激光控制平地系统接收和控制装置的研究与开发
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摘要
应用激光平地技术可明显改善农田表面的平整精度和种床条件,提高地面灌溉质量,是建设现代节水农业的一个重要工具。本研究是国家“十五”重大科技专题的子课题“精细地面灌溉技术研究—激光控制平地系统研究与开发”的主要组成部分,旨在消化吸收国外先进技术的基础上,通过原理分析和试验实践,跟踪电子元件发展新趋势,选择一种适用于激光控制平地系统的国产激光发射器,研究开发一套适合在我国推广应用、性能良好、成本较低、具有自主知识产权和面向农田土地精平作业的激光接收和控制装置。
根据颜色玻璃的特性,选择了滤光片的主要性能指标,实现有效的滤光处理;通过对适合激光接收的光电器件性能对比研究,选择了国产硅光电池为光电传感器,并合理设计其空间分布,使接收器工作无死角;采用了幅度调制的方法,使低频微弱的模拟信号在现场很低信噪比的条件下实现了可靠接收;设计了低噪声、抗干扰能力良好的微弱信号调理电路;研究开发了一个价格较低、性能较好的激光接收器产品原型样机。
利用微处理器系统和融入模糊控制规则的嵌入式控制软件,研制了一个价格较低、与国内外平地机液压调节系统兼容的控制器。
自主设计研制的激光接收器与控制器,和通过比较研究及试验检验证明可行的国产激光发射器组成激光控制系统,通过室内和室外试验验证该系统可以正常工作后,在旱田和水田进行了平地试验。试验结果表明:该系统可以正常工作,接收器的工作精度为3mm,控制器与国内外液压控制阀的兼容性较好。
最后对研究成果进行了总结,提出改善该系统的途径。
Laser-controlled land leveling system is an important tool for precision surface irrigation. It can obviously improve the land leveling accuracy and seedbed conditions on the field, achieve a high quality of surface flood irrigation. This research was a part of the project " Research and Development on laser controlled leveling system" and aimed to develop a lower-cost laser receiver and controller with good performances for precision land leveling.
A laser receiver was developed based on domestic photoelectric elements. The low-power analog signal was amplitude-modulated in low SNR. With the specifications of color glass, the high-transmission filter with narrow pass bandwidth was investigated to prevent from environment light disturbance. A low-noise preamplifier was designed to amplify the low-power signal. The elements were mounted with appropriate arrangement on the bracket so that the receiver was to work without dead angle.
A single-chip microprocessor-based controller was developed to process the preconditioned laser signal to control the hydraulic system on the scraper. The fuzzy logic control was used to develop the system control software.
In the dry and paddy fields these two devices were integrated to test with good results. The accuracy of laser receiver was about 3 mm. The controller was compatible with both domestic and imported hydraulic valves.
Finally, there were a summarization of the research and some ideas to improve the system.
根据颜色玻璃的特性,选择了滤光片的主要性能指标,实现有效的滤光处理;通过对适合激光接收的光电器件性能对比研究,选择了国产硅光电池为光电传感器,并合理设计其空间分布,使接收器工作无死角;采用了幅度调制的方法,使低频微弱的模拟信号在现场很低信噪比的条件下实现了可靠接收;设计了低噪声、抗干扰能力良好的微弱信号调理电路;研究开发了一个价格较低、性能较好的激光接收器产品原型样机。
利用微处理器系统和融入模糊控制规则的嵌入式控制软件,研制了一个价格较低、与国内外平地机液压调节系统兼容的控制器。
自主设计研制的激光接收器与控制器,和通过比较研究及试验检验证明可行的国产激光发射器组成激光控制系统,通过室内和室外试验验证该系统可以正常工作后,在旱田和水田进行了平地试验。试验结果表明:该系统可以正常工作,接收器的工作精度为3mm,控制器与国内外液压控制阀的兼容性较好。
最后对研究成果进行了总结,提出改善该系统的途径。
Laser-controlled land leveling system is an important tool for precision surface irrigation. It can obviously improve the land leveling accuracy and seedbed conditions on the field, achieve a high quality of surface flood irrigation. This research was a part of the project " Research and Development on laser controlled leveling system" and aimed to develop a lower-cost laser receiver and controller with good performances for precision land leveling.
A laser receiver was developed based on domestic photoelectric elements. The low-power analog signal was amplitude-modulated in low SNR. With the specifications of color glass, the high-transmission filter with narrow pass bandwidth was investigated to prevent from environment light disturbance. A low-noise preamplifier was designed to amplify the low-power signal. The elements were mounted with appropriate arrangement on the bracket so that the receiver was to work without dead angle.
A single-chip microprocessor-based controller was developed to process the preconditioned laser signal to control the hydraulic system on the scraper. The fuzzy logic control was used to develop the system control software.
In the dry and paddy fields these two devices were integrated to test with good results. The accuracy of laser receiver was about 3 mm. The controller was compatible with both domestic and imported hydraulic valves.
Finally, there were a summarization of the research and some ideas to improve the system.
引文
[1] 钱止英,张光斗.中国可持续发展水资源战略研究综合报告及各专题报告.北京:中国水利水电出版社,2001,3~7
[2] 许一飞.实用节水灌溉机械设备讲座——第二讲 现代地面灌溉机械设备(一).节水灌溉,2002,5:44~45
[3] 李益农,许迪,李福祥,等.农田土地激光平整技术应用及初步评价.农业工程学报,1999,15(2):79~84
[4] 李福祥,许迪,李益农.农田土地平整方法的组合应用及效果.农业工程学报,2000,16(2):50~53
[5] 许迪,李益农,李福祥,杨继富.常规土地平整与激光平地技术组合应用初步分析.水利学报,1999,10:52~56
[6] USDA. Irrigation Guide. 210-vi-NEH, 1999,9
[7] de Sousa P L, A R Dedrick, A J Clemmens, et al. Effect of furrow elevation differences on level-basin performance. Transactions of the ASAE, 1995,38(1):153~158
[8] Agarwal M C, Goel A C. Effect of field leveling quality on irrigation efficiency and crop yield. Agricultural Water Management. 1981,4
[9] Fin"ey C. The benefits of land leveling on irrigation schemes in Turkey and Sindh Province, Pakistan. ICID Journal.1996,45(1)
[10] 封传发,倪向东,曹雪松.激光平地技术的应用及效果.新疆农机化,2002,4:17~18
[11] 何文芳,闫新军.推广激光平地技术提高农田灌溉效率.新疆农机化.2001,4:14~15
[12] 刘志强.乌拉特前旗黄灌区发展激光平地技术可行性分析.内蒙古水利,2002,1:90~91
[13] JF Rickman. Laser Aided Land Leveling Training Course. 2002,1~6
[14] 汪懋华.“精细农作”技术发展与农业装备技术创新系列讲座.农业机械,1999,10:28~29
[15] 汪懋华.“精细农作”技术发展与农业装备技术创新系列讲座.农业机械,1999,12:16~18
[16] 张瑞新.激光扫平仪的原理与检验.测绘通报.1997,7:29~33
[17] 贾贵儒,唐荣麟,戴允玢.自动平地机的激光平面系统研究与试验.农业工程学报,1997,13(增刊):301~305
[18] 朱宝亮,刘莉.激光扫平自动控制系统.光学技术,1996,3:27~29
[19] 马致仁.GP—1型激光校准平地机.航空精密制造技术.1997,33(3):41~43
[20] 季长路,张家钰.激光基准信标仪的研制.安徽机电学院学报,2000,15(1):31~34
[21] 季长路,张家钰.激光基准信标仪中CPU及其控制原理的分析与设计.安徽机电学院学报,2000,15(2):35~40
[22] 季长路,张家钰.激光基准信标仪光学系统的设计.安徽机电学院学报,2001,16(2):49~52
[23] 杨红帆,肖丽晶,赵军,杨立新.1PJ-3型激光平地机的设计.黑龙江八一农垦大学学报.2002,3:47~50
[24] 韩豹,1PJY-3.0型综合激光平地机的研制,农业工程学报,2003,19(3):116~119
[25] 石顺祥,过巳吉.光电子技术及其应用.四川:电子科技大学出版社,1994,15,103~104
[26] 俞宽新,江铁良,赵启大.激光原理与激光技术.北京:北京工业大学出版社,2001,18~36
[27] 杨臣华,梅遂生,林钧挺.激光与红外技术手册.北京:国防工业出版社.1990,251
[28] 郑启光.激光先进制造技术.湖北:华中科技大学出版社,2002:1~15
[29] 唐龙陵,贾贵儒,戴允玢.JSP—1型激光扫平仪的发射装置.中国农业大学学报,1997,2(4):97~101
[30] 李义双.以半导体激光器为光源的激光扫平仪发射与接收系统的设计:[硕士学位论文].北京:中国农业大学,2002,22~23
[31] 余金中.半导体光电子技术.北京:化学工业出版社,2003:76
[32] 张乃迁.Infrared Instrumentation.专题讲座.2003
[33] 刘振玉.光电技术.北京:北京理工大学出版社,1990,126~136,194~200
[34] 苏铁力,关振海,孙继红,等.传感器及其接口技术.北京:中国石化出版社,1998,140~143
[35] 北京光电器件厂.光电器件产品手册,1986,3-2~3
[36] 胡士凌,孔得人.光电电子线路.北京:北京理工大学出版社,1996,188~190
[37] 卢文祥,杜润生.工程测试与信息处理.湖北:华中理工大学出版社,1999,123~136
[38] 林国荣.电磁干扰及控制.北京:全华科技图书股份有限公司出版,世界图书出版公司重印,1990,72~73
[39] 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:北京航空航天大学出版社,1999
[2] 许一飞.实用节水灌溉机械设备讲座——第二讲 现代地面灌溉机械设备(一).节水灌溉,2002,5:44~45
[3] 李益农,许迪,李福祥,等.农田土地激光平整技术应用及初步评价.农业工程学报,1999,15(2):79~84
[4] 李福祥,许迪,李益农.农田土地平整方法的组合应用及效果.农业工程学报,2000,16(2):50~53
[5] 许迪,李益农,李福祥,杨继富.常规土地平整与激光平地技术组合应用初步分析.水利学报,1999,10:52~56
[6] USDA. Irrigation Guide. 210-vi-NEH, 1999,9
[7] de Sousa P L, A R Dedrick, A J Clemmens, et al. Effect of furrow elevation differences on level-basin performance. Transactions of the ASAE, 1995,38(1):153~158
[8] Agarwal M C, Goel A C. Effect of field leveling quality on irrigation efficiency and crop yield. Agricultural Water Management. 1981,4
[9] Fin"ey C. The benefits of land leveling on irrigation schemes in Turkey and Sindh Province, Pakistan. ICID Journal.1996,45(1)
[10] 封传发,倪向东,曹雪松.激光平地技术的应用及效果.新疆农机化,2002,4:17~18
[11] 何文芳,闫新军.推广激光平地技术提高农田灌溉效率.新疆农机化.2001,4:14~15
[12] 刘志强.乌拉特前旗黄灌区发展激光平地技术可行性分析.内蒙古水利,2002,1:90~91
[13] JF Rickman. Laser Aided Land Leveling Training Course. 2002,1~6
[14] 汪懋华.“精细农作”技术发展与农业装备技术创新系列讲座.农业机械,1999,10:28~29
[15] 汪懋华.“精细农作”技术发展与农业装备技术创新系列讲座.农业机械,1999,12:16~18
[16] 张瑞新.激光扫平仪的原理与检验.测绘通报.1997,7:29~33
[17] 贾贵儒,唐荣麟,戴允玢.自动平地机的激光平面系统研究与试验.农业工程学报,1997,13(增刊):301~305
[18] 朱宝亮,刘莉.激光扫平自动控制系统.光学技术,1996,3:27~29
[19] 马致仁.GP—1型激光校准平地机.航空精密制造技术.1997,33(3):41~43
[20] 季长路,张家钰.激光基准信标仪的研制.安徽机电学院学报,2000,15(1):31~34
[21] 季长路,张家钰.激光基准信标仪中CPU及其控制原理的分析与设计.安徽机电学院学报,2000,15(2):35~40
[22] 季长路,张家钰.激光基准信标仪光学系统的设计.安徽机电学院学报,2001,16(2):49~52
[23] 杨红帆,肖丽晶,赵军,杨立新.1PJ-3型激光平地机的设计.黑龙江八一农垦大学学报.2002,3:47~50
[24] 韩豹,1PJY-3.0型综合激光平地机的研制,农业工程学报,2003,19(3):116~119
[25] 石顺祥,过巳吉.光电子技术及其应用.四川:电子科技大学出版社,1994,15,103~104
[26] 俞宽新,江铁良,赵启大.激光原理与激光技术.北京:北京工业大学出版社,2001,18~36
[27] 杨臣华,梅遂生,林钧挺.激光与红外技术手册.北京:国防工业出版社.1990,251
[28] 郑启光.激光先进制造技术.湖北:华中科技大学出版社,2002:1~15
[29] 唐龙陵,贾贵儒,戴允玢.JSP—1型激光扫平仪的发射装置.中国农业大学学报,1997,2(4):97~101
[30] 李义双.以半导体激光器为光源的激光扫平仪发射与接收系统的设计:[硕士学位论文].北京:中国农业大学,2002,22~23
[31] 余金中.半导体光电子技术.北京:化学工业出版社,2003:76
[32] 张乃迁.Infrared Instrumentation.专题讲座.2003
[33] 刘振玉.光电技术.北京:北京理工大学出版社,1990,126~136,194~200
[34] 苏铁力,关振海,孙继红,等.传感器及其接口技术.北京:中国石化出版社,1998,140~143
[35] 北京光电器件厂.光电器件产品手册,1986,3-2~3
[36] 胡士凌,孔得人.光电电子线路.北京:北京理工大学出版社,1996,188~190
[37] 卢文祥,杜润生.工程测试与信息处理.湖北:华中理工大学出版社,1999,123~136
[38] 林国荣.电磁干扰及控制.北京:全华科技图书股份有限公司出版,世界图书出版公司重印,1990,72~73
[39] 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:北京航空航天大学出版社,1999