农机化研究
農機化研究
농궤화연구
JOURNAL OF AGRICULTURAL MECHANIZATION RESEARCH
2014年
12期
103-106
,共4页
微耕机%执行装置%仿真
微耕機%執行裝置%倣真
미경궤%집행장치%방진
micro tillage machine%execution means%simulation
针对我国南方丘陵山区特有耕地作业环境,以通用微耕机机体为基础,采用多连杆运动机构,使微耕机执行装置掘土行程运动速度较慢,增加挖掘力,增大掘土深度,加大回程运动速度,从而节省时间。采用 Solid-Works 建立执行装置虚拟样机,并应用 Simulation 模块进行运动仿真,得出耕刀 Y 轴位置曲线、速度曲线、加速度曲线,从而证明该微耕机执行装置具有效率高、耕深大、操作更加简单省力的优势。
針對我國南方丘陵山區特有耕地作業環境,以通用微耕機機體為基礎,採用多連桿運動機構,使微耕機執行裝置掘土行程運動速度較慢,增加挖掘力,增大掘土深度,加大迴程運動速度,從而節省時間。採用 Solid-Works 建立執行裝置虛擬樣機,併應用 Simulation 模塊進行運動倣真,得齣耕刀 Y 軸位置麯線、速度麯線、加速度麯線,從而證明該微耕機執行裝置具有效率高、耕深大、操作更加簡單省力的優勢。
침대아국남방구릉산구특유경지작업배경,이통용미경궤궤체위기출,채용다련간운동궤구,사미경궤집행장치굴토행정운동속도교만,증가알굴력,증대굴토심도,가대회정운동속도,종이절성시간。채용 Solid-Works 건립집행장치허의양궤,병응용 Simulation 모괴진행운동방진,득출경도 Y 축위치곡선、속도곡선、가속도곡선,종이증명해미경궤집행장치구유효솔고、경심대、조작경가간단성력적우세。
In view of the southern hilly farmland operating environment , based on the body of the general micro tillage machine , its executing device adopts the multi-link motion mechanism to slower the digging speed , increasing the dig-ging force and depth as well as speeding up the return movement to save time .SolidWorks is adopted to establish the vir-tual prototype and the Simulation module`s movement simulation is applied to obtain the tool`s Y-axis position curve , ve-locity curve , and acceleration curve , thereby it is concluded that the micro tillage machine executing device has the ad-vantages of high efficiency , deep tillage , more simple and labor-saving operation .