SU894557A1 - Multi-channel device for article quality control by means of acoustic emission - Google Patents

Description

(54) MULTI-CHANNEL DEVICE FOR CONTROLLING THE QUALITY OF PRODUCTS BY MEANS OF ACOUSTIC EMISSIONS

The invention relates to non-destructive testing and can be used to determine the degree of danger of developing defects in products.

A multi-channel device for quality control of products by the method of acoustic emission (AE) is known, which contains in each channel a transducer, amplifier and driver, as well as a time interval meter 1.

The disadvantage of this device is the low accuracy of the control.

The closest in technical essence to the invention is a multichannel device for quality control of products using acoustic emission, containing a series-connected time interval meter and a computer, and in each channel a converter and an amplifier, the output of which is connected to the corresponding time meter input, the second computer inputs connected to the outputs of the amplifiers of each channel 2.

A disadvantage of this device is the low reliability of the control, due to the fact that with increased emission activity, not all information is processed by the computer.

The purpose of the invention is to increase the reliability of the control.

This goal is achieved due to the fact that the device is equipped with a number of channels connected in series by storage blocks, a comparison unit and a matching circuit, a signaling device, and the input of the storage unit is connected to the corresponding output of the time interval meter, and

10 is equipped with an AND circuit and a load synchronizer associated with its second input connected between the time interval meter and the storage unit in each channel.

The drawing shows a block diagram of the device.

The device contains several channels, for example, three, each of which consists of a converter 1 and an amplifier 2, the output of which is connected to the corresponding input of the meter 3 time intervals and computer 4. The outputs of the meter 3 time intervals are connected to the computer 4 and to the correspondingly connected to each channel serially connected circuit 5 And, the storage unit 6 and the comparing unit 7. The second inputs of all circuits 5 And connected to the synchronizer 8 load.

The outputs of circuits 5 And are also connected to the second inputs of the respective comparing units 7. The outputs of the latter are connected via a circuit 9 of coincidence to the signaling device 10.

The device works as follows.

AE signals are converted by converter 1 into electrical ones, then amplified by amplifier 2 and fed to computer 4 to determine their parameters and to meter 3 time intervals. In the latter, the differences in time of arrival (RVP) of signals to transducers 1, which are fed to computer 4 to determine the coordinates of the AE source and through circuits 5 of the corresponding channel to storage units 6 and to comparison blocks 7, are determined. 5 And when it arrives at their second inputs from the synchronizer 8 of the gate load corresponding to the peak cyclic load.

This eliminates the possibility of receiving and processing false signals in the moments of absence (fall) of the load in the cycle.

In the case of a constant (non-cyclic) load, the synchronizer 8 loads and circuits 5 And may be missing. The storage unit 6 can be made in the form of a counter or a peak detector, which is reset, for example, before every third RTD pulse arrives at it. The storing of each second PRT pulse is made and is fed to the input of the comparing unit 7. The signals from the latter are fed through the circuit 9 to the signaling device 10. The information is fed to a computer that works with many groups of channels, and the converters of the group constitute a triangulation figure. When a computer is freed from recording information from other groups, information from this group is recorded, since the priority for recording information in a computer is higher than the priority for processing it. Thus, time is lost on recording information from other groups of channels before it is received from this group (device). The computer then starts processing the received information to determine the source coordinates and the parameters of the AE signals in order, starting with the channel groups from which the information was recorded earlier, i.e., the time for processing information received from other channel groups, before computer processing of information from this group of channels, which is especially important with a large emission activity of the product. The data is then recorded in the long-term memory of the computer. At the same time at the outputs of the meter 3 time intervals, the RTD pulses come through the circuits 5 and to the corresponding storage unit 6, where their values are stored. When the next AE signal arrives at the device, the value of the RTD from this AE signal is compared with the previous one at the corresponding comparative block 7. Before the third AE signal arrives, the memorized RTD value on the storage unit 6 is reset.

two times a pulse appears in each channel at the output of the coincidence circuit 9, which includes a signaling device 10, which can be made in the form of an audible, light or any other actuator, giving an immediate signal

about the presence of a valid developing defect.

Since the device provides the signal of a defective situation without the computer, firstly, there is no need to continuously output information from the computer for observation by the operator, and secondly, the time between the occurrence of the defect and the alarm about it is reduced. Both factors significantly increase the reliability of control, both due to the treatment

attention of the operator to the defective situation, freeing him from observing background information, and due to a significant reduction in the time required to detect a defective situation ™

Claims (2)

1. A multi-channel device for quality control of products using acoustic emission, containing a series-connected time interval meter and a computer, and in each channel a converter and an amplifier, the output of which is connected to the corresponding time interval meter input, the second computer inputs are connected to the outputs of amplifiers of each channel, characterized in that, in order to increase the reliability of the control, it is equipped with a number of channels connected in series by a storage unit, a comparison unit and a circuit Coincidentally, and a signaling device, and the input of the storage unit is connected to the corresponding output of the time interval meter. 2. The device according to claim 1, characterized in that it is provided with an AND circuit connected and connected between its time interval meter and a storage unit in each channel and a load synchronizer associated with its second input. Sources of information taken into account in the examination 1. USSR author's certificate number 636527, cl. G 01 N 29/04, 1976. 2. USSR author's certificate No. 574669, cl. G 01 N 29/04, 1976 (prototype).