数、设计参数及设计矩阵,保证产品设计为非耦合设计或弱耦合设计。通过对打印机送纸机构的实例分析表明,运用该方法能快速得到创新的设计解。 相似文献
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基于QFD和TRIZ的产品形态创新方法 总被引:1,自引:0,他引:1
为减少形态创新设计思维过程的主观性和偶然性,帮助设计师快速、准确地发现和确定产品形态创新点,提出了一种基于质量功能配置和发明问题解决理论的产品形态创新设计新方法.该方法通过构建一个改进的面向形态设计的质量屋模型分析并确定产品形态设计中的冲突,结合可视化的TRIZ 40条创新原理资料库,应用TRIZ来解决设计冲突,以此获得形态创新点和创新形态设计方案.运用本文提出的方法,完成了插座的形态创新设计. 相似文献
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TRIZ理论是解决发明创造问题的理论。介绍了TRIZ理论的基本原理和方法,对技术矛盾求解等问题进行了论述,并以燃气灶具燃烧器的创新设计为例,运用TRIZ理论快速找到问题解决方案,实现了产品创新设计。 相似文献
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本文重点阐述了TRIZ中的核心原理,分析了技术冲突,冲突矩阵及发明原理之间的关系,提出了解决创新问题的一般过程,并通过对工程实例的概念设计分析,说明如何应用TRIZ创造性的解决工程设计问题。 相似文献
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寻求TRIZ问题特定解的一种新方法 总被引:2,自引:0,他引:2
分析发明问题解决理论(TRIZ)解决技术矛盾的基本原理,用39个规范的特征描述技术矛盾,由40项创新原理构成矛盾解决矩阵。对于存在多个技术矛盾的创新设计问题,需要研究传统的TRIZ的后处理方法,以帮助设计师优先选择更适用的创新原理。利用模糊综合评价法,对TRIZ所推荐的创新原理作出顺序选择的决策。提出了寻找TRIZ问题特定解的一种新方法。通过新产品实例测试表明,这种方法的探索更加突出了TRIZ在消除矛盾方面的有效性。 相似文献
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Many design engineers in cross-domain industries have attended training classes of TRIZ to improve their innovative abilities in China. Most of them are successful, but others are not. So the latest target of the trainers is to improve the training process used now in industry in China and to make the engineers to understand the basic principles of TRIZ better. Based on the mass-engineer-oriented training model (MEOTM) and mechanical engineers’ design cases, a relationship between managing activities about the opportunities for innovation and the training process is set up. It is shown that the inventive problems come first from opportunity searching for engineers. A training and gate system for evaluation is developed to involve the managing activities of the companies in the training process. Then comparison between the general analogous process and the application of TRIZ is made, which shows the advantages and depth principles of TRIZ for the engineers to apply them confidently. Lastly a new process is formed in which opportunity searching, engineers training, inventive problems identifying and solving,and three redesign paths are connected seamlessly. The research proposes an opportunity-driven redesign path that cooperates the training and opportunity searching, which will be applied in future training classes to make more and more engineers to follow. 相似文献
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基于知识粒度的TRIZ在创新设计中的应用 总被引:2,自引:0,他引:2
为实现发明问题解决理论(Theory of inventive problem solving,TRIZ)中概念解到特定解的,从认知心理学角度分析产品创新设计问题的解决机理,提出一种多粒度多层次的知识组织模型,将设计知识按照TRIZ原理、功能、行为-流对、科学效应、领域五种属性进行标注,每种属性又包括概念、语义和事实资源三种层次结构,构建多属性多层次的本地知识库,为设计者提供本领域知识。此外通过语义本体推理和语义扩展从专利数据库和网络资源中获取近领域、远领域知识,在创新设计问题解决过程中推送给设计者,有利于激发设计者进行联想类比,支持其从不同粒度分析和解决问题。最后建立基于多粒度知识组织的创新设计问题解决模型和系统框架,并结合III型铁路扣件的概念设计示例说明该模型的应用。 相似文献
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Many design engineers in cross-domain industries have attended training classes of TRIZ to improve their innovative abilities in China. Most of them are successful, but others are not. So the latest target of the trainers is to improve the training process used now in industry in China and to make the engineers to understand the basic principles of TRIZ better. Based on the mass-engineer-oriented training model(MEOTM) and mechanical engineers' design cases, a relationship between managing activities about the opportunities for innovation and the training process is set up. It is shown that the inventive problems come first from opportunity searching for engineers. A training and gate system for evaluation is developed to involve the managing activities of the companies in the training process. Then comparison between the general analogous process and the application of TRIZ is made, which shows the advantages and depth principles of TRIZ for the engineers to apply them confidently. Lastly a new process is formed in which opportunity searching, engineers training, inventive problems identifying and solving,and three redesign paths are connected seamlessly. The research proposes an opportunity-driven redesign path that cooperates the training and opportunity searching, which will be applied in future training classes to make more and more engineers to follow. 相似文献