电动助力式螺旋条施机控制系统的设计
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摘要
在西南山地丘陵地区,田地施肥多人工撒施或使用小型施肥机,存在劳动强度大、均匀性差等问题。为了减小劳动强度、提高施肥效率及均匀性,设计了一种电动助力式螺旋条施机,该条施机整机由控制系统、螺旋式排肥机构、速度检测机构和机架四大部分组成。控制系统根据施肥量设置值和轮速信号控制步进排肥电机执行动作,从而实现精量均匀施肥。试验结果表明:当设定施肥量一定时,条肥机行走距离与排肥机构排肥量成线性关系。该条施机可降低劳动强度、提高施肥效率和农业机械的机电一体化程度。
In the hilly areas of Southwest China,there are many problems such as large labor intensity and poor uniformity due to manual fertilization or small-scale fertilizer application. In order to reduce labor intensity,improve fertilizer efficiency and uniformity,a motor-driven screw banding fertilizer applicator is designed. The banding fertilizer applicator consists of electric power servomechanism,vertical screw fertilizer mechanism,the walking wheel velocity detecting device and control system. According to the walking speed detected by speed detector device,combined with the amount of fertilizer currently in place,control system controls the speed of the stepping motor,then achieves the purpose of precision fertilization. Test results show that when the amount of fertilizer is set,fertilizer quantity and drill walking distance is linear. The banding fertilizer applicator reduces the labor intensity,improves the efficiency of fertilization and the degree of mechatronics of agricultural machinery.
In the hilly areas of Southwest China,there are many problems such as large labor intensity and poor uniformity due to manual fertilization or small-scale fertilizer application. In order to reduce labor intensity,improve fertilizer efficiency and uniformity,a motor-driven screw banding fertilizer applicator is designed. The banding fertilizer applicator consists of electric power servomechanism,vertical screw fertilizer mechanism,the walking wheel velocity detecting device and control system. According to the walking speed detected by speed detector device,combined with the amount of fertilizer currently in place,control system controls the speed of the stepping motor,then achieves the purpose of precision fertilization. Test results show that when the amount of fertilizer is set,fertilizer quantity and drill walking distance is linear. The banding fertilizer applicator reduces the labor intensity,improves the efficiency of fertilization and the degree of mechatronics of agricultural machinery.
引文
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[2]陈雄飞,罗锡文,王在满,等.两级螺旋排肥装置的设计与试验[J].农业工程学报,2015,31(3):10-16.
[3]任震宇,李晓贤,陈昶,等.电动助力式螺旋施肥机:中国,CN206294517U[P]. 2017-07-04.
[4]张荣善.散料输送与贮存[M].北京:化学工业出版社,1994.
[5] Ding Youchun,Wang Shumao,Chen Hong. Detection in the working area of agricultural vehicle based on machine vision[J]. Transactions of the Chinese Society of Agricultural Machinery,2009,40(1):23-27.
[6]张书慧,马成林,吴才聪,等.一种精确农业自动变量施肥技术及其实施[J].农业工程学报,2003,19(1):129-131.
[7]谷谒白.对发展我国施肥机械的几点意见[J].可粮油加工与食品械,1987(1):12-15.
[8]伟利国,张小超,苑严伟,等. 2F-6-BP1型变量配肥施肥机的研制与试验[J].农业工程学报,2012,28(7):14-18.
[9]何培祥,夏志林,赵建,等.螺旋式定量条施机:中国,CN105940839A[P]. 2016-12-07.
[10]郑磊.基于GPS的精确农业自动变量施肥控制系统的研究[D].长春:吉林大学,2009.
[11]汪洋,夏志林,何家成,等.垂直螺旋式定量施肥机的设计与试验[J].农机化研究,2018,40(5):88-92.
[12]高琴,刘淑聪,彭宏伟.步进电机控制系统的设计及应用[J].制造业自动化,2012,34(1):150-152.
[13]陈志聪.步进电机驱动控制技术及其应用设计研究[D].厦门:厦门大学,2008.
[14]刘和平,刘林,余红欣,等. PIC18Fxxx单片机原理及接口程序设计[M].北京:北京航空航天大学出版社,2004.
[15] Microchip Technology Inc. PIC18F2XK22/LF2XK22 Data Sheet[EB/OL].[2010-01-09]. http://html. alldatasheet.com/html-pdf/349164/MICROCHIP/PIC18F23K22-ESLASHML/499/1/PIC18F23K22-ESLASHML. html.
[16]赵进.定量施肥机控制系统研究[D].重庆:西南大学,2017.
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