大型回转窑运行状态微机实时监测系统监测方法和系统软件的设计与研究
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摘要
回转窑在水泥、冶金、耐火材料、化上等行业中广泛使用,在生产中,窑内衬、托轮寿命与回转窑轴线运行状态密切相关。通过研究发现,回转窑的轴线是否在—条直线上是保证回转窑长期正常运转的关键。
本文通过对国内外现有回转窑轴线临测技术的分析和对比,提出了一种更先进、更科学的全新的监测方法,即回转中心测量零位移方向键相法。该方法充分考虑了回转窑本身的受力和结构特点,在回转窑筒体下面两个径向应变为零的方向进行键相测量,克服了现有测量系统高处安装定位困难、测量操作复杂、测量误差大的缺点。此方法在国内尚属首创,在实际应用小取得了很好的效果。
系统软件的开发采用了功能强大、面向对象的Delphi语言。根据系统的特点和要求,采用多线程编程技术,实现计算机后台实时采样、波形分析和数据处理,前台动态图形显示、数据库查询和打印报警等功能。同时将Delphi灵活强大的数据库管理能力和Matlab卓越的科学计算能力相结合,开发了基于Delphi数据库和Matlab科学计算的优化调窑指导程序,为凋窑提供了更科学的理论依据。
Rotary kiln is widely used in product ional department of cement, metallurgy, fire-resisting material, chemical engineering and so on. In production, rotary kiln's inner liner, kiln supporter's lifetime have very light relationship with the running stale of its axis. It was found by research that rotary kiln's axis whether or not in a line was the key factor of keeping rotary kiln regular service for long run.
By analyzing and comparing the monitoring technique of rotary kiln's axis at present at home and oversea, this paper puts forward a brand-new monitoring method of more advance and more scientific, that is the keyway-phase measure in direction of null displacement of the center of gyration measuring. In this way, rotary kiln's feature of its bearing pressure and struclurc are thought at all points. In this new method, it's without fixing difficulty, operating complication and great measuring error of former measuring syslem, which measure axes with the way of Ihe keyway-phase measure in direclion of no shell strain under rotary kiln shell. This method is the first used at home at present, and it is valuable in practice.
We developed the monitoring syslem software by adopling Delphi language which has a mighty function, and is object-oriented. Based on the feature and requirement of the system, using multithreading to program, it realized much function of background's of the computer such as real-time sampling, wave analyzing, and data processing; and it also realized much function of foreground's of computer such as dynamic figure displaying, data-base querying, printing, giving an alarm. And at the same time, combined Delphi language, which has agility and strong ability oi'managing database, with Mallab which has superexcellenl ability of scientific compulalion, developing guiding program of optimi/.c adjusting kiln which based on Delphi database and Matlab scientific computation. It provides theoretical reference of more scientific for adjusting kiln.
本文通过对国内外现有回转窑轴线临测技术的分析和对比,提出了一种更先进、更科学的全新的监测方法,即回转中心测量零位移方向键相法。该方法充分考虑了回转窑本身的受力和结构特点,在回转窑筒体下面两个径向应变为零的方向进行键相测量,克服了现有测量系统高处安装定位困难、测量操作复杂、测量误差大的缺点。此方法在国内尚属首创,在实际应用小取得了很好的效果。
系统软件的开发采用了功能强大、面向对象的Delphi语言。根据系统的特点和要求,采用多线程编程技术,实现计算机后台实时采样、波形分析和数据处理,前台动态图形显示、数据库查询和打印报警等功能。同时将Delphi灵活强大的数据库管理能力和Matlab卓越的科学计算能力相结合,开发了基于Delphi数据库和Matlab科学计算的优化调窑指导程序,为凋窑提供了更科学的理论依据。
Rotary kiln is widely used in product ional department of cement, metallurgy, fire-resisting material, chemical engineering and so on. In production, rotary kiln's inner liner, kiln supporter's lifetime have very light relationship with the running stale of its axis. It was found by research that rotary kiln's axis whether or not in a line was the key factor of keeping rotary kiln regular service for long run.
By analyzing and comparing the monitoring technique of rotary kiln's axis at present at home and oversea, this paper puts forward a brand-new monitoring method of more advance and more scientific, that is the keyway-phase measure in direction of null displacement of the center of gyration measuring. In this way, rotary kiln's feature of its bearing pressure and struclurc are thought at all points. In this new method, it's without fixing difficulty, operating complication and great measuring error of former measuring syslem, which measure axes with the way of Ihe keyway-phase measure in direclion of no shell strain under rotary kiln shell. This method is the first used at home at present, and it is valuable in practice.
We developed the monitoring syslem software by adopling Delphi language which has a mighty function, and is object-oriented. Based on the feature and requirement of the system, using multithreading to program, it realized much function of background's of the computer such as real-time sampling, wave analyzing, and data processing; and it also realized much function of foreground's of computer such as dynamic figure displaying, data-base querying, printing, giving an alarm. And at the same time, combined Delphi language, which has agility and strong ability oi'managing database, with Mallab which has superexcellenl ability of scientific compulalion, developing guiding program of optimi/.c adjusting kiln which based on Delphi database and Matlab scientific computation. It provides theoretical reference of more scientific for adjusting kiln.
引文
[1] 回转窑设计、使用与维修[M].北京:冶金工业出版社.1988
[2] 刘少平,王立志.回转窑轴线的影响及动态测量[J].机械工业自动化,1999,21(3):55-56,58.
[3] 徐文举.回转窑简体圆度检测.计量技术[J].1994,(6):10-11.
[4] 韩英.回转窑卡死的起因分析.水泥[J].1996,(2):30-33.
[5] 《国外水泥机械进展》编写组.国外水泥机械进展.中国建筑工业出版社.1982.3.
[6] 左歧.回转窑运行状态计算机在线临测系统[J].新技术新工艺,1998,(3):8-9.
[7] 王志鹏.b值分析法在回转窑托轮中心线检测和调试中的应用[J].水泥.1996.
[8] 张云,李智祥,袁汝钧.回转窑轴线参数检测技术在水泥厂的应用[J].水泥,1997,(6):27-29.
[9] 苏志同,左歧,周延武,曾令凤.回转窑机械运行状态监测系统的设计与应用[J].测控技术,1998,17(6):37-38.
[10] 张云.一种回转窑轴线的测量方法和测量系统.中国发明专利号:90101485.0.
[11] 周智勇.关于φ4.7×75M回转窑冷热态中心线的研究报告[J].中国建材装备,1998,(1):21-24。
[12] 兰海.回转窑校准新技术(一)[J].中国建材装备,1996,(12):16—18.
[13] Gebhart, Walter. Kiln alignment analysis an overview of the direct method. IEEE Cement industry Technical Conference (Paper), 2000: 379-393.
[14] 柴吉文,王明月,师文,刘宏伟.永济电厂微机在线监测及信息处理系统.山西电力技术,1995,(4):5—8.
[15] 宋培凯,陈源兴.回转窑及单微冷却机修理[M].北京:中国建材工业出版社,1994:30—33.
[16] 张文娜,叶湘滨.传感器接口电路的抗干扰技术及其应用[J].计算机自动测量与控制,2001,(3):60—62.
[17] 谭祖根,汪乐宇.电涡流检测技术[M].北京:原子能出版社,1986.
[18] 刘士荣,俞金寿.过程控制中的智能信息处理技术[J].化工自动化及仪表,1999,(1):5—9.
[19] 刘真.一种高精度多用途电涡流测厚传感器的设计.测控技术[J],2001,(3):15—18.
[20] 湖南航空天瑞仪表电器有限责任公司.TR81系列电涡流位移传感器用户使用手册[M].5-15.
[21] 研华公司.PCI一1713用户手册[R].台湾研华公司,2000
[22] 何明一.综合智能信息处理[J].电子科技导报,1998,(2):5—8.
[23] 张泰山.计算机控制系统[M].冶金工业出版社,1985.
[24] 陈润泰,许琨.检测技术与智能仪表[M].中南工业出版社,1995.
[25]童诗白.模拟电子技术基础[M].高等教育出版社.1994.
[26]余德彦,谢清荣,陈耀和.基于Delphi的小型实时数据采集与分析系统[J].计算机自动测量与控制,2001,(3):63-64.
[27]张是勉,杨树智.自动检测[M].科学出版社,1987.
[28]胡超,方刚,王耀.增量式位移传感器信号的计算机检测[J].计量学报,1997,(4):289—293.
[29]沈郁.一个计算机检测系统的设计及实现[J].计算机控制与计算机,1999,(3):19—21.
[30]许宜生,丁振荣.自动检测仪表电子电路设计[M].北京:原子能出版社,1986:379-389.
[31]王立福.软件工程[M].北京:北京大学出版社,1998.
[32]新思维创作室.Delphi4.0实用编程[M].北京:人民邮电出版社,1999.
[33]蒋方帅,潇湘工作室.Delphi5程序员指南.北京:人民邮电出版社,2000.
[34]谢江林,何耀光,吕强.Delphi集成环境下数据库的访问[J].南昌大学学报,2000,24(2):171—173.
[35]蒙以正.Matlab5.x应用与技巧[M].北京:清华大学出版社,2000.3:10-25.
[36]赵敏,江帆.Delphi与Matlab接口软件的设计[J],计算机自动测量与控制.2000,8(4):26-28.
[37]张琦,朱善君,吉吟东.Windows下多线程的数据采集技术[J].测控技术,2001,(11):31-33.
[38]清汉计算机工作室.Delphi5.0开发实例[M].机械工业出版社2000.4
[39]萨师煊,数据库系统概论.高等教育出版社[M].1991.4
[40]倪群,倪朝.NOVELL网络规划与管理[M].北京:人民邮电出版社,1998
[2] 刘少平,王立志.回转窑轴线的影响及动态测量[J].机械工业自动化,1999,21(3):55-56,58.
[3] 徐文举.回转窑简体圆度检测.计量技术[J].1994,(6):10-11.
[4] 韩英.回转窑卡死的起因分析.水泥[J].1996,(2):30-33.
[5] 《国外水泥机械进展》编写组.国外水泥机械进展.中国建筑工业出版社.1982.3.
[6] 左歧.回转窑运行状态计算机在线临测系统[J].新技术新工艺,1998,(3):8-9.
[7] 王志鹏.b值分析法在回转窑托轮中心线检测和调试中的应用[J].水泥.1996.
[8] 张云,李智祥,袁汝钧.回转窑轴线参数检测技术在水泥厂的应用[J].水泥,1997,(6):27-29.
[9] 苏志同,左歧,周延武,曾令凤.回转窑机械运行状态监测系统的设计与应用[J].测控技术,1998,17(6):37-38.
[10] 张云.一种回转窑轴线的测量方法和测量系统.中国发明专利号:90101485.0.
[11] 周智勇.关于φ4.7×75M回转窑冷热态中心线的研究报告[J].中国建材装备,1998,(1):21-24。
[12] 兰海.回转窑校准新技术(一)[J].中国建材装备,1996,(12):16—18.
[13] Gebhart, Walter. Kiln alignment analysis an overview of the direct method. IEEE Cement industry Technical Conference (Paper), 2000: 379-393.
[14] 柴吉文,王明月,师文,刘宏伟.永济电厂微机在线监测及信息处理系统.山西电力技术,1995,(4):5—8.
[15] 宋培凯,陈源兴.回转窑及单微冷却机修理[M].北京:中国建材工业出版社,1994:30—33.
[16] 张文娜,叶湘滨.传感器接口电路的抗干扰技术及其应用[J].计算机自动测量与控制,2001,(3):60—62.
[17] 谭祖根,汪乐宇.电涡流检测技术[M].北京:原子能出版社,1986.
[18] 刘士荣,俞金寿.过程控制中的智能信息处理技术[J].化工自动化及仪表,1999,(1):5—9.
[19] 刘真.一种高精度多用途电涡流测厚传感器的设计.测控技术[J],2001,(3):15—18.
[20] 湖南航空天瑞仪表电器有限责任公司.TR81系列电涡流位移传感器用户使用手册[M].5-15.
[21] 研华公司.PCI一1713用户手册[R].台湾研华公司,2000
[22] 何明一.综合智能信息处理[J].电子科技导报,1998,(2):5—8.
[23] 张泰山.计算机控制系统[M].冶金工业出版社,1985.
[24] 陈润泰,许琨.检测技术与智能仪表[M].中南工业出版社,1995.
[25]童诗白.模拟电子技术基础[M].高等教育出版社.1994.
[26]余德彦,谢清荣,陈耀和.基于Delphi的小型实时数据采集与分析系统[J].计算机自动测量与控制,2001,(3):63-64.
[27]张是勉,杨树智.自动检测[M].科学出版社,1987.
[28]胡超,方刚,王耀.增量式位移传感器信号的计算机检测[J].计量学报,1997,(4):289—293.
[29]沈郁.一个计算机检测系统的设计及实现[J].计算机控制与计算机,1999,(3):19—21.
[30]许宜生,丁振荣.自动检测仪表电子电路设计[M].北京:原子能出版社,1986:379-389.
[31]王立福.软件工程[M].北京:北京大学出版社,1998.
[32]新思维创作室.Delphi4.0实用编程[M].北京:人民邮电出版社,1999.
[33]蒋方帅,潇湘工作室.Delphi5程序员指南.北京:人民邮电出版社,2000.
[34]谢江林,何耀光,吕强.Delphi集成环境下数据库的访问[J].南昌大学学报,2000,24(2):171—173.
[35]蒙以正.Matlab5.x应用与技巧[M].北京:清华大学出版社,2000.3:10-25.
[36]赵敏,江帆.Delphi与Matlab接口软件的设计[J],计算机自动测量与控制.2000,8(4):26-28.
[37]张琦,朱善君,吉吟东.Windows下多线程的数据采集技术[J].测控技术,2001,(11):31-33.
[38]清汉计算机工作室.Delphi5.0开发实例[M].机械工业出版社2000.4
[39]萨师煊,数据库系统概论.高等教育出版社[M].1991.4
[40]倪群,倪朝.NOVELL网络规划与管理[M].北京:人民邮电出版社,1998