SU1027603A1 - Sheet material acoustic emission checking device - Google Patents

Abstract

DEVICE FOR ACOUSTIC EMISSION CONTROL of sheet MATERIALS, containing four receiving channels, each of which consists of a transducer connected in series, made in the form of a linearly distributed antenna, and an imager of the former, two coordinate determination units, an indicator whose inputs are connected to the corresponding outputs of the coordinate determination units The outputs of the receiving channels are pairwise connected to the inputs of the coordinate determination blocks, characterized in that, in order to simplify the device, each block The coordinate contains the OR circuit connected in series, a trigger, a sweep generator and a control inverter, a trigger with separate inputs, the output of which is connected to the second input of the control inverter, and the output of the latter is connected to the input of the indicator, the first inputs 9 of the OR circuit and the trigger C separate inputs are connected together and connected to the output of the first amplifier of the driver of the corresponding pair of channels, their second inputs are connected together and connected to the output of the second amplifier-former.

Description

The invention relates to destructive testing and can be used for acoustic emission control of sheet materials. A device is known for determining the coordinates of defects by acoustic emission signals containing 32 receiving channels combined in groups of 4, preamplifiers and amplifiers, units for calculating coordinates and indicators 13 The closest in technical essence -To the proposed device is for acoustic emission control of sheet materials containing four receiving channels, each of which consists of a transducer connected in series made in the form of a linearly distributed antenna, and a former amplifier , two coordinate determination units, an indicator, whose inputs are connected to the corresponding outputs of the coordinate determination blocks, and the outputs of the receiving channels are connected in pairs to the inputs of the coordinate determination blocks 2. 2. A common drawback is the complexity of the devices caused by the use of a computer for determining the coordinates . The purpose of the invention is to simplify the device. This goal is achieved due to the fact that, in the device for acoustic emission monitoring of sheet materials, there are four receiving channels, each of which consists of a serially connected converter made in the form of a linearly distributed antenna and a shaping amplifier, two coordinate determination units, an indicator whose inputs are connected to the corresponding outputs of the coordinate determination units, and the outputs of the receiving channel are connected in pairs to the inputs of the coordinate determination units, each determination block coordinates contains a connected OR circuit, a trigger, a sweep generator and a control inverter, a trigger with separate inputs, the output of which is connected to the second input of the controlling inverter, and the output of the latter is connected to the input of the indicator, the first inputs of the OR circuit and the trigger with separate inputs are connected together and connected to the output of the first amplifier of the driver of the corresponding pair of channels, their second inputs are connected together and connected to the output of the second amplifier-former. The drawing shows a device for acoustic emission monitoring of materials, containing four receiving channels, each of which consists of serially connected transducers 1-4, made in the form of a distributed antenna and shaping amplifiers 5-8, two units 9 and 10 for determining the coordinates, the indicator 11, the inputs of which are connected to the corresponding outputs of the blocks 9 and 10 for determining the coordinates, and the outputs of the amplifiers-formers 5-8 are connected in pairs to the inputs of the blocks 9 and 10 for determining the coordinates. Each block 9 and 10 of coordinates determination contains OR 12 and 13 circuits connected in series, triggers 14 and 15, sweep generators 16 and 17 and control inverters 18 and 19, triggers 20 and 21 with separate inputs, the outputs of which are connected to the second inputs of control inverters 18 and 19, and the outputs of the latter are connected to the input of the indicator 11, the first inputs of the OR circuit 12 and 13 and the flip-flops 20 and 21 with separate inputs are connected together and connected to the output of the first amplifiers - formers 5 and 7 of the corresponding pair of channels; their second inputs are connected together and connect Eny to the output of the second amplifier shapers 6 and 8. The device for acoustic emission monitoring of sheet materials works as follows. In the initial state, the voltage at the outputs of the oscillators 16 and 17 is zero and, regardless of the position of the controlled inverters 18 and 19 (i.e., regardless of the initial states of the triggers 20 and 21), the bright point on the screen of the indicator 11 is in the center. When an acoustic emission signal emitted by a product defect appears at the outputs of transducers 1-4 at different points in time, electrical signals appear, depending on the coordinates of the defect, which are amplified and a pulse controlling the flip-flops 13 are generated from their leading fronts, 14, 20, 21. The first of the pulses arriving at the input of the OR circuit 12 trips the trigger 14, which starts the sweep generator 16, and the voltage at its output begins to grow linearly. At the same time, the same impulse It is installed in the position corresponding to the opposite location of the defect relative to the center of the controlled zone on the left or on the right C from the top. or below jl. The trigger 20 with separate inputs acts on the controlled inverter 18, which supplies the voltage from the generator 16 of the sweep. in the appropriate polarity. At the same time, the light with a dot on the screen of the indicator starts moving to the left or right from the center (up or down). By arrival

of the second pulse in the coordinate detection unit 9, the trigger 14 is tilted to another state, stopping the sweep generator 16, and the voltage at the output of the latter is fixed. At the same time, the controlled inverter 18 operates, and the light on the dot / screen of the indicator takes the position corresponding to the coordinate of the defect. After determining the coordinates of the defect

the operator sets eg xeni

I

at the outputs of the generators 16 and 17 sweep to the zero position.

Thus, the proposed ipoftcTjBo allows to increase the speed of determining the coordinates of the defect by analogous signal processing in the units of the determination of the coordinates in the case of the use of transducers made in the form of receiving antennas located along the perimeter of the controlled area.

Claims (1)

DEVICE FOR ACOUSTIC EMISSION CONTROL OF SHEET MATERIALS, containing four receiving channels, each of which consists of a transducer made in the form of a linearly distributed antenna, and an amplifier-shaper, two coordinate determination units, an indicator, whose inputs are connected to the corresponding outputs of the determination blocks coordinates, and the outputs of the receiving channels are connected in pairs to the inputs of the coordinate determination blocks, characterized in that, in order to simplify the device, each block is determined The coordinate line contains an OR circuit connected in series, a trigger, a sweep generator and a control inverter, a trigger with separate inputs, the output of which is connected to the second input of the control inverter, and the output of the latter is connected to the indicator input, the first inputs of the OR circuit and the trigger with separate inputs are connected together and connected to the output of the first amplifier of the driver of the corresponding pair of channels, their second inputs are connected together and connected to the output of the second amplifier-driver. Tmw'tis