中国钨业
中國鎢業
중국오업
CHINA TUNGSTEN INDUSTRY
2014年
3期
45-50
,共6页
SLon磁选机%自动控制系统%PID控制%PLC%触摸屏
SLon磁選機%自動控製繫統%PID控製%PLC%觸摸屏
SLon자선궤%자동공제계통%PID공제%PLC%촉모병
SLon Magnetic Separator%automatic control system%PID Control%PLC%touch screen
SLon系列磁选机是运用开发细粒弱磁性矿物选矿新技术而研制的高梯度先进磁选设备。采用基于西门子公司的S7-200 PLC和Smart 700 IE触摸屏控制结构设计的SLon磁选机控制系统,对主要控制参数-励磁电流采用PID控制算法,实现对磁选机系统的最优控制。该控制系统通过温度变送器、电流变送器、电压变送器将可控硅元件的温度、励磁电流和电压转换成0-5 V的电压或4-20 mA的电流送入PLC的控制器模块,通过设计PID控制算法,控制可控硅数字触发装置,精确地调整可控硅触发时的开通角,使可控硅元件工作在允许的温度条件下,输出稳定的励磁电流。
SLon繫列磁選機是運用開髮細粒弱磁性礦物選礦新技術而研製的高梯度先進磁選設備。採用基于西門子公司的S7-200 PLC和Smart 700 IE觸摸屏控製結構設計的SLon磁選機控製繫統,對主要控製參數-勵磁電流採用PID控製算法,實現對磁選機繫統的最優控製。該控製繫統通過溫度變送器、電流變送器、電壓變送器將可控硅元件的溫度、勵磁電流和電壓轉換成0-5 V的電壓或4-20 mA的電流送入PLC的控製器模塊,通過設計PID控製算法,控製可控硅數字觸髮裝置,精確地調整可控硅觸髮時的開通角,使可控硅元件工作在允許的溫度條件下,輸齣穩定的勵磁電流。
SLon계렬자선궤시운용개발세립약자성광물선광신기술이연제적고제도선진자선설비。채용기우서문자공사적S7-200 PLC화Smart 700 IE촉모병공제결구설계적SLon자선궤공제계통,대주요공제삼수-려자전류채용PID공제산법,실현대자선궤계통적최우공제。해공제계통통과온도변송기、전류변송기、전압변송기장가공규원건적온도、려자전류화전압전환성0-5 V적전압혹4-20 mA적전류송입PLC적공제기모괴,통과설계PID공제산법,공제가공규수자촉발장치,정학지조정가공규촉발시적개통각,사가공규원건공작재윤허적온도조건하,수출은정적려자전류。
Magnetic Separator has been widely used in metallurgical industries, such as dressing, impurities removal. Manual control was traditionally applied to operate magnetic separator. It needs human intervening on the spot, which cannot reflect the recycling level and other issues adequately. We design a new type of magnetic separator in order to adapt to the development of magnetic separation technology. The controlling system of Slon Magnetic Separator uses Siemens S7-200PLC and TP170B touch-screen. Excitation current as the main control parameter adopts PID-control to achieve optimal control of magnetic separator system. This system converts the temperature of SCR components, excitation voltage and current to voltage (0-5 V) or current (4-20 mA) and sends them to PLC by the temperature transmitter, current transmitter and voltage transmitter. These signals output through the digital module and Analog Output module, which are used to Control the high-grade or low-grade of fan and angle of the trigger flip-flop. In this way, SCR can work in the allowed temperature conditions and excitation current stability in the settings. All these make the system working smoothly.