农业工程学报
農業工程學報
농업공정학보
2013年
1期
18-25
,共8页
张居敏%周勇%夏俊芳%许绮川
張居敏%週勇%夏俊芳%許綺川
장거민%주용%하준방%허기천
agricultural machine%models%experiments%boat tractor%soil tillage%rotary tiller%helical blade
为了研究水田高茬秸秆旋耕翻埋机理,该文对1GMC-70型船式旋耕埋草机刀辊的主要耕作部件—螺旋横刀建立了数学模型,推导了横刀棱边轮廓曲线的静态方程和动态方程,绘制了动态滑切角、动态切土角等主要耕作参数随刀辊位置角的变化规律曲线,对影响高茬秸秆旋耕翻埋效果的主要因素,例如压草角与抛土角等,进行了计算分析.结果发现,该机的良好作业效果,例如耕深稳定性达90.7%、秸秆埋覆率达94.6%、碎土率达90%、耕后地表平整度在20 mm 以内等,都与横刀设计理念有很大关系,横刀的主要功能不是土壤切削,而是秸秆翻埋.关键词:农业机械,模型,试验,机耕船,土壤耕作,旋耕机,螺旋横刀
為瞭研究水田高茬秸稈鏇耕翻埋機理,該文對1GMC-70型船式鏇耕埋草機刀輥的主要耕作部件—螺鏇橫刀建立瞭數學模型,推導瞭橫刀稜邊輪廓麯線的靜態方程和動態方程,繪製瞭動態滑切角、動態切土角等主要耕作參數隨刀輥位置角的變化規律麯線,對影響高茬秸稈鏇耕翻埋效果的主要因素,例如壓草角與拋土角等,進行瞭計算分析.結果髮現,該機的良好作業效果,例如耕深穩定性達90.7%、秸稈埋覆率達94.6%、碎土率達90%、耕後地錶平整度在20 mm 以內等,都與橫刀設計理唸有很大關繫,橫刀的主要功能不是土壤切削,而是秸稈翻埋.關鍵詞:農業機械,模型,試驗,機耕船,土壤耕作,鏇耕機,螺鏇橫刀
위료연구수전고치갈간선경번매궤리,해문대1GMC-70형선식선경매초궤도곤적주요경작부건—라선횡도건립료수학모형,추도료횡도릉변륜곽곡선적정태방정화동태방정,회제료동태활절각、동태절토각등주요경작삼수수도곤위치각적변화규률곡선,대영향고치갈간선경번매효과적주요인소,례여압초각여포토각등,진행료계산분석.결과발현,해궤적량호작업효과,례여경심은정성체90.7%、갈간매복솔체94.6%、쇄토솔체90%、경후지표평정도재20 mm 이내등,도여횡도설계이념유흔대관계,횡도적주요공능불시토양절삭,이시갈간번매.관건사:농업궤계,모형,시험,궤경선,토양경작,선경궤,라선횡도
Tillage practice shows that it is feasible to bury high stubble remains through rotary tillage in paddy field. The 1GMC-70 boat-type high stubble burying rotary tiller is widely used in paddy field. This machine is suitable for plowing paddy field of muddy depth less than 350 mm with high stubble less than 700 mm. However, most study on the paddy tillage focused on prototype production and field testing. In order to probe the mechanism of high stubble burying rotary tillage in paddy field, a mathematical model was built for the helical blade of 1GMC-70. Through equations of the helical blade edges, curves were plotted between main tillage parameters and positional angle of helical blade, such as dynamic sliding cutting angle, dynamic cutting angle, and so on. Theoretical factors were discussed for high stability of tillage depth above 90%. The fluctuation for dynamic sliding cutting angle of helical blade ranges from 25°to 25.3°, which is less than 0.3°. Each helical blade cuts into soil in turns. When the latter helical blade begins to cut soil, the former blade is still in soil with the whole length rate 10/46. This makes the continuous procedure of cutting soil. Reasons were analyzed for high stubble burying rate above 94.6% and for high soil broken rate above 90%. Compared with traditional rotary blade, the sliding cutting angle of helical blade is smaller, while the cutting angle, clearance angle and edge angle are greater, which static value is 25.3°, 71.7°, 36.2°and 35.5°respectively. The main function of helical blade is not soil-cutting, but stubble-burying. The rotary tiller rotates at high speed of 380 r/min, while the rotary speed of traditional rotary tiller ranges from 150 to 350 r/min. When the machine of 1GMC-70 works in paddy field, the inner surface of helical blade casts plowed soil backward fiercely. All those factors contribute to stubble burying and soil breaking.