在起动主机前,我们必须暖缸。
这个事件会引起动态主机配置协议(Dynamic Host Configuration Protocol,DHCP)作业来对这个网卡进行配置,生成一个network-interface-up 事件。
This event would cause the Dynamic Host Configuration Protocol (DHCP) job to configure it, generating a network-interface-up event.
依据程序清单进行编程,写入PLC主机。调整PLC主板后面的地址开关,再软起动,机床恢复正常。
Programming according to the list, write PLC host. Adjust the address switch on the back of the PLC board, and then soft start, the machine is back to normal.
对主机遥控系统重复起动逻辑回路的实际设计及轮机自动化课程的课堂教学有一定的指导意义。
It is significant and helpful to the practical design for repeated starting logical loop of main engine remote control system and course teaching in Marine engineering automation.
本文对某轮气动主机遥控系统的起动回路进行了分析,并在此基础上具体分析了起动过程中出现的一个故障现象。
In this article the authors analyze the principle of engine remote control system start loop and then analyze the start fault on the basis of the principle.
任一主空气瓶内压力为0。应急空气瓶内压力为0。主机起动空气管内压力为0。
Any a main air bottle pressure is 0 MPa. Emergency air bottle pressure is also 0 MPa as well as starting art pipe of M/G.
从微机主机遥控系统的结构及基本逻辑功能分析了某船微机主机遥控系统不能正常起动的故障原因。
Based on the analysis on the start fault on the basis of the structure and the function of main engine remote control system, it provides some useful methods to deal with the problems.
当主机在90%MCR时,起动造水机海水泵。待真空度达到规定值后,用缸套水加热海水。
Start seawater pump of generator at 90% MCR of M/E. After reaching of the setting of vacuum, the seawater is heated with jacket water.
主机和电动机通过液力偶合器连接,能够缩短电机起动时间,减少起动过程中的平均电流,防止动力过载。
Main machine and motor connected through the fluid coupling, it can shorten the motor start-up time, reduce the average current during start and prevent overload of the power.
主机和电动机通过液力偶合器连接,能够缩短电机起动时间,减少起动过程中的平均电流,防止动力过载。
Main machine and motor connected through the fluid coupling, it can shorten the motor start-up time, reduce the average current during start and prevent overload of the power.
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