摘要
目的开展液-弹隔振器的设计及试验验证。方法基于反共振原理建立的液-弹隔振器动力学分析模型,推导了其动力学方程。结果建立了液弹隔振器隔振频率与相关参数的关系,依据相关参数完成了液-弹隔振器的设计,并进行了液-弹隔振器动力学性能相关试验,利用动刚度测试法和传递率测试法验证了液-弹隔振器性能,试验验证了液-弹隔振器高静态刚度和隔振频率点下的低动态刚度特点。结论实现了液-弹隔振器的设计,同时液弹隔振器在隔振频率点下达到60%的减振效果。
The work aims to carry out the design and test verification of fluidlastic isolator.Based on the anti-resonance principle,a dynamic analysis model of the fluidlastic isolator was established and its dynamic equation was derived.The relationship between the vibration isolation frequency of the fluidlastic isolator and related parameters was established and the model of fluidlastic isolator was designed according to related parameters.Then,the dynamic performance test was carried out to the fluidlastic isolator.The performance of fluidlastic isolator was verified by dynamic stiffness test and transmittance test.The test results verified the high static stiffness and low dynamic stiffness of the fluidlastic isolator at the vibration isolation frequency.The design of the fluidlastic isolator is realized,and the fluidlastic isolator achieves a 60%vibration reduction effect at the vibration isolation frequency point.
作者
钱峰
程起有
代志雄
QIAN Feng;CHENG Qi-you;DAI Zhi-xiong(National Key Laboratory of Science and Technology on Rotorcraft Aeromechanics,China Helicopter Research and Development Institute,Jingdezhen 333001,China)
出处
《装备环境工程》
CAS
2020年第9期72-76,共5页
Equipment Environmental Engineering
关键词
液-弹
隔振
验证
fluidlastic
vibration isolation
validation
