根据往复式压缩机系统运行的实际情况,通过定量计算,从理论上分析了压缩机系统产生振动的原因。
According to the actual circumstances of the reciprocal compressor, the reasons for compressor to vibrate have been analyzed through quantitative theoretic calculation.
往复式压缩机管系振动是管系在设计、安装以及使用过程中不可轻视的问题。
Piping vibrations in reciprocating compressors should not be underestimated in design, installation and application.
考虑到往复式压缩机振动具有振源丰富、信息干扰大的特点,利用包络解调法分离出系统固有频率成分的振动信号。
According to the character of vibration in reciprocating compressor, the vibration signal was separated from intrinsic frequencies of the system by envelope demodulation method.
分析了通常引起往复式压缩机气体管道振动的原因及其消振方法。
The reason of the vibration is analyzed and the control methods are proposed with the vibration data collected.
借此理论,本文对较为复杂的往复式空气压缩机气阀振动信号作了分析,探讨了用于故障气阀自动识别的方法,收到了较好的效果。
According to this theory, this paper gives an instance for analyzing a vibration signal of reciprocating compressor valve. The method is fairly effective in mechanical fault recognition.
振动是往复式压缩机系统的一种常见故障,文章系统地介绍了其振动的产生、作用机理,以及分析计算方法。
Vibration is a frequent trouble of reciprocating compressor. This article systematically presents the vibration generation, action mechanism and anacom method.
振动是往复式压缩机系统的一种常见故障,文章系统地介绍了其振动的产生、作用机理,以及分析计算方法。
Vibration is a frequent trouble of reciprocating compressor. This article systematically presents the vibration generation, action mechanism and anacom method.
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