RU2658074C1 - Vibration isolation system with regulated rigidity - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the equipment vibration protection systems. Device comprises a base, on which additional plates with fixed to them vibration-proof devices are arranged and recording equipment, on the base the aircrafts equipment is installed, for example, two identical on-board compressors for the compressed air production on board of the aircraft. At that, one compressor is installed on the standard rubber vibration isolators, and another compressor is installed on the investigated two-mass vibration isolation system, which includes rubber vibration isolators and elastic-damping intermediate plate with vibration isolators, for example in the form of polyurethane plates, which, like the compressor standard rubber vibration isolators, are installed on the rigid bulkhead, which is installed on the base through the vibration damping pad. On the rigid bulkhead, between compressors, a vibration sensor is secured, signal from which is supplied to the amplifier and recording equipment, for example, octave spectrometer operating in the frequency band (Hz): 2; 4; 8; 16; 31.5; 63; 125; 250; 500; 1,000; 2,000; 4,000; 8,000 Hz. On the base, on which rigid bulkhead is installed through the vibration damping pad, with the sensor and the first and second on-board compressors installed thereon, sensor is additionally installed for the base amplitude-frequency characteristics measuring, the signal from which comes to the amplifier and spectrometer. For the vibration isolating system individual components maximum vibration amplitude analysis, between the base and the rigid bulkhead, a relative displacement sensor is additionally installed for the oscillations amplitude measure, signal from which comes to the amplifier and the spectrometer. At that, on the rigid bulkhead an automatic device is mounted, connected to the spectrometer and capable of the vibration damping pad rigidity changing, from the signal coming to it from the spectrometer, in case the spectrometer fixes the maximum permissible signals from the sensor, which measures relative movements between the base and the rigid bulkhead. At that, the vibration damping pad is made with allowing its rigidity changing elements, for example, elements with electrorheological fluid changing their viscosity when a signal from the automatic device comes in.

EFFECT: technical result is increase in the vibration isolation effectiveness.

1 cl, 2 dwg

Description

The invention relates to vibration protection systems of equipment.

The closest technical solution to the technical nature and the achieved result is the system according to the patent of the Russian Federation No. 2335747, containing a base, a protected object, a two-mass vibration isolation system, consisting of a base on which the aircraft equipment is installed, in the form of two identical on-board compressors for receiving compressed air on on board the aircraft, with one compressor mounted on rubber vibration isolators, and the other on a vibration isolation system, including rubber vibration isolators elastic-damping intermediate plate with vibration isolators made in the form of plates made of polyurethane, which is the same as the rubber vibration of the compressor are mounted on a rigid bulkhead through which vibration-damping pad is installed on the base, wherein a rigid bulkhead vibration sensor is mounted between the compressors.

The disadvantage of the prototype is the relatively low coefficient of vibration isolation.

A technically achievable result is an increase in the effectiveness of vibration isolation.

This is achieved by the fact that in a vibration isolation system with adjustable stiffness, containing a base on which additional plates with vibration-insulated devices are mounted, and recording equipment, the aircraft equipment is installed on the base, for example, two identical on-board compressors for receiving compressed air on board the aircraft apparatus, while one compressor is installed on standard rubber vibration isolators, and the other compressor is installed on the studied two-mass vibration system insulation, which includes rubber vibration isolators and an elastic-damping intermediate plate with vibration isolators, for example in the form of polyurethane plates, which, like the standard rubber compressor vibration isolators, are mounted on a rigid bulkhead, which is mounted on the base through a vibration-damping pad and on a rigid one the bulkhead, between the compressors, a vibration sensor is fixed, the signal from which is fed to the amplifier and recording equipment, for example, an octave spectrometer operating in the frequency band (Hz): 2; four; 8; 16; 31.5; 63; 125; 250; 500; 1000; 2000; 4000; 8000 Hz, and on the basis on which a rigid bulkhead is installed through a vibration damping pad, with a sensor and on-board compressors installed on it, the first and second, an additional sensor is installed to measure the amplitude-frequency characteristics of the base, the signal from which is fed to the amplifier and spectrometer, and for analysis of the maximum amplitude of the vibrations of the individual components of the vibration-isolating system, between the base and the rigid bulkhead, an additional relative displacement sensor is installed to measure the amplitude of the oscillations, the signal from which is fed to the amplifier and spectrometer, while an automatic device mounted on a rigid bulkhead is connected to the spectrometer and is able to change the stiffness of the vibration damping pad from the signal supplied to it from the spectrometer if the spectrometer fixes the maximum permissible signals from a sensor measuring relative movements between the base and the rigid bulkhead, while the vibration damping pad is made with elements that allow changing v its rigidity, such elements with electrorheological fluid changes its viscosity when the signal of the automatic device.

In FIG. 1 shows a general view of a vibration isolation system with adjustable stiffness; FIG. 2 is a schematic diagram thereof.

The vibration isolation system with adjustable stiffness (Fig. 1) consists of a base 12 on which the aircraft equipment is installed, for example, two identical on-board compressors 1 and 2 for receiving compressed air on board the aircraft. In this case, one compressor 1 (Fig. 2) is installed on standard rubber vibration isolators 7, and another compressor 2 is installed on the studied two-mass vibration isolation system, including rubber vibration isolators 5 and an elastic damping intermediate plate 4 with vibration isolators 6, for example, in the form of polyurethane plates, which, like the standard rubber vibration isolators 7 of the compressor 1, are mounted on a rigid bulkhead 8, which is mounted on the base 12 through the vibration damping pad 11.

On a rigid bulkhead 8, between the compressors 1 and 2, a vibration sensor 3 is fixed, the signal from which is fed to the amplifier 10 and then to the equipment 9 registering the vibrations, for example, an octave spectrometer operating in the frequency band (Hz): 2; four; 8; 16; 31.5; 63; 125; 250; 500; 1000; 2000; 4000; 8000 Hz.

On the basis of 12, on which a rigid bulkhead 8 is installed through a vibration damping pad 11 with a sensor 3 installed on it and on-board compressors first 1 and second 2, a sensor 13 is additionally installed to measure the amplitude-frequency characteristics of the base, the signal from which is fed to amplifier 10 and a spectrometer 9.

The vibration isolation system with adjustable stiffness operates as follows.

First, turn on compressor 1, which is installed on standard rubber vibration isolators 7, and take the amplitude-frequency characteristics (AFC) using a sensor 3, amplifier 10 and spectrometer 9. Then turn off compressor 1 and turn on compressor 2, which is installed on the two-mass vibration isolation system under study, including rubber vibration isolators 5 and an elastic damping intermediate plate 4 with vibration isolators 6, and also take the amplitude-frequency characteristics using a sensor 3, an amplifier 10 and a spectrometer 9. Then compare they determine the obtained frequency response from the operation of each of the compressors 1 and 2 and draw conclusions about the effectiveness of vibration isolation of each system on which they are installed.

To analyze the maximum amplitude of the vibrations of the individual components of the vibration isolating system between the base 12 and the rigid bulkhead 8, an additional sensor 16 (Fig. 2) of relative displacements for measuring the amplitude of oscillations is installed, the signal from which is fed to amplifier 10 and spectrometer 9.

At the same time, an automatic device 15 is mounted on a rigid bulkhead 8, connected to the spectrometer 9 and capable of changing the stiffness of the vibration damping pad 11 from the signal supplied to it from the spectrometer 9, if the maximum permissible signals from the sensor 16 are fixed by the spectrometer 9 (Fig. 2), measuring relative displacements between the base 12 and the rigid bulkhead 8, while the vibration damping pad 11 is made with elements that allow you to change its stiffness, for example, elements 17 with electrorheological fluid, changing their viscosity upon receipt of a signal from an automatic device 15.

Claims (1)

A vibration isolation system with adjustable stiffness, comprising a base on which additional plates with vibration-insulated devices fixed to them and recording equipment are located, based on the installed aircraft equipment, for example, two identical on-board compressors for receiving compressed air on board the aircraft, with one compressor installed on standard rubber vibration isolators, and another compressor is installed on the studied two-mass vibration isolation system, including I have rubber vibration isolators and an elastic damping intermediate plate with vibration isolators, for example, in the form of polyurethane plates, which, like the standard rubber vibration isolators of the compressor, are mounted on a rigid bulkhead, which is installed on the base through the vibration-damping pad, and on the rigid bulkhead, between the compressors, a vibration sensor is fixed, the signal from which is fed to the amplifier and recording equipment, for example, an octave spectrometer operating in the frequency band (Hz): 2; four; 8; 16; 31.5; 63; 125; 250; 500; 1000; 2000; 4000; 8000 Hz, and on the basis on which a rigid bulkhead is installed through a vibration damping pad with a sensor and on-board compressors installed on it, the first and second, an additional sensor is installed to measure the amplitude-frequency characteristics of the base, the signal from which is fed to an amplifier and spectrometer, characterized in that to analyze the maximum amplitude of the vibrations of the individual components of the vibration isolating system between the base and the rigid bulkhead, an additional sensor is installed movement measurements for measuring the amplitude of the oscillations, the signal from which is fed to the amplifier and spectrometer, while an automatic device connected to the spectrometer is mounted on a rigid bulkhead and is able to change the stiffness of the vibration damping pad from the signal received from the spectrometer if the spectrometer fixes the maximum permissible signals from a sensor measuring relative displacements between the base and the rigid bulkhead, while the vibration damping pad is made with elements allows one to change its stiffness, such elements with electrorheological fluid changes its viscosity when the signal of the automatic device.

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