Insufficient attention is paid to the problems of verification of the methodology for selecting pneumatic propulsion tires for bridge-type power vehicles, which drive along the aligned compacted track of constant technological trace in the track and bridge farming technologies. The main aim of the article is to improve the efficiency of the bridge transport vehicle’s pneumatic wheels, follow the aligned compacted track of a constant technological track, by substantiating the rational parameters of vehicle tires. For this purpose is constructed an overhead vehicle. We obtained an optimization method has been validated via the wheels’ traction coefficient of performance as an efficiency criterion. Hence the rational parameters of the designed bridge transport vehicle allow determining wheeled propulsor with high efficiency and cost-effectiveness. The above methodology was applied in the construction of a transport vehicle moving on the ground surface of the constant technological track. Rational optimum of the main parameters depends from the diameter 1.245 m and the width 0.250 m of wheel tires, which corresponds to the tire 9.5R32 and the performance coefficient 0.86.

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