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The influence of the conditions of use and the type of model used on the vertical dynamic responses of a car suspension

Klockiewicz Zbyszko, Śląski Grzegorz, Spadło Mikołaj

Archiwum Motoryzacji

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2019

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Vol. 85, nr 3

57--82

EN

The article presents a study of the influence of vehicle’s conditions of use, such as road class, vehicle speed or its load, on its vertical dynamic responses. In the article only the kinematic excitations were analysed, as these are more common than the dynamic ones. The road profiles were artificially generated according to the ISO 8608 standard, which classifies roads based on power spectral density of excitations which they generate. Ride safety, ride comfort and fatigue strength indicators were computed. Ride safety was defined by the DLC – Dynamic Load Coefficient. Ride comfort was judged taking into consideration the recommendations from the ISO 2631 standard (which contains the information on vibration frequencies and their effect on human body, as well as the allowed exposure times to given vibrations) by calculating root mean square values of sprung mass accelerations for bandwidths defined in the standard. Load spectrums for the fatigue analysis were created using forces generated in a simulation as a basis and further research venues were proposed. Lastly conclusions were drawn from the results, that imply that linear models are sufficient for many standard applications on roads of acceptable quality, however the use of non-linear models is recommended in fatigue strength analysis regardless of conditions of use.

2

Experimental verification of the steering performance of all-hydraulic crawler chassis

Lv X., Shi X., Lv X., Wang T.

Engineering Transactions

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2018

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Vol. 66, iss. 4

427--442

EN

The force conditions in the steering system of the chassis under different conditions are analyzed theoretically for the independently designed and developed all-hydraulic crawler chassis. Using the multi-body dynamic simulation software RecurDyn, the chassis steering performance on sandy loam and clay pavements, and the steering performance under different steering radiuses on the sandy loam pavement are simulated and analysed dynamically respectively. The steering resistance moment is studied when the pavement conditions and steering radius are different. This research selects inside and outside crawler slip ratio as an index, and road conditions, speed and steering radius as factors to test the steering performance of all-hydraulic crawler chassis under different operating conditions. It is observed from the simulation results that during the pivot steering on the sandy loam, the drive torque and braking torque of the driving wheel are larger than on the clay ground. With the decrease of the steering radius, the torques of the left and right driving wheel are both gradually increasing. In the same steering radius, the torque of the outside driving wheel is larger than that of the inside driving wheel. The simulation results are consistent with the theoretical analysis results. In the steering performance test, the factors influencing the slippage rate on both sides of the crawler are such that the influence of the steering radius is greater than that pf the pavement condition and the pavement condition influence is greater than that of the speed. Among them, the steering radius has a significant influence on the slip ratio of the inside crawler, and an extremely significant influence on the slip ratio of the outside crawler. This research can provide a certain theoretical basis and technical reference for the development of hydraulic crawler chassis and optimization of the steering system.

3

Modelling the dynamics of a drive of boom-type roadheader cutting heads at adjustable angular speed

Cheluszka P., Kaula R., Heyduk A., Gawlik J.

Archives of Mining Sciences

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2018

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Vol. 63, no. 1

183--204

EN

The article presents a dynamic model of a drive system of cutting heads of a boom-type roadheader equipped with an inverter system. Such roadheaders are used in underground mining for the mechanised drilling of roadways and for tunnelling in civil engineering. If the created mathematical model takes into account the electromagnetic effects accompanying the work of an asynchronous motor and an adjustable source of the motor power supply (inverter), dynamic effects can be simulated in the drive system working at different, angular velocities of cutting heads with stepless adjustment. The created mathematical model was implemented in Matlab/Simulink environment. The so established simulation model allows to perform numerical investigations, in particular for the purpose of optimisation of the values of the cutting process parameters, including the selection of cutting heads’ angular speed in the aspect of reducing dynamic loads and minimising the energy consumption of the cutting process. The representation of the inverter system dynamics allows to analyse the dynamic loads of all the key elements of the drive of the cutting heads – a drive motor, the parts of the system of power transmission onto cutting heads, equipped with a multistage transmission gear, and (allows) to examine the behaviour of an inverter system in its different operational modes.

PL

W artykule przestawiono model dynamiczny układu napędowego głowic urabiających wysięgnikowego kombajnu chodnikowego wyposażonego w układ przekształtnikowy. Kombajny tego rodzaju stosowane są w górnictwie do zmechanizowanego drążenia wyrobisk korytarzowych oraz tuneli w budownictwie inżynieryjnym. Uwzględnienie w opracowanym modelu matematycznym zjawisk elektromagentycznych towarzyszących pracy silnika asynchronicznego oraz sterowanego źródła zasilania silnika (falownika) pozwala na symulowanie zjawisk dynamicznych w układzie napędowym pracującym przy różnych, regulowanych bezstopniowo prędkościach kątowych głowic urabiających. Utworzony model matematyczny został zaimplementowany w środowisku Matlab/Simulink. Uzyskany w ten sposób model symulacyjny pozwala na realizację badań numerycznych, między innymi dla potrzeb optymalizacji wartości parametrów procesu urabiania, w tym doboru prędkości kątowej głowic urabiających w aspekcie redukcji obciążeń dynamicznych i minimalizacji energochłonności procesu urabiania. Odwzorowanie dynamiki układu przekształtnikowego umożliwia analizę obciążeń dynamicznych wszystkich kluczowych elementów napędu głowic urabiających – silnika napędowego, elementów układu przeniesienia napędu na głowice urabiające wyposażonego w wielostopniową przekładnię zębatą oraz badanie zachowania się układu przekształtnikowego w różnych stanach jego pracy.