SU1728780A1 - Electromagnetic inspection device - Google Patents

Abstract

The invention relates to non-destructive testing and can be used in mechanical engineering for the detection of defects and disturbances in the structure of a material by the eddy current method. The aim of the invention is to increase the reliability of the control by eliminating the possibility of false triggering when the control voltage returns to its original value. Changing the mode of operation of the binary counter 7 (summation or subtraction) and the mode of operation of the imaging unit 9 (right or decay), establish various modes of operation of the device, fixing or the moment of generation or the moment of its failure. If counter 7 is in the pulse subtraction mode, then the output of the PNYA-NO 11 element appears logical level 1 with the zero code of counter 7. Signal 1 signal at the output of element And 12 appears in antiphase to change the state of counter 7. This the signal triggers the pulse shaper 13, at the output of which 1 a pulse is formed, prohibiting the operation of the element 14. 2 Cp f-ly, 1 ill. with s

Description

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The invention relates to non-destructive testing and can be used in mechanical engineering for the detection of defects and disturbances in the structure of a material by the eddy current method.

A device for electromagnetic control is known comprising a converter, a series-connected high-frequency generator, whose oscillator circuit includes a converter, an amplitude detector, and a threshold element of a series-connected binary counter and a digital-analog converter connected to the second input of the high-frequency generator, clock generator, pulse generator and processing and display unit.

Closest to the invention is an electromagnetic control device comprising an eddy current transducer, a high-frequency generator connected in series, the oscillating circuit of which includes an eddy current transducer, an amplitude detector and a threshold element, a sequentially connected clock generator, the first And element, a binary counter and a digital-to-analog converter connected to the second input of the high-frequency generator, successively connected to the first driver pulses and a processing and indication unit, the second input of which is connected to the output of a binary counter, and the third input is connected to the input of the first pulse generator, the output of which is connected to the second input of the first element I.

A disadvantage of the known device is the limited reliability due to the fact that incorrect readings are possible due to the inertia of the elements of the device. When the meter operates in a ring mode, the control voltage returns to its original value not instantaneously. Therefore, a false operation is possible at a certain value of the control voltage.

The purpose of the invention is to increase the reliability of the control by eliminating the possibility of false positives when the control voltage returns to its original value.

This goal is achieved by the fact that a device for electromagnetic control, containing a eddy current transducer, a high-frequency generator connected in series, into an oscillating circuit on which a eddy current transducer, an amplitude detector and a threshold element, are sequentially connected

connected clock generator, the first And element, a binary counter and a digital-to-analog converter connected to the second input of the high-frequency generator, the first pulse generator and the processing and display unit, the second input of which is connected to the output of the binary counter, are connected in series, and the third input of the processing and display unit is connected with the input of the first pulse generator, the output of which is connected to the second input of the first element AND, is provided with series-connected matching unit, V And, the second pulse generator and the third And element, the output of which is connected to the input of the first pulse shaper, and the input with the output of the threshold element, the output of the binary counter connected to the input of the coincidence unit, and the output of the first And element with the inverting input of the second element I. The coincidence block is made in the form of AND or OR-NOT elements, and the binary counter is made in the form of a summing or subtracting device.

The drawing shows the block diagram of the device.

The device contains a series-connected high-frequency generator 1 with an eddy-current transducer 2 in its circuit, an amplitude detector 3, a threshold element 4, a series-connected generator of 5 clock pulses, the first element 6, a binary counter 7 and a digital-to-analog converter (DAC) 8 connected to the second input high-frequency generator 1, serially connected the first driver 9 pulses and the processing and display unit 10, the second input of which is connected to the output of the binary counter 7, and the third input c only - with the input of the first pulse generator 9, the output of which is connected to the second input of the first element 6, the coincident block 11 connected in series, the second element 12, the second driver 13 of pulses and the third element 14 connected by the output to the input of the first driver 9 of pulses, and the input is connected to the output of the threshold element 4, the input of the coincidence unit 11 is connected to the output of the binary counter 7, the input of which is connected to the second input of the second element 12.

The processing and display unit 10 comprises an indication unit 15, a register 16, whose information inputs are the second input of the processing and display unit 10, a trigger 17 connected to the bus 18

control, IS-NE 19, subtractor 20 binary codes and analog switch 21, the first input of which is the first input of the processing and display unit 10, the second input is connected to the supply voltage, and the output is connected to the first input of the display unit 15, the second inputs which are connected to the outputs of the subtractor 20, the first inputs of which are connected to the first inputs of the register 16, and the second to the outputs of the register 16, the synchronization input of which is connected to the output of the element AND-NOT 19 and the installation input of the trigger 17, the output of which - NOT 19, Torah input of which is the third input unit 10 and display processing. When the binary counter 7 is executed as a summing counter, the coincidence block 11 is made as an AND element, and when the binary counter is executed as a subtracting counter, the coincidence block 11 is made as an IL AND NONE element.

The device works as follows.

In the initial state, the register 16 and the trigger 17 are reset to zero, for example, by a power-on reset pulse. When setting the counter 7 to the pulse summing mode with the arrival of the clock pulses of the generator 5 through the element 6, the output of the counter 7 generates an increasing binary code that converts the DAC 8 to a voltage returning / controlling one of the generator 1 parameters, for example, the supply voltage.

For a certain value of one of the generator 1 parameters (depending on the external environment introduced into the coil of the eddy current transducer 2 of the complex resistance) oscillations occur in the generator 1 and enter the amplitude detector 3, the output of which oscillates the signals from generator 1, which arrives the threshold element 4, at the output of which a logical 1 signal is formed. At the output of elements 11 and 12, until the appearance of the output of counter 7 of the unit code, there is a zero level, and at the output The pulse puller 13 holds the logic level 1, allowing the element 14 to operate. On the front of the logic 1 signal, the output of the threshold element 4 by the driver 9 generates a pulse that prohibits the generator 5 from passing the pulse pulses through the element 6 to the input of the counter 7 and opening switch 21 to supply power voltage on the display unit 15.

The duration of the output pulse of the imager 9 is set necessary for confident visual fixation of the readings of the display unit 15.

The logic level O from the output of the trigger 17 prohibits the passage of the pulse from the output of the element AND 14 through the element IS-NOT 19 to the clock input of the register 16, as a result of which the register

0 16 remains in the zero state and the digital code of the counter 7, which caused the generation to occur, is fed through the subtractor 20 without changes to the display unit 15. At the end of the output pulse of the shaping device 9, the element And 6 permits the passage of clock pulses to the input of the counter 7, which continues to operate in a ring mode.

Thus, the device, when a generation occurs, highlights the code that caused the generation on the display unit 15, which is proportional to the resistance of the controlled medium introduced. Absence of luminescence of display unit 15

5 signals the absence of generator generation 1 and the need to change the parameters of other elements of its circuit or the limits of change of the controlled parameter.

0 At the moment when a single code appears at the output of the counter 7 at the output of the And 11 element, a logical 1 signal is generated, allowing the operation of the And 12 element.

12 is made so that a logical signal 1 5 at its output appears in antiphase to

a change in the state of the counter 7. This signal triggers the driver

13 pulses, at the output of which an impulse is formed that prohibits the operation of the element And 14. False actuation of the generator 1

when returning control voltage from

. maximum to minimum value and

respectively trigger threshold

element 4 does not affect the operation of the subsequent elements of the device. The pulse duration at the output of the pulse former 13 is determined by the inertia of the device.

Thus, the leading edge of its pulse from the output of the element And 6, the counter 7 is set to one, at the output of the element And 11 a signal of logical 1 appears, but the signal at the output of the element And 12 does not change. If at the maximum value of the control voltage, determined by a single code at the output of counter 7, generator 1 does not work, then the falling edge of the pulse from the output of the AND 6 element (for pulses of the generator 5 clock pulses of the square wave type will cause half a period) the output of the element 12 of the signal of logical 1, and the output of the pulse shaper 13 is driven by the front negative edge of the pulse inhibiting the operation of the bit g14. The pulse duration at the output of the shaper 13 is set such that the rear positive the front of the vils after the differential at the output of the threshold element 4 at the return of the control voltage and at the same time. so that after the end of the inhibitory pulse of the driver 13, the device, if necessary, has time to operate with zero control voltage (zero code of the counter 7).

When a control pulse is applied to the bus 18 at the output of the trigger 17, a logic level 1 is set, which, if there is a logic level 1 at the output of the AND element 14, sets the output pulse of the IS-19 element 19 for the pulse to fall. and returns the trigger 17 to the initial state before the control pulse arrives on the bus 18, forming the falling edge of the pulse of the NAND element 19. As the outputs of the counter 7 and the register 16 have the same codes, the output of the subtractor 20 shows there is a zero code, you illuminated by the display unit 15 for the duration of the output pulse of the imaging device 9. If the impedance introduced by the controlled medium into the coil of the downstream current transducer 2 does not change, then the generation occurrence code taken from the output of the counter 7 does not change and the display unit 15 flashes zero code. When the impedance changes, the code at the output of the counter 7, which caused the occurrence of generation, will change, the difference of the codes at the output of the subtractor 20 will change accordingly, and the indications of the display unit 15 will also change.

By changing the mode of operation of the counter 7 (summation or subtraction) and the mode of operation of the imaging unit 9 (on the front or on the slope), it is possible to set various modes of operation of the device, fixing or the moment of generation or the moment of its failure. If the counter 7 is in the pulse subtraction mode, then the output of the element OR - NOT 11 appears at the logical level 1 at the zero code of the counter 7.

Thus, the proposed device in comparison with the known possesses increased reliability, since the false response of the generator 1 (stall or

the occurrence of generation), which occurs when the control voltage returns to the initial value, does not affect the operation of the device due to the fact that the voltage drop at the output of the threshold element 4 for the return time is prohibited by AND 14. A K561IE11 chip can be used as a binary counter , as an analog key, a K590KN4 type microcircuit, a binary code subtractor can be implemented using the K561IM1 adder, adding the forward code of a binary counter 7 with the additional code from the register output

16, and by the sign of the result, convert to direct code. Indications may be produced by digital indicators connected via a descrambler.

Claims (3)

1. A device for electromagnetic control, containing an eddy current transducer, a high-frequency generator connected in series, the oscillating circuit of which includes eddy current transducer, amplitude detector and threshold element, serially connected clock generator, first element And, binary counter and digital-to-analog converter connected to the second input of the high-frequency generator, serially connected first driver of pulses and processing and display unit, the second input of which is connected to the binary output the counter, and the third input of the processing and indication unit is connected to the input of the first pulse generator, the output of which is connected to the second To the input of the first element I, in order to increase the reliability of the control, it is equipped with a matching unit connected in series, a second element I, a second pulse shaper, and a third element I, the output of which is connected to the input of the first pulse shaper, and the input connected to the output of the threshold element, the output of the binary counter is connected to the input of the matching block, and the output of the first element And is connected to the inverting input of the second element I. 2. The device according to claim 1, characterized in that the binary counter is designed as a summing counter, and the coincidence unit is made as element I. 3. Device pop. 1, characterized in that the binary counter is made in the form of a subtracting counter, and the matching block is made in the form of an IL AND NONE element.