使用机电综合控制提高了民机饮用水系统设计难度的同时,也带来了设备数量减少、数据共享更加便利、电缆数量和重量降低等显著优点,因此机电综合控制在民机设计领域已成为了一种趋势。机电综合控制技术在B787与A380项目中得到了非常深入的应用,液压、燃油、起落架、水/废水等机械系统等均采用了机电综合控制。对于同一个系统,使用机电综合控制与使用传统的独立控制器相比,无论是系统方案还是使用体验都有很大的变化。目前在国内民机产业中,机电综合控制还处在起步阶段。本文简要介绍了基于机电综合控制的饮用水系统的架构及优势,并对基于机电综合控制的水系统设计要点进行了总结,对民用飞机其他机械系统使用机电综合控制具有一定的参考作用。 The use of integrated mechanical and electrical control to improve the design of drinking water system for civil aircraft more difficult, but also brought a reduction in the number of devices, data sharing more convenient, the number of cables and weight reduction and other significant advantages, so the comprehensive control of civil and mechanical design has become the field of civil aircraft A trend. The comprehensive mechanical and electrical control technology has been very deeply applied in B787 and A380 projects. The mechanical and electrical systems such as hydraulic, fuel, landing gear, water / waste water all adopt the integrated control of electromechanics. For the same system, the use of integrated control of electromechanical compared with the use of the traditional stand-alone controller, both the system program or the use of experience have undergone great changes. Currently in the domestic civil aircraft industry, mechanical and electrical integrated control is still in its infancy. This article briefly introduces the structure and advantages of drinking water system based on the integrated control of electromechanical equipment. It also summarizes the design points of the water system based on the integrated control of electromechanical equipment. It has certain reference function for the integrated control of other mechanical systems of civil aircraft.