Open AccessSELECTION AND CALCULATION OF STEPPER MOTORS FOR CNC
Author(s) -
M. Reytskiy,
M. Kovalenko,
Oksana Tymoshchuk
Publication year - 2021
Publication title -
energetika. ekonomìka, tehnologìï, ekologìâ
Language(s) - English
Resource type - Journals
eISSN - 2308-7382
pISSN - 1813-5420
DOI - 10.20535/1813-5420.2.2021.247419
Subject(s) - stepper , reliability (semiconductor) , switched reluctance motor , electric motor , process (computing) , torque , control engineering , stepper motor , automotive engineering , power (physics) , engineering , emphasis (telecommunications) , task (project management) , computer science , mechanical engineering , electrical engineering , systems engineering , physics , materials science , quantum mechanics , rotor (electric) , thermodynamics , nanotechnology , operating system
Today, modern technologies tend to develop rapidly. The application of advanced inventions, principles, systems and approaches allows to simplify the production process, reduce the cost of manufacturing finished products, replace monotonous manual work with automated systems and devices. The basis of the power drive of such systems are electric motors: with permanent magnets, direct current, stepper, etc. When developing any electromechanical system, the task of choosing the type of drive motor, its parameters and characteristics. This article is devoted to the choice of such an electric motor for an electromechanical system for three-dimensional plastic printing. As a result of comparative analysis of parameters and characteristics of different types of motors, it is established that bipolar stepper motors are optimal for use in low-power and small-sized systems for three-dimensional printing. This is due to the simplicity of their design, reliability and low requirements for nominal and maximum torque.