农机化研究
農機化研究
농궤화연구
JOURNAL OF AGRICULTURAL MECHANIZATION RESEARCH
2015年
9期
10-15
,共6页
梁丽娜%韩豹%孟繁超%徐洪岩%葛玉晓
樑麗娜%韓豹%孟繁超%徐洪巖%葛玉曉
량려나%한표%맹번초%서홍암%갈옥효
超级稻%定向排种%精量播种%仿真分析%参数优选
超級稻%定嚮排種%精量播種%倣真分析%參數優選
초급도%정향배충%정량파충%방진분석%삼수우선
super hybrid rice%directional seeding%precision seeding%simulation analysis%parameters optimization
为进一步提高超级稻精密育秧播种精度,设计开发了一种定向排种装置,建立了单粒种子分离机构的数学模型,并用Visual Basic 6.0语言编写了该机构的辅助分析和仿真程序。同时,分析了主要参数对该机构运动轨迹的姿态和位移的影响:五杆机构中的曲柄长度l1对分离板运动轨迹的姿态无影响,但对分离板在x轴和y轴方向的位移有较大影响;连杆长度l2和摇杆长度l3不仅对分离板运动轨迹的形状和姿态影响较大,而且对分离板在x轴和 y轴方向的位移也有较大影响;支架安装角θ1、输出杆长度l5及其与连杆的夹角θ3对分离板运动轨迹的形状影响较小,但对分离板运动轨迹的姿态和在x轴和 y 轴方向的位移均有较大影响。根据参数影响分析结果,以分离板运动的设计轨迹为优化目标,通过人机交互方式对该机构进行了运动仿真,得到了一组较优机构参数。利用Adams 软件对优选后的机构进行了运动学仿真,其输出点轨迹、速度和加速度满足设计要求。仿真结果可为北方粳稻植生带育秧设备定向排种装置的设计提供理论依据。
為進一步提高超級稻精密育秧播種精度,設計開髮瞭一種定嚮排種裝置,建立瞭單粒種子分離機構的數學模型,併用Visual Basic 6.0語言編寫瞭該機構的輔助分析和倣真程序。同時,分析瞭主要參數對該機構運動軌跡的姿態和位移的影響:五桿機構中的麯柄長度l1對分離闆運動軌跡的姿態無影響,但對分離闆在x軸和y軸方嚮的位移有較大影響;連桿長度l2和搖桿長度l3不僅對分離闆運動軌跡的形狀和姿態影響較大,而且對分離闆在x軸和 y軸方嚮的位移也有較大影響;支架安裝角θ1、輸齣桿長度l5及其與連桿的夾角θ3對分離闆運動軌跡的形狀影響較小,但對分離闆運動軌跡的姿態和在x軸和 y 軸方嚮的位移均有較大影響。根據參數影響分析結果,以分離闆運動的設計軌跡為優化目標,通過人機交互方式對該機構進行瞭運動倣真,得到瞭一組較優機構參數。利用Adams 軟件對優選後的機構進行瞭運動學倣真,其輸齣點軌跡、速度和加速度滿足設計要求。倣真結果可為北方粳稻植生帶育秧設備定嚮排種裝置的設計提供理論依據。
위진일보제고초급도정밀육앙파충정도,설계개발료일충정향배충장치,건립료단립충자분리궤구적수학모형,병용Visual Basic 6.0어언편사료해궤구적보조분석화방진정서。동시,분석료주요삼수대해궤구운동궤적적자태화위이적영향:오간궤구중적곡병장도l1대분리판운동궤적적자태무영향,단대분리판재x축화y축방향적위이유교대영향;련간장도l2화요간장도l3불부대분리판운동궤적적형상화자태영향교대,이차대분리판재x축화 y축방향적위이야유교대영향;지가안장각θ1、수출간장도l5급기여련간적협각θ3대분리판운동궤적적형상영향교소,단대분리판운동궤적적자태화재x축화 y 축방향적위이균유교대영향。근거삼수영향분석결과,이분리판운동적설계궤적위우화목표,통과인궤교호방식대해궤구진행료운동방진,득도료일조교우궤구삼수。이용Adams 연건대우선후적궤구진행료운동학방진,기수출점궤적、속도화가속도만족설계요구。방진결과가위북방갱도식생대육앙설비정향배충장치적설계제공이론의거。
The agronomy experimental results indicate that sowing quantity and seedling quality are the main restricting factors for good quality and high yield of super rice .One of the important methods measures for increasing super rice yield is to apply the advanced precision seeding technology to the cultivation of high quality seedlings .Based on the suction precision seeding device for nursing rice seedlings , in which the seeds were positioned and fixed with paper precisely , the present paper designed a new directional seeding device in order to further enhance the seedling accuracy of super hybrid rice in low seeding rate .The mathematical model of five-linkage single seed separation mechanism was established and its trajectory posture and moving distance were simulated using Visual Basic 6 .0 , based on important design parameters . It was found that the length of the crank of the multi-linkage mechanism l1 had not significant influence on the trajectory posture of the separating plate , but it affected very much on its moving distance in x and y direction .The length of the rockerl 2, the linkage l 3 and the bracket l 4 had significant influence on not only the trajectory shape and posture of the separating plate , but also on its the moving distance of in x and y direction .The installation angle of the bracket θ1, the length of the output link l 5 and the angle between the output link and the connecting rod θ3 had little influence on the traj-ectory shape of the separating plate , but they all had significant impact on the trajectory posture and moving distance of the separating plate in x and y direction .Based on simulation on this mechanism utilizing the man -machine interactive method, a group of preferable mechanical parameters were obtained :l1=7.7mm ,l2=23mm, l3=26mm, l4=37mm,l5=36mm,θ1=64°,θ3=12°,and kinematics simulation for the optimized five-linkage mechanism was performed with ad-ams.The result shows that the movement trajectory ,speed and acceleration could meet the design requirement of five-bar mechanism very well .The research may be used as designing basis for the directional precision seeding device .
