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作 者:吴娟[1,2] 丁燕[1,2] 陆春月[1,3] 寇子明[1,2] 张慧贤[1,2]
机构地区:[1]太原理工大学机械工程学院,太原030024 [2]山西省矿山流体控制工程中心,太原030024 [3]中北大学机械工程与自动化学院,太原030051
出 处:《机械设计与研究》2013年第6期74-77,共4页Machine Design And Research
基 金:国家自然科学基金(50775154);山西省青年科学基金(2010201025)资助项目
摘 要:针对现有液压振动技术应用的现状以及液压系统中存在的液压冲击现象,提出了一种利用液压冲击来产生振动的激振系统。该系统以激波器为波动发生器,以管道为受控对象。阐述了液压波动发生的机理,并搭建了振动试验测试平台。对管道中的压力波动进行了研究,计算了压力脉动的最大理论值,并进行了试验验证,结果表明两者吻合较好,管道中的压力波动受控于系统频率。对管道振动特性的试验表明,管道两端的振动强度大于中间的振动强度,管道的振幅随系统频率与系统压力的增大而增大,系统压力在4.6 MPa以上,再增大系统压力,对管道的振幅影响不大。Aiming at the present application situation of the hydraulic vibration technology as well as the phenomenon of the hydraulic impact in the hydraulic system, a vibration system using the hydraulic impact to excite vibration is proposed. The system uses a wave exciter as the wave generator and the pipeline as a controlled object. This paper expounded the mechanism of hydraulic fluctuation, and the vibration experimental platform was set up. The fluctuations of pressure inside the pipeline were researched, the maximum theoretical value of the pressure pulsation was calculated, and then the value was verified by experiments. The results show that the theoretical value is in good agreement with the experimental one and the pressure fluctuations inside the pipeline are controlled by the system frequency. The experiment of vibration characteristics of the pipeline shows that vibration strength of pipeline's both ends is greater than the middle, the amplitude of the pipeline is increased with the increasing of system frequency and system pressure. And itll have little effect on the amplitude of the pipeline if the system pressure is increased above 4.6MPa.
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