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往复活塞式单泵头空压机噪音检测及分析

136    2019-12-30

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作者:柴德敏1, 葛正浩1, 高羡明1, 谭建军2

作者单位:1. 陕西科技大学机电工程学院, 陕西 西安 710021;
2. 苏州欧圣电器股份有限公司, 江苏 苏州 215000


关键词:空压机;噪音检测;声压法;1/3倍频程分析;噪声源;频率


摘要:

针对已安装空滤器往复活塞式单泵头空压机工作时存在振动大、噪声大的问题,该研究采用半消音室通过声压法检测0,60,90,135 psi 4种不同工况下的噪声,其中0 psi为非稳态,检测需迅速准确,其他3种均需确定噪声试验状况稳定后测量。通过多通道噪声振动测量分析系统HS5660B-X对已获得的噪声时域数据进行傅里叶变换转换为频域数据,通过1/3倍频程分析得到A计权下的10个通道的声压级、平均声压级、声功率级。分析实验结果可知:主要噪声源频率为800,630,1 000,2 000,1 600 Hz。此类空压机所产生的噪音呈现中频为主,高频为辅的特点,最重要的噪声源频率为800 Hz。该结果可为解决噪声问题提供理论基础。


Noise detection and analysis of reciprocating piston single pump head air compressor
CHAI Demin1, GE Zhenghao1, GAO Xianming1, TAN Jianjun2
1. College of Mechanical & Electrical Engineering, Shaanxi University of Science & Technology, Xi'an 710021, China;
2. Suzhou Alton Electrical & Mechanical Industry Co., Ltd., Suzhou 215000, China
Abstract: Considering that there are large vibration and high noises in the operation of reciprocating piston single pump head air compressor with air filter installed, the working noise of the semi-muffler chamber is detected amid 4 different operating conditions by the sound pressure method. Among four operating conditions of 0, 60, 90, 135 psi, special attention should be payed to 0 psi which is unsteady. The detection should to be rapid and accurate. The other 3 operating conditions need to be measured after the noise test condition being stable. The multi-channel noise vibration measurement and analysis system HS5660B-X was used to transform the obtained noise time domain data into frequency domain data with Fourier transform. The A-weighting 10 channels results were obtained such as sound pressure level, average sound level and sound power level with 1/3 octave analysis. The main noise source frequency are 800 Hz, 630 Hz, 1 000 Hz, 2 000 Hz and 1 600 Hz with analysis experiment result. The air compressors noise is mainly characterized by intermediate frequency and high frequency, and the most important noise source frequency is 800 Hz. It provides a theoretical basis to solve noise problems.
Keywords: air compressor;noise detection;sound pressure method;1/3 octave analysis;noise source;frequency
2019, 45(12):43-49  收稿日期: 2019-04-01;收到修改稿日期: 2019-05-24
基金项目:
作者简介: 柴德敏(1994-),女,山西朔州市人,硕士研究生,专业方向为空压机噪音分析降低及结构优化
参考文献
[1] 声环境质量标准:GB 3096-2008[S]. 北京:中国环境科学出版社, 2008
[2] HETZEL T R. Unloader for Air compressor with wobble piston:4028015[P]. 1977-06-07.
[3] SCHEFTER J. Analysis of noise emission of a 35CFM capacity air compressor[J]. US Geological Survey, 1978, 244(11):44-49
[4] HWANG S W, JEONG W B, YOO W S, et al. Transmission path analysis of noise and vibration in a rotary compressor by statistical energy analysis[J]. Journal of Mechanical Science and Technology, 2004, 18(11):1909-1915
[5] SUN H, SHIN H, LEE S. Analysis and optimization of aerodynamic noise in a centrifugal compressor[J]. Journal of Sound and Vibration, 2006, 289(4-5):999-1018
[6] 胡光宇. 无油空压机的振动分析与噪声控制[D]. 鞍山:辽宁科技大学, 2014.
[7] 张变华. 空压机噪声分析与控制[J]. 通用机械, 2009, 1(11):56-60
[8] 马宪亭, 尹新爱. L型往复式空压机噪声及综合治理[J]. 能源环境保护, 2002, 16(5):43-44
[9] 吴胜举, 张明铎. 声学测量原理与方法[M]. 北京:科学出版社, 2014.
[10] 李志远, 陈慧, 陈品, 等. 大型设备的声功率级声强测试方法[J]. 振动、测试与诊断, 2013, 33(2):311-314
[11] 钟恭良. 论声压级平均算法[J]. 应用声学, 2009, 28(3):174-176
[12] YARTIRE H, HASHEMIAN H, MOHAMMADI S. An introduction to sound spectrum level:spectrum analysis[J]. Middle East Journal of Scientific Research, 2014, 21(21):2243-2246
[13] 郝志勇, 刘月辉, 毕凤荣, 等. 乘用车柴油机噪声源识别方法的试验研究[J]. 内燃机学报, 2004, 22(2):150-154
[14] 汪庆年, 李红艳, 史风娟, 等. 基于频谱分析的电机噪声源的识别[J]. 声学技术, 2009, 28(4):528-531
[15] 吕晴. 倍频程分析新方法及其声功率检测应用研究[D]. 长沙:湖南大学, 2018.
[16] 李淑华. Claus风机噪声测量结果与频谱分析[J]. 中国卫生工程学, 2018, 17(2):190-192

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