摘要
在比较了TRIZ理论与可拓学解决问题优缺点的基础上,对二者进行了方法学融合,提出了基于TRIZ理论与可拓学解决矛盾问题的一般方法.该方法首先通过可拓学的基元模型获得问题的矛盾属性,然后运用TRIZ对应的解决工具,找到适合该问题的原理解.而后依据TRIZ原理解的指导,结合机构实际的结构及安装布局,运用可拓变换方法获得多种可行的解决方案.最后利用优度评价方法获得问题最终理想解.并根据此方法对一种喷嘴的结构进行改进,进一步证明了二者间的融合能够较为便捷的获得理想方案.
Based on comparison of TRIZ theory and Extenics,the new innovative method is proposed,which combines the solving conflict approaches of TRIZ theory and Extenics.The new method includes the following steps:Firstly,the primitive model of Extenics is used to obtain contradictory parameters.Secondly,adopting TRIZ corresponding solving tools to find its suitable principles about the problem.Thirdly,according to guide of this principle and the mechanical structure,variety of possible solutions are obtained using the transform methods of Extenics.Finally,the advantageous evaluation method of Extenics is used to get an ideal solution about this problem.According to the new method,the structure of nozzle has been improved,which demonstrates this method can easily obtain an ideal solution.
出处
《广州大学学报(自然科学版)》
CAS
2014年第6期59-64,共6页
Journal of Guangzhou University:Natural Science Edition
基金
广东省科技计划资助项目(2012B061000013)
广东省创新方法与决策管理系统重点实验室开放基金资助项目(2011A060901001-19D)
关键词
TRIZ理论
可拓学
创新方法
冲突问题
融合
TRIZ theory
Extenics
innovative method
conflict problem
combination
