基于TRIZ理论的自走式青饲机喂入液压反转机构设计
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摘要
针对目前青饲料收获过程存在因切割不畅导致的喂入堵塞以及收获效率低的问题,应用TRIZ理论对自走式青饲机喂入部分进行创新设计研究。最终设计出一种结构合理、操作方便的青饲机喂入液压反转机构,解决了喂入堵塞问题,提高了工作效率。
In view of current problems of feed blockage and low harvesting efficiency caused by poor cutting during green feed harvesting process,the TRIZ theory was used to carry out innovative design research on the feeding part of the self-propelled green feeding machine. Finally,a green feeding machine with reasonable structure and convenient operation was designed to feed hydraulic reversing mechanism,which solved feeding blockage and improved working efficiency.
In view of current problems of feed blockage and low harvesting efficiency caused by poor cutting during green feed harvesting process,the TRIZ theory was used to carry out innovative design research on the feeding part of the self-propelled green feeding machine. Finally,a green feeding machine with reasonable structure and convenient operation was designed to feed hydraulic reversing mechanism,which solved feeding blockage and improved working efficiency.
引文
[1]王泽群,唐遵峰,崔刚,等.自走式饲料收获机的设计[J].中国奶牛,2007(6):51-53.
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[5]李芮,衣淑娟,赵斌,等.基于TRIZ理论的气吸式排种器创新设计[J].农机化研究,2018,40(7):195-199.LI Rui,YI Shujuan,ZHAO Bin,et al.Innovative design of airsuction seed metering device based on TRIZ theory[J].Journal of Agricultural Mechanization Research,2018,40(7):195-199.
[6]李晓良,刘志兵,李晓康,等.自走式青贮饲料收获机切碎喂入实验装置设计[J].机械研究与应用,2018,31(6):100-102.LI Xiaoliang,LIU Zhibing,LI Xiaokang,et al.Design and development of cutting feeding device for self-propelled silage harvester[J].Mechanical Research&Application,2018,31(6):100-102.
[7]李英利,陈群,颜康.利用TRIZ物-场模型分析换热器的工程应用案例[J].山东化工,2018,47(7):90-92,98.LI Yingli,CHEN Qun,YAN Kang.Analysis of heat exchangers for engineering application case using S-F model in TRIZ[J].Shandong Chemical Industry,2018,47(7):90-92,98.
[8]山旭.基于TRIZ理论物质-场和标准解法研究及应用[D].西安:陕西科技大学,2018.SHAN Xu.Research and application of substance-field and standard solution based on TRIZ theory[D].Xi’an:Shaanxi University of Science and Technology,2018.
[2]石社轩.运用TRIZ改进饲料机进料管设计[J].创新科技,2012(5):20-21.
[3]刘元春,刘欣.青饲收获机械的现状及发展趋势[J].农业工程,2016,6(5):9-11.LIU Yuanchun,LIU Xin.Current situation and development Trends of green crop plant harvest machine[J].Agricultural Engineering,2016,6(5):9-11.
[4]王建锋,戈振扬,朱惠斌.TRIZ理论在农业机械装备创新设计中的应用[J].农业装备与车辆工程,2006(9):11-14.WANG Jianfeng,GE Zhenyang,ZHU Huibin.Theory of TRIZ and its application to innovative design of agricultural machine and equipment[J].Agricultural Equipment&Vehicle Engineering,2006(9):11-14.
[5]李芮,衣淑娟,赵斌,等.基于TRIZ理论的气吸式排种器创新设计[J].农机化研究,2018,40(7):195-199.LI Rui,YI Shujuan,ZHAO Bin,et al.Innovative design of airsuction seed metering device based on TRIZ theory[J].Journal of Agricultural Mechanization Research,2018,40(7):195-199.
[6]李晓良,刘志兵,李晓康,等.自走式青贮饲料收获机切碎喂入实验装置设计[J].机械研究与应用,2018,31(6):100-102.LI Xiaoliang,LIU Zhibing,LI Xiaokang,et al.Design and development of cutting feeding device for self-propelled silage harvester[J].Mechanical Research&Application,2018,31(6):100-102.
[7]李英利,陈群,颜康.利用TRIZ物-场模型分析换热器的工程应用案例[J].山东化工,2018,47(7):90-92,98.LI Yingli,CHEN Qun,YAN Kang.Analysis of heat exchangers for engineering application case using S-F model in TRIZ[J].Shandong Chemical Industry,2018,47(7):90-92,98.
[8]山旭.基于TRIZ理论物质-场和标准解法研究及应用[D].西安:陕西科技大学,2018.SHAN Xu.Research and application of substance-field and standard solution based on TRIZ theory[D].Xi’an:Shaanxi University of Science and Technology,2018.
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