从现阶段水稻机电器系统由单独的电器元件,靠线束连接来实现基本的控制要求的电器系统特点现状介绍,到中期发展主要集中在开发各自独立的子系统,通过各子系统间的模拟信号传递,实现控制的自动化和精确化;以及中后期以开发各子系统的互通互联的整机控制系统为主,以发动机实现电控为标志,局部系统实现数字信号(局部CAN),最后介绍了到后期的电器系统,主要体现在各种平台的信息共享、整机状态的远程监控和诊断、实现人机交互及智能化等各方面,使水稻联合收割机电器服务于“大农业”的格局是最终成为发展的趋势。 From the current stage of the electrical and mechanical system of rice from a separate electrical components, connected by wiring harness to achieve the basic control requirements of the current characteristics of electrical systems introduced to the mid-term development focused on the development of their own independent subsystems, through the subsystems of analog signals Transmission and realization of control automation and precision; as well as in the late to develop the interconnection of the various subsystems of the whole machine control system, the engine to achieve electronic control as a symbol, the local system to achieve digital signals (partial CAN), and finally introduced To the latter part of the electrical system, mainly reflected in a variety of platforms for information sharing, the whole state of the remote monitoring and diagnosis, to achieve human-computer interaction and intelligence and other aspects, so that rice combine harvester electrical services in “agriculture” The pattern is eventually becoming a trend of development.