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Research Development on the Comfort of Human Taking the Elevator
Current Issue
Volume 4, 2017
Issue 1 (January)
Pages: 6-12   |   Vol. 4, No. 1, January 2017   |   Follow on         
Paper in PDF Downloads: 34   Since Jan. 15, 2018 Views: 1450   Since Jan. 15, 2018
Authors
[1]
Peng Bo, Hunan Special Equipment Inspection and Testing Research Institute Zhang Jiajie Branch, Zhang Jiajie, China.
[2]
Shen Kejie, School of Biomedical Engineering, Xinxiang Medical University, Xinxiang, China.
[3]
Zhao Fang, School of Biomedical Engineering, Xinxiang Medical University, Xinxiang, China.
[4]
Zhang Chenqing, School of Biomedical Engineering, Xinxiang Medical University, Xinxiang, China.
[5]
Wang Yidong, School of Biomedical Engineering, Xinxiang Medical University, Xinxiang, China.
[6]
Ren Wu, School of Biomedical Engineering, Xinxiang Medical University, Xinxiang, China.
Abstract
The safety and comfort of the elevator have an important influence on the human body. The vibration depression measurement of vertical and horizontal vibration along with noise cause of the elevator has been summarized then. Till now, the study on the vertical vibration usually focused on of different degrees of freedom model establishment due to its dominant role at low speed. The horizontal vibration is mainly generated at the high-speed operation of the elevator. The vibration control method has been changed from passive and active control in some existing research. Then the elevator vibration control system had been improved. And the reasons of the elevator noise generation and reduction measurement have been introduced. Most all the researches are mainly about the establishment and improvement of the motion model but lack the comprehensive research model combined human and the elevator. In addition, the research on the safety and comfort of human is inadequate and there is no analysis on the ride comfort of human now. In the conclusion section the establishment of human-elevator comprehensive simulation and experimental model has been proposed. It provides a combination direction for the medical and engineering in the future work.
Keywords
Elevator, Noise, Vibration Depression, Safety, Comfort
Reference
[1]
Yu Dejie, Yu Jinhui. Establishing and updating the dynamic model of the mechanical system of high speed elevators [J]. Journal of Vibration and Shock, 1997, 16 (1): 11-14.
[2]
Wang Xiaowei, Yu Yanjie, Zhang Ruijun, Wang Shengchun, Tian Yan. Summary of the noise research of high-speed traction elevators [J]. Noise and Vibration Control, 2014, 34 (3) 1-5.
[3]
Wang Yinhui. Study on noise reduction of elevator [D]. Shanghai: Shanghai Jiao Tong University, 2001.
[4]
Luo Zhengwei, Cao Zhichao. Study and test of high-speed elevator vibration characteristics [J]. China Special Equipment Safety, 2013, 38 (3): 20-23.
[5]
Zhang Changyou, Zhu Changming, Wu Guangming. Vertical vibration analysis and suppression of elevator system [J]. Journal of Vibration and Shock, 2003, 22 (4): 72-75.
[6]
Liu Xihua, Ren Yongsheng, Shan Huabo. Study on dynamic characteristics of vertical vibration in elevator system [J]. Journal of Shandong University, 2010, 29 (1): 62-66.
[7]
Wu Limei, Gong Yuyan, Li Xuefeng. Dynamiccharacteristics analysis of vertical vibration of haulage type elevator mechanical system [J]. Journal of Mechanics and Manufacturing, 2007, 10 (10): 16-18.
[8]
Yang Jincai, Hu Shaowei, Zhuang Biaozhong. Parameter—change random vibration of no gear vertical elevator system [J]. Journal of Mechanical Strength, 2005, 27 (2): 174-177.
[9]
R. M. CHI, H. T. SHU. Longitudinal vibration of a hoist rope coupled with the vertical vibration of an elevator car [J]. Journal of Sound and Vibration, 1991, 148 (l): 154-159.
[10]
Dong-Ho Yang, Ki-Yong Kim, Moon K. Kwak, Seungjun Lee. Dynamic modeling and experiments on the coupled vibrations of building and elevator ropes [J]. Journal of Sound and Vibration. 2017, 390 (10): 164–191.
[11]
Bao Jihu, Zhang Peng, Zhu Changming. Longitudinal vibration of rope hoisting systems with time-varying length [J]. Journal of Vibration and Shock, 2013, 32 (15): 172-177.
[12]
He Wenhai. Simulative analysis of vertical vibration characteristic of hydraulic elevator [J]. Machine Tool & Hydraulics, 2010, 38 (22): 81-83.
[13]
Angelo M. Tusset, Douglas R. Santo, Jose M. Balthazar, Vinícius Piccirillo and Leandro C. C. Dos Santos, Reyolando M. L. R. F. Brasil. Active vibration control of an elevator system using magnetorheological damper actuator [J]. Nonlinear Dynamics and control, 2017, 1 (1): 114-131.
[14]
Li Lijing, Li Xingfei, Zhang Guoxiong, Li Zhen. Horizontal vibration model of elevator car [J]. Hoisting and Conveying Machinery, 2002, 5 (5): 24-26.
[15]
Yin Jicai, Rui Yannian, Jiang Liming, Huang Bo, Li Yunbo. Research on high-speed elevator mdof horizontal dynamic characteristics and simulation [J]. Journal of Mechine Design, 2011, 28 (10): 70-73.
[16]
Guo Lifeng, Zhang Guoxiong, LI Xingfei, Liu Wenyao, Zeng Qinqian. Coupled dynamic system of elevator car and its dynamic characteristics [J]. Chinese Journal of Mechanical Engineering, 2007, 43 (8): 186-190.
[17]
Duan Ying, Shen Xin, Zhang Yonggang. Aerodynamic testing simulation facility for high-speed elevator [J] Journal of Beijing University of Aeronautics and Astronautics, 2004, 30 (5): 444-447.
[18]
Wang Wen, Qian Jiang. Transverse vibration analysis for an elevator suspended system subjected to displacement excitation due to structure sway [J]. Journal of Vibration and Shock, 2013, 32 (7): 70-73.
[19]
Utsunomiya, Okamoto, Yumura. Active miler guide system for high—speed elevators [J]. Elevator World, 2002, 50 (4): 86-92.
[20]
Feng Yonghui, Liu Jinyun, Zhao Yan'e, Zhang Jianwu. Robust control of horizontal vmrations for high-speed elevator [J]. Journal of Mechanical Strength, 2008, 30 (2): 189-194.
[21]
Feng Yonghui, Zhang Jianwu, Zhang Xin, Sun Ping. Study of active control of horizontal vibrations for high-speed elevator [J]. Mechanical Science and Technology for Aerospace Engineering, 2007, 26 (8): 1076-1079.
[22]
Liao Xiaobo, Fu Wujun, Zhu Changming. The experiment system and simulation for he active control of lateral vibration of elevator [J]. Mechanical Design & Manufacture, 2005, 1 (1): 63-65.
[23]
E. Esteban, O. Salgado, A. Iturrospe, I. Isasa. Model-based approach for elevator performance estimation [J]. Mech. Syst. Signal Process, 2015, 68-69 (7): 1-13.
[24]
Fu Wujun, Liao Xiaobo, Zhu Changming. Structural optimization to suppress elevator horizontal vibration using virtual prototype [J]. Journal of System Simulation, 2005, 6 (17): 1500-1504.
[25]
Bojan Z. Knezevic, Branko Blanusa, Darko P. Marcetic. A synergistic method for vibration suppression of an elevator mechatronic system [J]. Journal of Sound and Vibration, 2017, 406 (6): 29-50.
[26]
Ding Zijia, Lu Dawei, Li Ji. Analyze and control the noise of elevator [J]. Noise and Vibration Control, 2005, 6 (6): 57-60.
[27]
Lu Zhihua, Wang Shuilai. Research on the noise control of an elevator cabin [J]. Noise and Vibration Control, 2006, 2 (1): 80-83.
[28]
Li Qi, Sui Hongtao. Influence of aerodynamic noise on the high-speed elevator car [J]. Technical Acoustics, 2010, 12 (2): 1-2.
[29]
Du Xiaoqiang. High-speed traction elevator dynamic analysis theory and car noise prediction method [D]. Zhejiang: Zhejiang University, 2008.
[30]
Dong- mei, HAO Ming- liang, LIU Hao. Fuzzy control of maglev guiding system in liner elevator based on feedback linearization [J]. Chinese Control Conference, 2011, 15 (2): 2899-2902.
[31]
Landaluze J, Portilla I, Pagalday J M, Martınez A, Reyero R. Application of active noise control to an elevator cabin [J]. Control Engineering Practice, 2003, 11 (3): 1423-1431.
[32]
Chang Da. Study on double-cylinder hydraulic elevator ride comfort [D]. Shanghai: TongJi University master's degree thesis, 2002.
[33]
Mutoh N., Kagomiya K., Kurosawa T. Horizontal vibration suppression method suitable for super-high-speed elevators [J]. Electrical Engineering in Japan, 1999, 129 (1): 59-73.
[34]
Okada K., Nishimura N. Noise and vibration reduction techniques for 750 m/min elevators [J]. Elevator World, 2000, 14 (4): 51-55.
[35]
J. Fernandez, P. Cortes, Member, IEEE, J. Munuzuri, J. Guadix. Dynamic fuzzy logic elevator group control system with relative waiting time consideration [J]. Ieee Transactions on Industrial Electronics, 2014, 61 (9): 4912-4919.
[36]
Zhang Peng. Theoretic and test research on dynamic beliaviolts of elevatorsuspended system [D]. Shanghai: Shanghai Jiao Tong University, 2007.
[37]
Liu Wen, Liu Yanbin, Zhang Xing. Dynamic design and optimization of elevator based on virtual prototype technology [J]. Journal of Engineering Graphics, 2012, 33 (6): 12-15.
[38]
Ying Lean. Methods for the comfort of electromechanical products taking ascent and descent motions [D]. Shanghai: Shanghai Jiao Tong University, 2008.
[39]
Hamdi Taplak, Selçuk Erkaya, Sahin Yildirim, Ibrahim Uzmay. The Use of Neural Network Predictors for Analyzing the Elevator Vibrations [J]. Arab J Sci Eng, 2014, 10 (39): 1157–1170.
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