UA8516U - Device for checking the service life of a high-voltage air circuit breaker - Google Patents

Abstract

The proposed device for checking the service life of a high-voltage air circuit breaker contains a current transducer, a pressure transducer, a switching detector, a service-time meter and analog-to-digital converters for the current transducer and the pressure transducer. The unit provides a possibility to record current and compression air pressure in the operation of the circuit breaker as well as the instants of switching the load circuit by the breaker.

Description

Description of the invention

A useful model belongs to the field of electrical engineering and can be used to measure 2 switching life of air high-voltage circuit breakers.

Known device for monitoring the resource of switching devices (AS USSR Mo1656568, M. cl. (307С3/10, bull.

Mo22, 1991), containing the first, second and third current sensors, connected respectively through the first, second and third comparators to the first inputs of the first, second and third flip-flops, the outputs of which are connected respectively to the first, second and third inputs of the third OR element , as well as to the control inputs of the first, second and 70 third electronic keys, the outputs of which are connected to each other, as well as to the inputs of the fourth and fifth comparators, and the analog inputs are connected to the outputs of the first, second and third current sensors, encoder , the first input of which is connected to the output of the third OR element, and the second and third inputs are connected to the outputs of the fourth and fifth flip-flops, the first inputs of which are connected to the outputs of the fourth and fifth comparators, and the second inputs, and also the second inputs of the first, second and third flip-flops and the first pulse counter are connected to the output of the first OR element, the first input of which is connected to the output of the zero setting block, the second input under connected to the output of the pulse generator, and the third input is connected to the signal delay element, the input of which and the second input of the second element | connected to the output of the second OR element, a switching sensor, the output of which is connected to the input of the differentiating element and to the first input of the second element AND, the output of which is connected to the input of the pulse shaper and to the second input of the first element

And, to the first input of which the output of the pulse generator is connected, and the output is connected to the first input of the first pulse counter and to the first inputs of the seventh, ninth and eleventh elements of And, the first, second and third outputs of the encoder are connected to the first inputs, respectively the third, fourth and fifth AND elements, the outputs of which are connected to the first, second and third inputs of the second OR element, and the second inputs are connected, respectively, to the first, second and third outputs of the first pulse counter through the first, second and third 29 NO elements , the output of the differentiating element is connected to the first inputs of the sixth, eighth and tenth in elements AND, the second inputs of which are connected to the outputs of the fourth, fifth and sixth elements of NO, respectively, the inputs of which in turn, as well as the second inputs of the seventh, nine of the tenth and eleventh elements | connected respectively to the outputs of the first, second and third flip-flops, the outputs of the sixth, eighth and tenth elements are connected respectively to the first inputs of the fourth, fifth and sixth OR elements, the second inputs of which x are connected to the outputs of the seventh, ninth and eleventh elements I, and the outputs are connected to the inputs of the second, third and fourth pulse counters, respectively.

The main drawback of this device is that it does not allow to take into account the exhaustion of the commutating circuit breaker resource in the event that the latter disconnects a circuit with a current lower than the nominal one, since the residual circuit breaker resource is consumed unevenly depending on the value of the commutating current. 3o A device for monitoring the resource of air high-voltage switches Patent of Ukraine was chosen as the prototype

Mo50549A, M. cl. 307С3/10, Bull. Mo10, 20021, containing a current sensor, the output of which is connected through the first comparator to the first input of the first trigger, the output of which is connected to the first input of the third element AND, the output of which is connected to the first input of the first element OR, the output of which is connected to the input of the second pulse counter, the outputs of the second and third comparators are connected, respectively, to the first inputs of the second and third flip-flops, the second inputs of which, as well as the second inputs of the first, fourth, fifth flip-flops and the first pulse counter are connected to the output of the second OR element, the first input of which

From" is connected to the output of the zero setting unit, the second input is connected to the output of the pulse shaper, and the third input is connected to the output of the signal delay unit, the input of which is connected to the output of the third OR element, the first, second and third inputs of which are connected respectively with the outputs of the fifth, sixth and seventh elements of I, the first inputs of which are respectively connected to the first, second and third outputs of the first encoder, and the second

So the inputs are connected, respectively, to the outputs of the second, third and fourth NO elements, the inputs of which, in turn, are 4! connected respectively to the first, second and third outputs of the first pulse counter, the first input of which is connected to the output of the fourth element AND, the first input of which is connected to the output of the pulse generator, - a switching sensor, the output of which is connected through the differentiating element to the second input of the third element |,

F 20, the output of the fifth element NO is connected to the first input of the tenth element AND, the output of the current sensor is connected to the inputs of the second and third comparators, the outputs of the first, second and third flip-flops are connected to the first, second and third inputs of the first encoder, the output of the sensor pressure is connected to the inputs of the fourth and fifth comparators, the outputs of which are connected to the first inputs of the first and second elements AND, the second inputs of which are connected to the output of the first trigger, and the outputs are connected to the first inputs of the fourth and

Co» of the fifth triggers, the outputs of which are connected, respectively, to the first and second inputs of the second encoder, the first output of which is connected to the third inputs of the fifth, sixth and seventh elements of And, and the second output is connected to the third inputs the eighth, ninth and tenth elements AND, the outputs of which are respectively connected to the fourth, fifth and sixth inputs of the third OR element, and the second inputs are connected respectively to the first, second and third outputs of the first encoder, the first inputs of the eighth and ninth of elements | connected because according to the outputs of the third and fourth elements NO, the fourth output of the first pulse counter is connected to the input of the fifth element NO, the output of the commutation sensor is connected to the second input of the fourth element AND, the third input of which and the input of the pulse generator are connected to the output of the third OR element, the second input of the first OR element is connected to the output of the fourth AND element.

The disadvantage of this device is that it does not allow to take into account the exhaustion of the switching resource of the switch, which is consumed unevenly when switching different currents, in the case when the latter disconnects a circuit with a current lower than the nominal one.

The useful model is based on the task of creating a device for monitoring the resource of air high-voltage circuit breakers, in which, due to the introduction of new blocks and connections between them, a

The ability to take into account the exhaustion of the switching resource of the switch in the event that the latter disconnects a circuit with a current lower than the nominal one, which allows to increase the accuracy of the device's operation.

The task is achieved by the fact that in the device for monitoring the resource of air high-voltage switches, which contains the first and second AND elements, the NO element, the second pulse counter, the current sensor, the output of which is connected to the inputs of the first, second and third comparators, the output of the pressure sensor connected to the 7/0 inputs of the fourth and fifth comparators, the output of the pulse generator is connected to the first input of the third element AND, the second input of which is connected to the output of the switching sensor, and the third input is connected to the input of the pulse generator, the output of the third element | connected to the first input of the first pulse counter, the second input of which is connected to the output of the OR element, the first input of which is connected to the output of the zero setting block, and the second input is connected to the output of the pulse shaper, a functional converter is introduced, the third /5 Pulse counter, first and second digital comparators, and the outputs of the first, second, third, fourth and fifth comparators are respectively connected to the first, second, third, fourth and fifth inputs of the functional converter, the output digital bus of which is connected to the first input digital bus of the first digital comparator, the first and second outputs of which are connected to the second inputs of the first and second elements AND, the output of the pulse generator is connected to the first inputs of the first and second elements AND, the outputs of which are connected to the first and second inputs of the third pulse counter, the output digital the bus of which is connected to the second input digital bus of the first digital comparator and with the first input digital bus of the second digital comparator, the second input digital bus of which is connected to the output digital bus of the first pulse counter, and the output is connected to the input of the pulse shaper, the output of the switching sensor is connected to the input of the NO element, the output of which is connected to the third inputs ov of the first and second elements I, output of the third element | connected to the input of the second pulse counter.

The device for monitoring the resource of air high-voltage switches is explained by the drawing, which shows its structural diagram.

In the diagram: 1 - current sensor; 2, 3, 4 - the first, second and third comparators; 5 - pressure sensor; 6, 7 - fourth and fifth comparators; 8 - functional converter; 9 - pulse generator; 10, 11 - the first and second elements of I; 12 - the third pulse counter; 13 - the first digital comparator; 14 - element NO; 15 - switching sensor; 16 - the third element I; 17 - the second pulse counter; 18 - zero setting unit; 19 - -- pulse generator; 20 - OR element; 21 - the first pulse counter; 22 - the second digital comparator, and the output of the current sensor 1 is connected to the inputs of the first 2, second and third 4 comparators, the output of the pressure sensor 5 is connected to the inputs of the fourth and fifth 7 comparators, the output of the pulse generator 9 connected to the first input of the third element And! 16, the second input of which is connected to the output of the switching sensor 15, and the third input is connected to the input of the pulse generator 19, the output of the third element | 16 is connected to the first input of the first pulse counter 21, the second input of which is connected to the output of the OR element 20, the first input of which is connected to the output of the zero setting unit 18, and the second input is connected to the output of the pulse generator 19, the outputs of the first 2, the second Z, the third 4, the fourth b and the fifth 7 comparators Z are connected, respectively, to the first, second, third, fourth and fifth inputs of the functional converter 8, the output digital bus of which is connected to the first input digital bus of the first. digital comparator 13, the first and second outputs of which are connected to the second inputs of the first 10 and i? of the second 11 elements And, the output of the pulse generator U is connected to the first inputs of the first 10 and second 11 elements And, the outputs of which are connected to the first and second inputs of the third pulse counter 12, respectively,

The output digital bus of which is connected to the second input digital bus of the first digital comparator 13

Go! and with the first input digital bus of the second digital comparator 22, the second input digital bus of which is connected to the output digital bus of the first pulse counter 21, and the output is connected to the input of the pulse generator 1 19, the output of the switching sensor 15 is connected to the input of the NO element 14, the output which is connected to the third - inputs of the first 10 and second 11 elements And, the output of the third element 116 is connected to the input of the second pulse counter 17. m. The proposed device works as follows. When the supply voltage is applied to the circuit, the zero setting unit 18 sets the first pulse counter 21 to the zero state with a short pulse through the OR element 20.

At the same time, the pulse generator 9 begins to produce a sequence of pulses.

If the switch is activated, then a voltage proportional to the current appears at the output of current sensor 1, which

Gas flows in the switch, which is fed to the inputs of the first 2, the second Z and the third 4 comparators, which have different trigger thresholds. At the same time, a signal proportional to the pressure of the compressed air supplied to the inputs of the fourth 6 and fifth 7 comparators appears at the output of the pressure sensor 5. The signals that appear at the outputs of the first 2, second Z, third 4, fourth 6 and fifth 7 comparators are fed to the inputs of the functional converter 8, at the output of which a digital code corresponding to the amount of current flowing in the Switches at the appropriate value of compressed air pressure. The digital code from the output of the functional converter 8 enters the first input digital bus of the first digital comparator 13, the second input digital bus of which receives the code from the output of the third pulse counter 12.

Depending on the values of current and compressed air pressure, the digital code at the output of functional converter 8 changes its value. 65 If the digital code at the first input of the first digital comparator 13 is greater than at the second, then a logical unit signal appears at the first output, which is fed to the second input of the first element AND! 10, the third input of which receives a logic unit signal from the output of the switching sensor 15 through the NO element 14. At the same time, the first element AND 10 opens and allows the passage of pulses from the pulse generator 9 to the first input of the third pulse counter 12, the digital code at the output of which increases The digital code at the output of the third pulse counter 12 increases until the digital codes on the first and second input digital buses of the first digital comparator 13 are equal. At the same time, logic zero signals appear on both outputs of the first digital comparator 13 and the first AND element 10 closes.

If the digital code at the first input of the first digital comparator 13 is smaller than at the second, then a logical unit signal appears at the second output, which enters the second input of the second element AND 11, the third input of which receives a logical unit signal from the output of the switching sensor 15 through element NO 14. At the same time, the second element AND 11 opens and allows the passage of pulses from the pulse generator 9 to the second input of the third pulse counter 12, the digital code at the output of which is reduced. The digital code at the output of the third pulse counter 12 is reduced until the digital codes on the first and second input digital buses of the first digital comparator 13 are equal. At the same time, logical zero signals appear on both outputs of the first 7/5 Digital Comparator 13 and the second element AND 11 closes.

Thus, in the third pulse counter 12, the digital code is memorized, which corresponds to the amount of current flowing in the switch at the corresponding values of compressed air pressure.

In the event that the circuit breaker disconnects the circuit in which it is located, a logic unit signal appears at the output of the commutation sensor 15, which through the NO element 14 enters the third inputs of the first 10 and second 11 AND elements, thereby establishing logic logic signals at their outputs zero Also, the signal of the logical unit enters the second input of the third element AND! 16 and opens it (from the output of the second digital comparator 22, the logic unit signal enters the third input of the third element | 16). At the same time, from the output of the pulse generator 9, pulses begin to flow to the inputs of the first 21 and second 17 pulse counters, reducing the residual life of the switch. The number of pulses entering the second pulse counter 17 shows how the operating resource of the switch is consumed depending on the value of the switched current at the corresponding value of the compressed air pressure. Pulses from the output of the pulse generator Y are supplied until the t digital codes on the first and second input digital buses of the second digital comparator 22 are equal. At this moment, the logic zero signal from the output of the second digital comparator 22 enters the input of the third element I 16 and closes it, as well as the input of the pulse generator 19, which with a short pulse through the Gezo OR element 20 resets the first pulse counter 21 and prepares the device for a new work cycle.

The number of digits of the first 21, the second 17, and the third 12 pulse counters, as well as the number of comparators that record the value of the switched current and compressed air pressure, is selected depending on the MU on the range of measured current and pressure and on the required degree of accuracy in determining the resource spent by the switch. co

The functional converter 8 can be implemented on a microcircuit of a non-volatile memory device, in which the corresponding codes are written, each of which corresponds to a certain coefficient of operation of the operating resource of the switch depending on any of the possible values of current and pressure of compressed air. "

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Claims (1)

65 Formula of the invention A device for monitoring the resource of air high-voltage switches, containing the first and second elements Y, the element NO, the second pulse counter, the current sensor, the output of which is connected to the inputs of the first, second and third comparators, the output of the pressure sensor is connected to the inputs of the fourth and n of comparators, the output of the Pulse Generator is connected to the first input of the third element AND, the second input of which is connected to the output of the switching sensor, and the third input is connected to the input of the pulse shaper, the output of the third element is connected to the first input of the first pulse counter, the second input of which connected to the output of the OR element, the first input of which is connected to the output of the zero setting unit, and the second input is connected to the output of the pulse shaper, which is distinguished by the fact that a functional converter is introduced into it, the third 7/0 Pulse counter, the first and second digital comparators, and the outputs of the first, second, third, fourth and fifth comparators are connected according to the first th, second, third, fourth and fifth inputs of the functional converter, the output digital bus of which is connected to the first input digital bus of the first digital comparator, the first and second outputs of which are connected, respectively, to the second inputs of the first and second elements AND, the output of the pulse generator connected to the first inputs of the first and second elements AND, the outputs of which are connected, respectively, to the first and second inputs of the third pulse counter, the output digital bus of which is connected to the second input digital bus of the first digital comparator and to the first input digital bus of the second digital comparator, the second input digital bus of which is connected to the output digital bus of the first pulse counter, and the output is connected to the input of the pulse shaper, the output of the switching sensor is connected to the input of the NO element, the output of which is connected to the third inputs of the first and second AND elements, the output of the third element | connected to the input of the second pulse counter. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. with with (Se) "- IF) (ee) . and? (ee) 1 - 4) C; at 60 b5