SU1017942A1 - Multi-channel vibration testing system - Google Patents

Abstract

MULTI-CHANNEL VIBRATING SYSTEM, containing a master ..- with-, ii l generator, adjustable amplifiers, vibration exciters and measuring vibro impulses installed at the control points of the object to be used, which, in order to reduce power consumption, is one oscillation pathogens are connected to a master oscillator, and each of the remaining pathogens count (fucking connected to a vibrator transducer by a positive feedback circuit, including an adjustable amplifier, a band-pass filter and horn limiter f 4 to

Description

The invention relates to a test technique, namely, multi-channel vibration test systems, and can be used for testing large objects, mainly aircraft structures. Multi-channel vibration test systems are known in which each channel has an autonomous master oscillator that feeds an oscillator through each power amplifier. The use of an autonomous generator in each channel complicates the system, especially with a large number of channels, and complicates the phase coordination of pathogens. Closest to the invention of the technical essence is a multichannel vibratory test system comprising a master oscillator, adjustable amplifiers, vibration exciters, and measuring vibration transducers installed in test points of the test object. In this system, oscillation pathogens are connected via an adjustable amplifier to the master oscillator t23 common to all channels. A disadvantage of the known system is a large power consumption for exciting oscillations of large-sized dynamically complex objects with large damping coefficients. The purpose of the invention is to reduce power consumption. The goal is achieved by the fact that in a multi-channel vibro-damping system containing a master oscillator, adjustable amplifiers, oscillations pathogens, and measuring vibrating oscillators. The detectors installed in the control of the points of the test object, one of the corrective pathogens is connected to the master oscillator, and each of the other exciters of oscillations is connected to the vibrator transducer by a positive feedback circuit that includes a regulator 1. Amplifier, a band-pass filter And | threshold limiter,. With such switching on, the elementary slave channel of the system formed by the measuring vibration transducer, an adjustable amplifier, a band-pass filter, and the exciter, is | an amplifier of oscillations excited by an oscillation pathogen coupled to a master oscillator, thereby reducing power consumption. The drawing shows a block diagram of a multichannel vibration test system. The system contains master and slave channels. The leading channel includes a pathogen 1 oscillations of the test object 2 and the master oscillator 3, with the output of which is connected the pathogen 1 oscillations. Each of the slave channels includes a 4-wave oscillator. Measuring transducer 5 installed at the test point of the test object 2 and connecting them with a positive feedback circuit, including an adjustable amplifier b, a band-pass filter 7 and a threshold limiter 8. The structure of the adjustable amplifier b includes its phase shifting device (not shown in the drawing. Multichannel The vibro-testing system operates in the following manner: The exciter 1 oscillation in accordance with the signal of the driving oscillator 3 excites oscillations of the test object 2. However, due to limitations The amplitudes of the oscillation exciter 1 do not reach the specified level in all sections of the object 2. The latter is provided with the work of the slave channels.The amplified signal of the inverter 5 is filtered, limited in level and supplied to the exciters 4 oscillations that create additional excitatory force. The required amplitude distribution and The phases of the excitation forces are provided by the elements of the gain control and the phase-shifting devices of the amplifiers 6. Together with the volume, each of the slave channels forms Option 2 is a potentially self-oscillating circuit. In order to avoid self-oscillations at the resonant frequencies of object 2, into a positive feedback circuit. bandpass filter 7 and threshold limiter 8 are introduced, which are attenuated. a positive feedback 1 signal at near-resonant frequencies, and ensures that the system operates in a low-excitation mode over the entire operating frequency range. Achieved with the use of the invention, the reduction of power consumption allows to increase the efficiency of vibration tests.

Claims (1)

MULTI-CHANNEL VIBRATION TEST SYSTEM, comprising a master oscillator, adjustable amplifiers, vibration exciters and measuring vibration transducers installed at the test points of the test object, characterized in that, in order to reduce power consumption, one of the vibration pathogens is connected to the master oscillator, and each of the other pathogens oscillation is connected to the vibration transducer by a positive feedback circuit including an adjustable amplifier, a band-pass filter and a threshold limit spruce.