RESULTS FROM A NEW SEPARATION ALGORITHM FOR PLANETARY GEAR SYSTEM VIBRATION MEASUREMENTS

机译：行星齿轮系统振动测量的新分离算法的结果

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Results are presented from a new algorithm developed for separating the vibration signals from a planetary gear system into separate signals attributable to each planet gear. From the separate signals, time synchronous average signals are produced for each planet gear and for the sun gear meshing with each planet gear. Assessments of the individual planet and sun gears can be made from these new vibration signals. These new separated signals match very well with noise-free synthetic data with and without characteristics indicative of faults. In a 3-planet system, distortions planted in synthetic signals are easily distinguished over a wide range of signal-to-noise (S/N) values. In an 8-planet system, distortions are easily detected for high S/N with degradation at low S/N. Spectra from separated signals from vibration measurements made in flight on the transmissions of OH-58C and AH1S helicopters are consistent with what would be expected based upon the transmission geometries.

机译：提出了一种新算法的结果，该算法将行星齿轮系统的振动信号分离为每个行星齿轮的独立信号。根据单独的信号，为每个行星齿轮以及与每个行星齿轮啮合的太阳轮产生时间同步平均信号。可以根据这些新的振动信号对各个行星齿轮和太阳轮进行评估。这些新分离的信号与无噪声合成数据非常匹配，无论有无故障指示特性。在三行星系统中，很容易在很大的信噪比（S / N）值范围内区分合成信号中植入的失真。在8行星系统中，高S / N时很容易检测到失真，而低S / N时性能会下降。在OH-58C和AH1S直升机的变速器上进行的飞行振动测量中分离出的信号频谱与基于变速器几何形状的预期一致。

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来源
《American Society of Mechanical Engineers(ASME) International Design Engineering Technical Conference and Computers and Information in Engineering Conference(DETC2005) vol.5: International Conference on Design Theory and Methodology Power Transmission and》|2005年|P.747-754|共8页
会议地点 Long BeachCA(US)
作者
Marianne Mosher;
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作者单位

NASA Ames Research Center M.S. 269-3, Moffett Field, CA 94035-1000;

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会议组织
原文格式 PDF
正文语种 eng
中图分类机械设计、计算与制图;
关键词
planetary gear system; signal decomposition; synthetic data; helicopter; vibration;

机译：行星齿轮系统信号分解综合数据直升机振动;

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4. RESULTS FROM A NEW SEPARATION ALGORITHM FOR PLANETARY GEAR SYSTEM VIBRATION MEASUREMENTS [C] . Marianne Mosher, American Society of Mechanical Engineers(ASME) American Society of Mechanical Engineers International Design Engineering Technical Conference . 2005

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5. High-Speed Dynamics and Vibration of Planetary Gears, Vibration of Spinning Cantilevered Beams, and An Efficient Computational Method for Gear Dynamics. [D] . Cooley, Christopher G. 2012

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7. RESULTS FROM A NEW SEPARATION ALGORITHM FOR PLANETARY GEAR SYSTEM VIBRATION MEASUREMENTS [O] . Marianne Mosher 2010

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8. Vibration in Planetary Gear Systems with Unequal Planet Stiffnesses [R] . Frater, J. L., August, R., Oswald, F. B. 1982

机译：具有不等行星刚度的行星齿轮系统的振动

RESULTS FROM A NEW SEPARATION ALGORITHM FOR PLANETARY GEAR SYSTEM VIBRATION MEASUREMENTS

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