半挂车牵引车气动液压第五轮联轴器结构参数优化

V. Nikonov, Valeryi I. Posmetyev, Andrey Yu. Manukovskii, V.V. Posmetyev, Alexander V. Avdyuhin
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引用次数: 0

摘要

在本研究中,研究了在现代条件下使用半挂车运输钻机进行伐木运输的效益,该钻机由一辆卡车拖拉机连接到半挂车上。此外,还分析了在不充分安排的道路条件下使用原木公路列车的业务影响。本文阐述了半挂车效率优化的潜在科学方向。提出了一种改进的再生式第五轮联轴器结构。它提供了更好的可靠性,降低了原木卡车的油耗,为驾驶员提供了更好的工作条件,同时减少了在非定常模式下运动过程中各单元之间的动载荷。研究方法包括多因子优化数学框架的应用。推导了计算再生式第五轮联轴器性能效率的解析公式。揭示了再生式第五轮联轴器液压缸活塞行程值与装载半挂车重量、车辆加速和制动时的加速度以及闭锁机构性能指标的变化之间的关系。确定了液压缸活塞行程的最优值为200mm。它提供了6.5 kW的功率回收,并在0.72 m/s2的纵向加速度下提供了更好的半挂车。此外,还发现,在速度和制动从1到3 m/s2的增加过程中,加速度的变化使回收功率从2.2变化到6.8 m/s2。同时,半挂车的平均纵向加速度在0.27 ~ 0.75 m/s2之间变化。将半挂车的载重从5吨增加到25吨,可以将回收功率从1.6 kW增加到7.9 kW,并将半挂车的纵向加速度从2.8 m/s2降低到0.53 m/s2。给出了再生式第五轮联轴器直径和液压缸活塞行程值对半挂车再生功率和纵向加速度的影响图和优化图。根据优化图,采用图解析法确定了平均再生功率。等于6.5 kW,再生液压缸直径为110 mm,液压缸活塞行程为200 mm。出处:Posmetyev V.I, Nikonov V.O., Manukovskii A.Yu。张建军,张建军。半挂车牵引机气动液压第五轮联轴器结构参数优化。俄罗斯林业杂志,2023年第1期。3,第126-139页。(俄国人)。https://doi.org/10.37482/0536-1036-2023-3-126-139
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Optimization of Structural Parameters by Improvement of Pneumohydraulic Fifth-Wheel Coupling Device at Semitrailer Hauling Rig
In this study, the benefits of logging transportation under modern conditions by semitrailer hauling rig are examined, which consists of a truck tractor connected to a semitrailer. Furthermore, an analysis is made of the operational implications of using log road trains in insufficiently arranged road conditions. The article describes the potential scientific directions that can optimize the efficiency of semitrailer trucks. An improved construction of a regenerative fifth-wheel coupling device is proposed. It provides better reliability, reduces fuel consumption for log trucks, and gives better working conditions for drivers, along with reduced dynamic loads between the links of the units that occur during the movement in unsteady modes. The research methodology includes the application of the mathematical framework of multifactorial optimization. The specified analytical formulas are derived to determine the performance efficiency of the regenerative fifth-wheel coupling. It is revealed the connections between the hydraulic cylinder piston stroke values of the regenerative fifth-wheel coupling device, the weight of the loaded semitrailer, the vehicle acceleration during speeding up and braking, and the modifications of the performance indicators of the latching mechanism. The optimal value of the stroke of the pistons of the hydraulic cylinder is determined, which is 200 mm. It provides a power recovery of 6.5 kW and better longitudinal acceleration of the semitrailer at 0.72 m/s2. Moreover, it is found that the change in acceleration during the increase in velocity and braking from 1 to 3 m/s2 gives the change in recuperated power from 2.2 to 6.8 m/s2. At the same time, the average longitudinal acceleration of the semitrailer varies from 0.27 to 0.75 m/s2. Changing the load of the semitrailer from 5 to 25 tons allows increasing the recuperated power from 1.6 to 7.9 kW and reducing the longitudinal acceleration of the semitrailer from 2.8 to 0.53 m/s2. The influence graphs and optimization cartograms present the diameter and hydraulic cylinder piston stroke values of the regenerative fifth-wheel coupling device on the regenerated power and longitudinal acceleration of the semitrailer. According to the optimization cartograms, the average regenerative power is determined using a graph-analytical method. It is equal to 6.5 kW with the diameter of a regenerative hydraulic cylinder of 110 mm and a hydraulic cylinder piston stroke of 200 mm. For citation: Posmetyev V.I., Nikonov V.O., Manukovskii A.Yu., Posmetyev V.V., Avdyuhin A.V. Optimization of Structural Parameters by Improvement of Pneumohydraulic FifthWheel Coupling Device at Semitrailer Hauling Rig. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 3, pp. 126–139. (In Russ.). https://doi.org/10.37482/0536-1036-2023-3-126-139
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