连铸是通过浇铸、冷凝、切割等过程,把液态钢转换成铸坯的工艺,是连接炼钢和轧钢的中间环节。因此,连铸生产的正常与否,不但影响到炼钢生产任务的完成,而且也影响到轧钢的质量和成材率。连铸技术自身的发展还会带动冶金系统其他技术的发展,对企业结构和产品结构的简化和优化都有着重要的促进作用。本文结合八一钢铁厂三号板坯连铸机工程,对电气自动化控制系统进行优化设计。连铸机工艺流程一台连铸机主要由钢包运载装置、中间包、中间包车、结晶器、结晶器振动装置、二次冷却装置、拉坯矫直装置、切割装置和铸坯运出装置等部分组成。浇铸时把装有钢液的钢包,通过钢包运载装 Continuous casting is a process of converting liquid steel into slab by casting, condensing, cutting and the like, and is an intermediate step of connecting steelmaking and rolling. Therefore, the continuous casting production of normal or not, not only affect the completion of the task of making steel, but also affect the quality of rolled steel and yield. The development of continuous casting technology itself will also drive the development of other technologies in the metallurgical system and will play an important role in simplifying and optimizing the structure of an enterprise and its product structure. In this paper, Bayi Iron and Steel Plant No. 3 slab caster project, the electrical automation control system for optimal design. Caster Process A caster is mainly composed of ladle carrier, tundish, tundish, mold, mold vibration device, secondary cooling device, calendaring device, cutting device and slab exit device Part of the composition. Casting ladle with molten steel, ladle carrier