[目的]为提高青毛豆采摘机的脱荚作业性能,确定脱荚装置的设计参数,设计并搭建一种脱荚试验装置.[方法]以‘萧农秋艳’为试验材料,围绕提高脱荚的摘净率、降低破损率的目标,首先基于螺旋式脱荚装置,分别对脱荚辊转速和行走速度进行单因素试验.接着在单因素试验的基础上,对脱荚辊转速和行走速度进行正交试验.然后分别对脱荚辊间距、脱荚辊与地面角度进行单因素试验,确定最佳的脱荚间距和荚辊角度.最后更换橡胶杆式脱荚辊重复上述试验,对比同等条件下螺旋式和橡胶杆式两种辊型的作业效果.[结果]得出最佳的速度组合为脱荚辊转速660 r?min-1、行走速度0.5 m?s-1,最佳的脱荚间距为15 mm,荚辊角度为30°,最佳辊型为螺旋式.此时摘净率大于等于97%,破碎率小于等于5%.[结论]该研究成果对进一步改进、优化青毛豆采摘机具有重要意义.[Objectives]In order to get higher performance of soybean picking machine’s taking off pods,and contribute to determine design parameters of pods-off device,a new kind of test-bench is built up. [Methods]‘Xiaonongqiuyan’ which is a brand soybean seed was taken as an experimental material,and its target was to improve the cleanness rate and decrease the damage rate. Firstly,the single factor experiments based on spiral pods-off equipment were conducted on pod rollers’ revolving and machine walking speed respectively. Then an orthogonal experiment was carried out on pod rollers’ revolving speed and machine walking speed based on the single factor experiments. After that,another two factors,which were distance between two rollers and angle between the rollers and horizontal ground,were carried out to determine the best distance and angle by single factor experiment. Finally,the rubber rollers were chosen to replace the spiral rollers and the same test was done again. This was to compare the working performance between spiral rollers and rubber rollers. [Results]The result showed that the best speed couples are 660 r?min-1 of pod rollers and 0.5 m?s-1 of walking speed. Distance between rollers was 15 millimeters,optimum angle was 30 degrees and the spiral rollers were better. It showed the cleanness rate was more than 97% and damage rate was less than 5% right now. [Conclusions]The research result had great importance to get further improvement and optimize the green soybean picking machine
References
[1]
韩立德,盖钧镒,邱家驯. 菜用大豆荚粒品质发育过程及适宜采摘期分析[J]. 大豆科学,2003,22(3):202-207 [Han L D,Gai J Y,Qiu J X. A study on developmental process of pod and seed traits of summer-planted vegetable soybean and suitable pod picking period[J]. Soybean Science,2003,22(3):202-207(in Chinese with English abstract)]
[2]
艾麦里. 菜用大豆适宜收获期的外观和生理特征研究[D]. 杭州:浙江大学,2003 [Ai M L. Morpho-physiological parameters and biochemical analysis as a way to determine the suitable period for vegetable-type soybean harvest[D]. Hangzhou:Zhejiang University,2003(in Chinese with English abstract)]
[3]
马继凤,赵政文,李小红. 菜用大豆品种与收获期的研究初报[J]. 湖南农业科学,2002(6):28-30 [Ma J F,Zhao Z W,Li X H. Preliminary study on vegetable soybean varieties and harvest time[J]. Hunan Agricultural Sciences,2002(6):28-30(in Chinese)]
[4]
武天龙,赵则胜,蒋家云,等. 菜用大豆籽粒形成规律及产量估测的研究[J]. 上海农学院学报,1998,16(3):221-226 [Wu T L,Zhao Z S,Jiang J Y,et al. Study on formative regularity of vegetable soybean seeds and its yield estimation[J]. Journal of Shanghai Agricultural College,1998,16(3):221-226(in Chinese with English abstract)]
[5]
文显文. 一种摘毛豆机:中国,201020585325.8[P]. 2011-07-20 [Wen X W. One kind of soybean-picking machine:China,201020585325.8[P]. 2011-07-20(in Chinese)]
[6]
李小昱,张印,王为,等. 青大豆脱荚分离机构:中国,201120309357.X[P]. 2012-04-25 [Li X Y,Zhang Y,Wang W,et al. Separation mechanism of green soybean pods-off:China,201120309357.X[P]. 2012-04-25(in Chinese)]
[7]
张鸿,樊祥明. 青毛豆采摘机:中国,201320005566.4[P]. 2013-06-19 [Zhang H,Fan X M. Green soybean harvesting machine:China,201320005566.4[P]. 2013-06-19(in Chinese)]
[8]
张凯,孙振宇,赵东,等. 青毛豆采摘装置的虚拟设计与仿真分析[J]. 农机化研究,2015(1):144-147 [Zhang K,Sun Z Y,Zhao D,et al. Virtual design and simulation analysis of picking device of the green soybean[J]. Journal of Agricultural Mechanization Research,2015(1):144-147(in Chinese with English abstract)]
[9]
秦广明,宋志禹,肖宏儒. 5TD60型青大豆脱荚机性能试验研究[J]. 农业装备技术,2011,37(5):25-26 [Qin G M,Song Z Y,Xiao H R. Experiment research on performance of 5TD60 green soybean huller[J]. Agricultural Equipment and Technology,2011,37(5):25-26(in Chinese with English abstract)]
[10]
秦广明,肖宏儒,宋卫东,等. 青大豆脱荚机:中国,200910026617.X[P]. 2009-09-30 [Qin G M,Xiao H R,Song W D,et al. Green soybean pods-off machine:China,200910026617.X[P]. 2009-09-30(in Chinese)]
[11]
秦广明,王明友,肖宏儒,等. 我国菜用大豆生产机械化技术研究[J]. 农业装备技术,2011,37(6):4-6 [Qin G M,Wang M Y,Xiao H R,et al. Study on production mechanization technology of vegetable soybean in China[J]. Agricultural Equipment and Technology,2011,37(6):4-6(in Chinese with English abstract)]
[12]
秦广明,肖宏儒,赵映,等. 自走式大豆脱荚机:中国,201320588756.3[P]. 2014-03-26 [Qin G M,Xiao H R,Zhao Y,et al. Self-propelled soybean pods-off machine:China,201320588756.3[P]. 2014-03-26(in Chinese)]
[13]
石磊. 梳脱式稻麦联合收割机总体设计及其研究[D]. 南京:南京理工大学,2004 [Shi L. Overall design and research of stripping rice and wheat combined harvester[D]. Nanjing:Nanjing University of Science and Technology,2004(in Chinese)]
[14]
Ukatu A C. A modified threshing unit for soya beans[J]. Biosystems Engineering,2006,95(3):371-377
[15]
Brabandt H,Ehlert D. Chamomile harvesters[J]. Industrial Crops and Products,2011,34:818-824
[16]
刘畅,宋学娟,邵志刚. 收获方式对菜用大豆机械损伤的影响研究[J]. 农业科技与装备,2013(2):26-28 [Liu C,Song X J,Shao Z G. Research on the effects of vegetable soybean mechanical damage with harvesting patterns[J]. Agricultural Science and Technology and Equipment,2013(2):26-28(in Chinese with English abstract)]
[17]
黄丽,陈佳平,陈伟. 毛豆脱荚机在设施蔬菜中的使用[J]. 农业机械,2012(10):137 [Huang L,Chen J P,Chen W. Soybean pods-off machine’s application in facility vegetables[J]. Agricultural Machinery,2012(10):137(in Chinese)]
[18]
徐立章,李耀明,张立功,等. 轴流式脱粒-清选装置试验台的设计[J]. 农业机械学报,2007,38(12):85-88 [Xu L Z,Li Y M,Zhang L G,et al. Development on test-bed of axial threshing and cleaning unit[J]. Transactions of the Chinese Society for Agricultural Machinery,2007,38(12):85-88(in Chinese with English abstract)]
[19]
徐丽明,王应彪,张东兴,等. 玉米通用剥皮机构设计与试验[J]. 农业机械学报,2011,42(增刊):14-20 [Xu L M,Wang Y B,Zhang D X,et al. Design and experiment of corn universal husker mechanism[J]. Transactions of the Chinese Society for Agricultural Machinery,2011,42(Suppl):14-20(in Chinese with English abstract)]
[20]
吴建民,李辉,孙伟,等. 拨指轮式马铃薯挖掘机试验[J]. 农业工程学报,2011,27(7):173-177 [Wu J M,Li H,Sun W,et al. Experiment on poke finger wheel type potato digger[J]. Transactions of the CSAE,2011,27(7):173-177(in Chinese with English abstract)]
[21]
杨德旭,刘德军,高连兴. 完熟期大豆炸荚力学特性试验[J]. 沈阳农业大学学报,2012,43(5):576-580 [Yang D X,Liu D J,Gao L X. Experiments of pod-split mechanical performance in period of soybean full ripe[J]. Journal of Shenyang Agricultural University,2012,43(5):576-580(in Chinese with English abstract)]
