RU2007124242A - METHOD FOR DETERMINING ACOUSTIC EMISSION SIGNAL SOURCES COORDINATES AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. The method of determining the coordinates of the sources of acoustic emission signals on a metal structure, including installing n acoustic transducers on the structure, determining the propagation speed of acoustic emission signals on the structure and the difference in their arrival times to the acoustic transducers, calculating the coordinates of the source of acoustic emission signals from them, characterized in that in the zone limited by the piezoelectric antenna, an acoustic transducer of the simulator is installed, and the calculation of the arrival times of the signals emission to the acoustic transducers constituting the piezoelectric antenna is performed by signals filtered using wavelet filtering, the error of determining the coordinates of the acoustic transducer of the simulator is calculated, threshold values are selected by the amplitude of the coefficients for wavelet filtering, at which the error of determining the coordinates of the acoustic transducer of the simulator takes a minimum value, the frequency range of wavelet filtering changes until the error is determined The coordinates of the acoustic transducer of the simulator will not take a minimum value, after which the metal structure is loaded, and acoustic emission signals are filtered and their coordinates are determined by the obtained wavelet filtering parameters. 2. A multi-channel acoustic emission device for determining the coordinates of acoustic emission signal sources on a metal structure, consisting of 1 ... n blocks, each of which contains four channels, consisting of a series-connected acoustic transducer, pre-amplifier, filter, main amplifier, and analog -digital converter, and also contains a digital-to-analog converter, a comparator, random access memory, computer bus, characterized in that the output of the main each channel is connected to a non-inverting input of the comparator, the inverting input of which is connected to the output of the digital-to-analog converter, and the inputs of the digital-to-analog converters of all channel blocks are combined and connected to the first output of the timer-counter, and the outputs of the comparators of each channel of the block are connected to the first, second, third, and the fourth inputs of the timer-counter, and the four outputs of the timer-counter are connected to the first inputs of random access memory of each channel of the block, the outputs of analog equal converters of each channel of the unit bus connected to the second inputs of random access memory of the corresponding channel, the outputs of which are connected to the signal processor in each channel, the outputs of the signal processors bi-directional bus connected to 1 ... 4 inputs of a digital multiplexer, the fifth input of which bi-directional bus connected to the fifth timer input counter, and the output of the digital multiplexer by a bi-directional bus is connected to the microprocessor of the unit, the first output of which is connected to the input of the generator pa calibration pulse, the output of which is connected to the acoustic transducer simulator, the second output of the microprocessor unit bidirectional bus coupled to the computer bus, which in turn is connected to a central computer processor.