【文章內(nèi)容簡(jiǎn)介】 D101頻率指令10Hz主速頻率值D102頻率指令250Hz頻率指令2的具體值D103頻率指令36Hz頻率指令3的具體值E101變頻器輸入電壓設(shè)定380VE104變頻器最高輸出頻率50HzE204電機(jī)極數(shù)電機(jī)銘牌上的極數(shù)H101多功能輸入1，端子3的功能選擇3多段速指令1H102多功能輸入2，端子4的功能選擇4多段速指令2H305多功能模擬量輸入端子16功能選擇1F不使用模擬量輸入L601過(guò)力矩檢出動(dòng)作選擇14檢出時(shí)切斷輸出L602過(guò)力矩檢出級(jí)別1100%有PG矢量控制時(shí)設(shè)定L603過(guò)力矩檢出時(shí)間11sL805電源輸出欠相保護(hù)選擇1有效L807變頻器輸出欠相保護(hù)選擇1有效3控制系統(tǒng)軟件設(shè)計(jì)在硬件系統(tǒng)設(shè)計(jì)完成后，以實(shí)現(xiàn)優(yōu)化控制，而且還需要使用專門(mén)的西門(mén)子編程軟件Simens STEP 7進(jìn)行雙電梯聯(lián)動(dòng)控制程序設(shè)計(jì)。由于電梯控制系統(tǒng)是隨機(jī)控制系統(tǒng)，因此，純粹的使用順序控制或邏輯控制是不能達(dá)到目的的，而應(yīng)使用隨機(jī)邏輯控制的設(shè)計(jì)方式。與此同時(shí)，因?yàn)樘菪螆D之間的相互依存關(guān)系非常強(qiáng)，編程非常復(fù)雜，因此在雙電梯協(xié)調(diào)控制系統(tǒng)的軟件部分，主要采用模塊化編程的思想進(jìn)行設(shè)計(jì)。據(jù)電梯運(yùn)動(dòng)規(guī)律，有/沒(méi)有驅(qū)動(dòng)程序，檢修，優(yōu)先服務(wù)，防火等4個(gè)工作方式。建立控制程序，主要的規(guī)則如下：兩個(gè)電梯都遵守的選擇規(guī)則，盡快將電信號(hào)首先進(jìn)行記錄，當(dāng)電梯運(yùn)動(dòng)信號(hào)的要求逐一回應(yīng)后，傳輸?shù)闹甘就瓿桑娞輰⒃试S自動(dòng)被迫扭轉(zhuǎn)。除了這一點(diǎn)，電梯并聯(lián)運(yùn)行也相應(yīng)遵守如下原則：在正常條件下，當(dāng)使用電梯后，電梯使用繁忙的電梯可先自動(dòng)上升到第三等待命令，第一電梯了基站等待命令再上層樓。當(dāng)大廳入口站，有請(qǐng)求信號(hào)，然后“繁忙的電梯”迅速接送入口站一樓的乘客。然后應(yīng)遵循的有效利用的原則，執(zhí)行相反的動(dòng)作。最初作為繁忙的階梯電梯現(xiàn)在采取基站使用的電梯，但原先在基站使用的電梯即成為繁忙的電梯。無(wú)論是第一電梯還是第二臺(tái)電梯暫停在基站后，等待命令。當(dāng)繁忙的階梯上行，如果出現(xiàn)上述地點(diǎn)的任何指示，請(qǐng)求信號(hào)也許出現(xiàn)在其下方入口大廳，根據(jù)信號(hào)，然后完成了繁忙的電梯的，但基站電梯不放棄答復(fù)運(yùn)動(dòng)。但是，如果出現(xiàn)向上門(mén)廳致電信號(hào)繁忙的階梯下面，然后開(kāi)始了運(yùn)動(dòng)基站電梯回答信號(hào)接收客戶。當(dāng)繁忙的階梯下的線，如果它的下方出現(xiàn)任何方向的入口大廳，要求信號(hào)，然后完成了繁忙的電梯在一周，但基站電梯沒(méi)有給予響應(yīng)。如果出現(xiàn)在繁忙的電梯發(fā)生上述任何向上或向下入口大廳，要求信號(hào)，然后開(kāi)始了運(yùn)行到基站電梯回答信號(hào)接送客人。當(dāng)電梯停由于故障運(yùn)行，另一個(gè)電梯自動(dòng)承擔(dān)完全單獨(dú)運(yùn)行，如下單電梯的運(yùn)動(dòng)規(guī)律。無(wú)論是考慮的第一電梯或第二電梯，由于呼叫信號(hào)導(dǎo)致電梯方向檢測(cè)，電梯都必須運(yùn)行。當(dāng)電梯停止使用，這無(wú)論目前在那層都自動(dòng)下降到第一層。4結(jié)論實(shí)踐證明，PLC雙電梯的控制系統(tǒng)協(xié)調(diào)可以利用兩個(gè)電梯連鎖控制，具有較好的相容性，并可實(shí)現(xiàn)穩(wěn)定、可靠的性能。這個(gè)系統(tǒng)是很容易實(shí)現(xiàn)了許多集中控制，具有廣闊的應(yīng)用前景。 參考文獻(xiàn)：[1]：中國(guó)建筑工業(yè)出版社，1997.[ 2 ] modern elevator control technology Zhang Hanjie Harbin industrial university publishing house, 1,997[2] ，1997.[ 3 ] electrical and PLC control technology Huang Jing Beijing: Mechanical industry publishing house[3] 黃京. ：機(jī)械工業(yè)出版社 ，2000. [ 4 ] programmable foreword controller and its application Li Jianxin Beijing: Mechanical industry publishing house[4] ：機(jī)械工業(yè)出版社，2003.[ 5 ] Chief Editor Liao Changchu S7300/400 PLC application technology Beijing: Mechanical industry publishing house, 2,005[5]：機(jī)械工業(yè)出版社，2005.Simens S7300 PLC in double elevator coordinated control system applicationAbstract: This article take two five buildings elevators as the design object, uses the siemens S7 300 series programmable controller (PLC), the union settles the ANchuan VS616G5 general frequency changer, developed a set of exchanges frequency conversion velocity modulation PLC double elevator coordinated control system, thus only needed PLC then to be able to carry on the control to two elevators movement operations.Key word: PLC ；Double elevator ； Hardware software1 Introduction In recent years, along with the architecture industry vigorous development, the highrise construction and the intellectualized construction unceasingly emerged, the people proposed to the elevator the more and more high request, the single elevator often could not satisfy in the building the transportation need, this time needed reasonably to install many elevators to alleviate the elevator movement the pressure, therefore the elevator group control system (elevator group control system) arose at the historic moment. At the same time, along with automated technology fast development, also enormously promoted the elevator control technology progress, the massive advanced controls technology applies to the elevator group control system, enables the elevator group control system the control characteristic to have the very big improvement. In view of present this present situation, the present paper take two five elevators as the design object, has conducted the more thorough analysis research to the elevator group control question, proposed some own understanding and the view, designed a set of PLC double elevator coordinated control system.2 Control systems hardware design This system is mainly the exchange frequency conversion velocity modulation system which by PLC, the frequency changer, the control box, the monitor, the electric motor is posed (Variable Voltage Variable Frequency, is called VVVF). Controls two elevators movements through PLC the way, may omit between two programmable controllers the mutual correspondences, thus causes the control system the reliability to be higher, the structure appears pact. This system hardware diagram like chart 1 shows. May see from chart 1, this system mainly is posed by two parts, elevator controls the logical gate realizes by PLC. Studies the elevator through the analysis the actual movement situation and the control rule, thus designs sends out a set of double elevators linkages control procedure, enables PLC to be able to control two elevatorsthe movement operations. The elevator velocity modulation partial selects the high performance the vector control frequency changer, matches (encoder) surveys the mouse cage type electric motor by the pulse generator the rotational speed, thus constitutes the electrical machinery the closed loop vector control system, the realization mouse cage type electric motor exchange frequency conversion velocity modulation (Variable Voltage Variable Frequency, is called VVVF) to move.Chart 1 PLC double elevator coordinated control system hardware diagramPLC first receives shouts the ladder signal, the even level signal from the elevator, then acts according to these input signals the condition, through its interior a series of plex control procedure, has the foreword to each kind of signal logical relations to carry on processing, finally controls the electrical machinery, the frequency changer and each kind of monitor to the direct current gate at the right moment sends out the switch quantity control signal, to two elevators implementations group control. In elevator control system, because the elevator control belongs to the random control, between between between each kind of input signal, output signal as well as input signal and output signal connection very strong, the logical relations processes is extremely plex, this gives PLC the programming to bring the very great difficulty. In a sense, PLC programming level height on decision overall system