SU1693364A1 - Method for measuring inner diameter of hollow electrically conductive articles - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to measure the internal diameter of hollow electrically conductive objects. The purpose of the invention is to improve the measurement accuracy due to the simultaneous detuning from the effect of variation in electrical conductivity of the material of the product under test and displacement of the transducer axis © relative to the product. products. By choosing the larger of the values along curves 22, 23, curve 24 is obtained, which is significantly less dependent on the effect of the suppressed parameters. 3 silt

Description

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The invention relates to non-destructive testing and can be used to measure the internal diameter of hollow electrically conductive objects.

The purpose of the invention is to improve the measurement accuracy due to the simultaneous detuning from the influence of variations in electrical conductivity and material of the product under test and offset 0 of the transducer axis from the axis of the product.

Fig. 1 shows a block diagram of a device that implements a method for measuring the internal diameter of hollow electrically conductive products; FIG. 2 shows the placement of the converter in the product; FIG. 3 shows the dependences of the converted value on the internal diameter for various values of the influencing parameters.

The device contains two identical measurement channels. The first channel consists of a series-connected oscillator 1, an eddy current transducer 2, amplifiers 3, a phase detector A and a signal limiting unit 5, as well as an amplitude detector 6 connected by an input to the output of amplifier 3, and a limiter 7 connected by an input to the output of amplitude detector b . The second channel consists of a series-connected generator 8, an amplifier 9, a phase detector 10 and a signal limiting unit 11, as well as an amplitude detector 12 connected by an input to the output of amplifier 9 and a limiter 13 connected by an input to the output of amplitude detector 12.

In addition, the device contains adders 14 and 15, the subtractor 16 and the indicator 17 connected to the output of the subtractor 16. The adder 14 is connected by the first and second inputs to the outputs of the limiters 7 and 13, respectively, and the output house to the first input of the subtractor 16, the adder 15 is connected first and the second inputs with the outputs of the blocks 5 and 11 of the signal limiting, respectively, and the output with the second input of the subtractor 16.

The eddy current transducer 2 consists of coaxial exciting 18 and 19 and measuring 20 and 21 windings. It is recommended that pairs of windings 18, 20 and 19, 21 relating to different measurement channels be arranged with an axial clearance relative to each other.

A method for measuring the internal diameter of hollow electrically conductive products is implemented as follows.

Using a set of samples, calibration characteristics (D) are preliminarily obtained at each frequency, where

Vnp is the projection of the vector VDH from the output of the eddy current transducer 2 onto a vector orthogonal to the Win increment vector under the action of the displacement of the axes of the eddy current transducer 2 and the sample, as well as under

the effect of a change in conductivity g. The frequencies fi and f2 are chosen based on the optimum sensitivity to the inner diameter D.

Conversion characteristics 22 and 23

| Vnp l f (D), obtained at two different frequencies, get the characteristic 24, which is much less dependent on the variation of the suppressed parameters. The conversion is done by selecting

the larger of the values for characteristics 22 and 23.

Claims (1)

Claims The method of measuring the internal diameter of hollow electrically conductive products, which consists in exciting eddy currents of two frequencies in a controlled product, measuring the amplitude and phase of the applied voltage at each frequency and using them in determining the diameter, characterized in that, in order to improve the measurement accuracy due to the simultaneous detuning from the effect of variations in the electrical conductivity of the material of the test article and the offset 0 the axis of the transducer from the axis of the product, with the help of samples, the calibration characteristics of lVnp f (D) at each of the frequencies are obtained, where Vnp is the projection of the vector of applied voltage on the vector, orthogonal to the vector of the interfering parameter, D is the internal diameter of the product, and the internal diameter is determined from the characteristics obtained and the measured amplitudes and phases of the applied voltage controlled product. FI.1 20