SU324477A1 - DEVICE FOR MEASURING THICKNESS POSITION-TECH1-W ^ ESRIBBYLOTICS - Google Patents

Description

This invention relates to the field of coitrolio-measuring tech.

Devices are known for measuring the thickness of non-conductive coatings on a ferromagnetic base, containing a differential transformer sensor with primary windings and two secondary windings connected in series - counter and located at different distances from the substrate, a source of sensor excitation connected to its primary windings, a voltage indicator connected to secondary windings.

The purpose of the invention is to increase the measurement accuracy. For this, the transformer sensor of the proposed device provided;: an additional secondary winding, and a voltage indicator was made using a lagometric circuit with two inputs, one of which is connected to two secondary windings, and the other is connected to the doiol.

The drawing shows a block diagram of one of the variants of the proposed device, which serves to measure the thickness of a protective layer of concrete in reinforced concrete structures.

The device consists of the excitation source of the sensor /, the differential transformer sensor 2 with the primary windings 3 to 4, two secondary windings 5 and 6, connected in series - counter

1 are located at different distances from the base, and an additional winding 7, a voltage indicator 8, performed on a lagometric circuit with two inputs, one of which is connected with two secondary windings, and the other with an additional one.

The device works as follows.

The signal taken from the secondary windings of the inductive sensor is related to the thickness of the protective layer L of reinforced concrete structures by the ratio. With this accuracy

}WITH

The device is determined by the stability of the coefficient K, which varies both with changing external conditions and the supply voltage, and depending on the diameter of the reinforcing steel of reinforced concrete structures. In fact, for each measurement the value of the coefficient K is unknown.

In the device, the voltage 6 from the winding 5 is removed associated with the measured value

V, K

X is the ratio of Li -, and the voltages 64 are removed from each of the identical windings 5 n 7 and are related to the measured value A of the cGC.

ratio, where a is the value, on

 but

which protrusions of one core are longer than the protrusions of the other core

way we get two relationships

.

and X

X + a

We find from them the measured value A, excluding the effect of / С

Ui - and

This formula is implemented in the device as follows.

The windings 5 and 6 are connected oppositely and the voltage Ll-Uz is removed from them, which is fed to one of the inputs of the lagometric voltage indicator.

Winding 7 is connected to the second input of the specified indicator. The lagometric nanometer indicator responds to the ratio

stress

(/ 1 - f / 2

The constant factor a is taken into account when calibrating the voltage indicator.

Thus, the device is auto-corrected, and its readings do not depend on the K factor. This excludes an influence on the measurement accuracy of thicknesses, protective layer, changes in ambient conditions, diameter of reinforcing steel, changes in supply voltage, etc.

The measurement accuracy is mainly determined by the reference value of a.

Subject invention

A device for measuring the thickness of non-conductive coatings on a ferromagnetic base, containing a differential transformer sensor with primary windings and two secondary windings connected in series and oppositely and

located at different distances from the base, the excitation source of the sensor connected to its primary windings, the indicator connected to the secondary windings, characterized in that, in order to improve measurement accuracy, the transformer sensor has an additional secondary winding, and the voltage indicator is made on a lagometric circuit with two entrances, one of which is connected to

two secondary windings, and the other with the last.

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