摘要
为解决传统跷跷板在游戏过程中,乘坐者易被抛出而造成事故的问题,设计既能保障使用安全又充满乐趣的跷跷板用具。运用TRIZ理论对传统跷跷板技术系统进行系统功能定义,系统功能模型构建,因果分析,挖掘出技术矛盾与物理矛盾。通过查询矛盾矩阵获得六项发明原理典型解决方案,具体应用于变速安全跷跷板创新设计方案,为TRIZ理论方法的在具体产品设计领域的应用提供了专业性的实践案例。
In order to solve the problem that the passengers are easily thrown out of the traditional seesaw during the game,it is designed to be safe and fun to use. TRIZ theory is used to define the system function of the traditional seesaw technology system,build the system function model,cause and effect analysis,and excavate the technical and physical contradictions. By querying the contradiction matrix,six typical solutions of invention principles are obtained,which are applied to the innovative design of variable speed and safety seesaw.The application of TRIZ theory and method in the field of product design provides a professional practical case.
作者
葛庆
汪崟
GE QING;WANG YIN
出处
《设计》
2022年第7期134-137,共4页
Design
关键词
TRIZ理论
跷跷板
功能
矛盾分析
创新设计
TRIZ theory
Seesaw
Function
Contradiction analysis
Innovative design
