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Analysis of the wheel orientation angles in lockheed F-104S starfighter aircraft

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This article contains kinematic analysis of the chassis mechanism used in Lockheed F-104S Star fighter aircraft, which is recently used by the NATO military aviation as an interceptor. The mechanism of the chassis is made up of several smaller subsystems with different functions. The first mechanism is used to eject the chassis before landing (touchdown) and fold it to hatchway after the lift off. The second mechanism is designed to perform rotation of the crossover with the wheel, in order to adjust the position of the wheel to fit it in the limited space in the hold. The third mechanism allows movement of the chassis resulting from the change in length of the damper. To determine the position of the following links of the mechanism was used calculus of vectors in which unit vectors were used to represent the angular position of the links. Often used equation, which describes a polygon vector, and the equation of unknown unit vector possible to determine if the other two and the angles between them are known. Calculations were performed in the three local systems of reference, thus were obtained the simplest forms of solutions for links positions. The corresponding scalar products of unit vectors are elements of two transition matrices. These matrices are needed for the vectors calculation in each of the three coordinate systems. The result of the analysis is to determine the angle of convergence and the angle of heel wheels as a function of variable length of hydraulic cylinder and the length of the shock absorber. It has been shown that length of the shock absorber has little effect on angle of convergence, but has a significant effect on the angle of the tilt-wheel landing gear.
Twórcy
  • CracowUniversity of Technology Faculty of Mechanical Engineering Institute of Machine Design Jana Pawła II Av. 37, 31-864 Krakow, Poland tel.: +48 12 6283408, fax: +48 12 3743360
autor
  • CracowUniversity of Technology Faculty of Mechanical Engineering Institute of Machine Design Jana Pawła II Av. 37, 31-864 Krakow, Poland tel.: +48 12 6283408, fax: +48 12 3743360
Bibliografia
  • [1] Chace, M. A., Solutions to the vector tetrahedron equation, Transactions of the ASME, Journal of Engineering for Industry, Vol. 87, Series B, pp. 228-234, 1965.
  • [2] Manuale tecnico catalog on o nomenclatore illustrato delle parti di ricambio VELIVOLO F-104S, 1974.
  • [3] Cervantes-Sanchez, J. J., Moreno-Baez, M. A., Aguilera-Cortes, L. A., Gonzalez-Galvan, E. J., Kinematic design of the RSSR-SC spatial linkage based on rotability conditions, Mechanism and Machine Theory 40, pp. 1126-1144, 2005.
  • [4] Shigley, J. E., Uicker, J. J., Theory of machines and mechanisms, McGraw-Hill Book, 1995.
  • [5] Psang, Dain Lin, Jung-Fa, Hsieh, A New Method to Analyze Spatial Binary Mechanisms with Spherical Pairs, Journal of Mechanical Design, Vol. 129, pp. 455-458, 2007.
  • [6] Reimpell, J, Betzler, J., Podwozia samochodów. Podstawy konstrukcji, WKiŁ, Warszawa 2004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-642ae499-e376-41ce-8eec-62e83bd5293c
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