DEVELOPMENT OF TECHNOLOGY FOR FORMING CAD-MODELS OF TECHNICAL PRODUCTS

Abstract

on linear frames. The geometric characteristics of the frame elements (curved lines) determine the functional properties of the simulated surfaces. The modeling technique in the CAD system of surfaces of complex shape, based on the formation of contours that represent lines from the surface determinant with a given accuracy is proposed in this article.
The developed algorithms make it possible to determine the initial point series that belongs to any curve of the line and provide the specified interpolation accuracy when forming the contour. The software created on the basis of the developed technique was tested in modeling the functional surfaces of a planetary rotary compressor.
Models of the surfaces of the housing and rotor are formed based on the gear ratio of the gearing of the planetary-rotor mechanism and the dimensions of the rotor. In order to increase the compressor performance, optimization of the rotor working surfaces has been performed. The maximum volume of the working chamber is increased by increasing the radius of the movable gear of the planetary-rotor mechanism. In order to prevent jamming of the rotor during compressor operation, the rotor contour was changed. The initial contour of the formed circle was replaced by a contour interpolating a point row whose nodes were determined by a specially developed algorithm. The algorithm is based on determining the relative position of the body and rotor circuits at various times of the compressor. Modeling the compressor working surfaces required the formation of linear frame elements based on a point series obtained from the analytical representation of the curve and a point series obtained constructively.
The disadvantage of the proposed method is that it is based on the formation of only flat contours. The task of further research is the interpolation with a given accuracy of the point series that belong to spatial curved lines.