Algorithm for calculating the time of thermal pulse processing of small-sized high-precision parts

Abstract

The thermal impulse method of deburring is one of the most promising methods for removing unwanted liquids formed on the surface of small-sized high-precision parts of electronic equipment at the stage of blade machining. The thermal impulse method of deburring and rounding of sharp edges is characterized by constant processing time and quality, subject to the normalized size of liquids. Such qualities can significantly increase the stability of the release of parts in time, and, thanks to this, successfully implement a system of operational scheduling of production. This article describes an algorithm for calculating the time for thermal pulse processing of small-sized parts of coaxial radio components. An example of a basic generalized calculation of the time spent on thermal impulse processing of typical parts using a Pulsar-VKF thermal impulse installation of various configurations is given. Taking into account the peculiarities of thermal pulse processing of parts of coaxial radio components, a method for calculating the batch size and thermal pulse processing time, subject to algorithmization, is developed, conditions and restrictions, input and output information for the algorithm are described. Formulas for calculation are given.