SU970086A1 - Device for checking coating thickness - Google Patents

Description

(54) DEVICE TO CONTROL COVER THICKNESS

one

The invention relates to non-destructive quality control means and can be used to control the thickness of ferromagnetic-based coatings.

A device for non-destructive quality control of ferromagnetic products is known, comprising a magnetization reversal winding connected to an output of a current generator, a measuring winding of a prepreactor, a preamplifier, a high-pass filter, a final amplifier and an indicator 1 connected in series.

The accuracy of the control of the coating thickness on the ferromagnetic substrate is low due to the effect on the control of the error of the gap between the transducer and the product.

It is also known a device for monitoring the thickness of coatings, which contains a series-connected alternating current oscillator, a current meter on the converter magnetization reversal winding, a transducer measuring winding connected in series, a high-pass filter, a preamplifier, a band-pass filter, a terminal amplifier and an indicator 1.23.

The disadvantages of this device are that it does not allow the thickness of electrically conductive and non-conductive coatings to be controlled simultaneously with sufficient accuracy.

The aim of the invention is to improve the accuracy of the control.

The goal is achieved by the fact that the device is equipped with a sequentially connected low-pass filter and a control amplifier connected between the second output of the preamplifier and the second input of the final amplifier, a switch,

15 connected between the terminal amplifier output and the indicator input, while the second input of the controlled amplifier is connected to the second output of the current meter, the third output of which

20 is connected to the second input of the switch.

The drawing shows a block diagram of a device for controlling the coating thickness.

25

The device contains a alternating current alternator 1 connected to the input of the measuring instrument 2 magnetizing current 2, the output of which is connected to the magnetic magnetized winding of the Barkgausen transducer 3. A high-pass filter 4, a preamplifier 5, a band-pass filter b, and a final amplifier 7 are successively connected to the measuring winding of the converter 3. 7. The control input of the low-frequency amplifier 9 is connected to the signal output of the meter

2 currents reversal. The inputs of the com-gutation unit 10 are connected to the output of the final amplifier 7 and the signal output of the meter 2 of the magnetization reversal current, and the output with the indicator 11.

The device works as follows

From generator 1 to converter

3Barkhausen serves a current of remagnetization. In this case, the magnetism 2 of the magnetization reversal current records the change in weaving in the magnetic field winding of the transducer. This change will be proportional to the gap between the transducer & and the ferromagnetic base of the product. The Warkhausen signals generated in the measuring winding of the converter 3 are filtered out by the high-pass filter 4 and amplified. preamplifier 5. The Barkhausen signal has a fairly wide range of frequencies. Its high frequency component carries information about the change in thickness of the conductive coating. This component is identified by a narrow-band filter 6, amplified by the final amplifier 7 and measured by indicator 11. The signal value of the high-frequency component also depends on the change in the material structure of the ferromagnetic product base. To this end

it is corrected by the low-frequency component of the Barkhausen signal, which is separated by a low-pass filter 8, amplified by a controllable amplifier 9, and fed to the control input of the terminal amplifier 7.

To eliminate the effect of the gap between the Barkhausen transducer 3 and the ferromagnetic base of the article formed by the coating, the signal is a low-frequency component of it.

by an amount corresponding to the change in the magnetization reversal current. Thus, the informative high-frequency component is corrected by changing the structure and size of the gap.

The thick non-conductive coating, or., The total thickness of the coating is determined by the size of the gap between the transducer and the product. Its value is determined by the indication of the magnetization reversal current meter 2 and is simultaneously recorded by the indicator 11. The block. 10 switching serves to connect the indicator 11 to the output of the final amplifier 7 or to the signal output of the device 2 for changing the magnetization reversal current.

The proposed device makes it possible to increase the control accuracy by correcting the informative signal depending on the change in the size of the gap.

Claims (2)

1. GDR patent number 71635, cl. 42 R 46/03, 1970. 2. USSR author's certificate No. 678399, cl. G 01 N 27/80, 1977.