SU1259179A1 - Multichannel apparatus for determining coordinates of acoustic signal sources - Google Patents

Abstract

The invention relates to the passive location of sources of acoustic pulsed signals in materials. sheet-shaped, and may be distorted by the coordinates of the sources of acoustic emission signals with non-destructive quality control of products. The purpose of the invention is to increase the reliability and, for example, simplify the device for placing the groups of transducers and processing information from them. The device contains N channels for receiving and processing acoustic signals made from five receiving electroacoustic transducers, combined into two groups of four transducers, differing in one transducer. The signals from the outputs of the converters of each group are fed through a series-connected amplifier, filter, time meter, memory block and a switch common to all channels to a coordinate calculation unit that searches in the time array T; such four values that have in pairs the same difference of LT and the calculation of coordinates by the method of triangulation. 2 Il. -s (L Yu SL with so

Description

The invention relates to the field of passive location of sources of acoustic pulsed signals in sheet-shaped materials, and can be used to automatically measure the coordinates of sources of acoustic emission signals with non-destructive quality control of the product.

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The purpose of the invention is to increase the reliability and simplify the device by placing groups of transducers and processing information from them.

FIG. 1 shows a block diagram of a multi-channel device for determining the coordinates of acoustic signal sources; in fig. 2 shows the arrangement of electroacoustic transducers.

A multichannel device for determining the coordinates of the sources of acoustic signals contains N channels for processing acoustic signals made of four receiving electroacoustic transducers 1-4, connected in series to the first amplifier 5 and first filter 6 and connected in series to the second amplifier 7 and second filter 8, connected in series the switch 9, the unit 10 for calculating the coordinates and the recorder 11, each of the N channels for receiving and processing acoustic signals is provided with a fifth received electro acoustic transducer 12 connected to the output of the first filter 6 in series by the first time meter 13, the first memory block 14 and connected to the output of the second filter 8 by the second time meter 15 and the second memory block 16, first 1, second 2, third 3 and the fourth 4 electroacoustic transducers are connected to the inputs of the first amplifier 5, the second 2, the third 3, the fourth 4 and five 12 electroacoustic transducers are connected to the inputs of the second amplifier 7, and the outputs of the first I 4 and second 16 memory blocks are connected Connections to the corresponding inputs of the switch 9.

The device works as follows.

When voltage waves occur in the controlled area and are emitted simultaneously by one or several point sources, the latter

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electroacoustic transducers 1-4 and 12 are reached, from the outputs of which the electrical signals are fed to the inputs of summing amplifiers 5 and 7. An example of the location of the transducers in one of the control zones is shown in FIG. 2. Amplifier 5 is designed to sum and amplify signals from transducers 1–4, and amplifier 7 to sum and amplify signals from transducers 2–4 and 12. The total amplified signal comes from the outputs of amplifiers 5 and 7 to filters 6 and 8. Filtered signals from the outputs of the filters 6 and 8 are fed to the inputs, respectively, of the first 13 n second 15 time meters.

Information about the arrival time of acoustic signals to electroacoustic transducers, combined in groups (1-4) and (2-4, 12), comes from the outputs, respectively, of the first 13 and second 15 time meters in the first 14 and second 16 blocks memory, which through the switch 9 exchange information with the unit 10. calculation of coordinates.

The source data for calculating the coordinates of the sources are the arrays of the arrival times T) of the acoustic signals, the calculation algorithm is shown in the search in the array of times T; these four values that have the same difference in pairs and T. This criterion meets the physics of the propagation of acoustic waves for materials in which the propagation time from a fixed point of occurrence of acoustic waves to transducers does not depend on the emission moment within the accumulation time of the emitted pulses. The number of pulses found in pairs, with the same dT, should be equal to the number of sensors - four, in a group. A larger number is possible due to the finite accuracy of the equipment.

If we assume that the true combination of arrival times is chosen as the Source pair, then each pulse of the pair corresponds to the allowable range of the maximum difference of arrival times in a given transducer system.

The invention provides improved reliability and simplification of the device by placing groups of transducers and processing information from them.

Claims (1)

Invention Formula A multichannel device for determining the coordinates of acoustic signal sources, containing N channels for receiving and processing acoustic signals, made from four receiving electroacoustic transducers, serially connected first amplifier and first filter and serially connected second amplifier and second filter, serially connected switch, unit calculating coordinates and a recorder, characterized in that, in order to increase reliability and simplify devices, each of the N channels for receiving and processing acoustic signals is provided with a fifth receiving electroacoustic transducer connected to the output of the first filter in series by the first time meter and the first memory unit and connected to the output of the second filter by the second time meter and the second memory unit, the first the second, third and fourth electroacoustic transducers are connected to the inputs of the first amplifier, the second, third, fourth and fifth electroacoustic transducers of the s from the second amplifier inputs and outputs of the first and second memory units connected to respective inputs of the switch. . ten // 1 vniipi Figg Order 5115/42 Edition 778 Polygam. pr-tie, Uzhgorod, st. Project, 4 Subscription