Modeling Analysis and Experiment Research on Rotary Motor Buffer Overflow Valve

Yuan Shen Zhang; Xue Ping Xian; Jie Yin

doi:10.4028/www.scientific.net/AMM.709.68

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 709Modeling Analysis and Experiment Research on...

Modeling Analysis and Experiment Research on Rotary Motor Buffer Overflow Valve

Abstract:

This paper studies a buffer overflow valve that is attached to a hydraulic rotary motor which could reduce high hydraulic impact when the hydraulic rotary motor starts, brakes or suddenly reverses. A rotary motor buffer overflow valve was modeled and simulated using a computer software, AMESim, and the relation of the buffer overflow valve to the hydraulic impact experienced by the motor was analyzed. The cushioning property of the buffer overflow valve of a rotary motor is verified by using an excavator. It is concluded that having a reasonable design of the buffer overflow valve’s maximum displacement for the buffer set and diameter size for the buffer damping hole, it can reduce the pressure impact experienced by the hydraulic rotary motor and improve its operating performance, which also improves the service life of the system or its hydraulic components.

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Periodical:

Applied Mechanics and Materials (Volume 709)

Pages:

68-73

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.709.68

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Online since:

December 2014

Authors:

Yuan Shen Zhang, Xue Ping Xian*, Jie Yin

Keywords:

Buffer Overflow Valve, Cushion Collar, Cushioning Orifice, Hydraulic Impact, Hydraulic Rotary Motor

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References

[1] Misra A, Behdinan K, Cleghorn W L. Self-excited vibration of a control valve due to fluid-structure interaction[J]. Journal of Fluids and Structures, 2002, 16(5): 649-665.

DOI: 10.1006/jfls.2002.0441

Google Scholar

[2] Dongyun Wang, Yu Zhang. The research trends and comprehensive evaluation of hybrid excavator[J]. Advanced Materials Research, 2011, 305(3): 255-260.

DOI: 10.4028/www.scientific.net/amr.305.255

Google Scholar

[3] Titurus B. Vibration control in a helicopter with semi-active hydraulic lag dampers[J]. Journal of Guidance Control and Dynamics, 2013, 36(2): 577-588.

DOI: 10.2514/1.56111

Google Scholar

[4] Tongji University, Single bucket hydraulic excavator [M] Beijing: China Building Industry Press, 2007, 143-165.

Google Scholar

[5] Hongbin Zhou, Feng Liu, Guifang Chen, et al. Hydraulic rotary excavator brake system stability study [J] Computer Simulation, 2011, 11 (28): 379-382.

Google Scholar

[6] Haiping Zhang, Screw-in hydraulic cartridge valves [M] Beijing: Mechanical Industry Press, 2012, 9-17.

Google Scholar

[7] Xu Ji, the dynamic characteristics of large tonnage crawler crane hydraulic system. [D] Jilin University PhD thesis, 2013. 6.

Google Scholar

[8] Qi Zhang, Hydraulic system unloading pressure impact and the process of cushioning the impact [J]. Corps Engineering Institute, 1986. 2.

Google Scholar

[9] Guochen Liu, New dual role of buffer valves [J]. Hydraulic and pneumatic, 2000 (03).

Google Scholar

[10] Zongyi Huang, Circuit of hydraulic rotary excavator - 1 [J]. Construction Mechanization, 2004 (01).

Google Scholar

[11] Zongyi Huang, Circuit of hydraulic rotary excavator – 2[J]. Construction Mechanization, 2004 (02).

Google Scholar

[12] Liangzheng Yu, Minglin Wang, Haibo Zhang, et al. Developing and application of screw-in cartridge relief valve[J]. Fluid Power Transmission and Control, 2012（6）：36-40.

Google Scholar