机床与液压
機床與液壓
궤상여액압
MACHINE TOOL & HYDRAULICS
2014年
22期
13-17
,共5页
甘耀海%郑丁科%刘庆庭%区颖刚
甘耀海%鄭丁科%劉慶庭%區穎剛
감요해%정정과%류경정%구영강
甘蔗%田间运输车%高位举升%机构设计
甘蔗%田間運輸車%高位舉升%機構設計
감자%전간운수차%고위거승%궤구설계
Sugarcane%Field transportation vehicle%Height-lifting%Mechanism design
田间运输是甘蔗机械收获过程中必不可少的环节。根据甘蔗收获后的田间运输要求,采用分级和同步举升的结构设计方案设计出了田间高位举升运输车的举升与自卸机构,可以满足田间货物转运的要求。机构的受力分析与仿真试验结果表明:各机构的拉杆及油缸在举升的起始位置受力最大,自卸机构的油缸最大推力约为80 kN,拉杆最大拉力约为50 kN;T式同步举升机构的油缸最大推力约为73 kN,拉杆最大拉力约为52 kN;举升臂在运动的5 s过程中,在0.47397 s时刻举升臂受到的最大应力值为200.15 MPa,最大应力位置在举升臂与机架的相连处。文中的研究为进一步设计制造田间高位举升运输车提供了技术基础和理论依据。
田間運輸是甘蔗機械收穫過程中必不可少的環節。根據甘蔗收穫後的田間運輸要求,採用分級和同步舉升的結構設計方案設計齣瞭田間高位舉升運輸車的舉升與自卸機構,可以滿足田間貨物轉運的要求。機構的受力分析與倣真試驗結果錶明:各機構的拉桿及油缸在舉升的起始位置受力最大,自卸機構的油缸最大推力約為80 kN,拉桿最大拉力約為50 kN;T式同步舉升機構的油缸最大推力約為73 kN,拉桿最大拉力約為52 kN;舉升臂在運動的5 s過程中,在0.47397 s時刻舉升臂受到的最大應力值為200.15 MPa,最大應力位置在舉升臂與機架的相連處。文中的研究為進一步設計製造田間高位舉升運輸車提供瞭技術基礎和理論依據。
전간운수시감자궤계수획과정중필불가소적배절。근거감자수획후적전간운수요구,채용분급화동보거승적결구설계방안설계출료전간고위거승운수차적거승여자사궤구,가이만족전간화물전운적요구。궤구적수력분석여방진시험결과표명:각궤구적랍간급유항재거승적기시위치수력최대,자사궤구적유항최대추력약위80 kN,랍간최대랍력약위50 kN;T식동보거승궤구적유항최대추력약위73 kN,랍간최대랍력약위52 kN;거승비재운동적5 s과정중,재0.47397 s시각거승비수도적최대응력치위200.15 MPa,최대응력위치재거승비여궤가적상련처。문중적연구위진일보설계제조전간고위거승운수차제공료기술기출화이론의거。
Field transportation is an indispensable part in the course of mechanical harvesting of sugarcane. According to the transportation requirements in sugarcane field after harvesting,the design plan of mechanism based on multi-stage lifting and sync-lift-ing was proposed to finish the design of height-lifting mechanism and dump-bodies of transportation vehicle which met requirements of transporting crops in the field. The results of stress analysis and simulation show that:the levers and cylinders are subjected to the maximum load at starting positions of lifting process,the maximum push of dump-body’s cylinder is about 80 kN,the maximum pull of dump-body’s lever is about 50 kN,the maximum push of T-sync-lifting’s cylinder is about 73 kN,the maximum pull of T-sync-lift-ing’s lever is about 52 kN,the maximum stress of lifting-arm is 200.15 MPa which is at the joint of the arm with the lifting-frame. The research offers technical and theoretical basis for further designing and manufacturing height-lifting transportation vehicle for sugarcane field.