Научная электронная библиотека ULRICH'S Periodicals Directory

Сибирский государственный университет
науки и технологий имени академика М.Ф. Решетнева

Сибирский аэрокосмический журнал
ISSN 2712-8970 (Print) ISSN 2782-5760 (on-line)

Сведения об образовательной организации

UDK 629.7.05
REACTION WHEELS WITH MAGNETIC-HYDRAULIC BEARINGS
D. V. Ermakov
SС “Scientific&Industrial Сentre “Polyus”56v, Kirov Av., Tomsk, 634041, Russian Federation E-mail: POLUS@ONLINE.TOMSK.NET
To reduce the disturbing mechanical moments, generated by bearing side of rotating and increase the service life of reaction flywheel included in the system of orientation and stabilization system of the spacecraft, it is proposed to apply magnetohydraulic bearing instead of ball bearing assemblies for rotating flywheel. Magnetic fluid is the main element of magnetohydraulic bearing represented a colloidal solution of single-domain magnetic particles coated with thin layer of protective cover by surfaces actives substances that stave off conglutination of the particles in a liquid base, it has high flowability and saturation of magnetization. If the nonmagnetic object is in the gap filled with a magnetic fluid between the two areas with a higher magnetic field, it is centered between them. As a result, reaction wheels were designed by magnetic-hydraulic bearing with emergency bearing and it increases stability of working rotor’s system by rotation, while it experiences not only axled forces of displacement but also radial forces by outer mechanical disturbance on the frame. For the decrease of the mechanical disturbs moments from the bearing rotation and increase work’s resource of reaction flywheels entering in the system of orientation and stabilization of space apparatus, it is offered to apply magnetic-hydraulic bearings instead of ball-bearing unit to flywheel rotation.
magnetic-hydraulic bearing, emergency bearing, reaction wheels, magnetic liquid, magnetization of saturation, intensity of the magnetic field, magnetic particle, protective cover, levitation.
References
  1. Мerkin D. R. Giroskopicheskie sistemy [Gyroscopic systems]. Мoscow, Phizmatgiz, Nauka Publ., 1974, 344 p.
  2. Ishlinskiy A. Yu. Mekhanika giroskopicheskikh syitem [Mechanics of gyroscopic systems]. Мoscow, AN SSSR Publ., 1963, 484 p.
  3. Samsaev Yu. A. Vibratsii priborov s oporami kacheniya. [Vibrations of devices with rolling-contact bearings]. Мoscow, Mashinostroenie Publ., 1984, 128 p.
  4. Pervitskiy Yu. D. Raschet i konstruirovanie tochnykh mekhanizmov. [Calculation and design exact machinery]. Мoscow, Vysshaya shkola Publ., 1976, 456 p.
  5. Tishchenko O. F. Elementy pribornykh ustroystv. [Elements of instrument devices). Мoscow, Vysshaya shkola Publ., 1978, 384 p.
  6. Zablonskiy K. I., Filipovich S. I., Tsetsorin N. A. et al. Proektirovanie mekhanizmov i priborov [Design of machinery and devices], Kiev, Vysshaya shkola Publ., 1971, 520 p.
  7. Morozov N. A., Kazakov Yu. B. Nanodispersnye magnitnye zhidkosti v tekhnike i tekhnologiyakh. [Nanodispersions magnetic liquid in techniques and technology]. Ivanovo, Ivanovskiy gos. energet. un-t imeni V. I. Lenina Publ., 2011, 264 p.
  8. Orlov D. V., Mikhalev Yu. O. Magnitnye zhidkosti v mashinostroenii. [Magnetic liquid in mechanical engineering]. Мoscow, Mashinostroenie Publ.,1993, 272 p.
  9. Dokuchaev L. V., Rabinovich B. I., Grishin A. V. [About stabilization rotating space crafts with deformed element the base on magnetohydraulic effects]. Polet, 2000, No. 7, P. 21–27 (In Russ.).
  10. 10. Rabinovich B. I., Grishin A. V. [About a new principle of used magnetohydraulic effects for orientation and stabilization rotating space crafts]. Polet, 2004, No. 8, P. 34–37 (In Russ.).
  11. Aleksanov P. A., Bobrikov A. N., Ermakov D. V., Lyanzburg V. P. Elektrodvigatel'-makhovik [Reaction wheel]. Patent RF, No. 2013118932, 2013.
  12. Aleksanov P. A., Bobrikov A. N., Ermakov D. V., Lyanzburg V. P. Elektrodvigatel'-makhovik [Reaction wheel]. Patent RF, No. 2014114248, 2014.
  13. Klishev O. P., Mytarev A. I., Rabinovich B. I. [Application of magnetohydraulic element for turn of space crafts in inert spaces]. Kosmonavtika i raketostroenie, 2011, No. I (62), P. 111–120 (In Russ.).
  14. Klishev O. P., Mytarev A. I., Rabinovich B. I. [Research the dynamics process of the turn of space craft with magnetohydodinamic executive powers in inert spaces]. Kosmonavtika i raketostroenie, 2012, No. I (66), P. 113–124 (In Russ.).
  15. Klishev O. P., Mytarev A. I., Rabinovich B. I. [About stabilization of the objects with liquid filling the base on magnetohydraulic effects]. Polet, 2000, No. 2, P. 40–44 (In Russ.).

Ermakov Dmitriy Vladimirovich – engineer-designer of the first category, JSC “Scientific & Industrial Centre “Polyus”. E-mail: POLUS@ONLINE.TOMSK.NET