DYNAMIC STABILITY OF TWO TRACTOR FRONT-END LOADER SYSTEMS
暂无分享,去创建一个
A one-quarter scale model tractor and loader were designed, fabricated, and used in an experiment to
evaluate two tractor-loader configurations relative to stability using roll angle as the means of assessment. The nonconventional
loader system consisted of a conventional loader attached to a steerable carrier which in turn was attached
to the tractor by the front axle and drawbar of the tractor. The stabilizing axle for the non-conventional loader system was
the front axle as opposed to the conventional system in which the stabilizing axle was the rear axle. The experiment
showed that the non-conventional loader had an inherent advantage in stability as assessed by roll angle. The roll angle
was smaller at higher velocity than at lower velocity because the tires underwent greater deformation at the higher
velocity than at the lower velocity.
[1] Linus R. Walton,et al. Trail-type harvester for burley tobacco. , 1990 .
[2] Linus R. Walton,et al. Mechanical Harvesting System for Burley Tobacco , 1987 .
[3] Timothy D. Smith,et al. Automated harvesting of Burley tobacco II. Evaluation of system performance. , 1990 .
[4] Linus R. Walton,et al. A Unitized System for Handling Burley Tobacco , 1985 .
[5] Linus R. Walton,et al. Monitoring the Dynamics of Scaled Vehicles Using a Sonic Digitizer , 1996 .