SU1541546A1 - Ferroprobe coercive force meter - Google Patents

Abstract

The invention relates to a measurement technique and can be used for non-destructive quality control of ferromagnetic products. The purpose of the invention, an increase in the control performance, is achieved by the introduction of an additional switch-on unit, which eliminates the false alarms of the control unit. The fluxgate coercimeter contains a source of magnetizing current 1, a source of excitation current 2, an electromagnet 3 with a winding 4, a fluxgate sensor 5 with an excitation winding 6 and a measuring winding 7, a demagnetization current source 8, a microammeter 9, a switch 10, a control unit 11, a millimeter meter 12 and a turn-off power-up unit 13 comprising four diodes 14-17, a thyristor 18 and a resistor 19. 1 slug.

Description

The invention relates to measuring technique and is directed to non-destructive quality control of ferro magnetic products.

The aim of the invention is to increase the measurement performance of the coercive force of ferromagnetic products by introducing an additional on-off unit, thereby eliminating false alarms of the control unit, which reduces the measurement performance.

The drawing shows a structural diagram of a flux-gate coercimeter.

The device contains a magnetizing current source 1, an excitation current source 2, an electromagnet 3 with a coil 4, a fluxgate sensor 5 with a field winding 6 and a measuring coil 7, a demagnetizing current source 8, a microammeter 9, a key (G trigger, control unit 11, milliammeter 12 and an on / off unit 13 comprising four diodes 14-17, a thyristor 18 and a resistor 19 =

The outputs of the magnetizing current source 1 are connected respectively to the first and second outputs of the magnet 4 winding 4 I. The first demagnetizing current source 8 is connected via a milliammeter 12 to the first output of the electromagnet 3 winding 4, the second output of which is connected to the second output of the demagnetizing current source 8, the first output the excitation current source through the excitation winding 6 of the flux-gate sensor 5 ^{H is} connected to the anode of the third 16 and the cathode of the fourth 17 diodes. The anode of the first 14 and the cathode of the second 15 diodes are connected to the second output of the excitation current source 2. The conclusions of the measuring winding 7 of the fluxgate sensor 5 are connected respectively to the inputs of the microammeter 9, the outputs of the control unit 11 are connected respectively to the control inputs of the magnetizing current source I, demagnetizing current source 8 and microammeter 9. The first contact pair of the start key is connected to the inputs of the control unit. The first contact of the second contact pair of the trigger key 10 is connected to the cathodes of the first 14 and third 16 diodes and the anode of the thyristor 18, the control electrode of which is connected through the resistor 19 to the second contact of the second contact pair of the trigger key 10. The anodes of the second 15 and fourth 17 diodes and the cathode of the thyristor 18 are interconnected.

The device operates as follows.

The test product 20 is placed on the poles of the electromagnet 3 "On the milliammeter 12 set the specified value of the demagnetization current. The key 10 simultaneously starts the control unit 11 and the on-off unit 13. Upon the command of the control unit 11, the magnetizing current source 1 is turned on. After the magnetization cycle, the control unit 11 includes a demagnetizing current source 8 and a microammeter 9. The output signal of the coercimeter is the current recorded by the microammeter 9.

At the end of the measurement cycle, the trigger key 10 is placed in an open state. In this case, the thyristor 18 is closed at zero amplitude of the excitation current, thereby eliminating false alarms of the control unit 11.

Claims (1)

Claim A flux-gate coercimeter with a magnetizing current source, the outputs of which are connected respectively to the first and second terminals of the electromagnet winding, a demagnetizing current source, the first output of which is connected through a milliammeter to the first output of the electromagnet winding, the second terminal of which is connected to the second output of the demagnetizing current source, the excitation current source the first output of which is connected to the first output of the excitation coil of the flux-gate sensor, the conclusions of the measuring winding of which are connected are connected to the inputs of a microammeter, a control unit whose outputs are respectively connected to the control inputs of a magnetizing current source, a source of demagnetization of current and a microammeter, and a start key, the first contact pair of which is connected to the inputs of the control unit, characterized in that, in order to increase productivity measurements, it is provided with a block of ^on-t kgyucheniya formed by four diodes ti5 variable resistor and a resistor, wherein the first anode and cathode of the second diode · cos "dinenys second output of the source and the excitation, the anode of the third and the cathode of the fourth diode are connected to the second terminal of the excitation winding of the flux-gate sensor, the cathodes of the first and third diodes and the anode of thyro 1541546 are connected to the first contact of the second contact pair of the start key, the second contact of which is connected through the resistor to the control electrode of the thyristor, the anodes of the second and the fourth diodes and the cathode of the thyristor are interconnected.