机构地区:[1]军械工程学院弹药工程系,石家庄050003 [2]陆军军械技术研究所,石家庄050003 [3]第一拖拉机股份有限公司第三装配厂,洛阳471004 [4]军事交通学院,天津300161
出 处:《农业工程学报》2016年第21期79-86,共8页Transactions of the Chinese Society of Agricultural Engineering
基 金:军内重点科研项目(装司2012655号);国家自然科学基金资助项目(61471385);陆军通用弹药导弹技术保障重点实验室资助项目
摘 要:橡胶履带轮是一种能够与轮胎整体快速互换,降低接地比压、提升越野机动能力的特殊行走装置。该文以某型四橡胶履带轮式车辆转向系统为研究对象,首先通过建立断开式转向梯形机构数学模型,得到内轮、外轮转角与油缸位移关系,以及转角特性曲线;通过转向油压测试,得到两轮和四轮转向时转向油缸输出最大转向驱动力及其随左前轮转向角变化曲线。然后对履带轮在混凝土地面上转向受力分析,建立最大平均转向阻力矩数学模型,得到单轮最大平均转向阻力矩。最后提出了基于转向杆件应力应变测试分析转向阻力矩的方法,得到履带轮在混凝土地面2轮和4轮原地转向时转向阻力矩随转角变化的规律,对比分析最大总转向驱动力矩与总转向阻力矩,验证了数学模型和该分析方法的正确性。该文的研究也可对四履带轮式车辆转向系统的结构参数设计和履带轮的接地尺寸、接地比压、轮系布置研究提供参考。Rubber tracked assembly is a special walking device which can overall swap with the tire quickly, reduced ground pressure and enhanced off-road ability of wheeled vehicles. In this paper, a divided steering linkage mechanism of four-rubber tracked vehicle steering system was studied. First, through the mathematical model of divided steering linkage mechanism to obtain the relationship between internal, external steering angle, and displacement of the hydro-cylinder, then steering angle characteristics curves can be drawn when two and four tracks turning. The internal steering angle was 50°, and the external steering angle was 38°. By testing the oil pressure of steering system, maximum steering driving force output by the steering hydro-cylinder was obtained. By establishing the maximum steering driving torque mathematical model, the trend of the maximum steering driving moment change with steering angle of the left front track was obtained. When two tracks turning, the initial steering driving moment of the front axle were the same, which was reduced with the growth of the left front track steering angle, and the steering driving moment of internal decreased faster. When four tracks turning, the steering driving moment of rear axle was significantly smaller than the front axle, and the initial steering driving moment of front and rear axle were the same, which was reduced with the growth of the left front track steering angle. Then, the force of tracks on the cement hard ground was analyzed, and the mathematical model of the maximum average steering resistance moment was then established. Finally, a method based on the stress and strain test of the steering bar to analyze the steering resistance moment was proposed, which helped to obtain the change law of the steering resistance torque when the rubber tracked assembly turned on the concrete ground. When the front axle was turned left to the end, the steering resistance moment of the right front track was advanced with the growth of the rotation angle, and the
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