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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 541-542The Summary Research on the Noise of High-Speed...

The Summary Research on the Noise of High-Speed Traction Elevators

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Abstract:

With the increasing of speed of elevator, noise has been becomming an important factor of the ride comfort. Mechanical noise and aerodynamic noise are the main types of elevator noise. The research of mechanical noise are mainly focused on vibration characteristics of the structure and the friction which is on elevator cars, counterweight and guide rails as well as wire ropes. The research of aerodynamic noise are mainly included three aspects: the influences of aerodynamic noise resulted in the shape of elevator cars, the research of noise reduction technology on different noise bands and the research of elevator system dynamics model’s optimal design. Based on the analysis of high-speed elevator noise research, we investigate the existing problems and trends on high-speed traction elevator noise.

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Periodical:

Applied Mechanics and Materials (Volumes 541-542)

Pages:

716-721

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.541-542.716

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Online since:

March 2014

Authors:

Xiao Wei Wang*, Yan Jie Yu, Rui Jun Zhang, Sheng Chun Wang, Yan Tian

Keywords:

Aerodynamic Noise, High-Speed Traction Elevator, Mechanical Noise

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] Lorsbach G P. Analysis of elevator ride quality, vibration[J]. Elevator World. 2003, 51(6): 110-111.

[2] The construction of low-income housing Promoting elevator industry growth, low voltage inverter market benefits[Z]. The World of Inverters. 2012, 7: 52-54.

[3] Changming Yuan, YunzhongFang, et al. The Technology of Noise and VibrationControl[M]. Metallurgical Industry Press. 2007. 5.

[4] You Huang, Qi Li. Aero-Vibro Acoustics Simulation of the High-speed Elevator[J]. The Technology of modern Vibration and noise. 2011, 9: 329-334.

[5] Xiang Chen. Analysis of Vibration in Elevator Running[J]. China High-tech Enterprises. 2012, (30): 60-62.

[6] Jianglong Ji. Analysis of Noise in Elevator Running[J]. Science and Technology Innovation Herald. 2011, (7): 56-58.

[7] Shenbo Yu, Pingping Pan, et al. Investigation on Noise and Vibration Origin in Permanent Magnet Electrical Machine for Elevator[J]. Electrical Machines and Systems. 2005, (1)：330-333.

DOI: 10.1109/icems.2005.202540

[8] Zijia Ding, Dawei Lv, et al. Analyze and Control the Noise of Elevator[J]. Noise and Vibration Control. 2005, (6): 57-70.

[9] YOSH IAKIT, MASATSUGU Y, et al. Lateral oscillation of a moving elevator rope and cabin high-rise building[J]. Nippon Kikai Gakkai Ronbunshu. 1993, 55(9): 686-693.

[10] TAMURAT, ITOH Y. Unstable AerodynamicPhenomena of a Rectangular Cylinder with Critical Section [J]. Journal of Wind Engineer. 1999, 83(4): 121-133.

[11] Yonghui Feng, et al. Study of Active Control of Horizontal Vibrations for High-speed Elevator[J]. Mechanical Science and Technology for Aerospace Engineering. 2007, 26(8): 1076-7079.

[12] Schetz A. Aerodynamics of high-speed trains [J]. Ann Rev Fluid Mech. 2001, 33: 371-414.

[13] Baron Arturo, Mossi Michele, Sibilla Stefano. The Alleviation of the Aerodynamic Drag and Wave Effects of High-speed Trains in very Long Tunnels[J]. Journal of Wind Engineering and Industrial Aerodynamics. 2001, 89(5): 365-401.

DOI: 10.1016/s0167-6105(00)00071-4

[14] Wei Zhu. Wind Tunnel Test Investigation of Aerodynamic Contour of High Speed Train[J]. Experiments and Measurements in Fluis Mechanics. 1997, 11(2): 105-107.

[15] Yanjun Sun, Juan Xia, et al. Introduction of Aerodynamic Noise Generated by High-speed Train and the Reduction of the Noise[J]. Railway Locomotive&Car. 2009, 29(3): 25-28.

[16] Ying Duan, GongxinShen, et al. Aerodynamic Testing Simulation Facility for High-speed Elevator[J]. Journal of Beijing University of Aeronautics and Astronautics. 2004, 30(5): 444-447.

[17] Shigate M. Development of Super High Speed Elevators[J]. Elevator Word. 1995, (4): 69-73.

[18] Zhiyi Zhang, Jianyou Hu, et al. Control the Vibration and the Noise of High-speed Elevator[J]. Chinese Elevator. 2000, (3): 41-43.

[19] Jicai Yin, Yannian Rui. Research on the Vibration in Tracion System of Medium-high Speed Elevator[D]. Soochow University, (2011).

[20] Xiaoqiang Du. Study on Dynamics and Noise Prediction Method of High Speed Traction Elevator[D]. Zhejiang University, (2008).

[21] Zhichao Cao. The Theory and Experiment Research of High-speed Elevators Vibration Characteristics[D]. Central South University, (2012).

[22] Dongmei Yu, MingliangHao, Hao Liu. Fuzzy Control of Maglev Guiding System in Liner Elevator Based on Feedback Linearization[J]. Chinese Control Conference. 2011, 2899-2902.

DOI: 10.1109/ccdc.2011.5968372

[23] Teshima N, Miyasako K. Experimental and Numerical Studies on Ultra-high-speed Elevators[J]. Elevator Techinology. 1992, (4): 276-285.

[24] Matsukura Y, Watanabe E, Sugiyama Y. New Mechianical Techiniques for Super-high-speed Elevators[J]. Elevator Techinology. 1992, (4): 174-181.

[25] Liqun Shi, et al. Numerical simulation of unsteady turbulent flow induced by two-dimensional elevator car and counter weight system[J]. Journal of Hydrodynamics. 2007, 19(6): 720-725.

DOI: 10.1016/s1001-6058(08)60009-8

[26] Xiaodong Li, KaiWang. Optimization of Aerodynamic Characteristics of High-speed Elevator[J]. Journal of Harbin Institute of Technology. 2009, 41(6): 82-86.

[27] Wang Kai. The Study and Optimization of Aerodynamic Characteristics of High Speed Elevator[D]. Harbin Institute of Technology, (2009).

[28] Zhihua Lu, Shuilai Wang. Research on the Noise Control of an Elevator Cabin[J]. Noise and Vibration Control. 2006, (l): 80-83.

[29] Okada K, Nishimura N. Noise and Vibration Reduction Techniques for 750m/min Elevators[J]. Wold Elevator. 2000, 48(11): 76-78.

[30] Salmon J K, Yoo Y S. Reduction of noise and vibration in an elevator car by selectively reducing air turbulence[J]. The Journal of the Acoustical Society of America. 1991, 90(6): 3387-3388.

DOI: 10.1121/1.401377

[31] J. Landaluze,I. Portilla J.M. Pagalday, et al. Application of active noise control to an elevator cabin[J]. Control Engineering Practice. 2003, 11: 1423–1431.

DOI: 10.1016/s0967-0661(03)00077-7

[32] Ma Denghua. Discuss the Practice Research of Vibration Isolation and Noise Reduction of the Elevator Guide Rail[J]. Chinese Journal of Environmental Engineering. 2012, 30: 143.

[33] Qi Li, Hongtao Sui. Influence of Aerodynamic Noise on the High-speed Elevator Car[J]. Technical Acoustics. 2010, 29(6): 268-269.

[34] Haijun Du, Yannian Rui, et al. Research on How the Disturbance of Gas Effect on Dynamic Characteristic of High-speed Elevator[D]. Lanzhou Jiaotong University, (2009).