Динамическое демпфирование вынужденных колебаний гироскопической системы демпфером с жидкостным маховиком

Динамическое демпфирование вынужденных колебаний гироскопической системы…

Инженерный журнал: наука и инновации

# 10·2017

Dynamic damping of forced vibrations of gyroscopic system

by damper with liquid flywheel

Bauman Moscow State Technical University,

Moscow, 105005, Russia

In recent years, liquid dampers are widely used in spacecraft for damping angular vibra-

tions. Damping of the angular vibrations of gyroscopic systems by the use of a liquid

damper has so far not been studied sufficiently. In this case, in order to increase the effi-

ciency of the damper, it is necessary to optimize its parameters. In this article, we consid-

er the dynamic damping of forced oscillations of a uniaxial gyrostabilizer by a damper

with a toroidal cavity completely filled with a viscous liquid. An integro-differential

equation describing the oscillations of a gyroscopic system is obtained. A new approach

to optimizing the parameters of a liquid damper is proposed. The expression for the op-

timum coefficient of viscosity of a liquid is found. The results obtained can be used in the

design of a liquid damper not only in gyroscopic instrumentation, but also in other areas.

Keywords:

dynamic damper, Forced vibration, gyro system, fluid flywheel, viscous fluid,

toroidal cavity

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