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XVME-674庫存PLC自動(dòng)化備品模塊

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XVME-674庫存PLC自動(dòng)化備品模塊

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XVME-674庫存PLC自動(dòng)化備品模塊
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XVME-674庫存PLC自動(dòng)化備品模塊 XVME-674庫存PLC自動(dòng)化備品模塊 XVME-674庫存PLC自動(dòng)化備品模塊
XVME-674庫存PLC自動(dòng)化備品模塊
XVME-674庫存PLC自動(dòng)化備品模塊
XVME-674庫存PLC自動(dòng)化備品模塊
機(jī)器的延時(shí)時(shí)間。采用比較指令,當(dāng)機(jī)器段速與理論值相等時(shí),延時(shí)相應(yīng)的時(shí)間,使壓印輥筒與膠皮輥筒準(zhǔn)確合壓。經(jīng)過多次試驗(yàn),離壓,合壓都沒有問題。 3.3 人機(jī)界面設(shè)計(jì) 在人機(jī)界面中,設(shè)計(jì)了7幅畫面,包括整體圖形,故障顯示,機(jī)器速度和計(jì)數(shù)顯示,水輥速度顯示,調(diào)版監(jiān)控等。故障顯示使用指示器,給出位元件即可實(shí)現(xiàn)閃動(dòng)效果,讓操作者很方便的知道故障部位,整體感很好。在水輥速度顯示中,設(shè)計(jì)了一個(gè)柱狀圖,可以顯示水量增加大小,只需按下柱狀圖,就可增加水量,同時(shí)也可方便監(jiān)控。如圖所示: 4. 結(jié)束語 印刷機(jī)的一套電氣設(shè)計(jì)屬于系統(tǒng)設(shè)計(jì),包括硬件,軟件設(shè)計(jì),涵蓋范圍較廣。這里,我只簡單介紹了其中比較重要的幾部分,其它細(xì)節(jié)還有很多,這里不再一一列舉。使用三菱的一套控制系統(tǒng),感覺可靠,方便,在機(jī)器批量生產(chǎn)過程中,沒有發(fā)現(xiàn)大問題。其PLC功能齊全,可靠耐用,指令簡潔,與其他產(chǎn)品相比,感覺三菱整體軟件系統(tǒng)界面都比較友好,給用戶編程,維修都帶來極大方便。其觸摸屏與PLC有很好的通用性,可通過觸摸屏]監(jiān)視并修改程序,這是其它產(chǎn)品所不能匹及的??傊?,三菱的工控元件給設(shè)計(jì)人員和用戶都帶來了很多方便。各種生膠膠料的彈性既與膠料的聚合物組分的化學(xué)特性有關(guān),也與膠料形成的相結(jié)構(gòu)有關(guān)。后者可能是由于生膠的不相容性和由于硫化時(shí)膠料組分的不同反應(yīng)性能而形成的交聯(lián)鍵網(wǎng)絡(luò)的不均勻引起的。這一狀況對由高不飽和彈性體(如丁苯橡膠t3Cl~、丁腈橡膠BI{l\、天然橡膠HK及聚異戊二烯橡膠CKII一3等)組成的復(fù)合材料中使用了低不飽和度的三元乙丙橡膠(CK3rIT)時(shí)特別重要,因?yàn)樵撓鹉z的性能在諸多方面與其組成中的共聚單體的比例有關(guān),它將決定CNgIirr鏈的微觀結(jié)構(gòu),而對此種微觀結(jié)構(gòu)對其硫化膠及膠料性能的影響至今還研究得不多。 本文研究三元乙丙橡膠的化學(xué)組成及物理結(jié)構(gòu)對其性能的影響,以及對與CKII一3組成的并用膠料及共硫化膠性能的影響。研究對象為DSM 公司生產(chǎn)的各種牌號(hào)的三元乙丙橡膠(見表1)和工業(yè)用異戊橡膠cl\II一3。三元乙丙橡膠、CKII-3及它們的并用橡膠的彈性用熱機(jī)械分析法在yIII1儀上脈沖負(fù)荷條件下進(jìn)行評估,它能分出應(yīng)變的塑性分量和彈性分量。用光學(xué)顯微鏡、¨ II-6進(jìn)行CNII-3與CN3HT并用膠料及共硫化膠料的形態(tài)研究。并用Mosanto一100流變儀評估CK3HT、CNII一3及它們的并用膠的網(wǎng)絡(luò)結(jié)構(gòu)形成的動(dòng)力學(xué)參數(shù)。用硫黃次磺酰胺體系(促進(jìn)劑CZ)在150。C、壓力19.6 MPa下進(jìn)行硫化。在空氣中進(jìn)行硫化膠及與三元乙丙橡膠的共硫化膠的老化(120。C×48 h)。CKII-3一CK3HT混合料是在開煉機(jī)上將母膠混煉3 min制得。


熱機(jī)械分析方法研究表明:在分子量恒定時(shí)(按門尼粘度)隨乙烯鏈節(jié)含量增加,未塑煉的CNOHT的彈性組成的變形減小,且其大值往較低溫度方向移動(dòng)(見表2),在生膠778及4778中,乙烯基含量很高(大于60 ),生成穩(wěn)定的超分子結(jié)構(gòu)。后者是由于乙烯鏈節(jié)微嵌段分布形成的。超分子結(jié)構(gòu)導(dǎo)致松弛過程減緩而使這兩種三元乙丙膠的性能低于乙烯鏈節(jié)中等含量的三元乙丙膠712。隨著門尼粘度的增高(試樣378和778)漲落網(wǎng)絡(luò)節(jié)點(diǎn)數(shù)增加,這是由于彈性部分形變的大值移向較高溫區(qū),且其大值增大所致。至于主鏈形態(tài)影響的問題,支化的OKOYIT(712,778)的大彈性變形值比線型CN3YIT(4778)更大。 機(jī)械塑煉不改變CKgHT的玻璃化溫度,但使彈性成分變形降低,其大值向溫度低的方向偏移,這可能與在開煉機(jī)上加工后生膠的分子量減小有關(guān)(見表2;圖1曲線2~4)。而塑煉后彈性與乙烯鏈節(jié)含量的關(guān)系與門尼粘度及支化度等的關(guān)系不變。表3為CKgl1T的種類對其交聯(lián)流變動(dòng)力學(xué)參數(shù)的影響。與CKgHT 712相比flexible manufacturing unit (FMC) is formed. A flexible manufacturing system (FMS) is formed under the condition that multiple NC machine tools are equipped with automatic loading and unloading, material storage and transmission, and computer integration with production planning and scheduling. A flexible production line is formed when there is no planning and scheduling system and one-way flow of workpieces. (3) Information system: it mainly includes production line control, tool replacement, tooling and accessories replacement, workpiece scheduling, automatic programming, automatic monitoring, automatic compensation, automatic detection of workpiece quality, automatic replacement and automatic alarm after tool wear or damage, etc. The latest requirements are CAD / CAM function, remote production line management and maintenance, fault diagnosis and automatic repair function, etc. Flow production line is also a model of the combination of manufacturing technology and management technology. In the 20th century, most of the major management technologies that affected human manufacturing came from automobile production lines. For example, Ford production mode, Toyota production mode, just in time (JIT), lean production, etc. I won't elaborate here. Just as the engine is the heart of the automobile, the engine manufacturing technology is the concentrated embodiment of the automobile manufacturing technology. (1) Since the advent of automobile, engine manufacturing technology has experienced two revolutions. The first revolution took place in the early 20th century. Ford, the founder of Ford Motor Company, invented a mass production line. The main mode is the automatic production line TL (transfer line), also known as the traditional automatic line, which is composed of special purpose machine / transfer machine. Its biggest advantage is high production efficiency - dozens or even hundreds of knives are processed at the same time, and its efficiency is unmatched by any other type of production line; Low price - especially in China, the price of combined special machine is even lower than that of general CNC machine tools produced in batch. The biggest disadvantage is the poor flexibility. Once the product is modified and changed, it can hardly be used. TL has been used in China's automobile industry from its birth to the early 1990s. At present, TL is not used in the production of China's car industry. However, TL is still the best choice among foreign