An improved method for lateral surface development of a circular truncated cone using vertical projection and its applications

Abstract

In the field of mechanical engineering, particularly within the automotive, shipbuilding the utilization of metal sheets to create intersecting componentsis of great importance. However, the precise development of the circular surfaces that intersect with the circular truncated conical surface poses a critical challenge. It is essential to establish the intersection and accurately represent it on engineering drawings. This paper aims to overcome the limitations of existing approximate methods for the 2D development of circular truncated conical surfaces. This research offers a comprehensive solution for the accurate development of circular truncated cones, thereby enhancing precision and efficiency in engineering designs within industries such as automotive, shipbuilding, and pipeline engineering. By providing a quick and versatile development method based solely on vertical projection, contribute to the advancement of practical applications in these industries.