SU1182453A1 - Method of simulating seismic action during equipment testing - Google Patents

Abstract

THE METHOD OF IMITATION OF SEISMIC IMPACT IN TESTING EQUIPMENT by installing it on a vibrating platform and setting it in motion with a harmonic signal of variable frequency and amplitude, with the amplitude of the harmonic signal selected from the linear oscillators for movement of the oscillation plates and their source patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the patterns and the voltage patterns of the oscillators, and the voltage patterns and amplitudes of them. characterized in that, in order to increase the imitation efficiency and reduce the testing time, the vibroplatform movement is converted into electrical The pp signal arriving at the input of the oscillating system, whose natural frequency is tuned in accordance with the frequency of harmonic vibrations of the vibrating platform, and the quality factor corresponds to the quality factor of the linear oscillator system, while the amplitude of the steady-harmonic signal at the output of the vibrating system is fixed and the amplitude of vibrations of the vibroplatform changes until the magnitude of the acceleration of the vibroplatform, obtained by recalculating the sitnal from the output of the oscillatory system, coincides with the ordinate of the spectrum tion liHQ iHbix system oscillator tori at ref (mpyue sey00 GchE smicheskoe effect on a given frequency. 4 eaten SAE

Description

1 The invention relates to seismic engineering and can be used to study the behavior of engineering objects and their models on vibrational effects of seismic titt. The purpose of the invention is to increase the efficiency of simulation and reduce the time of testing. The drawing shows a block diagram of the device, n: with the help of which the proposed method is carried out. The block diagram contains the vibroplatform 1, the equipment under test 2, the sensor 3, the amplifier 4, the oscillatory system 5, the peak voltmeter 6. The Ciioco6 is carried out in the following sequence of operations. The available catalogs are used to take a family of computed accelerograms of earthquakes, for each of which the response spectra of the linear oscillator system with different Q values are obtained. The vibroplatform I with the tested equipment 2 is set to harmonic effect at a given (defined) frequency. Sensor 3 53 converts the mechanical oscillation of the vibroplatform 1 into an electrical signal, which is fed through the amplifier 4 to the oscillatory system 5, tuned to the frequency of the vibrating platform, the quality factor of which corresponds to the quality factor of the linear oscillator system. A peak voltmeter 6 is connected to the output of the oscillating system 5. The oscillation amplitude of the vibroplatform 1 changes to match the magnitude of the electrical signal detected by the peak voltmeter 6, equivalent to the acceleration of the mechanical oscillator at this given frequency, with the acceleration obtained from the response spectrum to the reference effect at this frequency . Thus, sequentially, at each frequency of the vibroplatform, actions are set that correspond to the response spectrum of the CHCTeNtbi linear oscillators on the reference earthquakes, taking into account the dynamic characteristics, of the equipment under test 2 and vibrating platform 1,

Claims (1)

METHOD FOR SIMULATING SEISMIC INFLUENCE WHEN TESTING EQUIPMENT by installing it on a vibrating platform and setting it in motion with a harmonic signal of variable frequency and amplitude, while the amplitude of the harmonic signal is selected from the condition that the spectra coincide with the movement of the vibrating platform and their reference seismic effect, which distinguishes that, in order to improve the efficiency of simulation and reduce test time, the movement of the vibrating platform is converted into an electrical signal supplied to the input of the oscillator system, whose natural frequency is tuned in accordance with the frequency of harmonic vibrations of the nibroplatform, and the quality factor corresponds to the quality factor of a system of linear oscillators, the amplitude of the steady-state harmonic signal at the output of the oscillating system is fixed, and the vibration amplitude of the vibration platform changes to match the acceleration value of the vibration platform obtained by recalculating signal from the output of the oscillatory system, p. the ordinate of the response spectrum of a system of linear oscillators to a reference seismic effect on a given reaction of a system of linear oscillators. SU, „> 1182453 eleven