SU1272213A1 - Structure detector - Google Patents

Abstract

The invention relates to measuring technique and can be used for non-destructive quality control of products made of ferromagnetic materials. The aim of the invention is to increase the reliability of control by dividing the controlled products into several classes. When the device is operating, the information signal is rectified and fed to the indicator. At the same time, depending on the threshold level, the signal is fixed in the triggers and the product is sent to the appropriate group. 1 il.

Description

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Claims (1)

S 11 The invention relates to instrumentation, technology and can be used for non-destructive quality control of products made of ferromagnetic materials. The purpose of the invention is to increase the reliability of control by dividing the controlled products into several classes. The drawing shows a block diagram of the structuroscope. The Structuroscope contains a blocking generator 1 connected in series with a transformer converter 2, a selective amplifier 3, rectifier 4 and indicator 5, two threshold circuits 6 and 7, the first inputs of which are connected to the output of indicator 4, a block of 8 dimensional voltages, the outputs of which are connected to the second inputs in horny circuits 6 and 7, waiting for multivibrator 9, three circuits AND 10-12, two triggers 13 and 14, the first inputs of which are connected to the corresponding outputs of threshold circuits 6 and 7, and the second inputs are combined and connected to the output of the circuit we And 10, the third trigger 15., the first input of which is connected to the output of the waiting multivibrator 9, and the direct output is connected to the second input of the circuit AND 10, a fourth trigger 16, the second input of which is combined with the second input of the trigger 15, and three circuits NAND 17 - 19, the first input of the NAND 17 circuit is connected to the forward output of the trigger 13, the first inputs of the NAND circuits 18 and 19 are connected to the inverse output of the trigger 13, the second inputs of the NAND circuits 17 and 18 are connected to the direct output of the trigger 14, the second input of the circuit IS-NOT 19 is connected to the inverse output of the trigger 14, and the third outputs of the circuit IS-NOT 17-19 combined and connected to the inverse output of the trigger 15. The structuroscope also contains the OR 20 circuit, the first input of which is connected to the output of the AND 19 scheme, and the second input to the forward output of the trigger 16, the direct output of which is connected to the second inputs 11 and 12, the counter 21, the first input of which is combined with the first input of the circuit AND 11 and connected to the output of the circuit IS-NOT 17, and the second input is connected to the output of the circuit IS-NOT 19, the counter 22, the input of which is connected to the output of the circuit IS-NOT 18, connected in series magnetization unit 23, fer 3I. A probe converter 24 and a measurement unit 25, the output of which is connected to the first input of the trigger 16. The struktroscope also contains a button 26 through which the power supply voltage (not shown) is supplied to the standby multivibrator 9 and the first input of the circuit 10. The device operates as follows. When a monitored product (not shown) is installed in transformer converter 2, button 26 closes, as a result of which the waiting multivibrator 9 is started and after a certain time (in this case 1.5 seconds) logical 1 is formed at the first input of the trigger 15, i.e. trigger 15 is triggered by installing every detail. The delay time is necessary in order to eliminate the appearance of spurious signals at the device output, which can occur if trigger 15 is triggered immediately after closing button 26, a signal may appear at the output of the And 11 and 12 circuits, if the part has a hardness lower than specified i.e. when the triggers 13 and 14 are triggered. In addition, a positive signal Logic O is applied to the first input of the AND circuit 10. This is necessary so that after the trigger 15 triggers, the first output of which is connected to the second input of the And 10 circuit and after the logical 1 is applied to In the AND 10 circuit, the signal does not appear and does not reset the triggers 13-16 until the part is reset, i.e. button 26 opens. If the hardness of the part is higher than the specified one, but no chill is present, then the signal from rectifier 4 lies below the reference voltages of the threshold circuits 6 and 7 and the trigger 13 and 14 do not work, because logic 1 appears at their first inputs. Trigger 16 also does not work, since the measurement unit 25 does not supply a logical 1 to its first approach, i.e. in this case, only the trigger 15 is triggered, which is always triggered after the installation of part 1, with the result that logical 1 appears only at the output of circuit 11 and the part is dumped into the Solid box. If the hardness of the part corresponds to the required one, then trigger 13 and 15 are triggered, as a result of this, the logical logical 1 appears on the course of the AND 12 circuit, and the part is dumped into the Recycle bin (normal). If the hardness of the detail is lower than the specified one, then the signal from rectifier 4 exceeds the reference voltages of threshold circuits 6 and 7 and triggers 13-15 are triggered. As a result, a Logic 1 signal appears at the output of the OR 20 circuit and the part is dropped into the Soft basket. If the item with chill is monitored, measurement unit 25 sends a Logic 1 signal to the first input of the trigger 16, which causes it to be triggered (the first output is logical 1, the second is logical O) and feed the logical O to the second inputs of circuits 11 and 12 , and to the second input of the ShSh-20 circuit - a logical one. As a result of this, the part is dropped into the MAGKY basket. This is due to the fact that the soft parts are irrecoverable, the parts with chill are also irrecoverable, i.e. go to the smelter. And the parts, whose hardness is higher: preset, but not chilled, do not become suitable after annealing. A Structuroscope comprising a blocking generator with a transformer converter connected in series, a selective amplifier, a rectifier and an indicator, two threshold circuits, the first inputs of which are connected to the output of the rectifier, a block of reference voltages, the outputs of which are connected to the second inputs of the threshold circuit waiting for the multivibrator, the first scheme and the normally closed button, through which the inputs of the waiting multivibrator and the first AND circuit are intended to be connected to a positive power source, two triggers, the first inputs of which are connected to the outputs of the respective threshold circuits, the third trigger, the first input of which is connected to the output of the waiting multivibrator, and the second input is combined with the second inputs of the first and second triggers AND, three AND-NOT schemes, The first input of the first AND-NOT circuit is connected to the forward output of the first trigger, the first inputs of which and the third AND-NOT circuitry are combined and connected to the inverse output of the first trigger, the second inputs of the first and second AND-NOT circuitry are combined and connected to the direct The second output of the second trigger, the second input of the third AND-NOT circuit is connected to the inverse output of the second trigger, the third inputs of the three AND-NOT circuits are combined and connected to the inverse output of the third trigger, the forward output of which is connected to the second input of the first And circuit, the first counter, connected to the outputs of the first and third IS circuits, and the second counter connected to the output of the second IS circuit, characterized in that, in order to increase the reliability of control, it is equipped with a flux-gate converter connected in series by a magnetization unit m, a measuring unit and a fourth trigger, the second input of which is connected to the output of the first AND circuit, the SHS circuit, the first input of which is connected to the output of the third AND –NAY circuit, and the second to the first output of the fourth trigger, and the second and third I circuits, the first the inputs of which are connected respectively to the outputs of the first and second circuits AND-NOT, and the second inputs are connected to the inverse output of the fourth trigger. 2S pO . Signal  reset details.