摘要
现有智能花盆设计中存在自动化程度低、植物适用性较为单一等弊端,研究改善此类问题将提升用户体验并开拓智能花盆市场。基于TRIZ理论分解智能花盆系统,归纳设计过程中应着重考虑的问题。选取适用于本研究的通用参数建立矛盾矩阵,依照可行性原理分析表选取矩阵中适用的发明原理,结合发明原理解决方案设计中存在的矛盾问题。最终通过使用半导体冷凝技术得到一种资源利用率高、成本低且自动化程度高的智能花盆解决方案,为智能花盆领域的应用研究提供有价值的参考。
The existing smart flowerpot design has disadvantages such as low degree of automation and relatively simple plant applicability.Studying and improving such problems will improve the user experience and open up the smart flowerpot market.Based on the TRIZ theory,the intelligent flowerpot system is decomposed,and the problems that should be considered in the design process are summarized.Select the general parameters suitable for this study to establish a TRIZ contradiction matrix,select the applicable invention principles in the matrix according to the feasibility principle analysis table,and solve the contradictions existing in the solution design according to the invention principles.Finally,through the use of semiconductor condensation technology,a smart flowerpot solution with high resource utilization,low cost and high degree of automation is obtained,which provides a valuable reference for application research in the field of sm art flowerpots.
作者
吴欢龙
韩璐遥
余林军
刘伟锐
WU Huanlong;HAN Luyao;YU Linjun;LIU Weirui(Gree Electric Appliances,Inc.of Zhuhai,Zhuhai 519070)
出处
《家电科技》
2022年第6期68-71,共4页
Journal of Appliance Science & Technology
