SU1151730A1 - Device with variable moment of inertia - Google Patents

Abstract

A DEVICE WITH A VARIABLE MOMENT OF INERTIA, having a base, a shaft mounted on it, placed on the last flywheel, made in the form of a hollow chamber filled with electrorheological fluid, conical electrodes and a power source associated with them, characterized in that, in order to improve accuracy, reduce vibrations, the electrodes are fixed on the base coaxially with the shaft. W sd with

Description

The invention relates to mechanical engineering, in particular, to devices ensuring the prevention of oscillations of rotating parts and their removal from the resonant zone. A dynamic oscillation damper of rotating shafts is known, which contains a closed axisymmetric cavity along the shaft axis, filled with a working medium, an axisymmetric float that is a balancing mass and placed in the cavity, and an elastic element connecting the float to the shaft 1. The disadvantage of this device is that when the shaft rotates, the float experiences the resistance of the working ... ... ",". "" "... environment, which negatively affects the elimination of high-frequency oscillations. Closest to the invention is a device with a variable moment of inertia, comprising a base, a shaft mounted on it, placed on the last flywheel, made in the form of a hollow body filled with electrorheological fluid, conical electrodes mounted on the shaft, and a power source 2 associated with them However, conical electrodes that form an electric field for solidifying an electrorheological fluid are rigidly connected to the shaft. If the center of mass of the shaft, flywheel and electrodes does not coincide, the increment of the cured electrorheological fluid will be symmetrical with respect to the axis of rotation, which will cause an increase in shaft oscillations due to the centrifugal force of the incremental mass, and this in turn will affect the accuracy of the inertia moment. The aim of the invention is to increase accuracy by reducing shaft oscillations. The goal is achieved by the fact that in a device with a variable moment of inertia containing a base, a shaft mounted on it, placed on the last flywheel, made in the form of a hollow chamber filled with electrorheological fluid, the conical electrodes and the power supply connected with them are fixed with shaft. The drawing shows a schematic diagram of the device. A device with a variable moment of inertia contains a base 1, a shaft 2 mounted on it, placed on the shaft 2 a flywheel in the form of a chamber 3 with a cavity 4 filled with an electrorheological fluid, conical electrodes 5 fixed on the base 1 coaxially to the shaft 2, a lid 6 of the chamber 3, a source 7, associated with the electrodes 5 and insulators 8. The flywheel is made axially symmetric of a material with a low dielectric constant and is rigidly fixed on the shaft 2 coaxially with it. The electrodes 5 are fixed on the base 1 stationary and electrically isolated from it. The axis of symmetry of the electrodes 5 coincide with the axis of rotation of the shaft 2. Between the insulators 8 and the shaft 2 there is a gap exceeding the maximum amplitude of the possible shaft beating. The cover 6 is made of an electrically non-transparent material, hermetically connected to the flywheel with the possibility of relative rotation. The device works as follows: Electrodes 5 create an axial radial non-uniform electric field, which changes the rheological properties of the fluid in cavity 4. In the cavity 4, the electric field hardly penetrates. The intensity of the field created by the electrodes 5 decreases with the distance from the axis; this is achieved using the geometry of the electrodes 5, which are made conical. When the potential of the electrodes 5 specified by the power source 7 increases to a certain level, solidification of the electrorheological fluid occurs in the radial direction in accordance with the potential of the electric field between the electrodes 5. When the center of the shaft of the shaft 2 and the flywheel is displaced or when there is a natural shaft beat, place in real structures, the solidification of the liquid will occur on the side of the minimum deviation of the flywheel from the axis of rotation, which causes the balancing of the shaft 2 and reducing its oscillations, the device allows, without changing the inertia characteristics, to more effectively reduce the oscillations of the shaft.

Claims (1)

DEVICE WITH VARIABLE MOMENT OF INERTIA, having a base, a shaft mounted on it, placed on the last flywheel, made in the form of a hollow chamber filled with electrorheological liquid, conical electrodes and a connected power source, characterized in that, in order to increase accuracy by reducing oscillations, the electrodes are fixed on the base coaxially with the shaft. >