SU1158916A1 - Device for monitoring mechanical stresses in current-conducting materials - Google Patents

Abstract

DEVICE TO CONTROL YOUR OWN CAPACITY PROJECT COLUMBERS, CREATED AIRWORKING CAPACITY CENTER, OUTLOOT CENTRAL BASIS , that is, with the aim of increasing. sensitivity, it is equipped with a gyrator, the output of which is connected to the measuring winding of the converter, and the input is sequentially connected to the oscillator circuit of the oscillator. : lh: oh Ed

Description

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The invention relates to non-destructive testing using the eddy current method and can be used to determine internal mechanical stresses in electrically conducting materials.

It is known a device comprising an eddy current transducer, an auto-oscillator connected in series with an inverter-current transducer included in its oscillator circuit, a high-frequency amplifier, an amplitude detector, and a DC bridge with an ij indicator.

The disadvantage of this device consists in its low sensitivity to the monitored parameter, which is associated with a small change in the parameters of the eddy current transducer during the measurement of the properties of the control object under the action of mechanical stresses.

Closest to the proposed technical entity is a device for monitoring mechanical stresses in electrically conducting materials, containing a series-connected auto-oscillator, an amplitude detector, a display unit, a measuring transducer having an excitation coil placed on the magnetic circuit and connected in series with an oscillatory circuit. the circuit of the oscillator, and the measuring winding, located in the same 2J.

However, this device does not have sufficient sensitivity to control mechanical stresses in electrically conductive materials.

The purpose of the invention is to increase the sensitivity.

This goal is achieved by the fact that a device for monitoring mechanical stresses in electrically conductive materials, comprising a series-connected auto-oscillator, an amplitude detector, a display unit, a measuring transducer having an exciting coil placed on the magnetic core and connected in series with the oscillator circuit of the auto-generator, and a measuring winding, located in the same place, equipped with a gyrator, the output of which is connected to the measuring winding of the converter, and the input - sequentially in

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circuit oscillator circuit of the oscillator.

The drawing shows a structural diagram of the proposed device. For controlling mechanical stresses in electrically conducting materials.

The device consists of an auto-oscillator 1, included in its oscillating circuit 2 of the excitation winding of the measuring transducer 3, connected to the output of the auto-oscillator, amplitude detector 4, display unit 5, input

5 of which is connected to the Output of the amplitude detector 4 and the gyrator 6, the output of which is connected to the measuring winding of the converter, and the input - sequentially into the circuit

0 oscillatory circuit of the oscillator.

The device works as follows.

J The measuring transducer is installed on a controlled material (not shown) before it appears: mechanical stress changes the depth of the feedback in the autogenerator, leading to its operating conditions close to generation failure.

When the properties of the control object are changed under the action of mechanical stresses, the parameters of the windings of the measuring transducer 3 change, which leads to a change in the parameters of the inductive element of the oscillatory circuit 2 of the autogenerator G and its capacitive element, which is simulated by the input impedance of the gyratory 6 loaded on the measuring winding of the transducer 3. A simultaneous change in the parameters of both elements of the oscillatory circuit 2 leads to a change in the amplitude of the output voltage nerator 1, which is detected by the amplitude detector 4 and enters the display unit 5, where its deviation from the initial value corresponding to the absence of mechanical stresses or their initial level is determined, and the magnitude of mechanical stresses is determined by

5. Known correlation dependences between the properties of the control object and the magnitude of mechanical forces. 3 The use of the proposed device makes it possible to increase the sensitivity of the control of mechanical stresses in products and structures II589I64 made of electrically conductive materials when tested for stability | strength, as well as during operation.

Claims (1)

DEVICE FOR CONTROL OF SWORD OF CHANICAL VOLTAGES IN ELECTRICAL CONDUCTING MATERIALS, comprising a series-connected oscillator, an amplitude detector, a display unit, a measuring transducer having an exciting coil placed on a magnetotransmitter and connected in series with the oscillating circuit of the oscillator, and h and w ni I it with the fact that, in order to increase the sensitivity, it is provided with a gyrator whose output is connected to the measuring obmotke.preobraeova- · _Λ 5 ator and input - in series oscillating circuit of the oscillator. SU „„ 1158916 I Η