Актуальные проблемы в машиностроении

. Том 4. № 3. 2017

Технологическое оборудование,

оснастка и инструменты

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14. Патент 2526852, H 02 K 33/02, H 02 K 1/06. Электромагнитный двигатель

(варианты) / Л.А. Нейман, В.Ю. Нейман, О.В. Рогова. – № 2012146808/07; заявл. 01.11.12;

опубл. 27.08.14, Бюл. № 24. – 7 с.

15. Патент 149508, H 02 K 33/02. Электромагнитный двигатель / В.Ю. Нейман, Л.А.

Нейман, О.В. Рогова. – № 2014106191/07; заявл. 19.02.12; опубл. 10.01.15, Бюл. № 1. – 2 с.

16.

Мошкин В.И., Нейман В.Ю., Угаров Г.Г.

Импульсные линейные

электромагнитные двигатели. – Курган: Изд-во Курган. гос. ун-та, 2010. – 220 с.

17.

Rogova О.V.

Electromagnetic motor with an active teeth-slot zone for vibration

technologies // Applied Mechanics and Materials. – 2015. – Vol. 792: Energy Systems, Materials

and Designing in Mechanical Engineering. – P. 67–72.

RESEARCH OF STATIC THRUST CHARACTERISTICS OF THE

ELECTROMAGNETIC MOTOR WITH TOOTH-SLOTS AREA VIBRATING

COMPRESSOR

Rogova O.V.

, Senior Lecturer, e-mail:

rogova@corp.nstu.ru

Tyulyahova A.A.

, Student, e-mail:

yanagrin@inbox.ru

Paul О.Е.,

Student, e-mail:

newlur@mail.ru

Neyman

V.Yu

.

,

D.Sc.

(Engineering), Professor, e-mail:

nv.nstu@ngs.ru

Novosibirsk State Technical University, 20, Prospect K. Marksa, Novosibirsk, 630073, Russian

Federation

Abstract

Work is devoted to research of static traction characteristic linear electromagnetic motor with an

active area of the tooth-slot. Presented study of finite element model of a linear electromagnetic

motor of the tooth-slot area, providing high accuracy of static thrust values. It is found that the

maximum values of the relative error of the static thrust produced during the numerical experiment,

no more than 4% compared with the experimental results. Results of the study can be used in the

study of linear electromagnetic motors with an active area of the tooth-slot involving finite element

modeling.

Keywords

vibrating technologies, cylindrical electromagnetic motor, gear magnetic circuit, finite element

modeling