以楔块为例,探讨了耕地机械工作机构的计算机设计原理

D.P. Petrosyan, D.R. Khazhakyan
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引用次数: 0

摘要

理论和实验研究结果表明,地基车辆的阻力主要取决于耕作环境的状态、工作机构的特性、结构参数和系统的运动状态。土壤比阻的增大严重阻碍了工作机构的工作,影响了工艺进程。为了模拟土壤与工作机构之间的相互作用,计算机自动设计的可能性已经得到了研究。通过SOLIDWORKS软件工具比较土壤张力和变形值可以得出结论,楔形叶片角度增加3倍,土壤应变增加24%,垂直变形增加一倍。同时,在工作机构的设计过程中,可以获得不同参数之间的功能联系,观察这些联系的本质,改进工作机构的结构。
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Computer designing principles of the working organ of land cultivation machines upon the wedge example

By the results of theoretical-experimental research is approved that the drag resistance of the groundwork vehicles mainly depends on the state of cultivated environment, properties, structural parameters of working organ and kinematic regime of system [1].

Increasing soil specific resistance results in serious obstacles of the work of the working organ and deterioration of the technological process.

For modeling the interaction between the soil and the working organs have been studied computerized automated design possibilities. Comparison of soil tension and deformation values by SOLIDWORKS software tool allows you to conclude that the 3-fold increase in the angle of the wedge blade to a 24% increase in soil strain and the vertical deformation doubles. Simultaneously, during the design of the working organs, it is possible to obtain functional connections between different parameters, observing the essence of these connections and improving the structure of the working organ.

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