HU190888B - Method for controlling and calibrating devices used to the pulsed magnetic control - Google Patents

Abstract

The present invention relates to a method for calibrating and checking devices for controlling the physical-mechanical parameters of moving ferromagnetic products, by measuring the amplitude and length of the magnetizing pulses produced by the control means, imitating the remanence space of the magnetic signals on the object to be measured on the reference object, and acting on the primary converter of the reference device with the reference space. It is an object of the present invention to provide two pulse magnets having both amplitude and duration. The frequency of the calibrated impulses is equal to the frequency of the magnetizing pulses and the length is chosen from the following equation: r = -L + tv where the length of the calibrated pulses 1 is the length of the magnetic spot during magnetization in static state v is the speed of movement of the object to be examined and the length of the magnetizing pulses ta followed by the size of these spaces is measured by means of controls. -1-

Description

the length of the calibrated pulses is the length of the magnetic spot in the case of static magnetization v the velocity of the object to be inspected and t the length of the magnetizing pulses and then the size of these fields is measured by means of controlled instruments.

190 888

The present invention relates to a method for the authentication and inspection of pulsed devices for magnetic examination.

Field of the Invention The present invention relates to the field of non-destructive testing and is intended for metrological provision of devices for magnetic check in pulsed mode.

No. 706,768. A method for authenticating defect detection equipment known from the US patent certificate which modulates the frequency of a self-excited oscillator and determines the state of the defectoscope based on the phase ratio of the envelope to the modulator signal.

The disadvantage of this solution is that it does not allow the entire defectoscope, including the pre-magnetiser and scan unit, to be authenticated and verified.

The technique closest to the present invention is described in M. A. Melgui, "Magnetic Control of the Mechanical Properties of Steel" (Nauka i Technika, 1980), pp. 162-168. The procedure for the verification and inspection of pulsed magnetic equipment used in magnetic fields is described in pages 1 to 5 of this document. The essence of this procedure is to measure the length and amplitude of the magnetizing pulses of the apparatus under investigation by imitating the remanence field of magnetic signals on the object by means of a homogeneous magnetic field gradient reference field and measuring the effect of this reference field on the primary converter.

The disadvantage of this solution is that the accuracy of the verification and verification is unsatisfactory as it does not ensure the reproducibility of the shape of the magnetic spot applied to the object under investigation and does not take into account the effect of the scanning speed on the surface of this object.

The object of the present invention is to increase the accuracy of authentication and verification. The object of the present invention has been achieved by providing a method for calibrating and verifying impulse control devices for magnetic testing by measuring the amplitude of the magnetizing impulses of the control device, using a reference field with a homogeneous magnetic field gradient, measuring the effect of the control device on the primary transducer and generating, in accordance with the present invention, two impulse magnetic fields facing each other along a common axis of symmetry, the frequency of these impulse magnets being the same as the frequency of the magnetizing pulses :

v where

- the size of the magnetic field in the case of static magnetization, v - the velocity of the object to be inspected, and t - the length of the magnetizing pulses.

In addition, the amplitude of the calibrated pulses in the magnetic field is measured and the calibration procedure repeated.

The amplitude and length of the two pulsed magnet fields are certified.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the drawing, wherein: FIG

Figure 1 is a schematic diagram of an apparatus for carrying out the process of the invention.

The apparatus for authenticating and checking the magnetic impulse control means is provided with a certified start coil 1, a pulse length meter 2 arranged along a common axis of symmetry, and two amplifiers having a field strength amplifier 6 and 4 are connected.

The output of the starter coil 1 is connected to the input of the pulse voltage meter 2, the input of the pulse length meter 3 and the input of the generator 6, the output of which generator 6 is connected to the magnetic field meter 4,5.

The process of the invention is carried out using the apparatus described above as follows:

One magnetized coil of the impulse control device carrying out the magnetic test is placed in the starter coil 1 and the amplitude of the magnetizing pulses is measured with the pulse voltage measuring device 2 and the length of the magnetizing pulses with the pulse length measuring device 3. Both of these values should correspond to the values in the certificate of the device being checked, since these parameters affect the shape and magnitude of the magnetic signals applied to the substance being checked.

The magnetically sensitive elements of the control device are then adjusted to interact with the two magnetic field strength standards 4, 5.

The generator 6 produces pulses of the specified amplitude and length, the frequency of which is the same as that of the magnetizing pulses, and the length of these pulses is set according to the following equation:

τ = - + t v where = size of the magnetic field during static magnetization, v = velocity at which the test object moves during inspection, and t = length of the magnetizing pulses.

Using the device to be checked, measure the magnitude of the calibrated pulses measured. Next, the amplitude of the calibrated pulses is varied and the measurement is repeated with the control device to adjust the measurement range so that the measurement is linearized. In this way, the authentication and control of the pulsed magnetic test devices are realized.

The above-described method of the present invention provides the reproducibility of passage of real magnetic spots between magnetically sensitive elements by taking into account the velocity of the test substance,

The 190,888 frequency at which magnetic spots pass before magnetically sensitive elements is the same as the frequency of magnetizing pulses, regardless of travel speed. The length of time that the magnetic spot passes before the magnetically sensitive element is determined by the size of the spot formed during magnetization in the static state and the distribution of the spot as a result of displacement of the test object during the duration of the magnetizing pulse: 10 vv

By the method of the present invention, the accuracy of the verification and control of impulse-driven magnetic scanning devices can be increased by accurately mimicking the size and shape of the magnetic spots applied to the ferro-magnetic objects being moved, regardless of their speed of movement.

Claims (2)

Claims 1. A method of calibrating and controlling a pulsed-mode monitoring device for magnetic testing, wherein the amplitude and length of the magnetizing pulses produced by the monitoring device are measured, simulating a remanence space of the magnetic field of the object to be examined using a reference field. measuring its effect by producing as a reference space two pulsed magnets, which are aligned with each other along a common axis of symmetry, and whose amplitude and length are calibrated, the frequency of these calibrated pulse fields being equal to the frequency of the magnetizing pulses and : r = ± + t v where 1 is the length of the magnetic spot in the case of static magnetization, v is the velocity of the object to be checked, and t is the length of the magnetizing pulses. The method of claim 1, wherein the amplitude of the calibrated pulses of the magnetic field is changed and the verification and verification procedure is repeated.