钢管二维漏磁检测设备监控系统的研究与实现
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摘要
本文对整个“钢管二维漏磁检测设备监控系统”做了探讨。设计了一个钢管检测监控系统,从而使钢管的检测实现了自动化、智能化。
在本文中首先讨论了二维漏磁检测法的基本原理,这是“钢管二维漏磁检测设备监控系统”设计的基础。还讨论了漏磁检测中漏磁场的一些分布特性。
接着本文介绍了钢管二维漏磁检测设备的整体结构和检测性能。从性能上来讲整个检测系统已经达到了自动化和智能化的检测效果。
因为是计算机自动检测,所以需要将外部所有的信号通过HY6070A/D转换卡接入计算机进行控制和处理。在本文中对于接口信号的处理作了详细的讨论。
本文讨论的重点是钢管检测监控系统的设计。所开发的监控系统是基于Windows操作平台的。所以整个系统设计的难点在于:缺陷判定算法的设计;HY6070虚拟驱动程序的编写;数据库的设计和操作。在本文中对于这三部分作了详细的讨论。
另外本文还对在二维漏磁检测系统中数字信号的处理作了一定的研究。讨论了几种简单的软件滤波方法。
A monitor system of two dimensions magnetic flux leakage testing equipment for the steel tube has been studied in this paper. And we design a monitor system of steel tube testing,in which the steel tube testing is automatic and intellectualized.
In this paper,first of all,we discuss the basic theory of the two dimensions magnetic flux leakage testing,which is the basic of the design of "the monitor system of two dimensions magnetic flux leakage testing equipment for the steel tube " .We also discuss some distributing characteristic about the magnetic field in the magnetic flux leakage testing.
Then we introduce the whole configuration and capability of the two dimensions magnetic flux leakage testing equipment. From the capability view,the whole testing system can obtain automatic and intellectualized testing effect.
The testing is implemented by the computer so exterior signal,which are be controlled and processed,must be input the computer by HY6070 A/D conversion card. We discuss the signal processing about the interface signal in detail in this paper.
The emphasis of this paper is the design of the monitor system of the steel tube testing. The monitor system bases on the Windows. The difficulties of the whole system design are the design of the pit judgment arithmetic,the writing of the HY6070 VXD,the design and operation about the database. The three difficulties have been studied in detail in this paper.
In addition,we study the digital signal processing in the testing system of two dimensions magnetic flux leakage. We also discuss some simple filter arithmetic.
在本文中首先讨论了二维漏磁检测法的基本原理,这是“钢管二维漏磁检测设备监控系统”设计的基础。还讨论了漏磁检测中漏磁场的一些分布特性。
接着本文介绍了钢管二维漏磁检测设备的整体结构和检测性能。从性能上来讲整个检测系统已经达到了自动化和智能化的检测效果。
因为是计算机自动检测,所以需要将外部所有的信号通过HY6070A/D转换卡接入计算机进行控制和处理。在本文中对于接口信号的处理作了详细的讨论。
本文讨论的重点是钢管检测监控系统的设计。所开发的监控系统是基于Windows操作平台的。所以整个系统设计的难点在于:缺陷判定算法的设计;HY6070虚拟驱动程序的编写;数据库的设计和操作。在本文中对于这三部分作了详细的讨论。
另外本文还对在二维漏磁检测系统中数字信号的处理作了一定的研究。讨论了几种简单的软件滤波方法。
A monitor system of two dimensions magnetic flux leakage testing equipment for the steel tube has been studied in this paper. And we design a monitor system of steel tube testing,in which the steel tube testing is automatic and intellectualized.
In this paper,first of all,we discuss the basic theory of the two dimensions magnetic flux leakage testing,which is the basic of the design of "the monitor system of two dimensions magnetic flux leakage testing equipment for the steel tube " .We also discuss some distributing characteristic about the magnetic field in the magnetic flux leakage testing.
Then we introduce the whole configuration and capability of the two dimensions magnetic flux leakage testing equipment. From the capability view,the whole testing system can obtain automatic and intellectualized testing effect.
The testing is implemented by the computer so exterior signal,which are be controlled and processed,must be input the computer by HY6070 A/D conversion card. We discuss the signal processing about the interface signal in detail in this paper.
The emphasis of this paper is the design of the monitor system of the steel tube testing. The monitor system bases on the Windows. The difficulties of the whole system design are the design of the pit judgment arithmetic,the writing of the HY6070 VXD,the design and operation about the database. The three difficulties have been studied in detail in this paper.
In addition,we study the digital signal processing in the testing system of two dimensions magnetic flux leakage. We also discuss some simple filter arithmetic.
引文
(1) 胡远彪,桂暖银,漏磁无损检测在科学钻探钻柱探伤检测中的应用前景,探矿工程,2000,5,(64-66);
(2) 丁忠平,康宜华,无损检测中的漏磁法原理与实践,电测与仪表,1995,6,(15-18);
(3) 魏兢,高松巍,陈晓春等,基于漏磁原理的储油罐罐底探伤仪,沈阳工业大学学报,1999,6,21(3),(275-277);
(4) 王玉忠,陈建兰,管道漏磁检测器,管道技术与设备,1997,5:(28-30);
(5) 陈朝达,陈青,磁涡流及漏磁探伤装置检测抽油杆缺陷的试验,石油机械,1996,24(5):(26-30);
(6) 何辅云,赖志荣,漏磁NDT原理的研究,合肥工业大学学报(自然科学版),1994,9,17(3):(28-32);
(7) 何辅云,石油管道的高速检测与缺陷识别,无损检测,2000,22(5):206-208;
(8) 何辅云,钢管二维漏磁检测系统的再研究,无损检测,2000,22(2):68-70;
(9) J. C. Drury I. Eng. M. Inst. NDT, Silver Wing (UK) Limited A. Marino, Procontrol s.r. l. (Italy),A Comparison of the MagneticFlux Leakage and Ultrasonic Methods in the detection and measurement of corrosion pitting in ferrous palte and pipe , ROMA 2000 15 TH WCNDT;
(10) Antonio Petraglia, UFRJ, Rio de Janeiro, RJ, Brasil, Detection and Identification of Defects in Oil Pipelines by Magnetic Flux Leakage, NDTISS '99-International Symposium on NDT Contribution to the Infrastructure Safety Systems, Nov 1999 in Tores Brazil.
(11) Li luming, Wang Laifu, Huang Songling, Liu Shifeng, Inspecting the Inner Corrosion Defects by Magnetic Flux Leakage Testing Method, 10 TH APCNDT BRISBANE;
(12) Z.S. Lim,D.R. Son,Inspection of Defects on the Roll Surface Using AC Magnetic Flux Leakage Method, ROMA 2000 15 TH WCNDT;
(13) 陶旺斌,磁粉探伤漏磁特性分析,南昌航空工业学院学报,1994,2:(20-27);
(14) 汪友生,潘孟贤,何辅云,缺陷参数与漏磁信号相互关系的实验研究,合肥工业大学学报(自然科学版),1998,10,21(5):(28-31);
(15) 左宪章,永磁体漏磁检测原理及其在无损检测中的应用,电测与仪表,1994,11:(16-19);
(16) 吴先梅,钱梦碌,有限元法在管道漏磁检测中的应用,无损检测,2000,4,22(4):(147-150);
(17) 张复兴,GB/T12606钢管漏磁探伤方法述评,冶金标准化与质量,2000,37(2):(35-37);
(18) 杨理践,葛岷,高松巍,漏磁法管道在线检测计算机系统,沈阳工业大学学报,1996,6,21(3):(227-229);
(19) 王玉忠,陈建兰,漏磁检测技术在我国管道中的应用,化学清洗,1998,10,14(5):(24-27);
(20) 何辅云,漏磁探伤中多路缺陷的滑环传送方法,合肥工业大学学报(自然科学版),1998,6,21(3):(128-131);
(21) 张复兴,新国标GB/T12606《钢管漏磁探伤方法》的制定说明,无损检测,2000,2,22(2):(78-79);
(22) Richard C. Leinecker,Tom Archer,Visual C++ 6宝典,电子工业出版社,2000,7;
(23) Stephen Wynkoop,SQL Server 6.5开发使用手册,机械工业出版社,1998,5(125-195);
(24) David J.Kruglinski,Scot Wingo,Georage Shepherd,Programming Visual C++ 6.0技术内幕,北京希望电子出版社,1999,5;
(25) 彭礼孝,虚拟设备驱动程序开发起步与进阶,人民邮电出版社,2000,12,(57-145);
(26) 杨强,李堂秋,Win9X虚拟设备驱动程序编程指南,清华大学出版社,1999,(7-30);
(27) 李劲,用VxD实现Windows98/95下的硬件中断,电讯技术,2000,5,(5—9);
(28) 孙丽君,田莉,在Windows环境下实现串行口的实时检测,北京工业大学学报,1999,3,25(1),(99-103);
(29) 李湘江,Win9x下的vxd技术与应用,计算机系统应用,2001,8:(27-29);
(30) 陈海亮,贺小峰等,Windows 95/98中的定时方法及应用,现代电子技术,1999,10,(32-33);
(31) 伍卫国,钱德沛,刘勇,Windows环境下的VxD开发技术,计算机应用研究,1999,8,(66-68);
(32) 何海波,成建波,张浩,数据采集软件开发中问题的分析,微计算机信息,1999,15(2),(27-29);
(33) 王威,方蕾,陈景亮,用VC++6.0开发数据库应用程序,计算机应用,2001,5,21(5),(88-90);
(34) 马松梅,刘静霞,朱秋萍,在VC5.0环境下开发数据库接口应用,微型机与应用,1999,1,(46-49);
(35) 李如玮,凌泽君等,计算机测控系统的抗干扰设计,计算机应用研究,1999,12,(101-103);
(36) 殷光伟,微机监控系统的抗干扰措施,微计算机信息,1998,14(5),(76-78);
(37) 黄松岭,李路明等,管道漏磁检测中的信号处理,无损检测2000,2,22(2):(55-57);
(38) 解源,康宜华,漏磁探伤及其信号处理,工业仪表与自动化装置1999,4:(52-53);
(39) 解源,康宜华,漏磁探伤信号的提取,武汉冶金科技大学学报,1997,12,20(4):(441-444);
(40) 汪友生,徐小平,沈兰荪,铁磁材料的漏磁检测,电子测量与仪器学报,2000,9,14(3):(45-48);
(41) 杨理践,陈晓春,魏兢,油气管道漏磁检测的信号处理技术,沈阳工业大学学报,1999,12,2l(6):(516-518);
(42) 徐章遂,马爱文,马春庭,基于模糊模式识别的裂纹漏磁信号定量分析,中国机械工程,1998,9(6):(41-43);
(2) 丁忠平,康宜华,无损检测中的漏磁法原理与实践,电测与仪表,1995,6,(15-18);
(3) 魏兢,高松巍,陈晓春等,基于漏磁原理的储油罐罐底探伤仪,沈阳工业大学学报,1999,6,21(3),(275-277);
(4) 王玉忠,陈建兰,管道漏磁检测器,管道技术与设备,1997,5:(28-30);
(5) 陈朝达,陈青,磁涡流及漏磁探伤装置检测抽油杆缺陷的试验,石油机械,1996,24(5):(26-30);
(6) 何辅云,赖志荣,漏磁NDT原理的研究,合肥工业大学学报(自然科学版),1994,9,17(3):(28-32);
(7) 何辅云,石油管道的高速检测与缺陷识别,无损检测,2000,22(5):206-208;
(8) 何辅云,钢管二维漏磁检测系统的再研究,无损检测,2000,22(2):68-70;
(9) J. C. Drury I. Eng. M. Inst. NDT, Silver Wing (UK) Limited A. Marino, Procontrol s.r. l. (Italy),A Comparison of the MagneticFlux Leakage and Ultrasonic Methods in the detection and measurement of corrosion pitting in ferrous palte and pipe , ROMA 2000 15 TH WCNDT;
(10) Antonio Petraglia, UFRJ, Rio de Janeiro, RJ, Brasil, Detection and Identification of Defects in Oil Pipelines by Magnetic Flux Leakage, NDTISS '99-International Symposium on NDT Contribution to the Infrastructure Safety Systems, Nov 1999 in Tores Brazil.
(11) Li luming, Wang Laifu, Huang Songling, Liu Shifeng, Inspecting the Inner Corrosion Defects by Magnetic Flux Leakage Testing Method, 10 TH APCNDT BRISBANE;
(12) Z.S. Lim,D.R. Son,Inspection of Defects on the Roll Surface Using AC Magnetic Flux Leakage Method, ROMA 2000 15 TH WCNDT;
(13) 陶旺斌,磁粉探伤漏磁特性分析,南昌航空工业学院学报,1994,2:(20-27);
(14) 汪友生,潘孟贤,何辅云,缺陷参数与漏磁信号相互关系的实验研究,合肥工业大学学报(自然科学版),1998,10,21(5):(28-31);
(15) 左宪章,永磁体漏磁检测原理及其在无损检测中的应用,电测与仪表,1994,11:(16-19);
(16) 吴先梅,钱梦碌,有限元法在管道漏磁检测中的应用,无损检测,2000,4,22(4):(147-150);
(17) 张复兴,GB/T12606钢管漏磁探伤方法述评,冶金标准化与质量,2000,37(2):(35-37);
(18) 杨理践,葛岷,高松巍,漏磁法管道在线检测计算机系统,沈阳工业大学学报,1996,6,21(3):(227-229);
(19) 王玉忠,陈建兰,漏磁检测技术在我国管道中的应用,化学清洗,1998,10,14(5):(24-27);
(20) 何辅云,漏磁探伤中多路缺陷的滑环传送方法,合肥工业大学学报(自然科学版),1998,6,21(3):(128-131);
(21) 张复兴,新国标GB/T12606《钢管漏磁探伤方法》的制定说明,无损检测,2000,2,22(2):(78-79);
(22) Richard C. Leinecker,Tom Archer,Visual C++ 6宝典,电子工业出版社,2000,7;
(23) Stephen Wynkoop,SQL Server 6.5开发使用手册,机械工业出版社,1998,5(125-195);
(24) David J.Kruglinski,Scot Wingo,Georage Shepherd,Programming Visual C++ 6.0技术内幕,北京希望电子出版社,1999,5;
(25) 彭礼孝,虚拟设备驱动程序开发起步与进阶,人民邮电出版社,2000,12,(57-145);
(26) 杨强,李堂秋,Win9X虚拟设备驱动程序编程指南,清华大学出版社,1999,(7-30);
(27) 李劲,用VxD实现Windows98/95下的硬件中断,电讯技术,2000,5,(5—9);
(28) 孙丽君,田莉,在Windows环境下实现串行口的实时检测,北京工业大学学报,1999,3,25(1),(99-103);
(29) 李湘江,Win9x下的vxd技术与应用,计算机系统应用,2001,8:(27-29);
(30) 陈海亮,贺小峰等,Windows 95/98中的定时方法及应用,现代电子技术,1999,10,(32-33);
(31) 伍卫国,钱德沛,刘勇,Windows环境下的VxD开发技术,计算机应用研究,1999,8,(66-68);
(32) 何海波,成建波,张浩,数据采集软件开发中问题的分析,微计算机信息,1999,15(2),(27-29);
(33) 王威,方蕾,陈景亮,用VC++6.0开发数据库应用程序,计算机应用,2001,5,21(5),(88-90);
(34) 马松梅,刘静霞,朱秋萍,在VC5.0环境下开发数据库接口应用,微型机与应用,1999,1,(46-49);
(35) 李如玮,凌泽君等,计算机测控系统的抗干扰设计,计算机应用研究,1999,12,(101-103);
(36) 殷光伟,微机监控系统的抗干扰措施,微计算机信息,1998,14(5),(76-78);
(37) 黄松岭,李路明等,管道漏磁检测中的信号处理,无损检测2000,2,22(2):(55-57);
(38) 解源,康宜华,漏磁探伤及其信号处理,工业仪表与自动化装置1999,4:(52-53);
(39) 解源,康宜华,漏磁探伤信号的提取,武汉冶金科技大学学报,1997,12,20(4):(441-444);
(40) 汪友生,徐小平,沈兰荪,铁磁材料的漏磁检测,电子测量与仪器学报,2000,9,14(3):(45-48);
(41) 杨理践,陈晓春,魏兢,油气管道漏磁检测的信号处理技术,沈阳工业大学学报,1999,12,2l(6):(516-518);
(42) 徐章遂,马爱文,马春庭,基于模糊模式识别的裂纹漏磁信号定量分析,中国机械工程,1998,9(6):(41-43);