欢迎访问沈阳真空杂志社 Email Alert    RSS服务

VACUUM ›› 2024, Vol. 61 ›› Issue (4): 47-51.doi: 10.13385/j.cnki.vacuum.2024.04.09

• Vacuum Acquisition System • Previous Articles     Next Articles

Analysis and Experimental Study of the Piston Compressor Vibration

CHANG Xue-sen, WANG Yi-ting, ZHAO Yue, GE Pan, LU Han-bin, WENG Chen-hao   

  1. School of Mechanical Engineering and Automation, University of Science and Technology Liaoning, Anshan 114051, China
  • Received:2023-05-04 Online:2024-07-25 Published:2024-07-29

Abstract: To verify the overall operation reliability of the new designed piston compressor, finite element modal simulation and vibration response test were carried out on the compressor. First, a three-dimensional model of piston compressor was established, and then optimized. After the boundary conditions were set, a finite element modal simulation was conducted on the compressor, and the theoretical results of vibration response frequency on the compressor under this boundary condition were obtained. Afterwards, the compressor was tested for the vibration response at the critical speed, the real-time working modes of the first six steps of the compressor were obtained. The comparison between the finite element modal analysis and the empirical results demonstrats that there are some errors between them, but the results are consistent, and the destructive resonance would not occur in the new designed compressor.

Key words: piston compressor, vibration, analysis, testing

CLC Number:  TB752

[1] 曾健, 杨鸣峰, 赵洵, 等. 往复式活塞压缩机长周期运行模式试验与分析[J]. 设备管理与维修, 2023, 540(7): 27-31.
[2] 魏文科. 往复式压缩机用于煤锁气压缩的运行总结[J]. 氮肥技术, 2021, 42(3): 44-46.
[3] LI R, JING L L, MENG X H, et al.Numerical analysis of vane-slot friction pair in a rolling piston compressor considering deformation and groove design[J]. Tribology International, 2021, 162: 107124.
[4] SHAHZAD A, HAQUE U U, LAZOGLU I.Effect of the micro-textured piston on the performance of a hermetic reciprocating compressor[J]. Proceedings of the Institution of Mechanical Engineers, 2023, 237(5): 1107-1118.
[5] 杨欣伦. 小型往复式活塞压缩机的专利布局与趋势分析[J]. 制冷与空调(四川), 2020, 34(3): 374-378.
[6] 赵帅, 赵有信, 贺素艳, 等.往复式活塞压缩机中间喷液制冷系统的火用分析[J].热能动力工程, 2020, 35(5): 147-152.
[7] MENG X Q, QI Y X, SHENG L, et al.Investigations on efficiency improvement of rolling piston type rotary compressor with a new-designed cylinder[J]. Applied Thermal Engineering, 2023, 222: 119920.
[8] DING S P, WEI H J, YANG O X, et al.Tribological behavior and applicability analysis of cast iron and iron-based powder metallurgy for rolling piston rotary compressor under different applied loads[J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2022, 45(1): 4.
[9] 李贵旺. 海上平台往复式活塞压缩机故障分析及轻量化改造[J]. 天津科技, 2020, 47(4): 55-58.
[10] 刘超, 刘志伟.基于往复式压缩机全生命周期无油润滑改造经济评估方法研究[J]. 北京石油化工学院学报, 2019, 27(2): 26-28.
[11] 郭晓颖. 活塞压缩机运动部件受力分析及数值模拟[D]. 唐山:华北理工大学, 2020.
[12] 柏子刚. 基于Solidworks的往复式活塞压缩机虚拟设计与研究[J]. 现代工业经济和信息化, 2018, 8(1): 23-25.
[13] 刘强. 往复式活塞压缩机活塞及支撑环磨损预测及分析[J]. 设备管理与维修, 2020, 471(9): 154-156.
[14] 郭士才, 李飞, 刘桂, 等. 往复式活塞压缩机高压段填料密封的改进[J]. 小氮肥, 2016, 44(7): 21-22.
[15] 胡希康. 无余隙活塞往复压缩机的研制[D]. 杭州:中国计量大学, 2019.
[16] 何洋. 滚动活塞压缩机径向间隙泄漏特性研究[D]. 南宁:广西大学, 2018.
[17] 高扬. 基于深度学习的往复式压气机故障智能诊断应用研究[D]. 北京:华北电力大学, 2022.
[18] 王金东, 高鹏超, 赵海洋, 等. 基于SWD与MEMDE的往复压缩机轴承故障诊断方法[J].轴承, 2021, 504(11): 65-69.
[19] 梁建国. 活塞式压缩机故障分析与处理[J]. 当代化工研究, 2019, 53(17): 88-89.
[20] 张广正. 活塞压缩机故障分析与处理[J]. 化工管理, 2019, 532(25): 180-181.
[21] 郑琢, 付涛. 往复式活塞压缩机故障分析与处理[J]. 化工设计通讯, 2019, 45(3): 113.
[22] 黄孟瑶. 小型活塞压缩机闭式循环性能实验台研制及实验研究[D]. 上海:华中科技大学, 2019.
[23] 刘骥. 往复活塞压缩机余隙调节应用[J]. 化工管理, 2021, 615(36): 134-135.
[24] 赵世锦, 巴鹏. 2D-90往复式活塞压缩机主机结构设计[J]. 一重技术, 2021, 202(4): 25-27.
[25] 邓晶, 曾柏森, 王浩宇, 等. 大缸径往复式活塞压缩机铝活塞优化设计[J]. 压缩机技术, 2021, 288(4): 30-35.
[26] 张红伟. 往复式活塞压缩机声音异常原因与处理[J].化工设计通讯, 2018, 44(7): 122.
[27] 闫有理. 往复式活塞压缩机故障分析与处理[J]. 化工管理, 2018, 491(20): 40-41.
[28] 夏旭. 往复式活塞压缩机常见过热现象分析与处理[J]. 决策探索(中), 2018, 576(4): 55-56.
[1] CHEN Cheng, ZHU Ming-liang, LI Ming-yue, HE Zhen-feng, WANG Zhi-guo, HE Chen. Eddy Current Testing Simulation for Surface Defects for Laser Melting Deposition [J]. VACUUM, 2024, 61(4): 96-101.
[2] YU Yan-fei, LI Xiao-gang, HU Xiang-e, CHEN Jin-wen, CHEN Jie-xin. Measurement and Analysis of Pumping Speed of G-M Refrigerator Cryopump Based on the Orifice Method [J]. VACUUM, 2024, 61(3): 20-25.
[3] SONG Jia-xing, ZHANG Gong-ming, WANG Ying, LI Zhong-ren, CHEN Ding, SU Ning, CHEN Bo-long. Simulation Analysis of Forging Frame in Hot Isostatic Furnace [J]. VACUUM, 2024, 61(3): 96-99.
[4] QI Song-song, NI Jun, LI Zhuo-hui, SHI Cheng-tian, FENG Lei, CHEN Hong-bin, LI Can-lun. Research on Gate Design and Optimization of Super Large Vacuum Vessel [J]. VACUUM, 2023, 60(5): 81-85.
[5] GAO Xin-xing, LIU Xin, ZHANG Rui-yu, LIU Shi-bing, LI Xin-ke. Vibration Reduction Design Method of Vacuum Arc Skull Furnace Based on Mode Shape Optimization [J]. VACUUM, 2023, 60(3): 76-79.
[6] ZHOU Jun, CAO Zeng, CAO Cheng-zhi, HUANG Xiang-mei, GAO Xiao-yan, HU Yi. Mass Spectrometry Analysis for Wall Conditioning in HL-2A Tokamak [J]. VACUUM, 2023, 60(2): 45-50.
[7] FENG Zhi-meng, LIU Hai-jing, WANG Fei, LI Can-lun, QIAO Hong, JING Jia-rong. Design and Calculation of O-type Rubber Sealing for Space Environment Simulation Equipment [J]. VACUUM, 2023, 60(2): 57-62.
[8] LIU Ao, TENG Yun-nan. Review on Vibration Fatigue Life Estimation Methods of Aero-engine External Pipelines [J]. VACUUM, 2023, 60(1): 76-79.
[9] BA Wei-gang, CHEN Zhi-peng, ZHAO Qian-cheng, HAO Zhi-gang, DING Yong-hua, PAN Yuan. Experimental Study of Taylor Discharge Cleaning for J-TEXT Device [J]. VACUUM, 2022, 59(6): 65-72.
[10] QIAO Hong, LI Can-lun, LIN Zeng, WANG Song-chao, FENG Zhi-meng, LI Shao-jie, HUANG Yun, JIN Zhao-feng. Analysis of Influence of Cathode Spot Movement on Film Quality in Arc Ion Plating Technology [J]. VACUUM, 2022, 59(5): 32-37.
[11] SONG Yan-peng, QIANG Bo, HAN Yong-chao, TANG Rong, ZHANG Ji-feng. Detection Method for Small Leaks of Missile-Borne Klystron [J]. VACUUM, 2022, 59(4): 18-21.
[12] ZHOU Jun, CAO Zeng, CAO Cheng-zhi, HUANG Xiang-mei, GAO Xiao-yan, HU Yi. Preliminary Results of Mass Spectrometry Measurements for HL-2M Tokamak [J]. VACUUM, 2022, 59(3): 68-73.
[13] LIU Hai-jing, LI Can-lun, LU Tong-shan, SUN Cheng-kai, LI Zhuo-hui, QI Song-song, LIU Jia-lin. Development and Analysis of Large-diameter and Ultra-long U-shaped Gas Pool [J]. VACUUM, 2021, 58(6): 55-58.
[14] FENG Jie, CHENG Rong, ZHAO Yong, WANG Yan-long, WANG Shang-min, ZHANG Hong, JIA Yan-hui. FFT Analysis of Discharge Oscillations of Plasma Contactor [J]. VACUUM, 2021, 58(5): 72-76.
[15] MA Qiang, SUN Zu-lai, ZHANG Zhe-kui, MU Xin, LI Jian-jun, WANG Qiu-bo. Vibration Simulation Analysis of Ingot Withdrawing Mechanism of Large Power Vacuum Cold Hearth Furnace [J]. VACUUM, 2021, 58(5): 104-109.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] LI De-tian, CHENG Yong-jun, ZHANG Hu-zhong, SUN Wen-jun, WANG Yong-jun, SUN Jian, LI Gang, . Preparations and applications of carbon nanotube field emitters[J]. VACUUM, 2018, 55(5): 1 -9 .
[2] ZHOU Bin-bin, ZHANG jian, HE Jian-feng, DONG Chang-kun. Carbon nanotube field emission cathode based on direct growth technique[J]. VACUUM, 2018, 55(5): 10 -14 .
[3] CHAI Xiao-tong, WANG Liang, WANG Yong-qing, LIU Ming-kun, LIU Xing-zhou, GAN Shu-yi. Operating parameter data acquisition system for single vacuum pump based on STM32F103 microcomputer[J]. VACUUM, 2018, 55(5): 15 -18 .
[4] LI Min-jiu, XIONG Tao, JIANG Ya-lan, HE Yan-bin, CHEN Qing-chuan. 20kV high voltage based on double transistor forward converter pulse power supply for metal deburring[J]. VACUUM, 2018, 55(5): 19 -24 .
[5] LIU Yan-wen, MENG Xian-zhan, TIAN Hong, LI Fen, SHI Wen-qi, ZHU Hong, GU Bing. Test of ultra high vacuum in space traveling-wave tube[J]. VACUUM, 2018, 55(5): 25 -28 .
[6] XU Fa-jian, WANG Hai-lei, ZHAO Cai-xia, HUANG Zhi-ting. Application of chemical gases vacuum-compression recovery system in environmental engineering[J]. VACUUM, 2018, 55(5): 29 -33 .
[7] XIE Yuan-hua, HAN Jin, ZHANG Zhi-jun, XU Cheng-hai. Discussion on present situation and development trend of vacuum conveying[J]. VACUUM, 2018, 55(5): 34 -37 .
[8] SUN Li-zhi, YAN Rong-xin, LI Tian-ye, JIA Rui-jin, LI Zheng, SUN Li-chen, WANG Yong, WANG Jian, . Research on distributing law of Xenon in big accumulation chamber[J]. VACUUM, 2018, 55(5): 38 -41 .
[9] HUANG Si, WANG Xue-qian, MO Yu-shi, ZHANG Zhan-fa, YING Bing. Experimental study on similarity law of liquid ring compressor performances[J]. VACUUM, 2018, 55(5): 42 -45 .
[10] CHANG Zhen-dong, MU Ren-de, HE Li-min, HUANG Guang-hong, LI Jian-ping. Reflectance spectroscopy study on TBCs prepared by EB-PVD[J]. VACUUM, 2018, 55(5): 46 -50 .
辽ICP备06004570号-4
Copyright © VACUUM, All Rights Reserved.
Tel: (024)24134406 24110136 24121929 Fax: (024) 24121929 E-mail: zkzk1964@126.com
Powered by Beijing Magtech Co. Ltd