SU392397A1 - DEVICE FOR MAGNETIC CONTROL OF PRODUCTS - Google Patents

Description

one

The invention relates to magnetic defects for quality control of products made of ferromagnetic metals and can be used in any branch of engineering, for example, in the boiler for quality control of materials of pipes, sheets and similar products.

By bus. S.V. N ° 344342, a device for large-scale inspection of products is known, which contains a U-shaped magnetic conductor, located on the ends of the pole ends on the surface of the tested article, a constant rotating magnet installed in the magnetic core groove, and an indicator of the magnetic field in the interpolar space.

However, the ECOPRODUCTION 1Invoice: the possibilities: And the known device is limited, since the coordinates of the defect and its dimensions cannot be determined with sufficient accuracy.

The goal of isoablation is to increase the accuracy and performance of the control.

For this, the device is equipped with an induction indicator of the speed of rotation of the magnet mounted on one of the pole ends of the magnetic circuit.

FIG. 1 shows the proposed device, a general view; in fig. 2 - the same, side view.

The proposed device contains a magnetizing C: LOG. Butting, which consists of

from a cylindrical permanent magnet 1, located between the towers 2 and 3, rigidly connected between -,; For example, by means of a plate (in the drawing is not a cauldron), P-o, a different screen-Magnitopr.01VOda 4 and a drive 5 with continuously adjustable located between the shoes, 2 and 3, the sensor-prod 6 is located with a certain clearance, the body of which is under the action of spring-loaded rods are in constant contact with a controlled top level (not shown in the drawing). The amplifier-shaper 7 connected to the indicator 8 is connected to the sensor of the ferroelectric probe, according to the indications of which the depth and the nature of the revealed defects are determined.

An inductive indicator of the speed of rotation of the magnet, made in the form of an inductance coil 9 connected to a frequency meter 10, is installed on one of the bachmakov magnetizers.

Magnetizing nanoscale with magnetic poles closed on b-ashmaks 2, 3, and sensor-ferrosonde 6 are moved along the surface of the monitored product, proming this area between the shoes 2, 3 to the full depth. The signal detected by the sensor-Forrozondom-G defect through the amplifier 7 is fed to the indicator 8.

When determining the nature of the defect (crack, risk, etc.), the poles of the permanent magnet / are closed on the U-shaped screen of the magnetic circuit 4. The result (indicator 8 fixes the field scattered in the residual field, in which the magnetic field gradient of false defects (risk) decreases faster than real ones, for example cracks.

Then, the depth of the detected defect is determined, which is carried out in the static state of the magnetizing device and the flux probe 6.

When determining the depth of the defect, the permanent magnet / actuator 5 is rotated at a constantly increasing speed. This creates a layer-by-layer priming of the product between the base-sleeves, since the smoothly increasing frequency of the arising intermittent magnetic field is inversely proportional to the depth of its penetration.

At the time the signal from the defect disappears at the maximum induction, for a given depth of the defect, the frequency of the magnetization field with an indicator with a scale calibrated in units of depth is recorded using a coil inductance and frequency meter 10.

Subject invention

Device for magnetic control products avt. St. No. 344342, characterized in that, in order to increase the accuracy and performance of the control, it is equipped with an induction indicator of the speed of rotation of the magnet mounted on one of the pole ends of the mini-conductor.

Z2S

ti &. one

Riga.1