| 摘要: |
| 目的 运用AHP-QFD-TRIZ发现并解决用户需求与产品设计技术之间的矛盾,从而提出设计方案,以提升宠物理毛机的性能和用户满意度。方法 首先,从网络购物平台在线评价文本、市场产品调研以及饲养者视角下获取用户需求,并运用AHP对用户需求进行层次化分析,计算指标权重值,确定需求指标的优先级;其次,通过QFD将用户需求转化为具体的设计技术要求,并识别出设计中的矛盾冲突;最后,运用TRIZ理论,针对不同的矛盾冲突,选择合适的分离方法和发明原理进行解决,从而得到宠物理毛机的创新设计方案,并通过模糊综合评价对整体方案进行效果验证。结果 根据AHP-QFD-TRIZ集成应用方法得到的冲突解决方案,完成了宠物理毛机的设计及验证。结论 通过该集成方法的应用,证明该方法对提升宠物理毛机的性能和用户满意度是可行和有效的。 |
| 关键词: 宠物理毛机 层次分析法(AHP) 质量功能配置(QFD) 创新方法(TRIZ) |
| DOI:10.19554/j.cnki.1001-3563.2025.10.049 |
| 分类号: |
| 基金项目: |
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| Design of Pet Grooming Machine Based on AHP-QFD-TRIZ |
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GAO Honghe1, WANG Minghui1, LI Jing1, CHEN Guangbo2
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(1. School of Art & Design, Liaoning Petrochemical University, Liaoning Fushun 113001, China;2. School of Art & Design, Dalian Polytechnic University, Liaoning Dalian 116034, China)
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| Abstract: |
| The work aims to use AHP-QFD-TRIZ to discover and solve the contradiction between user needs and product design technology, and then propose design schemes to improve the performance and user satisfaction of pet grooming machines. Firstly, the user needs were obtained from online evaluation texts of online shopping platforms, market product research and pet owners, and the AHP was used to conduct a hierarchical analysis on user needs, calculate the indicator weight value, and determine the priority of need indicators. Secondly, QFD was used to transform user needs into specific design technical requirements, and identify the contradictions and conflicts in the design. Finally, TRIZ theory was used to select appropriate separation methods and invention principles to solve different contradictions and conflicts, so as to obtain an innovative design scheme for the pet grooming machine, and the effect of the overall scheme was verified through fuzzy comprehensive evaluation. Based on the conflict resolution method obtained by the integrated application method of AHP-QFD-TRIZ, the design and verification of the pet grooming machine were completed. Through the application of this integrated method, it is proved that this method is feasible and effective to improve the performance and user satisfaction of pet grooming machine. |
| Key words: pet grooming machine analytic hierarchy process (AHP) quality function development (QFD) innovative approach (TRIZ) |
