摘要
为使带式输送机断带保护装置制造企业快速、高效地实现产品的升级创新,提出了基于发明问题解决理论(Theory of the Solution of Inventive Problems,TRIZ)、功能-原理-结构分解的带式输送机断带保护装置创新设计过程模型。在明确设计任务、形成设计方案和改进结构设计3个阶段中,利用TRIZ的技术进化理论和物质-场分析实现创新方向的寻找和方案的制定,通过功能-原理-结构分解实现功构置换、聚合等,最终完成带式输送机保护装置的创新设计。以楔块式断带抓捕装置为例,采用设计的模型对其进行创新设计,验证了所构建模型的有效性。
In order to enable belt break protection device manufacturers to quickly and efficiently achieve product upgrading and innovation, an innovative design process model for belt break protection devices based on Theory of the Solution of Inventive Problems(TRIZ) theory and the function-principle-structure decomposition model is proposed. According to the three stages of clarifying the design task, forming the design plan, and improving the structural design, the innovative direction is searched and the plan is formulated by using the technological evolution theory and material-field analysis, and the innovative design of the belt conveyor protection device is finally completed by realizing the methods of function-principle-structure decomposition model such as substitution and aggregation. Taking the wedge-type belt break catch device as an example, the above-mentioned model is used for its innovative design to verify the validity of the constructed model.
作者
林澳敏
吕宗龙
马苏常
LIN Aomin;LV Zonglong;MA Suchang(College of Mechanical Technology,Wuxi Institute of Technology,Wuxi 214121;Jiangsu Province Intelligent Production Line Technology and Equipment Engineering Research Centre,Wuxi 214121)
出处
《现代制造技术与装备》
2022年第11期69-72,共4页
Modern Manufacturing Technology and Equipment
基金
江苏省产学研合作项目(BY2021150)
无锡职业技术学院博士、教授科研启动项目(BT2019-01)
江苏省高等学校优秀科技创新团队“智能制造装备设计及工程应用”(江苏教科函[2019]7号)。
关键词
断带保护
发明问题解决理论(TRIZ)
创新设计
技术进化
功能-原理-结构分解
belt-break protection
Theory of the Solution of Inventive Problems(TRIZ)
innovative design
technological evolution
function-principle-structure decomposition model
