| 张 婷1,2,李 明2,汪 春1,董学虎2,邓怡国2,韦丽娇2,张国庆3.多功能甘蔗中耕施肥培土机传动装置的设计[J].广东农业科学,2015,42(20):140-144 |
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多功能甘蔗中耕施肥培土机传动装置的设计 |
| Design on transmission system of a multi-functionalsugarcane cultivator-cum-fertilizer-applicator |
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| DOI: |
| 中文关键词: 甘蔗 中耕 施肥 培土 传动装置 |
| 英文关键词: sugarcane cultivation fertilizing hilling transmission system |
| 基金项目:2012 广东省部产学研合作重大专项(2012
A090300015);海南省产学研一体化专项资金(CXY
20130055);2014 年广西科学研究与技术开发计划项目
(2014DD29033);海南省自然科学基金(20155207);湛
江市财政资金科技专项竞争性分配项目(2014A03003) |
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| 中文摘要: |
| 为解决目前甘蔗中耕施肥培土机易出现动力输出轴角度难控制、传动轴易断裂等问题,创新设计
了其传动装置中变速箱、传动轴等关键部件,并运用 SolidWorks 软件仿真及ANSYS 软件对传动轴进行受力变
形分析,验证了设计的可靠性及可行性。样机经检测表明:动力主轴与万向节角度可控制在-10°~10°,施肥
均匀度达90.1%,开沟深度稳定性达92.9%。该传动装置拆装及维护方便、动力输出稳定、工作可靠且满足开
沟、施肥、培土等农艺要求。 |
| 英文摘要: |
| To solve the problems of difficult control of PTO shaft and easy broken of the drive shaft of multifunctional
sugarcane cultivator-cum-fertilizer-applicator,the key components of machine including gear box and
drive shaft of transmission system were innovatively designed. The reliability and feasibility of the designs were verified
through simulation with SolidWorks and analysis on deformation under force of drive shaft with ANSYS. The results of
testing on the prototype showed that the angle between the main power shaft and the universal joint could be controlled
at -10°≤ a ≤ 10°,fertilizing evenness could reach 90.1%,and stability of trench depth could reach 92.9%. The
transmission system was easy to disassemble and maintain,stable in power take off,and met the farming requirements of
furrow opening,fertilizing,and hilling. |
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