包衣水稻直播排种器的试验研究
|
摘要
对国内外水稻播种方法进行分析与比较,结合我国水稻生产的现状与大力发展水稻直播技术的趋势,针对水稻机械化直播技术中存在的问题,提出通过包衣技术来改变稻种的物料特性,设计包衣水稻直播排种器,实现水稻精量播种。
通过对不同型孔型式进行排种模拟实验,选择圆柱形孔为包衣水稻直播排种器的型孔型式。研究包衣稻种物料特性对排种性能的影响,以此为基础确定包衣水稻直播排种器的结构参数。通过对包衣水稻直播排种器的充种和伤种机理进行理论分析,建立了种子在各个阶段的运动学和动力学模型,分析了排种器结构参数对精量播种的影响。
在理论研究的基础上,设计制作了简易排种器试验台。采用正交试验对包衣水稻直播排种器进行台架试验,对试验结果进行极差和方差分析,得出各因素对排种性能的影响,找出了各因素的较优水平和最优组合,并给出了性能指标随各因素变化的关系曲线。试验表明:包衣水稻直播排种器采用圆柱形型孔,包衣种子状态为SDZ-15 A,工作频率为30r/min的排种性能最好。试验结果为合格率:91.20%:空穴率:6.68%;破碎率:5.25%
In this paper, combing analysis and comparison of seed methods of all kinds with current situation and strongly developing tendency of direct seeding technology in china, aimed at settling the problem of rice direct seeding mechanization, it was put forward pelletizing technology to change rice seed physical characteristic, designed the rice pellet seeding metering device, and realize rice precision seeding.
By simulate experiment of seeding on different mold hole, cylinder hole as seeding metering device pattern of rice pellet direct seeding was selected. Researched the influence of rice pellet physical characteristic on seeding, based on which, seeding metering device structure parameter of rice pellet direct seeding was confirmed. Through theoretic analysis of filling seed and harming seed mechanism, seed kinematics and dynamics model of all stages and analyze the influence of seeding metering device structure parameter on precision seeding were established.
Based on theoretic research, a simple seeding metering device test-bed was designed and made. Adopting orthogonal test on seeding metering device of rice pellet direct seeding, by variance and extreme deviation analysis on test result, the influence of all factors on seeding performance was gained, superior level and optimum combination were found out, relation curve of performance target along with factor change was provided. Test showed: seeding metering device pattern is cylinder hole, rice pellet is SDZ-15 A and rotate speed is 30r/min,best performance is gained. Result: eligibility rate is 91.20%; cavity rate is 6.68%; fragmentation rate is 5.25%.
通过对不同型孔型式进行排种模拟实验,选择圆柱形孔为包衣水稻直播排种器的型孔型式。研究包衣稻种物料特性对排种性能的影响,以此为基础确定包衣水稻直播排种器的结构参数。通过对包衣水稻直播排种器的充种和伤种机理进行理论分析,建立了种子在各个阶段的运动学和动力学模型,分析了排种器结构参数对精量播种的影响。
在理论研究的基础上,设计制作了简易排种器试验台。采用正交试验对包衣水稻直播排种器进行台架试验,对试验结果进行极差和方差分析,得出各因素对排种性能的影响,找出了各因素的较优水平和最优组合,并给出了性能指标随各因素变化的关系曲线。试验表明:包衣水稻直播排种器采用圆柱形型孔,包衣种子状态为SDZ-15 A,工作频率为30r/min的排种性能最好。试验结果为合格率:91.20%:空穴率:6.68%;破碎率:5.25%
In this paper, combing analysis and comparison of seed methods of all kinds with current situation and strongly developing tendency of direct seeding technology in china, aimed at settling the problem of rice direct seeding mechanization, it was put forward pelletizing technology to change rice seed physical characteristic, designed the rice pellet seeding metering device, and realize rice precision seeding.
By simulate experiment of seeding on different mold hole, cylinder hole as seeding metering device pattern of rice pellet direct seeding was selected. Researched the influence of rice pellet physical characteristic on seeding, based on which, seeding metering device structure parameter of rice pellet direct seeding was confirmed. Through theoretic analysis of filling seed and harming seed mechanism, seed kinematics and dynamics model of all stages and analyze the influence of seeding metering device structure parameter on precision seeding were established.
Based on theoretic research, a simple seeding metering device test-bed was designed and made. Adopting orthogonal test on seeding metering device of rice pellet direct seeding, by variance and extreme deviation analysis on test result, the influence of all factors on seeding performance was gained, superior level and optimum combination were found out, relation curve of performance target along with factor change was provided. Test showed: seeding metering device pattern is cylinder hole, rice pellet is SDZ-15 A and rotate speed is 30r/min,best performance is gained. Result: eligibility rate is 91.20%; cavity rate is 6.68%; fragmentation rate is 5.25%.
引文
1.袁钊和等,论我国水稻抛秧、插秧、直播机械化技术的发展[J],农业机械学,1998(3):181
2.王维金,作物栽培学[M],科学技术出版社,1998
3.中国农业百科全书编辑部,中国农业百科全书农业机械卷[M],1992
4.邹应斌等,水稻直播与免耕直播的栽培研究进展[J],作物研究,2003(1):1~9
5.邱兵,陈忠慧,水稻工厂化育秧中的种子包衣技术研究[J],种子科技,2002(3):51~52
6.毕辛华,种子学[M],北京:农业出版社,1998
7.谷登斌等,种子包衣技术的发展与应用[J],种子科技,1994(6):26~27
8.王克礼等,开发种子包衣新技术提高种子三率[J],种子,2000(4):70~71
9.王荣芬,种子包衣技术研究与应用[J],种子世界,1989(9):17~18
10.罗仓学,种子技术在蔬菜生产中的应用前景[J],种子世界,1989(7):7~8
11.周可金,种衣技术的应用与发展[J],中国农学通报,1993(6):35~38
12.韩萍等,种子包衣与丸粒化技术[J],玉米科学,2002,10(4):77~80
13.刘善资,种子包衣技术的发展与展望[J],河北农垦科技,1997(4):31~32
14.杨小萍,我国种子包衣技术的研究与应用[J],福建农业科技,1994(6):26~27
15.李小川,日本最新种子处理技术—种子包衣[J],北方园艺,1998(1):46~47
16. Zhaohe Yuan, Xinchun Yang, Development and prospect of Rice planting Mechanization in china[J], International conference on the Mechanization of Chinese paddy production, 2000, April
17.张波屏,播种机械设计原理[M],北京:机械工业出版社,1982
18. Yaji. Y, Sekiya. H, etc, Development of rice direct seeding system in Northern Tohoku by multiple seed pellet in wet paddy field[J]: Production method of multiple seed pellet and cultivation result, In: Proceedings of the abstracts of Beijing international rice congress, Sept, 15~21, 2002, PP: 387
19.王树才等,水稻种子的4种状态与流动性相关的物料特性测定[J],华中农业大学学报,1997(4):199~203
20.周祖锷,农业物料学[M],北京:农业出版社,1994
21.李志伟等,水稻芽种拌干土粉处理对机播性能的影响[J],农业工程学报,2001(6):73~76
22.张桂花等,包衣稻种物理特性的测定及其应用[J],湖南农业大学学报,2004(1):68~70
23.张泽平,精密排种器及排种理论研究进展[J],吉林工业大学学报,1995(4):112~116
24.廖庆喜,玉米水平圆盘精密排种器型孔的研究[J],农业工程学报,2003(2)109~113
25.著,王鸿深译,种子落入单粒排种装置窝眼的研究[J],国外农机,1984(11):20~23
26.北京农业工程大学主编,农业机械学(上册)[M],北京:农业出版社,1996
27.瓦西连柯,微粒沿农机非光滑表面运动得理论[M],上海:上海科技出版社,1960
28.张波屏等,精密播种技术论文集[M],中国农业机械学会种植机械专业组,1983
29. Tanaka.t.and Nakajima, Y.proc.conf.particle Technology IITRI, chicago 1973
30.朱凤武等,玉米丸粒化种子配套排种器的研究[J],吉林农业大学学报,2001,23(2):104~108
31.向卫兵,气吹式杂交水稻精播排种器型孔型式及相关参数的试验研究[D],1999
32.王昆,机械设计课程设计[M],北京:高等教育出版社,1995
33.农业机械设计手册[M],北京:机械工业出版社,1973
34.张德文,精密播种机械[M],北京:农业出版社,1981
35.E.IRLA单粒播种机和条播机的对比试验(德)[J],Agrartechnik international Februra, 1984, 43(1): 23~31
36.国家标准局,GB6973—1986《单粒(精密)播种机试验方法》[M],北京:标准出版社,1986
37.贺俊林,裘祖荣,新型气压式精密排种器的试验研究[J],农业工程学报,2001(3):80~83
38.邱兵,陈忠慧,稻种包衣处理应用于工厂化育秧的试验研究[J],农业工程学报,2000,16(4):96~98
39.周本新,水稻包衣直播栽培技术的发展现状及展望[J],农业机械化论坛,1996(3):1~2
40.徐迪新,李来成,早稻种子包衣直播育秧研究[J],种子,2001(5):21~24
41.中国农业机械学会,中国农业机械化科学研究院,90年代国外农机产品和技术[M],1999
42.杨新春等,我国水稻生产机械化的现状与前景[J],中国农机化,2001(1):20~21
43.丁元法等,精密播种机的现状与发展趋势[J],中国农机化,2001(6):3~5
44.梁天也等,精播丸粒化玉米种子水平圆盘式排种器清种装置的改进[J],吉林农业大学学报,2001,23(1):101~103
45.李秋菊等,内侧充种垂直圆盘排种器伤种机理的研究[J],河北农业大学学报,2001,17(1):67~73
46.马连元,内侧充种垂直圆盘排种器充种机理的研究[J],河北农业大学学报,1995,18(2):70~75
47.张海飞,计算机模拟内侧充种垂直圆盘排种器充种过程[J],农业机械学报,1993,24(1):49~54
48.镇江农业机械学院主编,农业机械学(上册)[M],农业机械出版社,1981
49.黄其鸿,农机试验设计及多元分析[M],湖南农业大学工程学院,1998
50.第一机械工业部农业机械科学研究院,农业机械正交试验设计优选法[M],1978
51.濮良贵,机械设计[M],北京:高等教育出版社,1995
52.向卫兵等,气吹式杂交水稻精播排种器型孔型式的试验研究[J],农业工程出版社,1999(1)
53.李建华等,小麦精量排种器投种机理的研究[J],会议交流论文
54.李建华等,小麦精量排种器充种机理的研究[J],会议交流论文
55.朱凤武,精播丸化玉米种子水平圆盘式排种器的试验研究[D],1998
56. CIGR, Plant Production Engineering[M], ASAE
57. Marambe B, Amarasinghe OL, Seedling growth and control of proparil——resistant bamyardgrass in lowland direct-seeded rice fields of Sri Lanka[J], In: S, Peng and B.Mardy, Rice research for food security and poverty alleviation, Manilca: IRRI, 2001, PP: 561~568
58. D. Manohar Jesudass, V.J.F. Kumar, M. Baiasubramanian. Performance of Bullock-drawn upland direct paddy seeder[J], Agricultural Mechanization In Asia, Africa and Latin America, 1996, 27(1): 21~24
59.杨明金,包衣稻种物理机械特性试验与应用研究[D],2000
2.王维金,作物栽培学[M],科学技术出版社,1998
3.中国农业百科全书编辑部,中国农业百科全书农业机械卷[M],1992
4.邹应斌等,水稻直播与免耕直播的栽培研究进展[J],作物研究,2003(1):1~9
5.邱兵,陈忠慧,水稻工厂化育秧中的种子包衣技术研究[J],种子科技,2002(3):51~52
6.毕辛华,种子学[M],北京:农业出版社,1998
7.谷登斌等,种子包衣技术的发展与应用[J],种子科技,1994(6):26~27
8.王克礼等,开发种子包衣新技术提高种子三率[J],种子,2000(4):70~71
9.王荣芬,种子包衣技术研究与应用[J],种子世界,1989(9):17~18
10.罗仓学,种子技术在蔬菜生产中的应用前景[J],种子世界,1989(7):7~8
11.周可金,种衣技术的应用与发展[J],中国农学通报,1993(6):35~38
12.韩萍等,种子包衣与丸粒化技术[J],玉米科学,2002,10(4):77~80
13.刘善资,种子包衣技术的发展与展望[J],河北农垦科技,1997(4):31~32
14.杨小萍,我国种子包衣技术的研究与应用[J],福建农业科技,1994(6):26~27
15.李小川,日本最新种子处理技术—种子包衣[J],北方园艺,1998(1):46~47
16. Zhaohe Yuan, Xinchun Yang, Development and prospect of Rice planting Mechanization in china[J], International conference on the Mechanization of Chinese paddy production, 2000, April
17.张波屏,播种机械设计原理[M],北京:机械工业出版社,1982
18. Yaji. Y, Sekiya. H, etc, Development of rice direct seeding system in Northern Tohoku by multiple seed pellet in wet paddy field[J]: Production method of multiple seed pellet and cultivation result, In: Proceedings of the abstracts of Beijing international rice congress, Sept, 15~21, 2002, PP: 387
19.王树才等,水稻种子的4种状态与流动性相关的物料特性测定[J],华中农业大学学报,1997(4):199~203
20.周祖锷,农业物料学[M],北京:农业出版社,1994
21.李志伟等,水稻芽种拌干土粉处理对机播性能的影响[J],农业工程学报,2001(6):73~76
22.张桂花等,包衣稻种物理特性的测定及其应用[J],湖南农业大学学报,2004(1):68~70
23.张泽平,精密排种器及排种理论研究进展[J],吉林工业大学学报,1995(4):112~116
24.廖庆喜,玉米水平圆盘精密排种器型孔的研究[J],农业工程学报,2003(2)109~113
25.著,王鸿深译,种子落入单粒排种装置窝眼的研究[J],国外农机,1984(11):20~23
26.北京农业工程大学主编,农业机械学(上册)[M],北京:农业出版社,1996
27.瓦西连柯,微粒沿农机非光滑表面运动得理论[M],上海:上海科技出版社,1960
28.张波屏等,精密播种技术论文集[M],中国农业机械学会种植机械专业组,1983
29. Tanaka.t.and Nakajima, Y.proc.conf.particle Technology IITRI, chicago 1973
30.朱凤武等,玉米丸粒化种子配套排种器的研究[J],吉林农业大学学报,2001,23(2):104~108
31.向卫兵,气吹式杂交水稻精播排种器型孔型式及相关参数的试验研究[D],1999
32.王昆,机械设计课程设计[M],北京:高等教育出版社,1995
33.农业机械设计手册[M],北京:机械工业出版社,1973
34.张德文,精密播种机械[M],北京:农业出版社,1981
35.E.IRLA单粒播种机和条播机的对比试验(德)[J],Agrartechnik international Februra, 1984, 43(1): 23~31
36.国家标准局,GB6973—1986《单粒(精密)播种机试验方法》[M],北京:标准出版社,1986
37.贺俊林,裘祖荣,新型气压式精密排种器的试验研究[J],农业工程学报,2001(3):80~83
38.邱兵,陈忠慧,稻种包衣处理应用于工厂化育秧的试验研究[J],农业工程学报,2000,16(4):96~98
39.周本新,水稻包衣直播栽培技术的发展现状及展望[J],农业机械化论坛,1996(3):1~2
40.徐迪新,李来成,早稻种子包衣直播育秧研究[J],种子,2001(5):21~24
41.中国农业机械学会,中国农业机械化科学研究院,90年代国外农机产品和技术[M],1999
42.杨新春等,我国水稻生产机械化的现状与前景[J],中国农机化,2001(1):20~21
43.丁元法等,精密播种机的现状与发展趋势[J],中国农机化,2001(6):3~5
44.梁天也等,精播丸粒化玉米种子水平圆盘式排种器清种装置的改进[J],吉林农业大学学报,2001,23(1):101~103
45.李秋菊等,内侧充种垂直圆盘排种器伤种机理的研究[J],河北农业大学学报,2001,17(1):67~73
46.马连元,内侧充种垂直圆盘排种器充种机理的研究[J],河北农业大学学报,1995,18(2):70~75
47.张海飞,计算机模拟内侧充种垂直圆盘排种器充种过程[J],农业机械学报,1993,24(1):49~54
48.镇江农业机械学院主编,农业机械学(上册)[M],农业机械出版社,1981
49.黄其鸿,农机试验设计及多元分析[M],湖南农业大学工程学院,1998
50.第一机械工业部农业机械科学研究院,农业机械正交试验设计优选法[M],1978
51.濮良贵,机械设计[M],北京:高等教育出版社,1995
52.向卫兵等,气吹式杂交水稻精播排种器型孔型式的试验研究[J],农业工程出版社,1999(1)
53.李建华等,小麦精量排种器投种机理的研究[J],会议交流论文
54.李建华等,小麦精量排种器充种机理的研究[J],会议交流论文
55.朱凤武,精播丸化玉米种子水平圆盘式排种器的试验研究[D],1998
56. CIGR, Plant Production Engineering[M], ASAE
57. Marambe B, Amarasinghe OL, Seedling growth and control of proparil——resistant bamyardgrass in lowland direct-seeded rice fields of Sri Lanka[J], In: S, Peng and B.Mardy, Rice research for food security and poverty alleviation, Manilca: IRRI, 2001, PP: 561~568
58. D. Manohar Jesudass, V.J.F. Kumar, M. Baiasubramanian. Performance of Bullock-drawn upland direct paddy seeder[J], Agricultural Mechanization In Asia, Africa and Latin America, 1996, 27(1): 21~24
59.杨明金,包衣稻种物理机械特性试验与应用研究[D],2000