Designing the working surfaces of rotary planetary mechanisms

Q3 Engineering
I. F. Alrefo, O. Matsulevych, O. Vershkov, S. Halko, O. Suprun, O. Miroshnyk
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引用次数: 0

Abstract

Purpose. To design a method for smoothing the working surfaces of stator and rotor with the use of computer simulation to eliminate the impact of the rotor on the stator when they interact. Methodology. Special and general methods of research have been used: interpolation of the point series – to determine the contour nodes of the rotor and the stator of the rotary-planetary machine; formation of B-splines – to construct a point series whose coordinates are structurally determined; technology of automated formation of curves in CAD-system SolidWorks – for modelling of functional surfaces of a planetary-rotary compressor. Findings. Algorithms for formation of the contours representing curves defined analytically or constructively with a given accuracy have been developed. The obtained contours are used in the CAD system as linear elements of the surface model. The developed method has been tested in the simulation of functional surfaces of a planetary-rotary compressor. Optimization of the body shape and rotor profiles in order to increase the productivity of the rotary-planetary machine has been carried out. Originality. The developed algorithms make it possible to determine the original point series belonging to any curve and provide a given interpolation accuracy when forming a B-spline contour or second-order curve arcs. Computer models of the body surfaces of the rotor are formed on the basis of the gear ratio of the planetary-rotary mechanism and the rotor dimensions. In order to increase the performance of the compressor, the working surfaces of the rotor have been optimized. The maximum volume of the working chamber was increased by increasing the radius of the moving gear of the planetary-rotary mechanism. In order to prevent the rotor from jamming during compressor operation, the rotor contour was changed. Practical value. The method for modelling the surfaces of complex shape in CAD-system has been developed on the basis of creating contours which with given accuracy represent lines from the surface determinant. This method makes it possible to form computer models of complex surfaces on the basis of a framework consisting of curves absent in CAD libraries.
旋转行星机构工作面的设计
意图设计了一种利用计算机模拟对定子和转子工作表面进行平滑处理的方法,以消除它们相互作用时转子对定子的影响。方法论已经使用了特殊和通用的研究方法:点序列的插值——确定旋转行星机转子和定子的轮廓节点;B样条的形成——构造坐标由结构决定的点序列;在CAD系统SolidWorks中自动形成曲线的技术——用于行星旋转压缩机功能表面的建模。调查结果。已经开发了用于形成表示以给定精度解析或构造定义的曲线的轮廓的算法。所获得的轮廓在CAD系统中被用作表面模型的线性元素。所开发的方法已在行星旋转压缩机功能表面的模拟中进行了测试。为了提高旋转行星机的生产率,对机身形状和转子轮廓进行了优化。独创性所开发的算法可以确定属于任何曲线的原始点序列,并在形成B样条曲线轮廓或二阶曲线弧时提供给定的插值精度。根据行星旋转机构的齿轮比和转子的尺寸,建立了转子体表面的计算机模型。为了提高压缩机的性能,对转子的工作表面进行了优化。通过增大行星旋转机构运动齿轮的半径,增大了工作室的最大容积。为了防止转子在压缩机运行过程中卡住,对转子轮廓进行了更改。实用价值。在CAD系统中,复杂形状的表面建模方法是在创建轮廓的基础上开发的,该轮廓以给定的精度表示表面行列式中的线。这种方法使得在由CAD库中没有的曲线组成的框架的基础上形成复杂曲面的计算机模型成为可能。
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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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
148
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