农机化研究
農機化研究
농궤화연구
JOURNAL OF AGRICULTURAL MECHANIZATION RESEARCH
2016年
2期
17-21
,共5页
播深控制%虚拟样机%排种器%仿真模拟%UG软件%ADAMS软件
播深控製%虛擬樣機%排種器%倣真模擬%UG軟件%ADAMS軟件
파심공제%허의양궤%배충기%방진모의%UG연건%ADAMS연건
sowing depth control%virtual prototype%metering device%simulation%UG software%ADAMS software
为了进一步改善耕种机的播深控制和排种精度,提高耕种机的设计效率,提出了一种基于数值仿真模拟的耕种机播种精度优化设计方法,建立了播种机的虚拟样机模型,并对播种参数的优化效果进行了仿真计算分析。利用三维绘图软件UG设计了排种器的零部件,建立了装配模型,设计了精密播种机的虚拟样机模型;采用ADAMS软件对排种器排种精度和播种机虚拟样机的播深合格率进行了动力学仿真。通过数值仿真模拟计算,得到了精密播种机播深随时间的变化曲线,以及ADAMS参数优化前后排种精度和播深合格率的结果。通过结果的对比分析发现:优化后的排种器排种精度有了明显的改善,且变异系数小;虚拟样机的播深合格率有了明显的提高,并且播深控制的稳定性较好,播深的控制精度较高,为播种机的优化设计提供了技术参考。
為瞭進一步改善耕種機的播深控製和排種精度,提高耕種機的設計效率,提齣瞭一種基于數值倣真模擬的耕種機播種精度優化設計方法,建立瞭播種機的虛擬樣機模型,併對播種參數的優化效果進行瞭倣真計算分析。利用三維繪圖軟件UG設計瞭排種器的零部件,建立瞭裝配模型,設計瞭精密播種機的虛擬樣機模型;採用ADAMS軟件對排種器排種精度和播種機虛擬樣機的播深閤格率進行瞭動力學倣真。通過數值倣真模擬計算,得到瞭精密播種機播深隨時間的變化麯線,以及ADAMS參數優化前後排種精度和播深閤格率的結果。通過結果的對比分析髮現:優化後的排種器排種精度有瞭明顯的改善,且變異繫數小;虛擬樣機的播深閤格率有瞭明顯的提高,併且播深控製的穩定性較好,播深的控製精度較高,為播種機的優化設計提供瞭技術參攷。
위료진일보개선경충궤적파심공제화배충정도,제고경충궤적설계효솔,제출료일충기우수치방진모의적경충궤파충정도우화설계방법,건립료파충궤적허의양궤모형,병대파충삼수적우화효과진행료방진계산분석。이용삼유회도연건UG설계료배충기적령부건,건립료장배모형,설계료정밀파충궤적허의양궤모형;채용ADAMS연건대배충기배충정도화파충궤허의양궤적파심합격솔진행료동역학방진。통과수치방진모의계산,득도료정밀파충궤파심수시간적변화곡선,이급ADAMS삼수우화전후배충정도화파심합격솔적결과。통과결과적대비분석발현:우화후적배충기배충정도유료명현적개선,차변이계수소;허의양궤적파심합격솔유료명현적제고,병차파심공제적은정성교호,파심적공제정도교고,위파충궤적우화설계제공료기술삼고。
In order to further improve the farming machine sowing depth control and metering accuracy, improve the de-sign efficiency of farming machine, put forward a kind of optimization design method of machine for tilling seeding accu-racy numerical simulation based on the virtual prototype model, established the seeder, and the optimization effect on seeding parameters calculated simulation.The seeding machine parts design using three-dimensional drawing software UG, assembly model is established, the design of the virtual prototype model of precision seeder, the metering device for precision seeding machine virtual prototype and the qualified rate of the sowing depth of dynamic simulation is carried out using ADAMS software.Through the numerical simulation calculation, the precise sowing machine get deep variation curves, obtained ADAMS parameters before and after optimization, the metering accuracy and sowing depth qualified rate results.The results found, sowing precision after optimization is improved obviously, and the coefficient of variation is small , the virtual prototype of the sowing depth pass rate has been significantly improved, and the sowing depth control of good stability, high control precision sowing depth, provide technical reference for optimization design of seeder the.
