SU1552082A1 - Apparatus for magnetic-tape inspection of quality of materials - Google Patents

Abstract

The invention relates to non-destructive testing of materials and products and can be used in determining the quality of products using a magnetic method. The purpose of the invention is to increase the reliability of control by choosing the magnitude of the bias when measured by the values of the measured magnetic flux. The signal from the winding 6 after amplification goes to the winding 5 and determines the magnitude of its bias. At the same time, the signal from the fixed frequency generator 1 also goes to the winding 5. Depending on its impedance, the signal at the output of the inverting amplifier 8 is determined. 3, which makes it possible to compensate for the change in the derivative of the magnetic flux and to increase the sensitivity to the useful signal. 1 il.

Description

The invention relates to non-destructive testing of materials and products by magnetographic methods and can be used in industry g When visualizing the physico-mechanical structure of controlled objects.

The aim of the invention is to increase the reliability of control by choosing the magnitude of the magnetization with 10 changes in the values of the measured magnetic flux.

The drawing shows a structural diagram of the device.

The device contains sequentially 15 but connected fixed frequency generator 1, a resistor 2, an inverting adder 3 reproducing a Magnetic head 4 with two windings 5 and 6 connected in a differential manner, a capacitor 7, an inverting amplifier 8 with a resistor 9 in the feedback circuit communication and block 10 of the synchronous detector, the reference input of which is connected to the generator 1 of a fixed frequency.

In addition, the device contains a series-connected repeater 11 connected to the winding 6, an amplifier 12 and a variable resistor 13 connected to the input of the inverting adder 3, connected in series subtractor repeater 14, the direct input of which is connected to the output of the inverting amplifier 8, and the inverse input is connected to the output of the generator 1 of a fixed frequency, and a variable resistor 15 connected to the input of the inverting adder 3. 40

The device operates as follows.

The signal from the winding 6 through the repeater 11, the amplifier 12 'and the variable resistor 13 is fed to the inverting 45 adder 3. From the output of the inverting adder 3, a signal proportional to the magnetic flux is fed to the winding 5 of the reproducing magnetic head 4. Using a variable resistor 13 is installed zero current equal to the derivative of the magnetic flux.

At the same time, a signal through a resistor 2 and an inverting sum tor 3 to a winding 5 and through a capacitance 7 to an inverting input are fed from a fixed frequency generator 1. amplifier 8 ”Depending on the magnetization level, the resistance of the winding 5 changes, and therefore the signal at the output of the inverting amplifier 8, which is fed to the subtractor repeater 1’4.

When the magnetic flux changes, the output voltage of the subtractor repeater 14 increases and through the variable resistor 15, which controls the amount of feedback, is fed to the input of the inverting adder 3.

Thus, the influence of the derivative of the flux is eliminated and the influence of the flux on the change in the amplitude and phase of the signal at the output of the inverting amplifier 8 is enhanced.

Next, the signal is detected by the block 10 of the synchronous detector, where the information components are allocated.

Claims (1)

Claim A device for magnetographic quality control of materials containing a generator of a fixed frequency and serially connected to a reproducing magnetic head, a capacitor, an inverting amplifier and a block of a synchronous detector, the reference input of which is connected to a generator of fixed frequencies, as a whole that, in order to increase the reliability of control, it is equipped with a series-connected resistor connected to the output of a fixed-frequency generator and an inverting adder, in series with connected by a repeater, an amplifier and a first variable resistor connected to the input of the inverting adder, and connected in series by a subtractor, the direct input of which is connected. nen with the output of the inverting amplifier, and the inverse input is connected to a fixed frequency generator and a second variable resistor connected to the inverting adder, and the reproducing magnetic head is made in the form of two differential windings connected respectively to the input of the repeater and the output of the inverting adder.