液压调节系统是由可编程序控制器(PLC)来控制的。
The Programmable Logic Controller(PLC) control the hydraulic adjustment system.
在液压调节系统的设计中采用两种方案:第一种是普通液压系统。
Two options are adopted in the device of hydraulic adjustment system: the first is the ordinary hydraulic system.
荆门热电厂采用数字电液调节系统(DEH)对5号机组原有液压调节系统进行改造,实现了汽轮机纯电调控制。
The pure electronic hydraulic control of No. 5 200 MW generating unit in Jingmen Cogeneration Power Plant is realized by retrofitting the original hydraulic governing system using DEH.
发数字式流量阀采用数字控制方式,调节系统流量以达到液压系统调整目的。
The digital flow rate valve regulates digitally system flow rate to implement speed regulation in hydraulic system.
通过设计双辊铸轧液压A GC系统来调节辊缝间隙,提高其控制精度、响应速度和稳定性。
Twin-roll casting hydraulic AGC system is designed to adjust the gap between double rollers and improve it's control accuracy, response accuracy and stability.
拖拉机液压悬挂机组阻力调节系统,由于机构环节较多,内部信号传递复杂,应用数学分析方法研究十分繁琐。
Quite overelaborate is the study of resistance-adjusting system in the tractor hydraulic suspension system with mathematical analysis due to its complicated mechanism and internal signal transmission.
本文介绍了应用在装载机上的二次调节液压传动系统的方案及工作原理。
The paper describes the scheme and principle of operation of hydraulic motor controlled drive system of a loader.
以实测信号为依据,通过幅值域分析,探讨了拖拉机液压系统力调节弹簧刚度的概率设计方法。
According to amplitude analysis of the measurement signal, the probability DE sign method of finding the spring stiffness of the tractor's hydraulic draft control system is stud ied.
应用这种泵可大大提高液压系统控制效率、控制精度,简化了比例调节液压系统的设计,并使液压系统具有节能的功效。
The kind of pump improves greatly the control efficient and control accuracy and simply the design of hydraulic system with proportional regulation and save the energy of hydraulic systems.
工作机构的变速和换向靠调节泵或马达的变量机构实现,避免了开式系统换向过程中所出现的液压冲击和能量损失。
The work of agencies to rely on speed and for adjusting the pump or motor variables agencies to achieve, to avoid the open loop system for the process are the hydraulic impact and energy loss.
而ABS系统中的关键执行部件——液压力调节器(HCU)的性能又显著地影响ABS的制动性能。
As the key component of ABS system, the hydraulic control unit (also known as HCU) influences the performance of ABS remarkably.
简要介绍了首条国产热保护器调节、检测生产线液压系统,分析了调试过程中液压系统故障现象及排除方法。
The first homemade heat protector modulation and testing production line were introduced briefly. The fault of hydraulic system during the test process were analyzed and worked out.
液压随动系统是一种放大机构,也是一种自动调节系统。
Hydraulic automatic system is a kind of enlarge mechanism, it is also an auto-regulator system.
针对液压泵恒功率调节系统,建立了动态数学模型并对恒功率调节与负载传感系统的控制协调机理进行分析。
Additionally, the coordinate principle of variable displacement pump with constant power control and load-sensing control system is demonstrated, and establish the constant power control model.
设计了一个盾构掘进机的刀盘驱动液压系统,该系统是开式液压系统,应用电液比例控制技术实现了泵排量实时调节。
A hydraulic drive system of cutter head in shield tunneling machine was designed, which is open type hydraulic system and controlled in open-ring.
液正系统工作,必须对油液压力、流量、方向进行控制与调节,以满足工作部件在力、速度和方向上的要求。
Liquid system is the need for oil pressure, flow, direction control and regulation to meet the needs of working parts in the power, speed and direction requirements.
为了使水下液压系统适应不同深度下的作业要求,在系统中设置压力补偿器,使系统的回油压力与海水压力相等,并随海水深度变化自动调节,从根本上避免了海水压力的影响。
To make it adapt to full ocean depth, a pressure compensator is adopted to balance the pressure inside and outside of the tank, which makes system pressure be established on seawater pressure.
通过详细叙述、解析DEH的主逻辑和辅助逻辑以及DEH液压系统,从而可较全面了解该系统的设计思想和特点,及其各部分对整个DEH系统调节特性、可靠性的影响。
We can understand the thoughts of the DEH design and the relation of every parts to DEH reliability by learning the main logic and liquid system of DEH.
设计了一个盾构掘进机的刀盘驱动液压系统,该系统是开式液压系统,应用电液比例控制技术实现了泵排量实时调节。
An improved cutter head drive hydraulic system of the shield tunneling machine was proposed, which achieved energy saving by optimizing the drive power.
根据铝条宽度轻松调节两个胶嘴的距离,可达25mm(选配)。-液压可启动双路系统确保稳定性能。
According to the aluminum strip width easily adjust the distance of two rubber mouth, up to 25 mm (optional).
其次为便于分析,将液压控制系统划分为离合器压力控制子系统与系统压力调节子系统。
For convenience, the whole system is divided into two subsystems: clutch pressure control subsystem and system pressure regulation subsystem.
其次为便于分析,将液压控制系统划分为离合器压力控制子系统与系统压力调节子系统。
For convenience, the whole system is divided into two subsystems: clutch pressure control subsystem and system pressure regulation subsystem.
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