control rack
英 [kənˈtrəʊl ræk]
美 [kənˈtroʊl ræk]
(油泵)操纵齿条;操纵台
双语例句
- The equipment adopts the gear-driving structure and PLC control program, and is driven by the step motor gear rack.
热熔机本设备采用齿轮传动结构,由PLC编程控制程序,采用步进马达走齿条做为设备的主传动。 - It can also provide access control for networked rack control and monitoring systems for addressable remote access control over the Internet.
它也能为联网的支架控制提供访问控制,为因特网上可编址的远程访问控制提供监控系统。 - Fuel injection of automotive diesel engine fuel injection electronic control system is measured by rack displacement.
介绍了齿条位移反馈控制器的设计,包括开环系统性能分析、系统建模和控制参数整定。 - Hot Rolling Single Rack Simulation Based on Control Build Software
基于ControlBuild软件的热轧单机架仿真 - The entire control rack demonstrates vanguard's digital instrument and the traditional indicator gauge board unifies ingeniously.
整个仪表控制台将前卫的数字仪表显示与传统指针仪表盘巧妙结合。 - Application of PID Based on BP Neural Networks to the Control of Rack Displacement for Diesel Engine
神经网络自适应PID控制在柴油机齿条位置控制中的应用 - Dynamic behaviors of fuel injection pump control rack displacement and injection advance were studied experimentally on a 6130Q diesel engine at both steady and transient conditions.
作者对6130Q柴油机喷油泵,在稳定工况和变速工况中,进行了齿杆位移和供油提前角等运动规律方面的测试研究。 - Measures to Control Quenching Distortion of Planetary Gearing Rack
控制游星齿轮架淬火畸变的措施 - Study of the control system in the crane for rack plating
吊镀行车控制系统的研究 - The Numerical Control Lathe which can Process the Long Rack
能加工特长齿条的数控车床 - Control of Rack Position Actuator and Electronic Governing System in Vehicle Diesel Engine
柴油机齿条位置执行器及电控调速系统的研究 - A New Method of Calculating Fuel Injection Pump Control Rack Displacement
计算喷油泵齿杆位移的新方法 - Design and Implementation of Control System of Intelligent Mobile Rack Based on 8-bit MCU
基于8位单片机的智能型密集架系统设计与实现 - Quality control of net rack with welding hollow sphere
焊接空心球网架节点的质量控制 - A quality control method for rack in numerical control cutting
数控切割中齿条质量的控制方法 - Control System for Transfer Rack of Wind Tunnel
风洞移测架控制系统 - NC Shaping Control on Skew Rack Plan for pretty teeth
斜齿条的数控插齿加工控制 - Through research and selecting design of the electro-hydraulic control system, Support-moving speed has reached 8s/ rack, which guarantee the design requirements.
通过对电液控制系统的研究和选型设计保证了移架速度8s/架设计要求。 - This chapter established the EPS system model with MATLAB/ Simulink. In the modeling process, PID feedback control was used. By analyzing the formation of ground-reaction force, the ground reaction force was modled as proportional to the rack displacement.
本章采用MATLAB/Simulink建立了EPS系统模型,建模过程中采用PID反馈控制,通过分析地面反力的形成过程,将地面反力正比于齿条位移。 - A control strategy of engineering implementation is established, which uses object vehicle speed, engine speed, injection pump gear rack position, optimal transmission ratio and slip rate as the control parameters.
制定了以目标车速、发动机转速、油泵齿条位移、最佳传动比和滑转率为控制参数的工程应用控制策略。