多级转向架悬挂系统在行星探测车上的应用

Proceedings of 2nd International Conference on Recent Advances in Space Technologies, 2005. RAST 2005. Pub Date : 2005-06-09 DOI:10.1109/RAST.2005.1512581

O. Kilit

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引用次数: 8

摘要

在太阳系行星地形恶劣的环境下，设计出更多的动态稳定的航天器以用于探测任务是非常重要的，因为远程操纵航天器的难度很大。本文研究了新型多级转向架悬架系统在某崎岖地形车辆上的应用，以及改变该悬架系统参数对车辆稳定性的影响。首先建立了粗糙地形的数学模型。在该模型中，粗糙地形被认为是一条插值样条曲线，其中障碍物作为控制点。然后介绍了一种新型的越野车辆转向架悬挂系统。研究表明，增加转向架机构的级数可以使车辆在崎岖路面上行驶时更加稳定。为了消除惯性力的影响，假定车辆为准静态。以计算机仿真和图形的形式给出了该分析的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Application of a multi-stage bogie suspension system to the planet exploration vehicles

To design more and more dynamically stable vehicles to be able to use in exploration tasks in rough terrain environment of solar system planets is extremely important because of the difficulties in manipulating the vehicle from a long distance. In this study the application of innovative multi-stage bogie suspension system to a rough terrain vehicle and effects of changing the parameters of this suspension system on vehicle's stability has been Investigated. Firstly mathematical model of rough terrain has been created. In this model rough terrain is thought as an interpolated spline in which the obstacles are assumed as control points. Then an off-road vehicle with a new type of a bogie suspension system has been represented. It has been shown that, increasing the number of the stages of bogie mechanism results in a more stable vehicle when moving on a rough terrain. To eliminate the effects of inertia forces, vehicle is assumed as quasi-static. Solution of this analysis has been given as computer generated simulation and graphics.

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Proceedings of 2nd International Conference on Recent Advances in Space Technologies, 2005. RAST 2005.

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