SU1370340A1 - Method of damping vibrations of rotor - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to means that increase the safety of operation of rotary systems. The aim of the invention is to increase the efficiency of damping due to the change of the run-down time of the rotor. This is achieved by varying the resistance of the rotor movement by abrupt depressurization of the working medium in the elastic-damper support. A positive effect is achieved by reducing the run-down time of the rotor due to the increased resistance to rotation of the rotor while reducing the rigidity of the support. 1 il. with f (L

Description

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The invention relates to mechanical engineering, in particular, to means that increase the safety of operation of rotary systems.

The aim of the invention is to increase the efficiency of damping vibrations due to a change in the run-down time of the rotor.

The method is as follows.

If the rotor support has a cavity filled with a working medium, the pressure in this cavity determines the rigidity of the support, and the rigidity, in turn, determines the amplitude of the rotor oscillations. With a sharp depressurization in the cavity, the dynamic stiffness of the support becomes close to static. At the same time, the support resistance to the precessional motion of the rotor sharply decreases, but the resistance to its rotation increases, which leads to damping of oscillations, reducing the run-down time of the rotor.

The drawing shows a device that implements a method of damping rotor oscillations, a cross section.

nn i to reduce run-down of the rotor. The device includes a housing 1,

Claims (1)

inner ring 2, which is installed: 30 The formula of the invention of Lenr on a non-rotating bearing housing 3 of the rotor 4, as well as a multi-layer package of corrugated plates 5, located in the cavity 6 filled with working medium and communicating with a pressure source (not shown) channel l The cavity is bounded by case 1, ring 2 and crush 8 and 9. In the lower part of case 1, holes 10 are made through which the rotor oscillation damping method consists in installing the latter on the elastic-damper supports with a cavity filled with working medium and in changing the resistance to the movement of the rotor, characterized by,. that, in order to increase the quenching efficiency due to the change of the rotor run-down time, the resistance to the rotor movement is changed by abrupt depressurization of the working medium. 40 In addition, pressure relief is required. 703402 The device works as follows. In the working position, the openings 10 g are blocked, for example, by means of a damper or solenoid valves with seats. Via channel 7, pressurized working fluid is supplied to the cavity. When the rotor vibrates, the oscillation of the shaft is extinguished due to the work of the friction forces in the multi-layered corrugated bag 5, as well as when the pia medium is displaced through the gaps between the plates and through the gaps between the holes of the 10 and the body of the support 1. In the event of an emergency stop of the engine, the working cavity 6 is connected via openings 10 with a drain. The pressure in the working cavity 6 decreases sharply. The dynamic stiffness of the support becomes close to static. At the same time, the support resistance to the precessional movement of the shaft A is sharply reduced. Under the action of forces from the rotor disbalance, a precession develops, shaft 4 in the support, which leads to a reduction in the rotational stopping timeFormula The method of damping rotor oscillations, which consists in installing the latter on elastic-damper supports with a cavity filled with a working medium, and in changing the resistance to the movement of the rotor, characterized in that, in order to increase the efficiency of damping by changing the run-down time of the rotor, the resistance to movement of the rotor is changed abrupt pressure relief working environment.