SU626446A1 - Method of detecting badly-secured cores - Google Patents

Description

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The invention relates to the field of instrumentation technology and is intended for non-destructive quality control of transformers and chokes.

An advantageous field of application of the invention is the rejection of transformers and chokes with a tape magnetic core, which, due to leakage or shrinkage of the compactor (team), is able to move relative to the housing in which it is located. This defect reduces the operational reliability of devices.

There is a known method of controlling the movement of structural elements covered by a metal casing by x-ray radiation. The disadvantage of this method is the necessity of using complex and expensive X-ray or X-ray television equipment in its implementation.

The closest to the invention in its technical essence and the achieved result is the method of detecting weakly fixed transformer plates by the characteristic vibrations of their cores when the transformers are loaded with current of industrial frequency. The disadvantage of this method is that it has insufficient resolution and is not applicable to low-power induction products.

The aim of the invention is to increase the resolution of the testing process and the accuracy of detection of weakly fastened structural elements. This goal is achieved by the fact that the transformer or choke being tested is previously de-energized and placed in

external variable magnetic field, the pulsation frequency of which in the range of sound frequencies. At the same time, due to the interaction of the indicated zero and the force of gravity, in the case of insufficient fastening of the core, its reciprocating movement and the occurrence of sound frequency oscillations, which are perceived directly by ear, or by one or several strain gauges connected to the sound output device through the oscilloscope through the corresponding } siliteln.

When using the proposed method, it is advisable to select such an orientation of the transformer under test or throttle in a magnetic field in which the displacement of the core and, therefore, the sound vibrations created by these movements have a maximum amplitude.

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To speed up the search for the optimal orientation of a transformer or throttles, as an additional method variant, it is proposed to place the test specimen in a rotating magnetized field.

The rotational speed of the rotating mg per unit time should lie in the range of sound frequencies.

It is also advisable in order to increase the sensitivity of the method so that the frequency of the magnetic field being measured coincides with the resopanse frequency of the weakly fastened core.

An example of a specific implementation of the method.

A controlled pulse maniatric transformer with a tape core type TIM 115T is placed in the magnetic field of an electromagnet with H 1 Oersted. Directly pressing the transformer case to the core of the electromagnet. The electromagnet is powered by a sound generator of type EG 10. At frequencies of about 20-50 Hz, a sound effect is observed, indicating the presence of a weakly fixed back-and-forth core. For more accurate measurements, a pickup head is attached to the body of a transformer that is monitored, which captures the oscillations that occur and converts them into an electrical signal observed on the oscilloscope screen.

Technical and economic effect1. Managed by the use of the invention, it is possible that the rejection of transformers and chokes with weakly closed cores can be carried out with sufficient resolving power without using expensive and cumbersome X-ray or X-ray equipment (; Telescope equipment).

Formula and 3 about b ete n and

1. A method for detecting weakly fixed cores in low-power induction devices, based on the use of a varying magnetic field, characterized in that, in order to increase the resolution, the de-energized, inductive device is placed in an external alternating magnetic field whose pulse frequency lies in the range of sound frequencies and the movements of a weakly fixed core arising from the action of the indicated zero, which are of the nature of sound vibrations, are fixed.

2. Method by clause 1, of which the test induction device is placed in a rotating magnetic field, the number of revolutions of which per unit of time lies in the range of sound frequencies.

3. Method according to n. 1, characterized in that the frequency of the magnetic field change is chosen to be equal to the resonant frequency of the weakly fixed iron-on-core.