SU938128A1 - Electromagnetic flaw detector - Google Patents

Description

(5) ELECTROMAGNETIC DEFEKTSKSK

one

The invention relates to: indispensable inspection and can be used for the inspection of electrically conductive objects.

The electromagnetic flaw detector is known, which contains an electromagnetic transducer, an auto-oscillator connected in series with an electromagnetic actuator included in its oscillating circuit, an amplitude detector, a threshold device, a waiting multivibrator, a disjunctor connected by a second input to the output of the threshold device, and an indicator l.

A disadvantage of the known flaw detector is the inadequate monitoring performance, which is associated with the need to ensure a specified clearance during scanning.

The closest in technical essence is an electromagnetic flaw detector containing an invoice electromagnetic transducer, an auto-oscillator with an overhead electromagnetic transducer included in its oscillating circuit, two measuring channels connected by their inputs to an auto-generator and including a serially connected discriminator, amplifier and detector, and two indicators, one of which soybean is dinene with the output of the corresponding from, d measuring channel, 2.

However, this flaw detector does not have the necessary monitoring performance, which is associated with the complexity and laboriousness of pre-setting the flaw detector.

The purpose of the invention is to increase the productivity of the control.

Claims (2)

The goal is achieved by the fact that the electromagnetic flaw detector is equipped with a potentiometer, connected by its extreme leads to the outputs of the respective detectors, and by a movable contact to the second indicator. FIG. 1 shows a structural diagram of an electromagnetic flaw detector; in fig. 2 is a voltage chart at the output of the detectors, explaining the flaw detector setup. Electromagnetic flaw detector consists of a laid-on electromagnetic transducer 1, an auto-oscillator 2 with an electromagnetic transducer 1 included in its oscillating circuit, two measuring channels 3 and i connected by their inputs to an auto-oscillator 2. Measuring channel 3 includes serially connected discriminator 5, amplifier 6 and detector 7, and measuring channel k connects serially discriminator B, amplifier 3 and detector 10. Potentiometer 11 is connected with its extreme leads with outputs of detectors 7 and 10, respectively . The indicator 12 is connected to the movable contact of the potentiometer Pa and the indicator 13 is connected to the output of the detector 10. The electromagnetic flaw detector works as follows. Electromagnetic transducer 1 y; tant on controlled part N. A movable contact of potentiometer 11 is brought to the output connected to detector 1, and an indicator 12 is determined. Then the moving contact of potentiometer 11 is brought to the output connected to detector 10, and the coefficient amplifying the y-amplifier 9 to the value at which the indication of the indicator 12 will be the same as in the first state of the potentiometer 11. After that, the selected gap is created between the electromagnetic transducer 1 and the item being monitored If the position is adjusted and that the movable contac potentiometer 11 so that the knitting until the indicator 12 remains the same as in the contact 1, the electromagnetic transducer at a controlled part 1 and a contact position under Vision y O potentiometer 11 coupled; with detector 7 details 1. The voltage li is characterized when the electromagnetic transducer 1 is installed on the controlled part J by dot 15, when it is tapped - lines 36, voltage 1) with the initial, random condition of amplifier 9 - with line 17, after adjusting the amplifier with 9 - line 18. After tap the transducer and adjust the potentiometer 1 1 indicator 12 corresponds to point 19, which has the same ordinate as point 15. This follows from the representation of the voltages U, U and U in the form, - A «- B;, h; Ui A - U, k (A) -i-d-k) {A-B2.h), where k is the ratio of the resistance of a part of potentiometer 11 from the moving contact to the terminal connected to detector 7 to the resistance of the entire potentiometer; A, V. and B are constant coefficients. After conversion (B. + n- Br) -. g By setting K g-jg we get 1) A, i.e. the voltage U on the moving contact of the potentiometer 11 does not depend on the size of the gap h. The indication of indicator 13 depends on the gap h and is used to monitor the position of the transducer on the part being monitored when it is not possible to observe it visually. Thus, in the proposed electromagnetic flaw detector, there is no need for multiple installations of the electromagnetic transducer on the tested part, removal of the latter and adjustment of the flaw detector parameters at each position of the electromagnetic transducer. This is beneficial. Distinguishes this electromagnetic flaw detector from the known one and allows to increase the performance of the control. Claims of the invention Electromagnetic flaw detector containing an invoice electromagnetic transducer, an auto-oscillator with an impregnated electromagnetic transducer included in its oscillating circuit, two measuring instruments