Efficiency of use of machine and tractor units operating with elastic damping drives of driving wheels

Traktory i sel hozmashiny Pub Date : 2021-12-15 DOI:10.17816/0321-4443-2021-6-76-81

O. Polivaev, S. N. Pilyaev, Dmitry B. Bolotov

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Abstract

Nowadays an urgent direction in agriculture is the issue of increasing the volume of production. In order to do this, it is necessary to have powerful energy facilities operating at high speed modes. But at the same time, the increased vibrations appear in the tractor transmission, which are transmitted from the soil. These fluctuations negatively affect the units and assemblies of the mobile power plant, lead to an increase in the consumption of fuel and lubricants, a deterioration in the ride smoothness, and also have a negative effect on the health of the vehicle operator. For this reason, it is necessary to improve the design of modern mobile power tools. Analysis of works on this topic has shown that the most effective way to protect against dynamic loads from external influences is the setting of elastic elements in the final link of the transmission. The paper analyzes various designs of elastic damping drives (EDD). The design of the EDD of driving wheels was proposed (utility model patent of the Russian Federation No. 203460). The proposed blade EDD is rigidly fixed on the wheel disk and has two cavities. The forward stroke cavity is connected to two gas-hydraulic accumulators, one of which has an adjustable throttle, and the second cavity of the return stroke is connected to one gas-hydraulic accumulator. Both cavities of the damper are filled with a magneto-rheological fluid, which viscosity changes by electromagnetic coils, depending on changes in the oscillations of the moment on the semi-axes. The drives were installed on the MTZ-80.1 tractor. The studies were carried out as part of transport and arable units. When working with a transport unit on a dirt road due to the EDD the slipping of the propellers is reduced and the speed of movement is increased by 69 %. When the tractor is plowing, the skidding of the propellers is reduced by 1016 %, and the speed of movement is increased by 712 %. This increases the productivity of the tractor unit by 612 %.

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采用驱动轮弹性阻尼驱动的机械和拖拉机装置的使用效率

当今农业的一个紧迫方向是提高产量。为了做到这一点，有必要拥有以高速模式运行的强大能源设施。但与此同时，增加的振动出现在拖拉机传动中，这是由土壤传播的。这些波动对移动发电厂的单元和组件产生负面影响，导致燃料和润滑剂消耗增加，行驶平稳性恶化，并对车辆操作员的健康产生负面影响。为此，有必要改进现代移动电动工具的设计。对这一课题的分析表明，在传动的最后环节设置弹性元件是防止外部动载荷影响的最有效方法。本文分析了弹性阻尼传动的各种设计。提出了驱动轮EDD的设计(俄罗斯联邦实用新型专利No. 203460)。所提出的刀片EDD是刚性固定在轮盘上，并有两个腔。所述前冲程腔连接两个气液蓄能器，其中一个气液蓄能器具有可调节流阀，所述回冲程第二腔连接一个气液蓄能器。阻尼器的两个腔内都充满了磁流变流体，电磁线圈会根据半轴上力矩振荡的变化改变其粘度。驱动器安装在MTZ-80.1拖拉机上。这些研究是作为运输和耕地单位的一部分进行的。当运输单位在土路上工作时，由于EDD，螺旋桨的滑动减少，运动速度提高了69%。拖拉机犁地时，螺旋桨打滑减少了1016%，运动速度提高了712%。这使拖拉机的生产率提高了612%。

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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