军用车辆动态悬架发达理论要素

L. Petrov, I. Kishianus, S. V. Verpivskyi, O. A. Malinovskyi, V. A. Nikishyn, S. V. Sheluhin
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引用次数: 0

摘要

军用车辆的轮式驱动装置是为了满足在临近作战区域执行技术任务的需要而设计的,但这一要求并没有得到完全满足。这与在困难条件和越野条件下执行上述任务有关。为了确保在这种条件下技术动作的强制性能和可靠性,建筑专家们将行动重点放在了改进行驶装置,特别是悬挂装置上。本文介绍了对军用车辆悬架设计的理论研究。汽车的运动是在轮式发动机的帮助下进行的,这在一定程度上满足了在临近作战区域执行技术任务的需要。主要缺点是无法满足军用车辆在越野条件下行驶的要求,有时甚至无法行驶。为了提高汽车在越野条件下行驶技术的可靠性,世界级专家的研发目标是改进悬挂系统的设计,以及军用车辆在越野条件下行驶的技术、系统的运动次数和系统质心的移动。研究的目的是改进车轮驱动装置在移动支座时的加载技术方案,将提供给车轮驱动装置的能量和车轮驱动装置中运动学分布的定量运动转化为可控的相对于汽车轮盘的运动,并增加汽车的牵引力和定量运动的便携力,这是其运动创新技术的辅助因素。这项工作的科学性和实用性在于,首次考虑了在车轮驱动装置越过障碍物的旋转过程中应用机械能变化规律的技术,即在汽车相对于轮盘的受控运动中,将汽车的牵引力与定量运动的便携力相加,向车轮驱动装置提供能量,并在车轮驱动装置中进行运动学分布的定量运动,这使我们能够更便捷地考虑在车轮驱动装置上实施扭矩。这项研究的方法是,在相对于轮盘的汽车运动控制中,在车轮驱动中运动分布的定量运动与定量运动参数以及汽车本身的动态流动性之间建立数学关系。研究成果是发展了车轮驱动中运动学分布的定量运动理论要素。在揭示 "动态发展的悬架 "概念时,使用了一些方程式,从数学角度证实了在车轮驱动中运动学分布的定量运动与汽车相对于轮盘的受控运动之间的联系,这使得在车辆运行的特定条件下可以克服道路上的障碍物和支撑面。这项研究的价值和成果将为汽车行业做出贡献。建议的汽车模型适用于提高车辆克服障碍的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ELEMENTS OF THE THEORY OF DYNAMIC DEVELOPED SUSPENSION MILITARY VEHICLE
The wheel drives of a military vehicle are intended for its movement to satisfy the performance of technological tasks in the zone close to combat, but this requirement is not fully satisfied. This is related to the performance of the above tasks in difficult conditions, in off-road conditions. In order to ensure the mandatory performance and reliability of technological movements in such conditions, construction specialists focused their actions on improving the running gear, especially the suspensions. The article deals with the theoretical research of the design of the developed suspension of a military vehicle. The movement of the car is carried out with the help of wheeled motors, which partially satisfy the performance of technological tasks in the zone close to combat. The main drawback is the fulfillment of the requirements for moving a military vehicle in off-road conditions, and in some cases, the impossibility of moving it. In order to increase the reliability of the technology of moving a car in offroad conditions, the development of world-class specialists is aimed at improving the design of its suspension, as well as the technology of moving it in off-road conditions of a military vehicle, the number of movements of the system, and the movement of the center of mass of this system. The purpose of the study is to improve the technological scheme of loading the wheel drive when it moves the support, the transformation of the energy supplied to the wheel drive and the quantitative movements kinematically distributed in the wheel drive into the controlled relative to the wheel disc movement of the car with the addition of the traction force of the car with the portable forces of quantitative movement, which is an auxiliary factor to the innovative technology of its movement. The scientific and practical direction of the work consists in the fact that for the first time the considered technology in which the law of change of mechanical energy is applied during the rotation of the wheel drive over an obstacle, i.e., the energy supplied to the wheel drive and the quantitative movements kinematically distributed in the wheel drive in the controlled motion of the car relative to the wheel disc with summing up the traction force of the car with the portable forces of the quantitative movement, and this allows us to approach the consideration of the implementation of the torque on the wheel drive more expediently. The methodology of the study was to establish a mathematical relationship between the quantitative movements kinematically distributed in the wheel drive in the car movement controlled relative to the wheel disc and the parameter of quantitative movements, as well as with the dynamic mobility of the car itself. The result of the research is the development of the elements of the theory of quantitative movements kinematically distributed in the wheel drive. When revealing the concept of "dynamically developed suspension", equations were used that mathematically confirm the connection with the quantitative movements kinematically distributed in the wheel drive in the controlled movement of the car relative to the wheel disc, which allows overcoming obstacles on the way and supporting surface in certain conditions of vehicle operation. The value of the conducted research, the results of the conducted work will allow to make a contribution to the automotive industry. The proposed car model is suitable for use in order to increase the ability of vehicles to overcome obstacles.
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