免耕栽植机关键部件及控制系统开发研究
|
摘要
本文在原来国家科技部“九五”攻关项目“工厂化育苗、移栽工艺及设备研究”的基础上,结合免耕工艺不仅缩短作业时间,而且可以对防止沙尘暴发生有利的特点,对可以提高栽植速度和工作可靠性、降低操作人员劳动强度的玉米免耕栽植机的关键部件进行了详细的研究,进一步采用单片机控制技术对其工作过程实现了自动化控制,为该技术尽快转化为社会生产力打好基础。全文内容概括起来主要有以下几点:
1 通过对玉米秧苗根系生长特性与蔬菜根系生长特性的对比性试验研究,确定了适合玉米秧苗生长的圆台形钵体;进一步通过玉米育苗试验,确定了能够满足玉米育苗生长需要的、体积相对比较小的钵体尺寸。采用该种类型的钵体不仅可以减少制钵过程营养土的消耗量,而且可以减轻育苗过程的劳动强度,提高栽植过程的钵苗栽直率。
2 采用可降解的纸质育苗盘,不仅解决了育苗过程钵体发生变形的问题,而且可以防止育苗过程钵苗之间的串根问题;同时,由于其成本低廉,便于操作,既适合我国目前这种单家独户式的家庭式应用,也适合工厂化育苗中心的使用。
3 利用圆台形钵体的外形特点,采用仿形导向轮式排队装置,解决了栽植过程的钵苗机械化排队问题,提高了免耕栽植机的作业速度,减轻了操作人员的劳动强度。进一步通过对其关键部件的运动和受力情况分析,掌握了各主要工作参数对钵苗排队速度和工作可靠性的影响规律,确定了各工作参数的工作范围,并通过大量试验验证了理论分析的正确性,解决了提高栽植速度的关键问题,为其实用化打下了基础。
4 采用直动——双挡销式分钵落苗系统,不仅解决了因为钵苗个体差异带来的分钵不清的问题,而且提高了钵苗分钵的准时性和钵苗落入导苗管的准确性;同时,通过对该系统工作过程的主要工作参数的运动和受力情况分析,确定了该系统各直动汽缸的工作频率,使分钵落苗速度达到3株/秒以上,进一步通过大量试验对其进行验证,证明了该系统在满足栽植速度要求的前提下,可以大大提高了系统的工作可靠性。
5 采用现代化技术手段,以MCS-51单片机为免耕栽植机的控制器,通过对各工作部件的计算机监控,实现了免耕栽植机所有执行部件的计算机控制;通过对钵苗栽植数的统计,实现了机器作业情况的在线显示;通过报警系统的设计,实现作业过程故障的及时报警;最后,本控制系统实现以上功能的基础上,采用软件形式与硬件相结合的办法,对其抗干扰性进行了设计,进一步提高了系统的工作可靠性。
Based on the national "ninth" five years" key project-study on the equipment and technique
of raising and transplanting seedlings as the kind of factory, combining the no-tillage specialty which can shorten the working period and reduce the intension of dust devil , the key parts of corn no-tillage transplanter has been studied which can improve both the transplanting speed and reliability ,reduce the labour intension of operator ,further more ,the method of automatic controlling whole working course has been applied by using single-chip microcomputer, the bedrock is made for transforming this technique into social productivity. In general, the content which is studied in this paper can be briefly summarized as follows:
1 The conic shape of nutrition plug which suit the growing condition of the corn seedling is made certain through contrast study on the root grow character between the corn and vegetable seedling; then the plug size which bulk is smaller and meets the growing condition of com seedling through cultivating the corn seedling. Using this kind of plug can both save the nutrition soil during making plugs and reduce the working intension during cultivating seedlings, raising the plant-endlong rate in transplanting seedlings.
2 The decomposing paper tray is used .which can not only solve the plug metabolic problem in cultivating seedlings ,but also avoiding the root bunch between different individuals; in the mean while, the paper tray can be used both in all single household and in the cultivating seedling factory of our country.
3 Based on the shape of conic plug , the profile modeling-annulus equipment which can make plug in a line is designed. This equipment can not only solve the plug lining-up problem in mechanizing way when plug seedlings are transplanted, but also can raise the working speed of no-tillage transplanter, and reduce the working intensity of operator. And then, the influencing rule between the key factors to plug queue speed and working reliability of this set is ascertained, and the variety range of these factors is made, and the theoretic analysis correctness is validated by a great deal of experiments, and the key problem of improving the transplanting speed is solved. So the foundation is set for its practical use.
4 The acting-straight-sorting and dropping plug set is designed ,which can solve the sorting plugs unclearly because of the difference between individual plug seedlings ,and can raise the punctuality of sorting plug seedlings and the veracity of plug seedling dropping into the lead-plug-seedling-tube, in addition, the working frequency of acting-straight cylinder is calculated by analysis to the movement and strength of the key parts in this system which can accelerate the transplanting rate to 3 plants per second , further more ,a lot of operated experiments indicate that the working reliability of this set can be raised under the condition of the proper seedling transplanting speed .
5 The modernizing technical method is applied and MCS-51 is made as controller of no-tillage transplanter to control all of the execute parts of the equipment automatically by single chip microcomputer through watching these key parts by' some transducer. In this system, the working state of this equipment is online show by calculating the number of transplanted plug seedlings; and the broken-down occurrence can be predicted by alarming system during transplanting plug seedlings; at last, anti-jamming system is designed to raise the reliability of this system further by the method of combine the software with hardware together in the condition of achieving all functions in transplanting plug seedlings.
1 通过对玉米秧苗根系生长特性与蔬菜根系生长特性的对比性试验研究,确定了适合玉米秧苗生长的圆台形钵体;进一步通过玉米育苗试验,确定了能够满足玉米育苗生长需要的、体积相对比较小的钵体尺寸。采用该种类型的钵体不仅可以减少制钵过程营养土的消耗量,而且可以减轻育苗过程的劳动强度,提高栽植过程的钵苗栽直率。
2 采用可降解的纸质育苗盘,不仅解决了育苗过程钵体发生变形的问题,而且可以防止育苗过程钵苗之间的串根问题;同时,由于其成本低廉,便于操作,既适合我国目前这种单家独户式的家庭式应用,也适合工厂化育苗中心的使用。
3 利用圆台形钵体的外形特点,采用仿形导向轮式排队装置,解决了栽植过程的钵苗机械化排队问题,提高了免耕栽植机的作业速度,减轻了操作人员的劳动强度。进一步通过对其关键部件的运动和受力情况分析,掌握了各主要工作参数对钵苗排队速度和工作可靠性的影响规律,确定了各工作参数的工作范围,并通过大量试验验证了理论分析的正确性,解决了提高栽植速度的关键问题,为其实用化打下了基础。
4 采用直动——双挡销式分钵落苗系统,不仅解决了因为钵苗个体差异带来的分钵不清的问题,而且提高了钵苗分钵的准时性和钵苗落入导苗管的准确性;同时,通过对该系统工作过程的主要工作参数的运动和受力情况分析,确定了该系统各直动汽缸的工作频率,使分钵落苗速度达到3株/秒以上,进一步通过大量试验对其进行验证,证明了该系统在满足栽植速度要求的前提下,可以大大提高了系统的工作可靠性。
5 采用现代化技术手段,以MCS-51单片机为免耕栽植机的控制器,通过对各工作部件的计算机监控,实现了免耕栽植机所有执行部件的计算机控制;通过对钵苗栽植数的统计,实现了机器作业情况的在线显示;通过报警系统的设计,实现作业过程故障的及时报警;最后,本控制系统实现以上功能的基础上,采用软件形式与硬件相结合的办法,对其抗干扰性进行了设计,进一步提高了系统的工作可靠性。
Based on the national "ninth" five years" key project-study on the equipment and technique
of raising and transplanting seedlings as the kind of factory, combining the no-tillage specialty which can shorten the working period and reduce the intension of dust devil , the key parts of corn no-tillage transplanter has been studied which can improve both the transplanting speed and reliability ,reduce the labour intension of operator ,further more ,the method of automatic controlling whole working course has been applied by using single-chip microcomputer, the bedrock is made for transforming this technique into social productivity. In general, the content which is studied in this paper can be briefly summarized as follows:
1 The conic shape of nutrition plug which suit the growing condition of the corn seedling is made certain through contrast study on the root grow character between the corn and vegetable seedling; then the plug size which bulk is smaller and meets the growing condition of com seedling through cultivating the corn seedling. Using this kind of plug can both save the nutrition soil during making plugs and reduce the working intension during cultivating seedlings, raising the plant-endlong rate in transplanting seedlings.
2 The decomposing paper tray is used .which can not only solve the plug metabolic problem in cultivating seedlings ,but also avoiding the root bunch between different individuals; in the mean while, the paper tray can be used both in all single household and in the cultivating seedling factory of our country.
3 Based on the shape of conic plug , the profile modeling-annulus equipment which can make plug in a line is designed. This equipment can not only solve the plug lining-up problem in mechanizing way when plug seedlings are transplanted, but also can raise the working speed of no-tillage transplanter, and reduce the working intensity of operator. And then, the influencing rule between the key factors to plug queue speed and working reliability of this set is ascertained, and the variety range of these factors is made, and the theoretic analysis correctness is validated by a great deal of experiments, and the key problem of improving the transplanting speed is solved. So the foundation is set for its practical use.
4 The acting-straight-sorting and dropping plug set is designed ,which can solve the sorting plugs unclearly because of the difference between individual plug seedlings ,and can raise the punctuality of sorting plug seedlings and the veracity of plug seedling dropping into the lead-plug-seedling-tube, in addition, the working frequency of acting-straight cylinder is calculated by analysis to the movement and strength of the key parts in this system which can accelerate the transplanting rate to 3 plants per second , further more ,a lot of operated experiments indicate that the working reliability of this set can be raised under the condition of the proper seedling transplanting speed .
5 The modernizing technical method is applied and MCS-51 is made as controller of no-tillage transplanter to control all of the execute parts of the equipment automatically by single chip microcomputer through watching these key parts by' some transducer. In this system, the working state of this equipment is online show by calculating the number of transplanted plug seedlings; and the broken-down occurrence can be predicted by alarming system during transplanting plug seedlings; at last, anti-jamming system is designed to raise the reliability of this system further by the method of combine the software with hardware together in the condition of achieving all functions in transplanting plug seedlings.
引文
1 姚惠源,世界粮食生产与加工的基本格局和新世纪的发展趋势,粮食与饲料工业,2001.5,1~3
2 史培军,王静爱等,最近15年来中国气候变化、农业自然灾害与粮食生产的初步研究,自然资源学报,1997,12(3):197-203
3 封志明,全球耕地资源变化态势及我国应采取的对策,国土与自然资源研究,1994,2:69-73
4 朱行,今后30年世界粮食生产与消费展望,中国农业信息快讯,2001.2,11-12
5 世界粮食生产的总体格局,天津农林科技,2001.6(3) 45
6 彭珂珊,跨世纪中国粮食面临的问题与对策选择,桂海论丛,2000.2,24-27
7 范秀荣,彭珂珊,我国粮食生产发展特点与增产潜力研究,西北农业大学学报,1998,26(5):30-34
8 冯新生,加入WTO对我国粮食生产的影响分析,湖南大学学报,2001,15(2) 59-61
9 陈志辉,调整粮食结构,开发玉米生产,作物研究,2000.2,56~57
10 彭坷珊,走向21世纪5000亿公斤粮食目标与耕地资源保护之探讨,资源节约和综合利用,1997.(1) 20-26
11 阿木尔,浅析我国近几年的粮食价格问题,内蒙古财经学院学报,1996,1:92-94
12 彭珂珊,耕地资源保护之探讨,甘肃环境研究与监测,1998,11(2):38-40
13 陈印军,尹昌斌等,长江流域粮食生产发展的分析,中国农业资源与区划,1999,20(1),42-46
14 张功凯,关于我国粮食安全问题的思考,南京经济学院学报,2002.1(112),17-21
15 彭珂珊,我国现阶段耕地资源锐减与缓解途径研究,国土与自然资源研究,1996,3:30-34
16 张风荣,薛永森等,中国耕地的数量与质量变化分析,资源科学,1998,20(5):32-39
17 彭珂珊,走向21世纪5000亿公斤粮食目标与耕地资源保护之探讨,资源节约和综合利用,1997,3(1):20-26
18 习承藩,耕地土壤的监测、养护与粮食增产,中国科学院圆刊,1997,4:261-263
19 Leser, R. Brow n., Who will feed china?, World watch, No. 9-10, 1994
20 Leser, R. Brow n., Who will feed china, W. W. Norton & company, New York, 1995
21 吴群,中国耕地养育力及其可持续利用研究,中国人口与资源环境,1999,9(2):36-39
22 蔡则祥,我国粮食安全问题探讨,南京金融高等专科学校学报,2001.3(57),7-12
23 佟屏亚,中国玉米生产形势和新世纪发展策略-兼议中国实施“大玉米发展战略”[J] 农业信息探索,2000.3
24 张喜林,吴永英等,营养钵育苗移栽对玉米增产效果的影响,玉米科学,2001.10(3):69-70
25 吕周林,董祖淦等,旱地春大豆春玉米同穴移栽的增产效果初步研究,大豆通报,1994.1,4-5
26 董祖淦,吕周林等,春玉米掖单12定向移栽的增产效果,耕作与栽培,1995.1,40-41
27 严光彬,王万成等,玉米纸钵育苗移栽技术研究-玉米纸钵盘育苗移栽的栽培效果和抗逆性测定,吉林农业科学,2000.25(5):14-17
28 封俊,中国玉米育苗栽植机械化的现状与问题,农业工程学报,1998.3,103-107
29 陈洪化,卢艳丽等,春玉米吨粮田覆膜、育苗移栽、露地直播栽培效果对比示范报告,内蒙古农业大学学报,2000.21(12):103-105
30 盛良学等,玉米育苗移栽高产高效原因与配套技术,云南农业科学,1997.3,29-30
31 胡波,侯林山等,玉米移栽机械化的综合研究,中国农机化,1997.3 41-42
32 张空,刘向东等,复种玉米育苗移栽系列研究,山西农业大学学报,1996.2
33 韩世生,关于棉花育苗工厂化和移栽机械化的思考,经济作物,12-13
34 彭珂珊,我国粮食的现状、问题与发展途径,内蒙古财经学院学报,1997,3:27-31
35 罗迎新,对实现中国耕地总量动态平衡与可持续发展的思考,嘉应大学学报,1997,5:29-31
36 周文富,移栽地膜春玉米高产栽培新技术,作物栽培,2000.1,18-19
37 Mjkirkby&R. P. Umorgan, Soil Erosion, Tohn Miley &Sons Ltd, 1980
38 张树梅等,少免耕覆盖技术与旱作农业,山西科技,1994.3
39 彭珂珊,黄土高原粮食生产中的水土保持耕作技术,甘肃环境研究与监测,1998,11(2):68-75
40 羊绍武,杨争光,退耕还林与粮食生产,西南民族学院学报,2001,22(2):47-49
41 骆文光等,免耕垄作覆盖技术的水土保持及其经济效益分析,水土保持通报,1994.3
42 陈绍兰,土壤免耕技术的发展与运用,山区开发,1995,5:62-64]
43 Monsanto,Conversation Tillage Seminer, 1981. 11
44 E.B.Robert等,玉米传统耕作与保护性耕作多年平均流失量,中国水土保持,1985.7 55-61
45 朱波等,旱地自然免耕技术对土壤肥力的影响,西南农业大学学报,1996.3
46 高云超,秸杆覆盖免耕土壤微生物生物量与养分转化研究,中国农业科学,1994.6
47 王树楼等,旱地玉米免耕整秸杆覆盖耕作技术研究,耕作与栽培,1994.4
48 王昌权等,不同免耕方式对作物产量和土壤理化性状的影响,四川农业大学学报,2001.
49 Lipu et al, Zero tillage of Two Crops a Year in Cotton Fields, Proceedings of the International Multiple Cropping Terms Conference
50 籍增顺等,旱地玉米免耕覆盖土壤水分研究,山西农业科学,1994.3
51 李仲明等,水田自然免耕技术的创始人---候光炯,学会,1994.1
52 谢先举,我国旱地免耕研究,耕作与栽培,1995.1
53 郑邦兴,莫润苍,耕地保护与三高农业,热带亚热带土壤科学,1995,4(4):238-241
54 王耀发等,北方旱地小麦免耕直播技术及其配套机具研究,干旱地区农业研究,1995.4
55 B. T. ADAMS, S. C. Borgelt, Modification of a no-till planter for tree seeds, American society of agricultural engineers, 1995, 11(2): 225-227
56 T. C. Kaspar, D. C. Erbach, Improving stand establishment in no-till with residue-clearing planter attachments, Transactions of the ASAE, 1998, 41(2): 301-306
57 J. P. Molin, L. L. Bahford, K. Von Bargen etal, Design and evaluation of a punch planter for no-till systems, Transactions of the ASAE, 2001, 41(2): 307-314
58 Stephen C. Porteus, Richard L. Parish, Malcolm E. Wright, Development of a marshgrass transplanting system, American society of agricultural engineers, 1989, 5(2):138-142
59 籍增顺等 国外免耕农业研究 山西农业科学1994.3
60 张波屏 现代化种植机械工程 机械工业出版社 1997.3
61 Gregory L. Branch, Pneumatic cylinders drive plant-setting mechanisms, Agricultural Engineerings May/June 1987, 16-17
62 A. E. Dale & D. S. H. Drennan, Transplanted maize(Zea mays)for grain production in southern England. I. Effects of planting date, transplant age at planting and cultivar on grain yield, journal of agricultural science, Cambridge, 1997, 128:27-35
63 L. J. Kutz, G. E. Miles & P. A. Hammer etal, Robotic transplanting of bedding plants, Transaction of the ASAE, 1987, 30(3): 586-590
64. L. Brewer, Conceptual modeling automated seedling transfer from growing trays to shipping modules, transactions of the ASAE, American society of agricultural engineers, 1994, 37(4): 1043-1051
65 Rick Melnick, Plugging into transplant trends, AVG, 1997, 4: 10-11
66 Imad Haffar,多功能、低成本移栽机的设计及试验,28-29
67 Gregory L. Branch, Pneumatic cylinders drive plant-setting mechanisms, Agriculture engineering, 1987, 5: 16-17
68 野沢,智裕,露地移植机械化技术-半自动野菜移植机可能,机械化农业,1995,5:9-11
69 Paul D. Q. Campbell, Ideas and innovations-Automated seedlings planting, implement and trantor, 2000, 7: 34-35
70 Ron Mose, conservation tillage in commercial vegetable farming, Life sciences in the 21st century:
Agriculture case study, www.visserite.com/plugtechnology/subjects/8row_vegetable_transplanter,2001,7
71 Imad Haffar, Design and field evaluation of a low-cost crop transplanter with multiple seedlings feed, Agricultural mechanization in Asia, Africa and Latin America, 1995, 26(3): 29-32
72 谢先举,我国旱地免耕研究,耕作与栽培,1995.1
73 范云翔,杨子万,K.A.Adekola等,温室全自动移栽机的研究开发,农业工程学报,1996,12(2):111-115
74 徐丽明,张铁中,史志清,玉米自动移栽机取苗机构的设计,中国农业大学学报,2000,5(4):58-60
75 马旭,马成林,张守勤等,机械式空气整根钵苗移栽器的研究,农业工程学报,1997,13(9):265-268
76 泰安国泰拖拉机总厂,2ZY-2型半自动杯式秧苗移栽机,农村机械化,1998,1:16
77 郭湘涛,张胜兰,李荣杰等,2ZY-2型移栽机性能简介,现代化农业,1997,218(9):32-33
78 高正路,2ZY-2型油菜移栽机的设计,江苏农机与农艺,2001,97(1):6-7
79 孙裕晶,左春柽,吴华,2ZT型移栽机的研究设计,农机化研究,1999,2(1):53-54
80 孙裕晶,马成林,UT-2型双行移栽机,农机与食品机械,1999,259(1):26-27
81 余辉平,刘书暖,张建民等,2YZ系列玉米移栽机的研究,农机与食品机械,1998,255(3):21-22
82 胡波,乔泉欣,葛茂森等,2ZY-2型玉米育苗移栽机的研制,农机与食品机械,1996,243(3):10-11
83 Jiang Jin Lin, Tang Yun Ping, Mechanized cultivation of summer-sown peanut, agricultural mechanization in Asia, Africa and Latin America, 1998, 29(2): 39-41
84 韩豹,马守义等,2Z-2型玉米育苗移栽机的研制,现代化农业,1996,208(11):1-3
85 韩豹,马守义,申建英等,2Z-6型作物秧苗移栽机的研制,现代化农业,1998,228(3):31-33
86 巴慧珍,2ZT-2型纸筒甜菜移栽机的移栽机构,农机与食品机械,1996,244(4):16-17
87 宋洪波,安风平,史岩,偏心肢移栽机的研究,农业机械学报,1997,28(8):41-45
88 耿端阳,董锋等,2ZG-2型钵苗移栽机栽植率研究,现代化农业,1999,241(8):28-29
89 董锋,耿端阳,2ZG-2型带式喂入半自动钵苗栽植机的研制,农机与食品机械,1998,257(5):21-22
90 曾令贤,玉米机制营养钵走向栽培增产技术及应用价值,广西农业机械化,1998,8:11-12
91 张喜林,吴永英,周宝库,营养钵育苗移栽对玉米增产效果的影响,玉米科学,2002,10(3):69-70
92 夏俊芳,王树才,许绮川,我国棉花营养钵移栽机械现状与发展局势,中国农机化,2002,1:36-37
93 苏海青,曹冬雷,北京市平谷利农营养钵销售部,长江蔬菜,2001.7:68
94 刘永棣 棉花纸官营养钵育苗法 2000.39
95 陈国军 玉米芯做作物营养钵育苗方法.caj 31
96 关彩虹,胡炜 育苗移栽夏玉米营养钵土配方的研究.caj山西农业大学学报 1999.19(4),295-299
97 张汝坤,彭善荣,蒋枫等,2ZB-70型烤烟育苗钵机的研究设计,农机化研究,2002,2:74:75
98 闸建文,宋景灵等 机械化制营养钵工艺的研究,农业工程学报,1999.15(1):105-108
99 赵正雄,张福锁,赵明等,不同种植方式对玉米生长发育和产量的影响,农业现代化研究,2002,23(3):197-200
100 张运胜,棉花营养钵育苗移栽若干问题刍议,作物杂志,1996,1:13-15
101 朱汉清,棉花不同钵径营养钵育苗的效果和效益,中国棉花,1998,25(5):27-38
102 Nambu, T., Tanimura, M. &Masuda, nouveau procédé sǖr et efficace lys en pot à transplanter, www.treetoad.com/2024tree.htm
103 陈同旺等.稻田春玉米不同育苗方式比较研究.作物研究,2001(2) p22-24
104 吴天雷,蔬菜营养土方和营养钵育苗技术,北京农业,1997,9:27
105 宋日,吴春胜,牟金明等,深松土对玉米根系生长发育的影响,吉林农业大学学报,2000,22(4):73-75,
80
106 隋华,贾兰英,徐建坡等,土壤深松对玉米效应的试验研究,天津农林科技,2002,168(4):1-3
107 Farmer's bookshelf information system of tropical crops in Hawaii, 2001. 8
108 Tsutomu Tokita, Use of plug seedlings in vegetable and ornamental plant cultivation and their production systems, farming japan, 1998,8:36-42
109 K. Tsuga, Development of fully automatic vegetable transplanter, konosuke t
110 Barbey K. Huang, Increase Crop Production and Automation Using Properly Designed Air-pruning Trays/Containers, Agricultural Mechanization in Asia, Africa and Latin America, 1998,29(2):42-50
111 张喜林,吴永英等,营养钵育苗移栽对玉米增产效果的影响玉米科学 2002.3,9-70
112 李振荣 棉花营养钵育苗盖籽厚度对出苗的影响 22
113 张波屏 现代种植机械工程北京机械工业出版社 1997.8
114 帅军,周泽武,曹川江等,YB50-I型营养钵制钵机研究设计,农机化研究,1999,5(2):64-80
115 宋家祥 顾世梁,棉花芦管育苗新技术研究Ⅳ。芦管育苗移栽对棉花产量形成影响研究初报,江苏农业研究 2000.21(1):20-24
116 黄瑞贤,宋修江等 用玉米芯育玉米苗移栽技术要点,吉林农业,1997(4) 16-17
117 李维顺,王永,选用塑料营养钵应注意的几个问题,蔬菜,2001,9:28-29
118 李爱青,阚道忠 高效营养纸质育苗杯应用研究 安徽农学通报1999(1) 21-23
119 黄晓梅,唐虹,徐山青等 可降解纸质育苗钵的研制 产业用纺织品 2001(4) 18-20
120 王维新,坎杂,田学艳等,2BCM-6型茬地免耕播种机的研制,农业工程学报,2001,(5):174-176
121 赵启新,张培增,张建中,2BGM-3型覆盖免耕播种机的研制和试验,农业机械学报,2000,31(2):118-120
122 宋卫堂,刘亚佳,封俊等,夏玉米免耕覆盖移栽的试验研究,2000,16(3):57-59
123 董竹蔚,高克昌,石秀琴,2BM-2/3型免耕播种机的研制,山西农业科学,1994,22(3):41-45
124 张进,韩战省,小麦、玉米免耕覆盖播种机的试验研究,山西农机,1998,10(9),14-16
125 蒋金琳,宋殿香,王兴成等,免耕播种机土壤工作部件的设计计算,莱阳农学院学报,1998,15(1):75-78
126 张晋国,带状粉碎免耕播种机的试验研究,博士学位论文,2000年7月
127 张云文,驱动圆盘切茬器的试验研究,中国农业大学学报,1999:4(6),38-40
128 王嵩,毕节地区推广玉米育苗移栽的几点体会,耕作与栽培,1999,1:60-63
129 尹国洪,陈巧敏,张瑞林,旱地育苗移栽机械现状、发展趋势与前景,中国农机化,1997,5:9-10
130 李立权,詹成,吴子才,春玉米不同育苗移栽方式的比较试验,安徽农业科学,2001,29(1) 33-35
131 侯慧荣,李文臣,蜂窝式纸筒花卉育苗移栽技术,内蒙古农业科技,1997,3:33-34
132 董瑞华,姚新发,大棚育苗移栽建圆的探讨,蚕桑通报,2001,33(1):54-55
133 徐京波,高寒地区白瓜子育苗移栽技术,黑河科技,1998,2:16-17
134 侯怀恩,盂庆法,花生育苗移栽试验初报,花生科技,1996,2:21-23
135 王廷勋,李富先,任晓勇等,棉花营养杯大棚育苗移栽试验总结,新疆气象,1999,22(4):31-34
136 Tadashiyoneyani, Isao ma yumoyo & yasuyuki okishio, Full automatic vegetable Transplanter, NCNU, 2001, 3(3): 24-30
137 Victor L. Hauser, An automatic grass transplanting machine, Transaction of the Aasae, 1985, 28(6): 1777-1782
138 辛明强,毕金风,霍庆民等,垦区甜菜纸筒育苗移栽技术推广中存在的问题,现代化农业,1998,226(5):17-18
139 卢秉福,周艳丽,师振华等,辽宁省甜菜纸筒育苗移栽技术的开发与应用,中国糖业,2001,1:54-58
140 耿端阳,董封,汪遵远,2ZG-2型半自动钵苗栽植机的设计与试验,山东工程学院学报,2000,14(9):34-38
141 董锋,耿端阳,汪遵元,带式喂入钵苗栽植机研究,农业机械学报,2000,31(3):42-45
142 黄辉,饲料厂粉料仓结拱及其防治措施,粮食与饲料工业,1994,6:22-24
143 罗德润,筒仓仓壁压力计算,起重运输机械,1998(3):7-12
144 苏乐逍,立筒仓卸料结拱弹性变形及其对仓壁压力的影响,郑州粮食学院学报,1997,18(4):57-61
145 何维国,薛勇,试论筒仓内贮料结拱时作用于仓壁的压力分布,郑州粮食学院学报,1999,20(4):72-76
146 郭康权,粉粒体技术基础,西北大学出版社,1995年5月
147 周祖锷 农业物料学 农业出版社1990.6
148 周波,史宏,料仓内物料的结拱原理及破拱设计。企业技术开发,2001,(4):8-10
149 任露泉,赵爱宁等,试验优化技术,机械工业出版社,1987
150 赵作善,试验设计,中国农业大学试用教材
151 封俊,顾世康,曾爱军等,导苗管式栽植机的试验研究(Ⅱ),栽植机的性能评价指标与检测方法,农业工程学报,1998,14(2):73-77
152 浙江大学数学系高等数学教研组,概率论与数理统计,高等教育出版社,1979.3
153 T. R. Way, M. E. Wright, Human performance in mechanical transplanting of the sweet potatoes, American society of Agricultural engineers, 1987, 30(2): 317-323
154 安风平,龚丽农等,2YZ—40型吊篮式钵苗栽植机的研究,现代化农业,1999,235(2) 31~32
155 Tetsuo Nambu, Keiji Miyamoto, Kiyoaki Matsuda, Dvelopment of automatic sugar beet transplanter using chain pots, JARQ, 1997, 31(4): 249-255
156 R. D. Munilla, L. N. Shaw, A high-speed dibbling transplanter, Transaction of the ASAE, 1987, 30(4): 904-908
157 魏桃芝,安丰弟,肖景文等,2Z8-6型钵苗栽植机简介,现代化农业,1998,224(3):31-32
158 冯福海,陈东升等,2ZB—4型杯式钵苗移栽机,现代化农业,2002,277(8):32~34
159 封俊,导苗管式移栽机,作物种植,23-24
160 顾世康,封俊,曾爱军等,导苗管式栽植机的试验研究(Ⅲ)-导苗管式栽植机的改进设计与试验,农业工程学报,1998,14(3):123-128
161 封俊,顾世康,曾爱军等,导苗管式栽植机的试验研究(Ⅰ),中国玉米育苗栽植机械化的现状与问题,农业工程学报,1998,13(1):103-107
162 Dong Feng, Bai Xueyuan etc, Feeding Mechanism of Belt conveyer type seedling transplanter, TRANS of the CSAE, 2001, 17(1): 74~77
163 董锋,耿端阳,2ZG-2型带式喂入半自动钵苗栽植机的研制,农机与食品机械,1998,257(5):21-23
164 侯林山,胡波等,2ZT-2型甜菜纸筒育苗移栽机,农村牧区机械化,1997,29(1):34~35
165 郭艳庭,李殿兴,刘维生等,CT-4S型甜菜移栽机,农牧与食品机械,1994,5:24-25
166 李其昀,鲁善文,李丽华,滑道分钵轮式栽植器的试验研究,农业机械学报,2001,32(3):30-33
167 王铁光、林巍主编,理论力学,北京工业出版社,1994.7
168 何立民,MCS-51系列单片机应用系统设计系统配置与接口技术,北京航空航天大学出版社,1989年4月
169 李广弟,单片机基础,北京航天航空大学出版社,1995年3月
170 童大至,电工电子技术基础,解放军出版社,1986年8月
171 谢兴仪主编,电路和电机基础,重庆大学出版社,1986年。
2 史培军,王静爱等,最近15年来中国气候变化、农业自然灾害与粮食生产的初步研究,自然资源学报,1997,12(3):197-203
3 封志明,全球耕地资源变化态势及我国应采取的对策,国土与自然资源研究,1994,2:69-73
4 朱行,今后30年世界粮食生产与消费展望,中国农业信息快讯,2001.2,11-12
5 世界粮食生产的总体格局,天津农林科技,2001.6(3) 45
6 彭珂珊,跨世纪中国粮食面临的问题与对策选择,桂海论丛,2000.2,24-27
7 范秀荣,彭珂珊,我国粮食生产发展特点与增产潜力研究,西北农业大学学报,1998,26(5):30-34
8 冯新生,加入WTO对我国粮食生产的影响分析,湖南大学学报,2001,15(2) 59-61
9 陈志辉,调整粮食结构,开发玉米生产,作物研究,2000.2,56~57
10 彭坷珊,走向21世纪5000亿公斤粮食目标与耕地资源保护之探讨,资源节约和综合利用,1997.(1) 20-26
11 阿木尔,浅析我国近几年的粮食价格问题,内蒙古财经学院学报,1996,1:92-94
12 彭珂珊,耕地资源保护之探讨,甘肃环境研究与监测,1998,11(2):38-40
13 陈印军,尹昌斌等,长江流域粮食生产发展的分析,中国农业资源与区划,1999,20(1),42-46
14 张功凯,关于我国粮食安全问题的思考,南京经济学院学报,2002.1(112),17-21
15 彭珂珊,我国现阶段耕地资源锐减与缓解途径研究,国土与自然资源研究,1996,3:30-34
16 张风荣,薛永森等,中国耕地的数量与质量变化分析,资源科学,1998,20(5):32-39
17 彭珂珊,走向21世纪5000亿公斤粮食目标与耕地资源保护之探讨,资源节约和综合利用,1997,3(1):20-26
18 习承藩,耕地土壤的监测、养护与粮食增产,中国科学院圆刊,1997,4:261-263
19 Leser, R. Brow n., Who will feed china?, World watch, No. 9-10, 1994
20 Leser, R. Brow n., Who will feed china, W. W. Norton & company, New York, 1995
21 吴群,中国耕地养育力及其可持续利用研究,中国人口与资源环境,1999,9(2):36-39
22 蔡则祥,我国粮食安全问题探讨,南京金融高等专科学校学报,2001.3(57),7-12
23 佟屏亚,中国玉米生产形势和新世纪发展策略-兼议中国实施“大玉米发展战略”[J] 农业信息探索,2000.3
24 张喜林,吴永英等,营养钵育苗移栽对玉米增产效果的影响,玉米科学,2001.10(3):69-70
25 吕周林,董祖淦等,旱地春大豆春玉米同穴移栽的增产效果初步研究,大豆通报,1994.1,4-5
26 董祖淦,吕周林等,春玉米掖单12定向移栽的增产效果,耕作与栽培,1995.1,40-41
27 严光彬,王万成等,玉米纸钵育苗移栽技术研究-玉米纸钵盘育苗移栽的栽培效果和抗逆性测定,吉林农业科学,2000.25(5):14-17
28 封俊,中国玉米育苗栽植机械化的现状与问题,农业工程学报,1998.3,103-107
29 陈洪化,卢艳丽等,春玉米吨粮田覆膜、育苗移栽、露地直播栽培效果对比示范报告,内蒙古农业大学学报,2000.21(12):103-105
30 盛良学等,玉米育苗移栽高产高效原因与配套技术,云南农业科学,1997.3,29-30
31 胡波,侯林山等,玉米移栽机械化的综合研究,中国农机化,1997.3 41-42
32 张空,刘向东等,复种玉米育苗移栽系列研究,山西农业大学学报,1996.2
33 韩世生,关于棉花育苗工厂化和移栽机械化的思考,经济作物,12-13
34 彭珂珊,我国粮食的现状、问题与发展途径,内蒙古财经学院学报,1997,3:27-31
35 罗迎新,对实现中国耕地总量动态平衡与可持续发展的思考,嘉应大学学报,1997,5:29-31
36 周文富,移栽地膜春玉米高产栽培新技术,作物栽培,2000.1,18-19
37 Mjkirkby&R. P. Umorgan, Soil Erosion, Tohn Miley &Sons Ltd, 1980
38 张树梅等,少免耕覆盖技术与旱作农业,山西科技,1994.3
39 彭珂珊,黄土高原粮食生产中的水土保持耕作技术,甘肃环境研究与监测,1998,11(2):68-75
40 羊绍武,杨争光,退耕还林与粮食生产,西南民族学院学报,2001,22(2):47-49
41 骆文光等,免耕垄作覆盖技术的水土保持及其经济效益分析,水土保持通报,1994.3
42 陈绍兰,土壤免耕技术的发展与运用,山区开发,1995,5:62-64]
43 Monsanto,Conversation Tillage Seminer, 1981. 11
44 E.B.Robert等,玉米传统耕作与保护性耕作多年平均流失量,中国水土保持,1985.7 55-61
45 朱波等,旱地自然免耕技术对土壤肥力的影响,西南农业大学学报,1996.3
46 高云超,秸杆覆盖免耕土壤微生物生物量与养分转化研究,中国农业科学,1994.6
47 王树楼等,旱地玉米免耕整秸杆覆盖耕作技术研究,耕作与栽培,1994.4
48 王昌权等,不同免耕方式对作物产量和土壤理化性状的影响,四川农业大学学报,2001.
49 Lipu et al, Zero tillage of Two Crops a Year in Cotton Fields, Proceedings of the International Multiple Cropping Terms Conference
50 籍增顺等,旱地玉米免耕覆盖土壤水分研究,山西农业科学,1994.3
51 李仲明等,水田自然免耕技术的创始人---候光炯,学会,1994.1
52 谢先举,我国旱地免耕研究,耕作与栽培,1995.1
53 郑邦兴,莫润苍,耕地保护与三高农业,热带亚热带土壤科学,1995,4(4):238-241
54 王耀发等,北方旱地小麦免耕直播技术及其配套机具研究,干旱地区农业研究,1995.4
55 B. T. ADAMS, S. C. Borgelt, Modification of a no-till planter for tree seeds, American society of agricultural engineers, 1995, 11(2): 225-227
56 T. C. Kaspar, D. C. Erbach, Improving stand establishment in no-till with residue-clearing planter attachments, Transactions of the ASAE, 1998, 41(2): 301-306
57 J. P. Molin, L. L. Bahford, K. Von Bargen etal, Design and evaluation of a punch planter for no-till systems, Transactions of the ASAE, 2001, 41(2): 307-314
58 Stephen C. Porteus, Richard L. Parish, Malcolm E. Wright, Development of a marshgrass transplanting system, American society of agricultural engineers, 1989, 5(2):138-142
59 籍增顺等 国外免耕农业研究 山西农业科学1994.3
60 张波屏 现代化种植机械工程 机械工业出版社 1997.3
61 Gregory L. Branch, Pneumatic cylinders drive plant-setting mechanisms, Agricultural Engineerings May/June 1987, 16-17
62 A. E. Dale & D. S. H. Drennan, Transplanted maize(Zea mays)for grain production in southern England. I. Effects of planting date, transplant age at planting and cultivar on grain yield, journal of agricultural science, Cambridge, 1997, 128:27-35
63 L. J. Kutz, G. E. Miles & P. A. Hammer etal, Robotic transplanting of bedding plants, Transaction of the ASAE, 1987, 30(3): 586-590
64. L. Brewer, Conceptual modeling automated seedling transfer from growing trays to shipping modules, transactions of the ASAE, American society of agricultural engineers, 1994, 37(4): 1043-1051
65 Rick Melnick, Plugging into transplant trends, AVG, 1997, 4: 10-11
66 Imad Haffar,多功能、低成本移栽机的设计及试验,28-29
67 Gregory L. Branch, Pneumatic cylinders drive plant-setting mechanisms, Agriculture engineering, 1987, 5: 16-17
68 野沢,智裕,露地移植机械化技术-半自动野菜移植机可能,机械化农业,1995,5:9-11
69 Paul D. Q. Campbell, Ideas and innovations-Automated seedlings planting, implement and trantor, 2000, 7: 34-35
70 Ron Mose, conservation tillage in commercial vegetable farming, Life sciences in the 21st century:
Agriculture case study, www.visserite.com/plugtechnology/subjects/8row_vegetable_transplanter,2001,7
71 Imad Haffar, Design and field evaluation of a low-cost crop transplanter with multiple seedlings feed, Agricultural mechanization in Asia, Africa and Latin America, 1995, 26(3): 29-32
72 谢先举,我国旱地免耕研究,耕作与栽培,1995.1
73 范云翔,杨子万,K.A.Adekola等,温室全自动移栽机的研究开发,农业工程学报,1996,12(2):111-115
74 徐丽明,张铁中,史志清,玉米自动移栽机取苗机构的设计,中国农业大学学报,2000,5(4):58-60
75 马旭,马成林,张守勤等,机械式空气整根钵苗移栽器的研究,农业工程学报,1997,13(9):265-268
76 泰安国泰拖拉机总厂,2ZY-2型半自动杯式秧苗移栽机,农村机械化,1998,1:16
77 郭湘涛,张胜兰,李荣杰等,2ZY-2型移栽机性能简介,现代化农业,1997,218(9):32-33
78 高正路,2ZY-2型油菜移栽机的设计,江苏农机与农艺,2001,97(1):6-7
79 孙裕晶,左春柽,吴华,2ZT型移栽机的研究设计,农机化研究,1999,2(1):53-54
80 孙裕晶,马成林,UT-2型双行移栽机,农机与食品机械,1999,259(1):26-27
81 余辉平,刘书暖,张建民等,2YZ系列玉米移栽机的研究,农机与食品机械,1998,255(3):21-22
82 胡波,乔泉欣,葛茂森等,2ZY-2型玉米育苗移栽机的研制,农机与食品机械,1996,243(3):10-11
83 Jiang Jin Lin, Tang Yun Ping, Mechanized cultivation of summer-sown peanut, agricultural mechanization in Asia, Africa and Latin America, 1998, 29(2): 39-41
84 韩豹,马守义等,2Z-2型玉米育苗移栽机的研制,现代化农业,1996,208(11):1-3
85 韩豹,马守义,申建英等,2Z-6型作物秧苗移栽机的研制,现代化农业,1998,228(3):31-33
86 巴慧珍,2ZT-2型纸筒甜菜移栽机的移栽机构,农机与食品机械,1996,244(4):16-17
87 宋洪波,安风平,史岩,偏心肢移栽机的研究,农业机械学报,1997,28(8):41-45
88 耿端阳,董锋等,2ZG-2型钵苗移栽机栽植率研究,现代化农业,1999,241(8):28-29
89 董锋,耿端阳,2ZG-2型带式喂入半自动钵苗栽植机的研制,农机与食品机械,1998,257(5):21-22
90 曾令贤,玉米机制营养钵走向栽培增产技术及应用价值,广西农业机械化,1998,8:11-12
91 张喜林,吴永英,周宝库,营养钵育苗移栽对玉米增产效果的影响,玉米科学,2002,10(3):69-70
92 夏俊芳,王树才,许绮川,我国棉花营养钵移栽机械现状与发展局势,中国农机化,2002,1:36-37
93 苏海青,曹冬雷,北京市平谷利农营养钵销售部,长江蔬菜,2001.7:68
94 刘永棣 棉花纸官营养钵育苗法 2000.39
95 陈国军 玉米芯做作物营养钵育苗方法.caj 31
96 关彩虹,胡炜 育苗移栽夏玉米营养钵土配方的研究.caj山西农业大学学报 1999.19(4),295-299
97 张汝坤,彭善荣,蒋枫等,2ZB-70型烤烟育苗钵机的研究设计,农机化研究,2002,2:74:75
98 闸建文,宋景灵等 机械化制营养钵工艺的研究,农业工程学报,1999.15(1):105-108
99 赵正雄,张福锁,赵明等,不同种植方式对玉米生长发育和产量的影响,农业现代化研究,2002,23(3):197-200
100 张运胜,棉花营养钵育苗移栽若干问题刍议,作物杂志,1996,1:13-15
101 朱汉清,棉花不同钵径营养钵育苗的效果和效益,中国棉花,1998,25(5):27-38
102 Nambu, T., Tanimura, M. &Masuda, nouveau procédé sǖr et efficace lys en pot à transplanter, www.treetoad.com/2024tree.htm
103 陈同旺等.稻田春玉米不同育苗方式比较研究.作物研究,2001(2) p22-24
104 吴天雷,蔬菜营养土方和营养钵育苗技术,北京农业,1997,9:27
105 宋日,吴春胜,牟金明等,深松土对玉米根系生长发育的影响,吉林农业大学学报,2000,22(4):73-75,
80
106 隋华,贾兰英,徐建坡等,土壤深松对玉米效应的试验研究,天津农林科技,2002,168(4):1-3
107 Farmer's bookshelf information system of tropical crops in Hawaii, 2001. 8
108 Tsutomu Tokita, Use of plug seedlings in vegetable and ornamental plant cultivation and their production systems, farming japan, 1998,8:36-42
109 K. Tsuga, Development of fully automatic vegetable transplanter, konosuke t
110 Barbey K. Huang, Increase Crop Production and Automation Using Properly Designed Air-pruning Trays/Containers, Agricultural Mechanization in Asia, Africa and Latin America, 1998,29(2):42-50
111 张喜林,吴永英等,营养钵育苗移栽对玉米增产效果的影响玉米科学 2002.3,9-70
112 李振荣 棉花营养钵育苗盖籽厚度对出苗的影响 22
113 张波屏 现代种植机械工程北京机械工业出版社 1997.8
114 帅军,周泽武,曹川江等,YB50-I型营养钵制钵机研究设计,农机化研究,1999,5(2):64-80
115 宋家祥 顾世梁,棉花芦管育苗新技术研究Ⅳ。芦管育苗移栽对棉花产量形成影响研究初报,江苏农业研究 2000.21(1):20-24
116 黄瑞贤,宋修江等 用玉米芯育玉米苗移栽技术要点,吉林农业,1997(4) 16-17
117 李维顺,王永,选用塑料营养钵应注意的几个问题,蔬菜,2001,9:28-29
118 李爱青,阚道忠 高效营养纸质育苗杯应用研究 安徽农学通报1999(1) 21-23
119 黄晓梅,唐虹,徐山青等 可降解纸质育苗钵的研制 产业用纺织品 2001(4) 18-20
120 王维新,坎杂,田学艳等,2BCM-6型茬地免耕播种机的研制,农业工程学报,2001,(5):174-176
121 赵启新,张培增,张建中,2BGM-3型覆盖免耕播种机的研制和试验,农业机械学报,2000,31(2):118-120
122 宋卫堂,刘亚佳,封俊等,夏玉米免耕覆盖移栽的试验研究,2000,16(3):57-59
123 董竹蔚,高克昌,石秀琴,2BM-2/3型免耕播种机的研制,山西农业科学,1994,22(3):41-45
124 张进,韩战省,小麦、玉米免耕覆盖播种机的试验研究,山西农机,1998,10(9),14-16
125 蒋金琳,宋殿香,王兴成等,免耕播种机土壤工作部件的设计计算,莱阳农学院学报,1998,15(1):75-78
126 张晋国,带状粉碎免耕播种机的试验研究,博士学位论文,2000年7月
127 张云文,驱动圆盘切茬器的试验研究,中国农业大学学报,1999:4(6),38-40
128 王嵩,毕节地区推广玉米育苗移栽的几点体会,耕作与栽培,1999,1:60-63
129 尹国洪,陈巧敏,张瑞林,旱地育苗移栽机械现状、发展趋势与前景,中国农机化,1997,5:9-10
130 李立权,詹成,吴子才,春玉米不同育苗移栽方式的比较试验,安徽农业科学,2001,29(1) 33-35
131 侯慧荣,李文臣,蜂窝式纸筒花卉育苗移栽技术,内蒙古农业科技,1997,3:33-34
132 董瑞华,姚新发,大棚育苗移栽建圆的探讨,蚕桑通报,2001,33(1):54-55
133 徐京波,高寒地区白瓜子育苗移栽技术,黑河科技,1998,2:16-17
134 侯怀恩,盂庆法,花生育苗移栽试验初报,花生科技,1996,2:21-23
135 王廷勋,李富先,任晓勇等,棉花营养杯大棚育苗移栽试验总结,新疆气象,1999,22(4):31-34
136 Tadashiyoneyani, Isao ma yumoyo & yasuyuki okishio, Full automatic vegetable Transplanter, NCNU, 2001, 3(3): 24-30
137 Victor L. Hauser, An automatic grass transplanting machine, Transaction of the Aasae, 1985, 28(6): 1777-1782
138 辛明强,毕金风,霍庆民等,垦区甜菜纸筒育苗移栽技术推广中存在的问题,现代化农业,1998,226(5):17-18
139 卢秉福,周艳丽,师振华等,辽宁省甜菜纸筒育苗移栽技术的开发与应用,中国糖业,2001,1:54-58
140 耿端阳,董封,汪遵远,2ZG-2型半自动钵苗栽植机的设计与试验,山东工程学院学报,2000,14(9):34-38
141 董锋,耿端阳,汪遵元,带式喂入钵苗栽植机研究,农业机械学报,2000,31(3):42-45
142 黄辉,饲料厂粉料仓结拱及其防治措施,粮食与饲料工业,1994,6:22-24
143 罗德润,筒仓仓壁压力计算,起重运输机械,1998(3):7-12
144 苏乐逍,立筒仓卸料结拱弹性变形及其对仓壁压力的影响,郑州粮食学院学报,1997,18(4):57-61
145 何维国,薛勇,试论筒仓内贮料结拱时作用于仓壁的压力分布,郑州粮食学院学报,1999,20(4):72-76
146 郭康权,粉粒体技术基础,西北大学出版社,1995年5月
147 周祖锷 农业物料学 农业出版社1990.6
148 周波,史宏,料仓内物料的结拱原理及破拱设计。企业技术开发,2001,(4):8-10
149 任露泉,赵爱宁等,试验优化技术,机械工业出版社,1987
150 赵作善,试验设计,中国农业大学试用教材
151 封俊,顾世康,曾爱军等,导苗管式栽植机的试验研究(Ⅱ),栽植机的性能评价指标与检测方法,农业工程学报,1998,14(2):73-77
152 浙江大学数学系高等数学教研组,概率论与数理统计,高等教育出版社,1979.3
153 T. R. Way, M. E. Wright, Human performance in mechanical transplanting of the sweet potatoes, American society of Agricultural engineers, 1987, 30(2): 317-323
154 安风平,龚丽农等,2YZ—40型吊篮式钵苗栽植机的研究,现代化农业,1999,235(2) 31~32
155 Tetsuo Nambu, Keiji Miyamoto, Kiyoaki Matsuda, Dvelopment of automatic sugar beet transplanter using chain pots, JARQ, 1997, 31(4): 249-255
156 R. D. Munilla, L. N. Shaw, A high-speed dibbling transplanter, Transaction of the ASAE, 1987, 30(4): 904-908
157 魏桃芝,安丰弟,肖景文等,2Z8-6型钵苗栽植机简介,现代化农业,1998,224(3):31-32
158 冯福海,陈东升等,2ZB—4型杯式钵苗移栽机,现代化农业,2002,277(8):32~34
159 封俊,导苗管式移栽机,作物种植,23-24
160 顾世康,封俊,曾爱军等,导苗管式栽植机的试验研究(Ⅲ)-导苗管式栽植机的改进设计与试验,农业工程学报,1998,14(3):123-128
161 封俊,顾世康,曾爱军等,导苗管式栽植机的试验研究(Ⅰ),中国玉米育苗栽植机械化的现状与问题,农业工程学报,1998,13(1):103-107
162 Dong Feng, Bai Xueyuan etc, Feeding Mechanism of Belt conveyer type seedling transplanter, TRANS of the CSAE, 2001, 17(1): 74~77
163 董锋,耿端阳,2ZG-2型带式喂入半自动钵苗栽植机的研制,农机与食品机械,1998,257(5):21-23
164 侯林山,胡波等,2ZT-2型甜菜纸筒育苗移栽机,农村牧区机械化,1997,29(1):34~35
165 郭艳庭,李殿兴,刘维生等,CT-4S型甜菜移栽机,农牧与食品机械,1994,5:24-25
166 李其昀,鲁善文,李丽华,滑道分钵轮式栽植器的试验研究,农业机械学报,2001,32(3):30-33
167 王铁光、林巍主编,理论力学,北京工业出版社,1994.7
168 何立民,MCS-51系列单片机应用系统设计系统配置与接口技术,北京航空航天大学出版社,1989年4月
169 李广弟,单片机基础,北京航天航空大学出版社,1995年3月
170 童大至,电工电子技术基础,解放军出版社,1986年8月
171 谢兴仪主编,电路和电机基础,重庆大学出版社,1986年。