铝电磁场快速铸轧电磁感应器电气控制系统的设计与研究
摘要
设计制造一套功能完善,运行可靠的电磁场电气控制系统是实现铝带坯电磁场快速铸轧的关键环节。论文就铝电磁场快速铸轧电气控制系统设计中电路结构,系统模型,计算机控制等关键技术进行了详细的研究:
1.分析了电磁铸轧的作用机理及电磁参数对铸轧结晶细化的影响,引出电磁铸轧工艺对磁场电气控制系统的具体要求,确定了系统SPWM交—直—交变频的总体控制方案。
2.采用传统正弦脉宽调制变频技术原理,结合电磁场快速铸轧工艺对系统的具体要求,设计了一种新型的变频装置,以满足电磁场快速铸轧工艺的要求。
3.建立了系统的数学模型,分析研究了系统的稳态性能与动态性能,为系统控制提供了理论指导。
4.根据系统控制的具体要求,确定了工控机与单片机相结合的控制方案,利用汇编语言编制了下位机控制程序,采用Delphi高级程序语言开发了上位机操控软件。
5.在实验室进行了模拟工业生产实验,结果表明,加入电磁场能有效地细化铸轧带坯晶粒、提高铝带坯铸轧产品质量。
本文对铝电磁场快速铸轧电气控制系统的研究,为电磁场快速铸轧的工业化生产打下了良好的基础,并将有利于推进铝连续铸轧理论和我国铝加工工业技术的发展。
Design of a full functional and reliably running electromagnetic system is the key to realize the electromagnetic fast casting-rolling of aluminum strips. In this paper, some key technologies are researched such as the structure of the circuit, its system model, its microcomputer control and so on, so the following work is done.
Firstly, the functional mechanism of electromagnetic casting-rolling and the influence of each electromagnetic parameters on the size of crystalline grain during the casting-rolling is analyzed, and the specific requirements of the electromagnetic control system is put forward; then the whole electromagnetic casting-rolling control scheme is established.
Secondly, the system circuit is designed, during the designing process, the traditional SPWM frequency conversion technology is adopted, and the requirements of the electromagnetic fast casting-rolling in the system are fulfilled.
Thirdly, the mathematic model of the system control is established, and its stability and dynamic property are analyzed, which provides some theoretic guidance to the system controls.
Fourthly, according to the specific requirements of the system control, the two-level computer control scheme that combines industrial computer and single-chip microcomputer is established; and the master computer is programmed with assembly language and the slave computer is programmed with Delphi.
Fifthly, the simulative experiment of industrial production is done in the lab, and the results of the experiment show that the system can fine the casting-rolling crystalline grain, and improve the casting-rolling quality.
The research in this paper not only grounds the industrial production of electromagnetic fast casting-rolling, but also advances the theory in this area and promotes the development of aluminum machining technology.
1.分析了电磁铸轧的作用机理及电磁参数对铸轧结晶细化的影响,引出电磁铸轧工艺对磁场电气控制系统的具体要求,确定了系统SPWM交—直—交变频的总体控制方案。
2.采用传统正弦脉宽调制变频技术原理,结合电磁场快速铸轧工艺对系统的具体要求,设计了一种新型的变频装置,以满足电磁场快速铸轧工艺的要求。
3.建立了系统的数学模型,分析研究了系统的稳态性能与动态性能,为系统控制提供了理论指导。
4.根据系统控制的具体要求,确定了工控机与单片机相结合的控制方案,利用汇编语言编制了下位机控制程序,采用Delphi高级程序语言开发了上位机操控软件。
5.在实验室进行了模拟工业生产实验,结果表明,加入电磁场能有效地细化铸轧带坯晶粒、提高铝带坯铸轧产品质量。
本文对铝电磁场快速铸轧电气控制系统的研究,为电磁场快速铸轧的工业化生产打下了良好的基础,并将有利于推进铝连续铸轧理论和我国铝加工工业技术的发展。
Design of a full functional and reliably running electromagnetic system is the key to realize the electromagnetic fast casting-rolling of aluminum strips. In this paper, some key technologies are researched such as the structure of the circuit, its system model, its microcomputer control and so on, so the following work is done.
Firstly, the functional mechanism of electromagnetic casting-rolling and the influence of each electromagnetic parameters on the size of crystalline grain during the casting-rolling is analyzed, and the specific requirements of the electromagnetic control system is put forward; then the whole electromagnetic casting-rolling control scheme is established.
Secondly, the system circuit is designed, during the designing process, the traditional SPWM frequency conversion technology is adopted, and the requirements of the electromagnetic fast casting-rolling in the system are fulfilled.
Thirdly, the mathematic model of the system control is established, and its stability and dynamic property are analyzed, which provides some theoretic guidance to the system controls.
Fourthly, according to the specific requirements of the system control, the two-level computer control scheme that combines industrial computer and single-chip microcomputer is established; and the master computer is programmed with assembly language and the slave computer is programmed with Delphi.
Fifthly, the simulative experiment of industrial production is done in the lab, and the results of the experiment show that the system can fine the casting-rolling crystalline grain, and improve the casting-rolling quality.
The research in this paper not only grounds the industrial production of electromagnetic fast casting-rolling, but also advances the theory in this area and promotes the development of aluminum machining technology.
引文
[1] http://www.huiguozhen.com/cyfl/lvjiagong.htm
[2] http://www.wirecablepages.com/News/M10010001.htm
[3] 王祝堂,铝带坯双辊式连续铸轧技术的现状与新进展.世界有色金属,1997年第7期:18—23
[4] 洪伟.《有色金属连铸设备》.冶金工业出版社.1987
[5] 马锡良。铝带坯连续铸轧生产.中南工业大学出版社.1992
[6] 赵啸林,毛大恒.铝电磁铸轧中的频率响应.中国有色金属学报,2001.2
[7] Chen, S-R; Shen, H-H; Chang, J-P. Process and quality control of twin-roll cast AA1 xxx aluminum strips. Technology and Training (Taiwan) (Taiwan), 27,(4), 57—75, 2002
[8] 肖立隆,陈建林.电磁场对铸轧铝带坯晶粒的影响.轻合金加工技术,1999.Vol 27.No(8):8—12
[9] Mao Da-heng, YAN Hang-zhi et al, Crystallization in aluminum roll-casting processes under electromagnetic disturbance and texture evolution of roll-casting strips. Int J Meterials and Products Technoloy, 2001(2)
[10] 中南大学,西北铝加工厂.电磁铸轧设备与工艺研究鉴定材料.2001
[11] 朱志华,毛大恒.双辊式连续铸轧技术新进展.轻合金加工技术,1991.Vol 25.No(8):1—4
[12] Mao Da-heng , Wen Yong-ming. Effects of rolling technical factors on microstructures and mechanical properties of aluminum foils. Trans Nonferrous Met Soc China, Vol. 1 3 No. 2
[13] 赵啸林,毛大恒.将电磁场引入连续铸轧的新技术探讨.中国有色金属学报,1995,5(4):145—149
[14] 赵啸林,毛大恒,陈欠根.将电磁场引入连续铸轧的新技术探讨.中国有色金属学报,1995,5(4):145—149
[15] Zhang, B, Lu G, Cui J. Effect of electromagnetic frequency on microstructures of continuous casting aluminum alloys, Cailiao Kexue Yu Jishu (Journal of Materials Science & Technology) (China) (USA), 18, 401-403, Oct. 2002
[16] 冯慈璋,电磁场,北京:高等教育出版社,1984
[17] 赵啸林,毛大恒,李晓谦等.铝电磁铸轧液固区中流体行为.上海有色金
属.2001,(2):49—53
[18] 毛大恒,严宏志.铝电磁铸轧冷却区中电磁场行为探讨.轻合金加工技术.1991,19(4):10—16
[19] Huang Ming-hui, Li Xiao-qian et al. Research and development of transnormal twin roll—casting technology. Trans Nonferrous Met Soc China, Jun 2003
[20] 赵啸林,毛大恒等.铝电磁铸轧中熔体的频率响应.中国有色金属学报,2001 Vol.No.1
[21] 章名涛.电机学(下册).北京:科学出版社,1964.8
[22] 饶立昌,秦建球等.电机学.长沙:中南工业大学出版社,1989
[23] 张燕宾.SPWM变频调速技术.北京:机械工业出版社,1997.12
[24] 李鹤轩,钱利民.电力电子技术和运动控制系统.福州:福建科学技术出版社,1994
[25] 胡崇岳.现代交流调速技术。北京:机械工业出版社,1999
[26] 吴忠智,吴加林.变频器应用手册(第二版).北京:机械工业出版社,2002
[27] 何冠英.电子逆变技术及交流电动机调速系统.北京:机械工业出版社,1999
[28] 陆桢,纪志成,沈艳霞.96单片机生成SPWM的软硬件策略.无锡轻工大学学报,2000.5(3)
[29] 吕振,陈政石,王联.变频调速系统产生SPWM波的一种新方法.辽宁工程技术大学学报(自然科学版),2001.6(3)
[30] 齐宇丰,魏毅立,寇志鹏.一种基于规则采样法的新型PWM逆变器.包头钢铁学院学报,1999.3(1)
[31] 谭政华,胡光锐,任晓林.智能化逆变电源研制及其SPWM波软件生成.上海交通大学学报,2000.2(2)
[32] 谢运祥,薛英杰.用GMS97C2051实现的三相SPWM波形发生器.国外电子元器件,2001.2(2)
[33] 黄俊,王兆安.电力电子变流技术.北京:机械工业出版社,2001.1
[34] 张泰山.计算机控制系统.北京:冶金工业出版社,1986
[35] 金以慧.过程控制.北京:清华大学出版社,1993.4
[36] 陈伯时.自动控制系统.北京:中央广播电视大学出版社,1988.8
[37] Jiang Gui-bin, Bei Yuan-qing, Wang Zhao-an. A movel control strategy for sinu- soidal wave invertor with PI regulators and capacitor
current feedback. ACAD J XJTU, 2003,15(1); 20—24
[38] Wu HY, Lin D et al. A current-mode control technique with intantanneous inductor-current feedback for UPS inwerter[C]. 14th Applied powerElectronics. Conference and Exposition, 1999, 2:951—957
[39] 周德泽.电气传动控制系统的设计.北京:机械工业出版社,1985.12
[40] 王耀德.交直流电力拖动控制系统.北京:机械工业出版社,1998.4
[41] P.C.森著,赵士廉译.晶闸管直流传动.北京:机械工业出版社,1984.4
[42] 吴麒.自动控制原理(上册).北京:清华大学出版社,1999.11
[43] 李友善.自动控制原理(第二版).北京:国防工业出版社,1989
[44] 邹伯敏.自动控制理论.北京:机械工业出版社,1999
[45] User's manual for PCL-812PG
[46] 丁元杰.单片微机原理及应用(第2版).北京:机械工业出版社,2002.7
[47] 胡汉才.单片机原理及其接口技术.北京:清华大学出版社,1996
[48] 成都木马科技.单片机原理及应用.北京:北京希望电子出版社 2000.5
[49] 张洪润.单片机应用技术教程.北京:清华大学出版社,1997
[50] 王立福等.软件工程——技术、方法与环境.北京:北京大学出版社,1997.5
[51] 秦建敏,马福昌.PC机与单片机串行通信的多种实现方法.微计算机信息,2000,16(3):19—23
[52] 姜京润,王遵立等。Delphi中使用MSComm控件实现LEN显示系统的串行通讯。2003(9):92—93
[53] 伍俊良.Delphi 6课程设计案例精选.北京:中国水力水电出版社 2002.1
[54] 刘彦利,魏江江.边学边用Delphi编程.北京:清华大学出版社 2001.4
[55] 范逸之,陈力元.Delphi与RS-232串行通讯控制.北京:清华大学出版社 2002.6
[2] http://www.wirecablepages.com/News/M10010001.htm
[3] 王祝堂,铝带坯双辊式连续铸轧技术的现状与新进展.世界有色金属,1997年第7期:18—23
[4] 洪伟.《有色金属连铸设备》.冶金工业出版社.1987
[5] 马锡良。铝带坯连续铸轧生产.中南工业大学出版社.1992
[6] 赵啸林,毛大恒.铝电磁铸轧中的频率响应.中国有色金属学报,2001.2
[7] Chen, S-R; Shen, H-H; Chang, J-P. Process and quality control of twin-roll cast AA1 xxx aluminum strips. Technology and Training (Taiwan) (Taiwan), 27,(4), 57—75, 2002
[8] 肖立隆,陈建林.电磁场对铸轧铝带坯晶粒的影响.轻合金加工技术,1999.Vol 27.No(8):8—12
[9] Mao Da-heng, YAN Hang-zhi et al, Crystallization in aluminum roll-casting processes under electromagnetic disturbance and texture evolution of roll-casting strips. Int J Meterials and Products Technoloy, 2001(2)
[10] 中南大学,西北铝加工厂.电磁铸轧设备与工艺研究鉴定材料.2001
[11] 朱志华,毛大恒.双辊式连续铸轧技术新进展.轻合金加工技术,1991.Vol 25.No(8):1—4
[12] Mao Da-heng , Wen Yong-ming. Effects of rolling technical factors on microstructures and mechanical properties of aluminum foils. Trans Nonferrous Met Soc China, Vol. 1 3 No. 2
[13] 赵啸林,毛大恒.将电磁场引入连续铸轧的新技术探讨.中国有色金属学报,1995,5(4):145—149
[14] 赵啸林,毛大恒,陈欠根.将电磁场引入连续铸轧的新技术探讨.中国有色金属学报,1995,5(4):145—149
[15] Zhang, B, Lu G, Cui J. Effect of electromagnetic frequency on microstructures of continuous casting aluminum alloys, Cailiao Kexue Yu Jishu (Journal of Materials Science & Technology) (China) (USA), 18, 401-403, Oct. 2002
[16] 冯慈璋,电磁场,北京:高等教育出版社,1984
[17] 赵啸林,毛大恒,李晓谦等.铝电磁铸轧液固区中流体行为.上海有色金
属.2001,(2):49—53
[18] 毛大恒,严宏志.铝电磁铸轧冷却区中电磁场行为探讨.轻合金加工技术.1991,19(4):10—16
[19] Huang Ming-hui, Li Xiao-qian et al. Research and development of transnormal twin roll—casting technology. Trans Nonferrous Met Soc China, Jun 2003
[20] 赵啸林,毛大恒等.铝电磁铸轧中熔体的频率响应.中国有色金属学报,2001 Vol.No.1
[21] 章名涛.电机学(下册).北京:科学出版社,1964.8
[22] 饶立昌,秦建球等.电机学.长沙:中南工业大学出版社,1989
[23] 张燕宾.SPWM变频调速技术.北京:机械工业出版社,1997.12
[24] 李鹤轩,钱利民.电力电子技术和运动控制系统.福州:福建科学技术出版社,1994
[25] 胡崇岳.现代交流调速技术。北京:机械工业出版社,1999
[26] 吴忠智,吴加林.变频器应用手册(第二版).北京:机械工业出版社,2002
[27] 何冠英.电子逆变技术及交流电动机调速系统.北京:机械工业出版社,1999
[28] 陆桢,纪志成,沈艳霞.96单片机生成SPWM的软硬件策略.无锡轻工大学学报,2000.5(3)
[29] 吕振,陈政石,王联.变频调速系统产生SPWM波的一种新方法.辽宁工程技术大学学报(自然科学版),2001.6(3)
[30] 齐宇丰,魏毅立,寇志鹏.一种基于规则采样法的新型PWM逆变器.包头钢铁学院学报,1999.3(1)
[31] 谭政华,胡光锐,任晓林.智能化逆变电源研制及其SPWM波软件生成.上海交通大学学报,2000.2(2)
[32] 谢运祥,薛英杰.用GMS97C2051实现的三相SPWM波形发生器.国外电子元器件,2001.2(2)
[33] 黄俊,王兆安.电力电子变流技术.北京:机械工业出版社,2001.1
[34] 张泰山.计算机控制系统.北京:冶金工业出版社,1986
[35] 金以慧.过程控制.北京:清华大学出版社,1993.4
[36] 陈伯时.自动控制系统.北京:中央广播电视大学出版社,1988.8
[37] Jiang Gui-bin, Bei Yuan-qing, Wang Zhao-an. A movel control strategy for sinu- soidal wave invertor with PI regulators and capacitor
current feedback. ACAD J XJTU, 2003,15(1); 20—24
[38] Wu HY, Lin D et al. A current-mode control technique with intantanneous inductor-current feedback for UPS inwerter[C]. 14th Applied powerElectronics. Conference and Exposition, 1999, 2:951—957
[39] 周德泽.电气传动控制系统的设计.北京:机械工业出版社,1985.12
[40] 王耀德.交直流电力拖动控制系统.北京:机械工业出版社,1998.4
[41] P.C.森著,赵士廉译.晶闸管直流传动.北京:机械工业出版社,1984.4
[42] 吴麒.自动控制原理(上册).北京:清华大学出版社,1999.11
[43] 李友善.自动控制原理(第二版).北京:国防工业出版社,1989
[44] 邹伯敏.自动控制理论.北京:机械工业出版社,1999
[45] User's manual for PCL-812PG
[46] 丁元杰.单片微机原理及应用(第2版).北京:机械工业出版社,2002.7
[47] 胡汉才.单片机原理及其接口技术.北京:清华大学出版社,1996
[48] 成都木马科技.单片机原理及应用.北京:北京希望电子出版社 2000.5
[49] 张洪润.单片机应用技术教程.北京:清华大学出版社,1997
[50] 王立福等.软件工程——技术、方法与环境.北京:北京大学出版社,1997.5
[51] 秦建敏,马福昌.PC机与单片机串行通信的多种实现方法.微计算机信息,2000,16(3):19—23
[52] 姜京润,王遵立等。Delphi中使用MSComm控件实现LEN显示系统的串行通讯。2003(9):92—93
[53] 伍俊良.Delphi 6课程设计案例精选.北京:中国水力水电出版社 2002.1
[54] 刘彦利,魏江江.边学边用Delphi编程.北京:清华大学出版社 2001.4
[55] 范逸之,陈力元.Delphi与RS-232串行通讯控制.北京:清华大学出版社 2002.6