SU1128154A1 - Magnetic structuroscope - Google Patents

Abstract

MAGNETIC STRUCTURE, containing a series-connected source of magnetizing current, a relay and an electromagnet, ferrosonde, a series-connected switch, a source of reference voltage and a comparator, a second comparator connected to the second output-source of reference voltage, and a recorder connected to the second output of the switch, characterized in that, in order to increase sensitivity and speed, it is equipped with an amplitude detector, switched on the output of the fluxgate and the second inputs of the first and volts comparators connected in series by the first one-shot, second detector, start signal generator, key and digital current meter connected to the output of the first comparator connected in series by the second one-shot and the third detector connected between the output of the second comparator and the second recorder input connected in series by the signal conditioner The TOKQM demagnetization control and the voltage converter are current connected between the second. the output of the first comparator and the measuring input of the digital meter. current generator. current connected to the measuring. a digital control unit input connected to the second inputs of an inaccurate, f / l magnetizing current, a relay, a current control signal generator, a demagnetize signal generator, and a trigger signal generator, the second output of the ferrosonde connected to the third inputs of the first and second comparator , the output of the second detector to the third input of the recorder, the control input of the key to the output of the switch, the output of the voltage-current converter to the third input of the relay, and the third input of the control signal This demagnetization - to the third output of the switch.

Description

111 The invention relates to instrumentation and measurement techniques and can be used for in-destructive quality control of thermal and chemical thermal processing, hardness, and other physical and mechanical properties that have a correlative relationship with the coercive force or with the magnetization of the material of the object being monitored. A device used to control the structure after various types of heat treatment is known, which contains a source of magnetizing current, an electromagnet connected by its windings to a source of magnetising current, a series-connected ferrosonde and phase-sensitive measurer, switch and recorder Clj However, this device does not provide high-performance counter because insufficient speed while using only one informative parameter - coercive force. The closest to the invention according to the technical essence is a small structure structuroscope, containing a series-connected source of magnetizing current, a relay and an electromagnet, a ferrosonde, a series Connected switch. The source of the reference voltage and the comparator, the second comparator, connected to the second output of the source of the reference voltage and the recorder, connected to the second output of the switch, tator G2 |. However, the use of a phase-sensitive meter containing rectifying elements in the known device, as well as the presence of an intrinsic KOZRSchTIVNY force of the electromagnet magnetic conductor, cause insufficient sensitivity when testing products made of magnetic materials. In addition, the inclusion of an integrating link in front of the comparators reduces the device's speed in sorting mode, the products according to the scheme is suitable - marriage. The aim of the invention is to increase the sensitivity and speed of control. The goal is achieved. Let us say that a magnetic structure consisting of 4 magnetizing current sources, a relay and an electromagnet, a ferrosonde, a series-connected switch, a reference voltage source and a comparator, a second comparator connected to the second output of the voltage source, and the recorder connected to the second output of the switch is equipped with an amplitude detector connected between the output of the fluxgate and the second inputs of the first and second comparators, sequentially connecting the first one-shot, the second detector, the signal conditioner for-. start, a key and a digital current meter, connected to the output of the first comparator, connected in series by a second single vibrator and a third detector connected between the output of the second comparator and the second input of the recorder, connected in series by a demagnetizing current control signal generator and a voltage-current converter connected between the second output of the first comparator and the measuring input of the digital device and the current bodies, the generator, the current connected to the measuring input digitalism A current controller, and a control unit, connected respectively to the second inputs of the source of the magnetized current, the relay, the demagnetization current control signal generator, and the signal conditioner. start, the second code of the fluxgate is connected to the third inputs of the first and second comparators, the output of the second detector to the third input of the recorder, the control input of the key to the switch output, the output of the voltage converter to the third input of the relay, and the third input of the rammer the demagnetization current control signal to the third output of the switch. The drawing shows a structural diagram of a magnetic structuroscope. The Structuroscope contains a source of magnetized current 1, an electromagnet 2, a ferrosonde probe 3 connected by its windings 4 to the contacts of a relay 5, an amplitude detector 6 of a compensation type connected by its input to the measuring winding of a fluxonde 3 and the third inputs of the comparators 7 and 8, and the output to the second inputs of these comparators, one-shot 31 9 and 10, connected by their inputs to the outputs of the comparators 7 and 8, respectively, and the outputs to the inputs of the average detectors 11 and 12, respectively, connected by their outputs with the signal inputs The signals of the recorder 13, the source 14 of the reference voltage, the outputs of which are connected to the corresponding first inputs of the comparators 7 and 8, the driver 15 signaling the control of the current / magnetically connected, connected by a signal input to the output of the comparator 8, and its output - to the input of the converter 16 voltage-current, connected by its output with the output of current generator 17, with a digital measuring input, current meter 18 and with relay contacts 5, driver 1 of a digital current meter 18 trigger signal connected first and second with its inputs and, respectively, with the output of the average value detector 12 and the second control input of the demagnetization current control signal generator 15, the control unit 20 connected to the source of the magnetizing current, the winding of the relay 5 and second; the control input of the driver; 15 demagnetization current control signal and a switch 21 connected to the control inputs of the recorder 13, the source 14 of the reference voltage, the key 22 and the third input of the demagnetization current control signal 15. Structuroscope works as follows. The switch 21 sets one of the two foreseen modes of the struktroscope: Control over the force of magnetization. In the control mode of coercive force, the switch 21 turns off the output voltages of the source 14 of the reference voltage, blocks the work of the recorder 13, closes the key 22, sends a signal permitting the logical unit to the second input of the generator 15. After installing the electromagnet 2 on the inspected part, the control unit 20 activates a relay 5, which, by contacts, connects the windings 4 to the electromagnet to the source 1 of the magnetizing current, sends a blocking signal to the second input of the imaging unit 15 and a resolution signal to the globalizer 19. At the same time, the output of the imaging unit 19 operates a signal of the logical unit, which is fed through the closed switch 22 to the control input of the digital current meter 18 and provides its operation in the internal automatic launch mode. Simultaneously with the switching on of the relay 5 through the windings 4 of the electromagnet, current pulses are generated by the source 1, magnetizing the controlled product. After the formation of the magnetizing current pulses is completed, the relay 5 is de-energized by connecting the windings 4 of the electromagnet 2 to the conversion output. is called l t6 voltage-current. At the same time, the excitation of the fluxgate 3 is turned on and the driver 15 of the demagnetizing current control signal is unlocked. The switching on of the excitation current of the ferrosonde causes the appearance at the input of the amplitude detector 6 of a different polarized alternating voltage, the difference between the positive and negative amplitudes of which is proportional to the residual magnetization of the product under test. . The measuring winding of the fluxgate 3 is connected to the input of the amplitude detector 6 in such a way that the constant voltage generated at the output of the amplitude detector repeats a smaller magnitude amplitude value of the input signal. In the process of demagnetization of a controlled product, the magnitude of the amplitude increases, and the magnitude decreases, and their total frequency decreases at the moment the residual magnetization vanishes in the magnetic circuit of the electromagnet. Thus, the amplitude detector converts to constant magnitude the amplitude value of the input signal increasing in the process of demagnetization, which causes its very high speed. Comparators 7 and 8 convert the amplitude difference of the signal of the fluxgate 3 into a series of rectangular pulses of constant amplitude whose duration decreases as the difference of the amplitudes decreases. The output pulses of the comparators are converted by single vibrators 9 and 10 into constant duration pulses, which, in turn, are converted into constant voltage by detectors, average values 11 and 12. From the output of the comparator 8, the pulses arrive at the input of the imager 15, in which it is formed, straining proportional to the demagnetizing field. By means of converter 16, the voltage is converted into demagnetization current supplied through the contacts of relay 5 to the windings of electromagnet 2 and measured by digital current meter 18. At the moment when the residual magnetization in the magnetic circuit formed by the controlled product and the electromagnet magnetic conductor vanishes, the amplitudes of the output signal of the fluxgate 3 are equalized, the pulses at the output of the comparator disappear, the voltage build-up on the output of the deformer 15 stops, the voltage disappears at the output of the tectors of the mean value. The disappearance of the output voltage of the detector 12 leads to the formation of a start signal at the output of the driver 19, a digital measurement of current bodies. This signal, fed through the lock key 22 to the control input of the digital meter 18, transfers it to the current value memory mode. corresponding to the moment of disappearance of the residual magnetization of the product being turned and proportional to its coercive force. At the same time, the output signal of the former 19 and the digital meter reading in a digital code are fed to the output connector of the structure for input into digital data processing devices. By pressing the Reset button of the control unit 20, the latter returns to the source: a single state, resetting the demagnetization current to zero, blocking the third input of the driver 15 and re-switching to the internal automatic start mode of the digital current meter 18. In the voltage control mode — the switch 21. The output voltages of the source 14 of the voltage are switched on, and a resolution signal is applied to the recorder 13 ,. Opens the switch 22, which causes the operation of 546 18 in the mode of a digital meter for continuous current measurement, and by applying a logic zero signal is transferred to the constant output voltage shaping mode, the demagnetizing current control signal 15. In this mode, a constant voltage is applied from the output of the imaging unit 15 to the converter 16, the length of which can be adjusted during the control process. When an electromagnet is mounted on a reference product with a nominal value of the monitored parameter in the driver 15, such a value of the current is demagnetized. This is where the pulses at the outputs of Comparators 7 and 8 disappear, as evidenced by the indication of Recorder Norm 13. In this position, the digital meter 18 displays the demagnetizing current value, the proportional test coercive force of the reference product with the nominal value of the monitored parameter. The described demagnetizing current setting for a nominal reference is made at zero voltages applied to the inputs of the KQM drivers from source 14 of the reference voltage, which is provided by variable resistors (not shown) connected to the outputs of the voltage source to regulate the voltage level. C. / using these resistors on the reference products with upper and lower permissible values of monitored parameters expose the voltage corresponding to the upper (at the input of the comparator 7) and lower (at the input of the comparator 8) boundaries of the expiration zone. . If the value of the monitored parameter exceeds the upper permissible value, then simultaneously at the outputs of the two comparators there appears: a pulse signal, which is classified by Registrar 13 as More than a norm. The absence of a signal at the codes of the comparators indicates that the monitored parameter is out of the lower permissible limit, while the recorder signals Less than normal.

7II

Using a current generator 17 in the windings of an electromagnet, a constant bias current is created to compensate for the coercive force of the magnetic conductor of the electromagnet, which contributes to the sensitivity of the struktroscope when testing products made of soft magnetic materials, the coercive force on which may be comparable with the coercive force of the electromagnet.

548

The magnetic structuroscope makes it possible to control both the coercive force and the magnitude of the residual magnetization of the product, with the result of the control being recorded automatically.

The Structuroscope allows it to be retrieved from a mini-computer, in order to process the results of the control and to obtain complex indicators of the quality of the controlled product.

Claims (1)

MAGNETIC STRUCTURE SCOPE ^: comprising a magnetizing current source connected in series, a relay and an electromagnet, a flux gate, a switch connected in series, a reference voltage source and a comparator, a second comparator connected to the second output of the reference voltage source, and a recorder connected to the second output of the switch, characterized 'in that, in order to increase sensitivity and speed, it is equipped with an amplitude detector connected between the output of the flux gate and the second inputs of the first and second omparators, connected in series by the first one-shot, second detector, driver of the start signal, · a key and a digital current meter, connected to the output of the first comparator, connected in series by the second one-shot and the third detector, connected between the output of the second comparator and the second input of the recorder, connected in series by the driver control of the demagnetization current and the voltage-current converter connected between the second. the output of the first comparator and the measuring input of a digital current meter, generator. current connected to the measuring one. digital current meter input, and 6j com control ,; connected respectively to the second inputs of the magnetizing current source, relay, current control signal generator. the demagnetization and the driver signal trigger, the second exit of the flux gate is connected to the third input of the first and second comparators, the output of the second detector is to the third input of the recorder ^ control key switch is to the output of the switch, the voltage-current converter output is to the third relay input, and the third generator input demagnetization current control signal - to the third output of the switch. 1 11281