RESEARCH ON PIPELINE PRESSURE FLUCTUATION LAW OF HYDRAULIC VIBRATION SYSTEM CONTROLLED BY WAVE EXCITER

机译：波激激液控制液压振动系统管道压力波动定律研究

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Hydraulic vibration system is composed of hydraulic exciting system and spring damping system of vibrating body. Hydraulic exciting system consists of oil source, wave exciter and oil cylinder. Mathematical model of the system was built using power bond graph. Pipeline pressure of the hydraulic shock vibration system was simulated and experimentally tested through computer simulation and doing experiment getting the law of the every pipe’s pressure fluctuation of the system, proving that the pipeline pressure fluctuation frequency is independently controlled by wave exciter excitation frequency and every pipeline’s pressure wave was produced by system flow and water hammer coupling. The study of the system fluctuation rules provide theoretical basis for the study of associated liberation system.

机译：液压振动系统由液压励磁系统和振动体的弹簧阻尼系统组成。液压励磁系统由油源，波激励器和油缸组成。系统的数学模型使用电源键盘图构建。通过计算机模拟和实验测试液压冲击振动系统的管道压力，并通过计算机模拟进行实验，使得每个管道的压力波动的规律，证明管道压力波动频率由波激励频率和每个管道独立控制。压力波是通过系统流量和水锤耦合产生的。系统波动规则的研究为相关解放系统研究提供了理论依据。

著录项

来源
《Vibration engineering and technology of machinery》|2009年||共6页
会议地点
作者
Kou ziming; Lian hongzhen; Wang wen;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类振动、噪声及其控制;
关键词
wave exciter; pressure fluctuation; bond graph; modeling;

机译：波激励器;压力波动;键盘;建模;

相似文献

外文文献
中文文献
专利

1. Analysis on the Pressure Fluctuation Law of a Hydraulic Exciting System with a Wave-exciter [J] . WEI Xiu-ye, KOU Zi-ming, LU Zi-rong 国际设备工程与管理（英文版） . 2011,第004期

机译：带有激波器的液压激励系统压力波动规律分析
2. Analytical solution to orifice design in a rotary valve controlled electro-hydraulic vibration exciter for high-frequency sinusoidal vibration waveform [J] . Wang He, Wang Chengwen, Quan Long, Proceedings of the Institution of Mechanical Engineers, Part E. Journal of Process Mechanical Engineering . 2019,第5期

机译：用于高频正弦振动波形的旋转阀控制电液振动激励器中孔板设计的分析解决方案
3. Design and performance enhancement of a force-amplified piezoelectric stack energy harvester under pressure fluctuations in hydraulic pipeline systems [J] . Cao Dong-Xing, Duan Xiang-Jian, Guo Xiang-Ying, Sensors and Actuators, A. Physical . 2020,第1期

机译：液压管道系统压力波动下力放大压电堆稳态收割机的设计与性能
4. RESEARCH ON PIPELINE PRESSURE FLUCTUATION LAW OF HYDRAULIC VIBRATION SYSTEM CONTROLLED BY WAVE EXCITER [C] . Kou ziming, Lian hongzhen, Wang wen Vibration engineering and technology of machinery . 2009

机译：激振器控制的液压振动系统管道压力波动规律研究
5. Investigation of factors affecting transient pressure wave propagation and implications to transient based leak detection methods in pipeline systems. [D] . Duan, Huanfeng. 2011

机译：研究影响瞬态压力波传播的因素以及对管道系统中基于瞬态的泄漏检测方法的影响。
6. Vibration Sensing Systems Based on Poly(Vinylidene Fluoride) and Microwave-Assisted Synthesized ZnO Star-Like Particles with Controllable Structural and Physical Properties [O] . Mariem M. Chamakh, Miroslav Mrlík, Stephen Leadenham, 2020

机译：基于聚（偏二氟乙烯）和微波辅助合成ZnO星状颗粒的振动传感系统具有可控结构和物理性质
7. Hybrid Mass Damper with Convertible Active and Passive Modes Using Multistage Rubber Bearing and Hydraulic Actuator for Vibration Control of Tall Buildings. 1st Report. Control Scheme Considering Operational Limit of Actuator due to Pressure Drop in Hydraulic System. [O] . Takayoshi Kamada, Takafumi Fujita, Nobuo Masaki 1995

机译：混合质量阻尼器采用多级橡胶轴承和液压执行器进行换档主动和无源模式，用于振动控制高层建筑。第一个报告。考虑液压系统压降导致执行器运行极限的控制方案。
8. Random-Choice Solutions for Weak Spherical Shock-Wave Transitions of N-Waves in Air with Vibrational Excitation [R] . Honma, H., Glass, I. I. 1983

机译：振动激励下空气中N波弱球面冲击波的随机选择解

RESEARCH ON PIPELINE PRESSURE FLUCTUATION LAW OF HYDRAULIC VIBRATION SYSTEM CONTROLLED BY WAVE EXCITER

摘要

著录项

相似文献

相关主题

期刊订阅