共查询到20条相似文献,搜索用时 93 毫秒
1.
液压系统的优化设计有利于提高其传递效率.文章以优化设计方法为基础对液压系统管路进行了优化设计,优化对象为液压管路的重量.以管径、壁厚、管长为变量,考虑了布局空间、管道流量和管道压力等约束条件,对液压系统管路重量进行了优化.优化结果可用于指导液压系统的管路安装. 相似文献
2.
船舶液压系统油液的污染测定及控制 总被引:1,自引:0,他引:1
液压系统的油污染是导致液压系统故障的主要原因.文章分析了船舶液压系统油液污染的来源及危害,并举实例进行了解析,同时提出了液压系统在设计、安装、使用与维修时应采取的控制措施. 相似文献
3.
4.
液压油在船舶液压系统中具有重要的作用,液压油污染会给液压系统带来严重后果.文章介绍了液压系统污染的种类和危害,提出了几种污染的控制方法. 相似文献
5.
6.
7.
为了提升对船舶液压系统故障的修理能力,分析了板式平衡阀和螺纹插装式平衡阀的结构特点,阐述了平衡阀在典型船用设备液压系统中的具体功能,开展了船用液压系统平衡阀及其系统故障的研究,结合船舶液压系统平衡回路故障实际案例,分析各类型故障的原因并提出了解决故障的具体方法,从而提高船舶工程技术人员维修、调试相关液压系统的能力. 相似文献
8.
文章分析了船用液压系统中污染的来源与危害,介绍船用液压系统的污染度标准.对设计、安装调试与使用维护三个环节提出了控制污染的措施. 相似文献
9.
10.
11.
12.
13.
14.
液压系统污染是液压故障的一个主要原因。分析了液压系统污染的危害,详细阐述了液压系统制作安装的具体做法,由此确保液压系统安装后能安全可靠地运行。 相似文献
15.
介绍了深度模拟器总体结构及工作原理,针对深度模拟器控制系统中PID算法及其相关参数进行了仿真研究。以深度模拟器液压系统为模型,利用AMESim仿真软件工具,对整个液压系统进行了仿真分析并对系统各元器件的参数进行了优化,为深度模拟器的进一步研究提供了理论基础。 相似文献
16.
17.
18.
基于流体-结构耦合振动的液压脉动滤波器试验研究 总被引:1,自引:0,他引:1
分析了船上泵源液压系统压力脉动产生的原因及频率成分。根据气体消声器的原理,结合液压系统高压、大流量等工作特点,设计和制造了一种基于流体-结构(fluid-structure)耦合振动的结构共振式液压脉动滤波器,并推导出其波动衰减的传递矩阵模型。通过调整液压泵转速来改变压力脉动频率,在液压系统压力脉动试验平台上进行了三组对比试验。试验表明,当滤波器的结构振动体固有共振频率与系统频率接近时,系统的脉动能量得到有效衰减,系统的压力波动幅度和脉动率大幅降低。试验结果验证了结构共振式液压脉动滤波器的使用效能和存在的不足,它为液压系统振动控制提供了新的技术手段。 相似文献
19.
20.
《船舶与海洋工程学报》2021,(2)
Hydraulic systems provide a clean and stable supply of hydraulic fluid for subsea valves and actuators installed on the subsea bed in subsea production systems.Subsea control systems are used for contemporary subsea fields instead of installing the control system on topside.Although all-electric subsea systems are state-of-the-art with benefits such as health,safety,and environment improvement,as well as efficiency and lower cost,hydraulic systems are still used for the development of many subsea fields.One of the main questions in the selection of a subsea hydraulic field is whether to choose an open or closed loop hydraulic system.The main characteristic of an open loop hydraulic system is that the hydraulic fluid is discharged into the marine environment during the actuation of the subsea valves.Conversely,the hydraulic fluid is returned to the topside facilities through an umbilical system in a closed loop system.Given that closed loop systems are more eco-friendly,the main question in this research is to examine the effect of the actuator connection of the closed loop system on actuator design.Two cases of actuated valves connected to a closed loop system are analyzed in this paper.The first is a 71/16-in.subsea slab gate valve in the pressure class of 517 bar with a linear spring return fail-safe close(FSC) actuator located on a manifold branch.The data indicates that the piston rod and cylinder diameter of the FSC linear actuator should be increased by some millimeters due to the accumulation of hydraulic oil at the bottom of the actuator.The hydraulic oil in the closed loop system helps in closing the actuator and spring force,so the spring constant and torque should be reduced as a result.The second case involves a 16-in.subsea ball valve in the pressure class of 517 bar with a double-acting fail-as-is rack and pinion actuator.The conclusion in this case is to avoid making any change in the design of double-acting actuator in connection to the closed loop system. 相似文献