1) hydraulic cone valve for water medium
水压锥阀
1.
Numerical simulation of flow field in hydraulic cone valve for water medium;
水压锥阀内流场的数值模拟
2) hydraulic poppet valve
液压锥阀
1.
The hydraulic poppet valve is one of the most important component in the hydraulic transmission and control,whose characteristic of the inner flow filed influences directly the valve s performance.
液压锥阀是流体传动与控制技术中重要的基础元件,锥阀内的流场特性直接影响阀的性能。
2.
In the paper, based on reading and studying a great number of references about fluid dynamic technique and numerical computing methods of flow field, 3-D Numerical simulations and visual analysis of the flow field in hydraulic poppet valve with inside flow work condition were obtained by CFD (Computational Fluid Dynamics) software Fluent.
本文在参阅大量国内外有关计算流体力学和流场数值计算方法相关资料的基础上,用CFD(Computational Fluid Dynamics)软件Fluent对内流工况液压锥阀内部流场进行了三维数值模拟及可视化分析。
3.
The hydraulic poppet valve is one of the most important component in the hydraulic transmission and control, whose characteristics of the inner flow field directly influents the valve s performance, especially the moving valve cone.
液压锥阀是流体传动与控制技术中重要的基础元件,锥阀内的流场特性直接影响阀的性能,特别是锥阀阀芯在运动过程中的流动特性对阀的工作性能有很大的影响。
3) anti-water-coning
压水锥
1.
Application of material balance method to nitrogen anti-water-coning technology;
物质平衡法在氮气压水锥技术中的应用
4) water hydraulic valve
水压阀
5) water hydraulic valves
水压阀
1.
Based on related study results the conclusion was presented that the key technologies about water hydraulic valves were reasonable selecting materials of spool and sleeve which is compatible each other, and the control cross-section geometry designing of valve orifices which can attenuate the side-effects of cavitation.
基于水压阀的研究现状和本文所进行过的相关研究得出结论 :从摩擦学的角度选择合理“阀芯 阀套”相互适宜的材料配对和设计有利于抑制空化产生的合适的阀口几何结构形式是研制水压阀的关键技术难点。
2.
Spool valves and poppet valves are not only the key components but also the main components for energy loss, so the property of water hydraulic valves is significant for water hydraulic control system.
在水压控制系统中,滑阀和锥阀是构成水压控制系统不可缺少的元件,同时水压阀也是产生能耗的一类主要元件,因此水压阀的性能对整个系统的性能起着至关重要的作用。
6) water valve
水压阀[液]
补充资料:溢流阀、顺序阀、减压阀的比较
溢流阀 | 减压阀 | 顺序阀 | ||
控制油路的特点 | 通过调整弹簧的压力控制进油路的压力,保证进口压力恒定,p2=0 | 通过调整弹簧的压力控制出油口的压力,保证出口压力p2稳定 | 直控式-通过调定调压弹簧的压力控制进油路压力;夜控式-由单独油路控制压力 | |
出油口情况 | 出油口与油箱相连 | 出油口与减压回路相连 | 出油口与工作回路相连 | |
泄漏形式 | 内泄式 | 外泄式 | 内泄式 | |
进油口状态及压力值 | 常态 | 常闭(原始状态) | 常开(原始状态) | 常闭(原始状态) |
工作状态 | 进出油口相通,进油口压力为调整压力 | 进油口压力低于出油口压力,出油口压力稳定在调定值上 | 进出油口相通,进油口压力允许继续升高 | |
联接方式 | 并联 | 串联 | 实现顺序动作式串联作卸荷阀用时并联 | |
功用 | 定压、溢流或安全作用限压、稳压、保压 | 减压、稳压 | 不控制系统的压力,只利用系统的压力变化控制油路的通断 | |
进油腔压力p1控制阀芯移动 | 出油腔压力p2控制阀芯移动 | 进油腔压力p1控制阀芯移动 | ||
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条