THEORETIC AND EXPERIMENTAL DETERMINATION OF THE FLOW RESISTANCE COEFFICIENT AT GASEOUS MEDIUM FLOW INTO AND OUT OF THE PNEUMATIC COUPLING

• Main Author: Matej URBANSKÝ
• Format: Article
• Language: English
• Published: Silesian University of Technology 2014-12-01
• Series: Scientific Journal of Silesian University of Technology. Series Transport
• Subjects: continuous tuning of mechanical system; pneumatic flexible shaft coupling; gaseous medium pressure change; transitional effect of the system; gaseous medium flow; flow resistance coefficient
• Online Access: http://www.polsl.pl/Wydzialy/RT/ZN_T/pelne_teksty/z85/119_ZN85_2014_Urbansky.pdf
• ISSN: 0209-3324; 2450-1549

In order to continuous tuning of the torsional oscillating mechanical system during its operation, we are making use of application of the pneumatic flexible shaft couplings, developed by us. By the gaseous medium pressure change in pneumatic couplings we can change its torsional stiffness and thereby the dynamics of whole system too. In term of dynamics is necessary to know the transitional effects of mechanical system, which are arising at its continuous tuning. For the numerical computation of these transitional effects it is necessary to know the values of flow resistance coefficients at gaseous medium flow into the compression space of pneumatic coupling from the pressure tank and out of compression space into the atmosphere. For that reason presents this paper theoretic and experimental procedure of given coefficients determination.