SU1260591A1 - Controllable dynamic vibration damper - Google Patents

Abstract

The invention relates to damping vibrations of various objects. The aim of the invention is to increase the vibration quenching efficiency in a wide frequency range, achieved by increasing the quality of the vibration damper. From the oscillation sensor 3, the signal enters the preamplifier 4. From the output of the frequency meter 5, the signal arrives at the input of the friction unit 6. The output signal of the block 6 through the power amplifier 7 is fed to the actuator 2, which provides damping of the object 1 oscillations. the amplifier 9, the phase and amplitude of the signal are set such that the induced emf is suppressed in the windings of the device 2, which ensures the maximum quality factor of the vibration damper at a given frequency, and therefore the maximum This is the vibration damping efficiency. 1 il. 2 (L to about o ate with

Description

The invention relates to damping vibrations of various objects.

The aim of the invention is to increase the vibration quenching efficiency in a wide frequency range by increasing the quality of the vibration damper.

The drawing shows a diagram of a controlled dynamic vibration damper.

The damper contains installed on the object 1 actuating device 2 from the current in its windings. The output signal of the block 6 through the power amplifier 7 is fed to the actuator 2, which provides damping of the object 1 oscillations.

Using a phase shifter 8 and an adjustable amplifier 9, the phase and amplitude of the signal are set such that the induced emf in the windings of device 2 is suppressed, which ensures maximum

2 and the oscillation sensor 3, connected to Q, the vibration damper on this part of the last preamplifier 4, connected to the last and in series connected frequency meter 5, functional unit 6 and power amplifier 7 connected to the actuator 2, connected to the output of the preamplifier 4 and a series-connected phase shifter 8 and an adjustable amplifier 9, the output of which is connected to the power amplifier 7 via an adder 10. The output of the frequency meter 5 is also connected to the inputs phase shifter 8 and adjustable amplifier 9.

Managed dynamic vibration damper works as follows.

From the sensor 3 oscillations, a signal proportional to the vibrations of the object 1 enters the preamplifier 4. From the output of the frequency meter 5, a signal proportional to the frequency of the vibrations of the object 1 is fed to the input of the functional unit 6, whose characteristic corresponds to the dependence of the executive tuning frequency

device 2 from the current in its windings. The output signal of the block 6 through the power amplifier 7 is fed to the actuator 2, which provides damping of the object 1 oscillations.

Using a phase shifter 8 and an adjustable amplifier 9, the phase and amplitude of the signal are set such that the induced emf in the windings of device 2 is suppressed, which ensures maximum

 the quality of the vibration damper at a given frequency and, therefore, the highest efficiency of vibration damping.

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Claims (1)

Invention Formula A controlled dynamic vibration damper containing an actuator installed on the object and an oscillation sensor and a frequency meter connected in series, a functional unit and a power amplifier, the output of which is connected to the actuator, characterized in that it is equipped with a preamplifier to increase the vibration-wiping efficiency which is connected to the oscillation sensor, and the output to the frequency meter, a phase shifter connected to the outputs of the preamplifier, and measure frequency, and adjustable amplifier, whose input is connected to vEhodam phase shifter and frequency meter, and the output - to the power amplifier.