CASPIAN JOURNAL

MANAGEMENT AND HIGH TECHNOLOGIES

DEVELOPMENT OF IMITATING MODEL OF SKIP MOTION IN THE PROGRAM ENVIRONMENT ANSYS MAXWELL

Read Zhautikov Bakhyt A., Aikeyeva Altyn A., Zhautikov Farkhat B., Rogovaya Xenia S., Mukhtarova Perizat A., Tanskozhanova Aigerim R., Ayubekova Arailym E. DEVELOPMENT OF IMITATING MODEL OF SKIP MOTION IN THE PROGRAM ENVIRONMENT ANSYS MAXWELL // Caspian journal : management and high technologies. — 2016. — №3. — pp. 81-91.

Zhautikov Bakhyt A. - First vice-rector, D.Sc. (Engineering), Professor, Atyrau State University of the name of H. Dosmukhamedov, bakhyt.zhautikov@atgu.kz

Aikeyeva Altyn A. - C.Sc. (Engineering), Associate Professor, Karaganda State University the academician E. A. Buketov, aikeeva@mail.ru

Zhautikov Farkhat B. - Master of technical science, Karaganda State Industrial University, farhat_zhautikov@mail.ru

Rogovaya Xenia S. - Master of technical science, Karaganda State University the academician . A. Buketov, ksusharogovaya@mail.ru

Mukhtarova Perizat A. - student, Asia Pacific University of Technology and Innovation, mukhtarova_p@mail.ru

Tanskozhanova Aigerim R. - undergraduate, Karaganda State University the academician E. A. Buketov, aika_3093@mail.ru

Ayubekova Arailym E. - student, Karaganda State University the academician E. A. Buketov, araika1995@mail.ru

Authors shows the importance of using electromagnetic lifting equipment (EmLE) in the task of movement of goods, including in the mines. The expediency of EmLE simulation on a computer along with laboratory studies using reduced models-analogues. The developed model of the movement of the skip in the mine shaft, the principle of which is based on the effect of magnetic levitation. The method consists in the fact that the skip located above or under the permanent magnets, and along the entire height of the shaft is proposed to place the turns of the coil. In this case, skip the permanent magnet moves in the barrel through the coil. With the passage of permanent magnets through the coil, a magnetic field, which allows to skip needed speed for moving it up. The development of the simulation model was performed in ANSYS Maxwell. The objective of the modeling was to identify the main magnetic parameters of the elements of the installation: the Lorentz force, magnetic field intensity and magnetic induction. According to calculated parameters is composed of graphical charts and built engineering functions in the form of equations with several variables.

Key words: электромагнитная подъемная установка, скип, постоянные магниты, магнитная левитация, имитационное моделирование, программа ANSYS Maxwell, сила Лоренца, напряженность магнитного поля, магнитная индукция, electromagnetic lifting installation, skip, permanen