Affiliation:
1. Faculty of Mechanical Engineering, Technical University of Košice, Letná 9, 040 01, Košice, Slovakia
Abstract
Abstract
Development and application of pneumatic flexible shaft couplings have been in the center of our department research activities for a long time. These couplings are able to change torsional stiffness by changing pressure in their flexible elements – air bellows. Until now we have dealt with the use of pneumatic flexible shaft couplings for tuning mechanical systems working with periodically alternating load torque at steady state. Some mechanical systems, however, operate with a static load torque at constant speed (e.g. hoists, elevators, etc.), where it is necessary to consider the suitability of shaft coupling in terms of load torque at transient conditions (run-up and braking). Therefore we decided to analyze the use of pneumatic flexible shaft couplings also in this type of mechanical systems on an example of conveyor belt drive.
Subject
Mechanical Engineering,Control and Systems Engineering
Reference35 articles.
1. 1. Ankarali A., Mecitoğlu Z., Diken H. (2012), Response spectrum of a coupled flexible shaft-flexible beam system for cycloidal input motion, Mechanism and Machine Theory, 47, 89–102.
2. 2. Binglin Lv., Huajiang O., Wanyou L., Zhijun S., Gang W. (2016), An indirect torsional vibration receptance measurement method for shaft structures, Journal of Sound and Vibration, 372, 11–30.
3. 3. Bulut G. (2014), Dynamic stability analysis of torsional vibrations of a shaft system connected by a Hooke׳ s joint through a continuous system model, Journal of Sound and Vibration, 333(16), 3691–3701.
4. 4. Curà F., Mura A. (2013), Experimental procedure for the evaluation of tooth stiffness in spline coupling including angular misalignment, Mechanical Systems and Signal Processing, 40, 545–555.
5. 5. Czech P. (2012a), Diagnosis of industrial gearboxes condition by vibration and time-frequency, scale-frequency, frequency-frequency analysis, Metalurgija, 51(4), 521–524.
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