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Title of the article

ESTIMATION OF VIBRATION ON A BERTH OF DRIVER OF TRUCK

Authors

MIKHAILOV Vladimir G., Cand. Tech. Sc., Leading Engineer, OSC "Midivisana", Minsk, Republic of Belarus, E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

MISHUTA Dmitry V., Cand. Tech. Sc., Adviser of the General Director for Foreign Economic Relations, OSC "Midivisana", Minsk, Republic of Belarus, E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

In the section ENGINEERING COMPONENTS
Year 2016 Issue 2 Pages 29-33
Type of article RAR Index UDK 629.113.073 Index BBK  
Abstract

Questions of a mode of behaviour and rest of drivers, vibrations on a berth of the truck, the influencing road traffic safety are considered. It is noticed that drivers can spend a considerable part of time to ways at long trips on a berth and vibration negatively affect their condition. Together the driver spends a considerable part of time to ways on a berth and vibration negatively affect its condition. The mathematical model of fluctuations of the driver on a berth and the blocksheme of its realisation in package Matlab/Simulink is offered, allowing a settlement way to define level of vibrations on a berth. Probe of influence of a layer pad of a pillow on level of vibrations on a berth is conducted. The estimation of level of vibrations on a lorry berth is given. It is revealed that in 1/3 oktave bands of frequencies 2,5; 3,1; 4 Hz excess of level of admissible vibrations on 25-50 % takes place. To lower level of vibrations it is possible only by perfection of the basic suspender of the truck. It is established that change of a thickness of a layer pad of a pillow of a berth practically does not influence change of level of vibrations of the driver in a prone position. The choice of a thickness of a layer pad for a seat pillow is more caused by physiological factorsmaintenance of an equal distribution of pressure upon a body of the driver and blood circulation system. To lower level of vibrations it is possible by application springs with small number of sheets or a berth or cabin pneumocushioning.

Keywords

truck, vehicle, pillow layer pad, a berth, vibration, modelling of fluctuations on a berth of the driver

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Bibliography
  • Ye Sun, Xiong Yu, Jim Berilla, Zhen Liu, Ye Sun, Guangxi Wu. An in vehicle physiological signal monitoring system for Driver fatigue detection. Transportation Research. Part C: Emerging Technologies. Proc. the 3rd International Conference on Road Safety and Simulation. USA, Indianapolis, 2011, September 14-16.
  • Wendy M. Troxel, Todd C. Helmus, Flavia Tsang, Carter C. Evaluating the Impact of Whole-Body Vibration (WBV) on Fatigue and the Implications for Driver Safety. Research Report. Available at: www.rand.org/t/rr1057/ (accessed 8 January 2015).
  • Filiatrault, Daniel D., John Vavrik, Boris Kuzeljevic, Peter J. Cooper. The Effect of Rest-Schedule Orientation on Sleep Quality of Commercial Drivers. Annual Proceedings Association for the Advancement of Automotive Medicine, 1999, vol. 43, pp. 329-343.
  • Ishimatsu Kazuma, Nobuyuki Shibata, Setsuo Maeda. Effectsof whole-body vibration on visual information processing. Japanese Journal of Psychonomic Science, 2009, vol. 28, no. 1, pp. 179-180.
  • Mabbott Nick, Gary Foster, Barbara McPhee. Heavy vehicle seat vibration and driver fatigue. Canberra, Australian Transport Safety Bureau, department of Transport and Regional Services, July 2001, report number CR 203. Available at: https://infrastructure.gov.au/roads/safety/publications/2001/pdf/ Fatig_Trans_8.pdf (accessed 8 January 2015).
  • Mikhailov V.G. Issledovanija sistemy podressorivanija siden’ja voditelja gruzovogo avtomobilja. Diss. kand. tehn. nauk [Research of system of a Suspender of a seat of the driver of the truck. Cand. tech. sci. diss.]. Minsk, 1982, BPI. 231 p.
  • Mikulik T.N. Opredelenie vlijanija parametrov podveskis iden'ja voditelja na vibracionnuju moshhnost’ [Definition of influence of parametres of a suspender of a seat of the driver on vibrating capacity]. Gruzovik [The autotruck], 2008, no. 4, pp. 33-34.
  • Hachaturov A.A. Dinamika sistemy "doroga - shina - avtomobil’ - voditel" [Dynamics of system "road - the tyre - the car - the driver"]. Mashinostroenie, 1976. 535 p.
  • Shishkin V.I. Dinamicheskie i jergonomicheskie issledovanija I optimizacija harakteristik vzaimodejstvija voditelja i avtomobilja. Diss. kand. tehn. nauk [Dynamic both ergonomic probes and optimisation of characteristics of interaction of the driver and the car. Cand. tech. sc. diss.]. Gorky, 1977. 234 p.
  • Mikhailov V.G. Analiz modelej trenija v podveskah transportnyh sredstv [The analysis of friction models in suspentions of vehicles]. Trenie i iznos [Friction and deterioration], 2014, vol. 2, no. 35, pp. 198-206.
  • Mikhailov V.G., Mishuta D.V. Analiz vibronagruzhennosti shtabnoj mashiny [The analysis of vibration of the staff car]. Sb. nauch. Trudov Voennoj Akademii Resp. Belarus’ [Col. Science Works of Military Academy Rep. Belarus], 2016, no. 1, pp. 88-92.
  • GOST 31191.1-2004 (ISO 2631-1:1997) Vibracija i udar. Izmerenie obshhej vibracii i ocenka ee vozdejstvija na cheloveka. Chast’ 1. Obshhie trebovanija [Vibration and blow. Measurement of the general vibration and an estimation of its influence on the person. Part 1. General requirements]. Moscow, Standartinform Publ., 2004. 10 p.
  • Mikhailov V.G. Ocenka jeffektivnosti sistem podressorivanija gruzovogo avtomobilja [Estimation of efficiency of systems of a cushioning of the truck]. Avtomobil’naja promyshlennost’ [Automobile industry], 2016, no. 5, pp. 16-20.