Mechanism of electro-hydraulic exciter for new tamping device
来源期刊:中南大学学报(英文版)2014年第2期
论文作者:LIU Yi(刘毅) GONG Guo-fang(龚国芳) YANG Hua-yong(杨华勇) HAN Dong(韩冬) YANG
文章页码:511 - 520
Key words:tamping device; spin valve; oscillation cylinder; electro-hydraulic exciter; variable damping; parametric analysis
Abstract: A new tamping device which is driven by an electrohydraulic exciter was proposed to overcome the limitations of mechanically driven devices. The double-rod oscillation cylinder drives the tamping arm to realize vibration. A new spin valve was designed in order to fulfill dynamic state requirements of the oscillation cylinder. Parametric analysis was carried out by establishing mathematic model. Then, the relationships among the structure of valve port and the frequency, amplitude, output shock force of the cylinder were researched. An experimental device of the electrohydraulic exciter was established to validate the theoretical results.The signals were acquired by AVANT dynamic signal analyser of vibration. The results show that new tamping device can satisfy all kinds of complex working conditions with the flexible adjustment of frequency and amplitude.
LIU Yi(刘毅), GONG Guo-fang(龚国芳), YANG Hua-yong(杨华勇), HAN Dong(韩冬), YANG
(State Key Laboratory of Fluid Power Transmission and Control (Zhejiang University), Hangzhou 310027, China)
Abstract:A new tamping device which is driven by an electrohydraulic exciter was proposed to overcome the limitations of mechanically driven devices. The double-rod oscillation cylinder drives the tamping arm to realize vibration. A new spin valve was designed in order to fulfill dynamic state requirements of the oscillation cylinder. Parametric analysis was carried out by establishing mathematic model. Then, the relationships among the structure of valve port and the frequency, amplitude, output shock force of the cylinder were researched. An experimental device of the electrohydraulic exciter was established to validate the theoretical results.The signals were acquired by AVANT dynamic signal analyser of vibration. The results show that new tamping device can satisfy all kinds of complex working conditions with the flexible adjustment of frequency and amplitude.
Key words:tamping device; spin valve; oscillation cylinder; electro-hydraulic exciter; variable damping; parametric analysis
