SU868649A1 - Device for testing current-leading element insulation - Google Patents

Description

(54) DEVICE FOR CHECKING ISOLATION OF CURRENT ELEMENTS

one

The device relates to electro-emission; It can be used to study the characteristics of newly created types of insulation, to monitor the insulation of manufactured or repaired current-carrying elements, and to diagnose the insulation of current-carrying elements that are in operation by the method of acoustic emission.

A device for diagnosing and predicting the electrical strength of the insulation of current-carrying elements is known, which contains two sensitive elements, the outputs of which through corresponding amplifiers are connected both to filters connected to the amplitude comparison device and to the formers, the outputs of which are connected to the corresponding elements controlling the additional amplifiers. the trigger for determining the sign; besides, the outputs of the drivers are connected via the OR circuit to the counting input of the trigger allowing or prohibiting finding pulses from the pulse generator through the element I to the time interval meter, information from which, when allowing the signal from the amplitude comparison device, passes into the computing unit, in which the moments of occurrence of electrical and mechanical insulation failures are recorded at any points of the monitored section of the current-carrying element, the number damage, and their selection is made depending on the geometry (coordinates) of occurrence 1.

ten

The drawback of the device is insufficient for diagnosing the amount of information about the damage, namely: the inability to determine the value of individual pulses of acoustic emission carrying information about the size of the damage.

The purpose of the invention is the extension of functionality due to the possibility of measuring

20 values of individual acoustic emission pulses.

This goal is achieved by the fact that, in a device containing two sensitive elements, the outputs of which are connected to the inputs of the corresponding amplification blocks, an OR element, the output of which is connected to the trigger input, the output of which is connected to one of the inputs of the AND element, and the other input which is connected to the output

pulse generator, and the output element is; The I input is connected to the input of the interval meter: two comparators, two digital register drivers and a pulse counter are entered, the inputs of the comparators are connected to the outputs of the corresponding power blocks, and the outputs of the comparators are connected to the corresponding inputs of the corresponding digital registers, the output of which is connected to the input of the counter pulses, and the Comparators WELLs are connected to the corresponding inputs of the OR element.

The drawing shows the functional electrical circuit of the device. The device contains sensitive elements 1 and 2, blocks 3 and 4 amplifiers (amplifiers), comparators 5 and 6, element OR 7, trigger 8, generator 9 pulses, element 10, block 11 for measuring time intervals digital recorders 12 and 13, functionally interconnected and counter 14 pulses.

The device works as follows.

When a mechanical (due to electrodynamic or other forces) or electrical (partial discharge or breakdown) damage occurs and develops in a controlled area of electrical insulation of a current-carrying element that is between two sensing elements 1 and 2, an elastic voltage wave (acoustic emission ), which, having traveled the distance from the point of origin to the nearest sensitive element 1 or 2, is converted by the latter into an electrical signal, which is amplified by amplifier 3 or 4 and is fed to the input of the corresponding comparator 5 or 6, where a pulse is formed, proportional in amplitude to the effective value of the positive half-wave of acoustic emission, from one of the outputs the measured value of which is transmitted to a digital recorder 12 or 13, ac of the total output of the comparator 5 or 6 is the same the impulse (unified) goes through the element OR 7 to the counting input of the trigger 8, the latter, passing into the state, permits the passage of pulses from the generator 9 of the pulses through the element 10 to the measuring unit 11 temporary intervals. After the elastic wave reaches the second sensitive element 2 or 1 and the path passing through D13T is similar to that described above, i.e. through the amplifier 4 or 3, the comparator 6 or 5, will note the value of the incoming pulse in the digital recorder 13 or 12 and simultaneously through the OR 7 element to the input of the trigger 3, which returns to the initial state O, which prevents the pulses from the generator 9 from passing through element 10 in block 11 of measuring time intervals, the process of damage development, i.e. the accumulation of acoustic emission pulses in the object is recorded by a pulse counter 14 connected to the output of any of the digital recorders (for example, 12). By knowing the velocity of propagation of the elastic stress wave (acoustic emission) Vg in the diagnostic form of the insulation, the length L of the monitored section, and hence the transit time of the acoustic emission pulse of the entire length, the damage coordinate is determined as follows

.- 0 where c is the distance from the point of occurrence of damage to the nearest sensitive element (origin 1; the sensitive element is taken, from the output of the comparator, a pulse with a higher aim is registered);

tj is the measured time interval, time, elapsed from the moment of arrival of the elastic wave to the nearest sensitive element until its arrival to the second furthest from the point of damage.

,,,

Pulses for which L - () 0 are false (i.e., occur outside the controlled region).

The device allows a deeper study of the processes of defect formation in various types of insulation and can be used to study the range of properties of new types of insulation (for example, Vg, wave attenuation coefficient).

and etc).

Claims (1)

Invention Formula A device for checking the insulation of current-carrying elements, the contents of the LW sensing element, the outputs of which are connected to the inputs of the respective amplification blocks, the OR element, the output of which is connected to the trigger input, the output of which is connected to one of the inputs of the AND element, the other input of which is connected to the generator output pulses, and the output of the element I is connected to the input of a block for measuring time intervals, characterized in that, in order to expand the functionality, two comparators are introduced into it, two digital registers pulse and pulse counter and the inputs of the comparators are connected with the outputs of the respective amplification blocks, and the outputs of the comparators are connected to the corresponding inputs of the corresponding digital recorders, the output of one of which is connected to the input of the pulse counter, the outputs of the comparators being connected to the corresponding inputs of the OR element, Sources of information taken into account in the examination I. USSR author's certificate 558209, cl. G 01 R 31/12, 1976. g   J