摘要
基于TRIZ理论与Adams虚拟样机技术对木薯种茎切割机进行优化设计。优化方案采用多融合方法进行研究,使用TRIZ理论与Adams虚拟样机搭建虚拟优化平台对实物样机进行优化设计。使用Adams和因果链分析法查找问题中的主要矛盾,运用TRIZ理论发明创造性原理解决主要矛盾,获得最优设计方案。木薯切种机优化后工作稳定可靠,采用新的定位机构可将刀具在非切割方向的振动减小,其工作效率与可靠性较原来样机有较大提高。结果表明:基于TRIZ理论与Adams虚拟样机技术的联合优化设计方法在解决发明创造问题时具有可行性,大大降低了解决发明设计问题的成本和时间,有望成为未来解决样机优化问题的研究方法之一。
To verify the feasibility of joint optimization scheme based on TRIZ theory and Adams virtual prototype technology through an example.The optimization scheme was researched by multi-fusion method,using TRIZ theory and Adams virtual prototype to build a virtual optimization platform to optimize the design of physical prototype.Use Adams and causal chain analysis to find the main contradictions in the problem,use TRIZ theory to invent creative principles to solve the main contradictions,and obtain the optimal design plan.The optimized cassava seed cutter is stable and reliable.The new positioning mechanism can reduce the vibration of the cutter in the non-cutting direction,and its working efficiency and reliability are greatly improved compared with the original prototype.The joint optimization design method based on TRIZ theory and Adams virtual prototype technology is feasible in solving the problem of invention and creation.This research method greatly reduces the cost and time of solving the problem of invention and design,and is expected to become the main research method to solve the problem of prototype optimization in the future.
作者
李竞
袁恒
孙迪
马甲辰
黄龙生
龚雪晗
李馨
Li Jing;Yuan Heng;Sun Di;Ma Jiachen;Huang Longsheng;Gong Xuehan;Li Xin(School of Mechanical Engineering,Guangxi University,Nanning 530004,China)
出处
《农机化研究》
北大核心
2022年第2期39-44,共6页
Journal of Agricultural Mechanization Research
基金
广西自然科学基金项目(2018GXNSFBA281080)
广西制造系统与先进制造技术重点实验室立项项目(17-259-05S004)。
