新型抗折试验机控制系统的研究
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摘要
本论文以宁夏机械研究院提供的新型抗折试验机机械部分为研究对象,利用现代控制方法、单片机技术及交流电机伺服控制技术等完成了抗折试验机控制系统的设计,以及试验控制系统的核心—试验控制器的研制与调试工作。该新型抗折试验机主要用于精度要求较高的材料试验,测定各种材料在等载荷加载状态下的最大抗折强度。
论文介绍了新型抗折试验机控制系统的结构。该控制系统实现了材料抗折试验的过程控制及压力伺服控制,并具有如下特点:精确压力测量与控制、实时性强、具有先进的SPI串行总线形式、双机协同工作模式等。
试验控制器的设计采用了模块化设计思想。硬件部分使用320×240点阵液晶屏、4M FLASH存储器等,解决了试验数据曲线显示及屏幕切换的问题;采用24位高精度A/D转换器等器件实现了高精度的压力测量。软件部分使用变速积分PID控制算法,解决了系统在初始状态时易进入深度积分饱和的问题;编写了液晶屏数据曲线及汉字显示模块、键盘控制算法等模块。为了提高试验控制器的集成度,在主、从微处理器间采用了本文设计的单总线串行通信协议。鉴于控制系统中的干扰因素较多,在测量通道和控制通道中采取了多项抗干扰措施。
本论文设计的新型抗折试验机控制系统经现场调试,达到了高精度材料试验的要求,整个试验控制系统运行稳定、故障率低。
The paper regards the mechanical segment of the new type of Testing Antifracture Machine provided by Ningxia Machinery Research Institute as research object. Based on the modern control theory, SCM technology, and servo motor control technology, the paper realizes the design of the control system, and accomplishes the development and debugging of the core of testing control system—testing controller. New type of Testing Antifracture Machine is a kind of material Testing Machine with high precision, which is mostly used to test the largest intensity of all kinds of material in the state of equal load.
The paper introduces the structure of control system of the new type of Testing Antifracture Machine. The control system realizes the control of the testing process and pressure servo. It’s provided with several characters as followed: precise pressure measure and control, good real time, adoption of advanced SPI series bus and double controller cooperation working model.
Testing controller adopts the idea of modularization design. With 320×240 graphic dot-matrix LCD, 4MB FLASH memory, Testing controller can display data curve and shift the screen; Using 24 bits A/D converter, It realize the high precise pressure measure. The software includes the gearshift integral PID arithmetic, the displaying module of data curve and Chinese characters in the LCD, and control arithmetic of keyboard. For increasing the degree of system integration, the system uses one bus series communication protocol devised by the author himself between master and slaver controller. There being many disturbance elements in the control system, some anti-disturbance measures are applied in the measure tunnels and control tunnels.
The paper provides the results of the debugging and analysis of the control system.
论文介绍了新型抗折试验机控制系统的结构。该控制系统实现了材料抗折试验的过程控制及压力伺服控制,并具有如下特点:精确压力测量与控制、实时性强、具有先进的SPI串行总线形式、双机协同工作模式等。
试验控制器的设计采用了模块化设计思想。硬件部分使用320×240点阵液晶屏、4M FLASH存储器等,解决了试验数据曲线显示及屏幕切换的问题;采用24位高精度A/D转换器等器件实现了高精度的压力测量。软件部分使用变速积分PID控制算法,解决了系统在初始状态时易进入深度积分饱和的问题;编写了液晶屏数据曲线及汉字显示模块、键盘控制算法等模块。为了提高试验控制器的集成度,在主、从微处理器间采用了本文设计的单总线串行通信协议。鉴于控制系统中的干扰因素较多,在测量通道和控制通道中采取了多项抗干扰措施。
本论文设计的新型抗折试验机控制系统经现场调试,达到了高精度材料试验的要求,整个试验控制系统运行稳定、故障率低。
The paper regards the mechanical segment of the new type of Testing Antifracture Machine provided by Ningxia Machinery Research Institute as research object. Based on the modern control theory, SCM technology, and servo motor control technology, the paper realizes the design of the control system, and accomplishes the development and debugging of the core of testing control system—testing controller. New type of Testing Antifracture Machine is a kind of material Testing Machine with high precision, which is mostly used to test the largest intensity of all kinds of material in the state of equal load.
The paper introduces the structure of control system of the new type of Testing Antifracture Machine. The control system realizes the control of the testing process and pressure servo. It’s provided with several characters as followed: precise pressure measure and control, good real time, adoption of advanced SPI series bus and double controller cooperation working model.
Testing controller adopts the idea of modularization design. With 320×240 graphic dot-matrix LCD, 4MB FLASH memory, Testing controller can display data curve and shift the screen; Using 24 bits A/D converter, It realize the high precise pressure measure. The software includes the gearshift integral PID arithmetic, the displaying module of data curve and Chinese characters in the LCD, and control arithmetic of keyboard. For increasing the degree of system integration, the system uses one bus series communication protocol devised by the author himself between master and slaver controller. There being many disturbance elements in the control system, some anti-disturbance measures are applied in the measure tunnels and control tunnels.
The paper provides the results of the debugging and analysis of the control system.
引文
[1]曲明.抗折强度试验的加荷速率.耐火材料.1995,29(1):158~161
[2]林义忠.液压拉力试验机计算机实时控制系统的设计和开发.液压与气动.2002,6:20~22
[3]章宏甲等.液压与气压传动.北京:机械工业出版社.2002:131~208
[4]胡封轩.液压式和电子式万能材料试验机测量性能的比较.安阳师范学院学报.2002,2:39~40
[5]骆涵秀.试验机的电液控制系统.北京:机械工业出版社.1991:1~10
[6]曲明.抗折强度试验的加荷速率.耐火材料.1995,29(3):158~161
[7]孙志永等.数控与电控技术.北京:机械工业出版社.2002:50~54
[8]郑小年.基于交流伺服的试验机测控系统.机械与电子.2001,4:60~61
[9]项祖丰.计算机控制电液式水泥抗折抗压试验机设计研究. 液压与气动.2003,5:22~24
[10]宋培义.单片微机原理、接口技术及应用. 北京:中国广播电视出版社,1999:30~33
[11]王卫海.89C2051单片机.国外电子元器件.1995,5:30~32
[12]http://www.cttrade.org/shi5.htm 北京北诚新控自动化技术有限公司
[13]孙克梅.交流伺服电机的单片机控制及其应用.沈阳航空工业学院学报.2003,20(2):50~52
[14]AC Servo Motor Driver MINAS A-Series Operating Manual. Industrial and Appliance Motor Division Motor Co.
[15]http://www.gzhopelink.com/sx.htm 广州市鸿联科技开发有限公司
[16]http://www.cirrus.com/cn/pubs/proDatasheet/cs5531-5.pdf
[17]http://www.cirrus.com/cn/pubs/proDatasheet/an150-2.pdf
[18]CMS-PG968DBCW-N Product Specifications. Truly Semiconductors LTD.
[19]黄慧春等.液晶显示控制器SED1335的特性与应用.现代显示.2003,1:48~52
[20]http://www.catsemi.com/documents/documents/1162.pdf
[21]http://www.amd.com/us_en/assets/content_type/white_papers_and_tech_docs/17113.pdf
[22]高明.24位模/数转换器CS5532及其应用.仪表技术与传感器.2002,7:40~42
[23]http://focus.ti.com/lif/ds/sysmlink/dac7512.pdf
[24]张全胜.SED1335液晶控制器与单片机的接口应用.今日电子.2003,5:19~20
[25]张晶.一种点阵液晶显示控制器的单片机接口. 电子产品世界.2002,22:79~79
[26]公茂法.单片机人机接口实例集.北京:北京航空航天大学出版社.1998:63~84
[27]http://www.semiconductors.philips.com/acrobat/applicationnotes/AN_PCF8563-83-93-re
al_time_clock.pdf
[28]刘晓华等.微机控制材料试验机的干扰源分析及抗干扰措施.材料工程.2002,4:35~37
[29]梁志荣.单片机应用系统的抗干扰技术.现代电子技术.2003,24:32~34
[30]沙占有等.单片机外围电路设计.北京:电子工业出版社.2003,1:204~238
[31]韩秀越.高温抗折试验的盈利增加速率问题.耐火材料.1995,29(1):45~47
[32]周亚平.关于使用中电动抗折试验机加荷速率一个实用鉴定方法的探讨.技术监督实用技术.1996,5:26
[33]李仁定.电机的微机控制.北京:机械工业出版社.1999:31~35
[34]P.Albertos,J.Quevedo. PID Control. Control Engineering Practice,2001,9(11):1159~1161
[35]R. Dwayne. Fundamentals of Feedback Control: PID, Fuzzy Logic and Neural Networks. Journal of Clinical Anesthesia, 1997,9(6):33~35
[36]焦晓红等.过程控制系统的变积分系数Fuzzy-PI控制器设计.系统工程与电子技术.2001,23(11):56~61
[37]刘金琨.先进PID控制及其MATLAB仿真.北京:电子工业出版社.2003:22~25
[38]M.J.Grimble,A.W.Ordys.Predictive Control for Industrial Applications. Annual Reviews in Control,2001,25:13~24
[39]C.Lee.Fuzzy Logic in Control Systems: Fuzzy Control Logic Controller, Part I.IEEE Trans. on Systems,Man,Cybernetics,1990,20(2):404~418
[40]刘洪泳等.SED1335图形液晶控制器在经济型数控系统的应用.机械与电子.2003,4:37~39
[41]孙友伟等.用80C31和SED1335控制三星320×240LCD模块.今日电子.2002,6:15~17
[42]王义军等.用单片机实现点阵式液晶显示器的汉化.东北电力学院学报.1994,14(2):95~99
[43]林霄舸等.点阵液晶显示器的汉字显示原理及应用.电测与仪表.1994,10: 24~28
[2]林义忠.液压拉力试验机计算机实时控制系统的设计和开发.液压与气动.2002,6:20~22
[3]章宏甲等.液压与气压传动.北京:机械工业出版社.2002:131~208
[4]胡封轩.液压式和电子式万能材料试验机测量性能的比较.安阳师范学院学报.2002,2:39~40
[5]骆涵秀.试验机的电液控制系统.北京:机械工业出版社.1991:1~10
[6]曲明.抗折强度试验的加荷速率.耐火材料.1995,29(3):158~161
[7]孙志永等.数控与电控技术.北京:机械工业出版社.2002:50~54
[8]郑小年.基于交流伺服的试验机测控系统.机械与电子.2001,4:60~61
[9]项祖丰.计算机控制电液式水泥抗折抗压试验机设计研究. 液压与气动.2003,5:22~24
[10]宋培义.单片微机原理、接口技术及应用. 北京:中国广播电视出版社,1999:30~33
[11]王卫海.89C2051单片机.国外电子元器件.1995,5:30~32
[12]http://www.cttrade.org/shi5.htm 北京北诚新控自动化技术有限公司
[13]孙克梅.交流伺服电机的单片机控制及其应用.沈阳航空工业学院学报.2003,20(2):50~52
[14]AC Servo Motor Driver MINAS A-Series Operating Manual. Industrial and Appliance Motor Division Motor Co.
[15]http://www.gzhopelink.com/sx.htm 广州市鸿联科技开发有限公司
[16]http://www.cirrus.com/cn/pubs/proDatasheet/cs5531-5.pdf
[17]http://www.cirrus.com/cn/pubs/proDatasheet/an150-2.pdf
[18]CMS-PG968DBCW-N Product Specifications. Truly Semiconductors LTD.
[19]黄慧春等.液晶显示控制器SED1335的特性与应用.现代显示.2003,1:48~52
[20]http://www.catsemi.com/documents/documents/1162.pdf
[21]http://www.amd.com/us_en/assets/content_type/white_papers_and_tech_docs/17113.pdf
[22]高明.24位模/数转换器CS5532及其应用.仪表技术与传感器.2002,7:40~42
[23]http://focus.ti.com/lif/ds/sysmlink/dac7512.pdf
[24]张全胜.SED1335液晶控制器与单片机的接口应用.今日电子.2003,5:19~20
[25]张晶.一种点阵液晶显示控制器的单片机接口. 电子产品世界.2002,22:79~79
[26]公茂法.单片机人机接口实例集.北京:北京航空航天大学出版社.1998:63~84
[27]http://www.semiconductors.philips.com/acrobat/applicationnotes/AN_PCF8563-83-93-re
al_time_clock.pdf
[28]刘晓华等.微机控制材料试验机的干扰源分析及抗干扰措施.材料工程.2002,4:35~37
[29]梁志荣.单片机应用系统的抗干扰技术.现代电子技术.2003,24:32~34
[30]沙占有等.单片机外围电路设计.北京:电子工业出版社.2003,1:204~238
[31]韩秀越.高温抗折试验的盈利增加速率问题.耐火材料.1995,29(1):45~47
[32]周亚平.关于使用中电动抗折试验机加荷速率一个实用鉴定方法的探讨.技术监督实用技术.1996,5:26
[33]李仁定.电机的微机控制.北京:机械工业出版社.1999:31~35
[34]P.Albertos,J.Quevedo. PID Control. Control Engineering Practice,2001,9(11):1159~1161
[35]R. Dwayne. Fundamentals of Feedback Control: PID, Fuzzy Logic and Neural Networks. Journal of Clinical Anesthesia, 1997,9(6):33~35
[36]焦晓红等.过程控制系统的变积分系数Fuzzy-PI控制器设计.系统工程与电子技术.2001,23(11):56~61
[37]刘金琨.先进PID控制及其MATLAB仿真.北京:电子工业出版社.2003:22~25
[38]M.J.Grimble,A.W.Ordys.Predictive Control for Industrial Applications. Annual Reviews in Control,2001,25:13~24
[39]C.Lee.Fuzzy Logic in Control Systems: Fuzzy Control Logic Controller, Part I.IEEE Trans. on Systems,Man,Cybernetics,1990,20(2):404~418
[40]刘洪泳等.SED1335图形液晶控制器在经济型数控系统的应用.机械与电子.2003,4:37~39
[41]孙友伟等.用80C31和SED1335控制三星320×240LCD模块.今日电子.2002,6:15~17
[42]王义军等.用单片机实现点阵式液晶显示器的汉化.东北电力学院学报.1994,14(2):95~99
[43]林霄舸等.点阵液晶显示器的汉字显示原理及应用.电测与仪表.1994,10: 24~28
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