SU658531A1 - Relay testing device - Google Patents

Description

(54) DEVICE FOR CONTROL RELAY

I

The invention relates to the field of automation and test equipment and can be used to analyze failures during the monitoring of the operability and service life of the relay.

Devices for controlling relays are known, the principle of operation of which is based on polling and indicating the state of the contacts of controlled relays 1.

The closest technical solution to this invention is a device for controlling a relay containing indicators, elements NOT, OR - NOT, two elements AND and a pulse generator connected to the counting input of the main trigger, the first output of which is connected to the output of device 2 via a control key .

A disadvantage of the known devices is the insufficient volume of diagnostics of relay failures issued by them, since they fix relay failures without distinguishing them in character, which makes the failure analysis difficult. The functional limitation of known devices occurs due to the ambiguity of the definition of failures.

 invention is to increase the reliability of the control.

The accomplishment of this goal in a predetermined device is achieved by autonomously monitoring each contact of the monitored relay (normally closed and normally open) with separation of the indication by the nature of the failure (lagging or sticking) as when triggered, hooks and when the relay contacts are released.

Postav, tenna target is achieved by the fact that three elements 11 and additional triggers are entered into the device, the first output of the main trigger is connected to the inputs of the first and second elements I and through the third element I to the first indicator, the second output of the main trigger is connected to one of the inputs of the fourth and the five And elements, the other inputs of which and the inputs of the second and second elements And are connected to the output of the pulse generator, the controlled input of the device is connected to the inputs of the first and fourth elements And, directly, through the first NOT element

to the inputs of the second, fourth, and fifth of this, 1 of the AND inputs, and through the second element, NOT to the inputs of the first, second, and fifth of these And outputs, the outputs of the first, second, fourth, and fifth elements of And are connected to one of the inputs of the corresponding additional trigger, other inputs of which are connected to the installation input of the main trigger and to the installation input of the main trigger and to the installation input of the device, the output of additional triggers are connected to the second indicator and to the inputs of the corresponding elements OR - NOT, the outputs of which connected to one of the inputs of the third element I. the drawing shows the block diagram of the device. The device contains a pulse generator 1, a winding 2 of a controlled relay with disconnecting 2, closing 2d and movable 2e contacts, control key 3, fourth 4, second 5, third 6, first 7 and fifth 8 And elements, second 9 and first 10 elements , the first 11 and second 12 elements are OR NOT, the second 13 and first 14 indicators, and indicator 13 consists of display elements, the main 19 and additional 20-23 triggers and variable resistors 24 and 25. The device for controlling the relay works as follows. The pulses from one of the outputs of the pulse generator 1 are fed to the counting input of the trigger 19, the output of which is connected via key 3 to the winding of the controlled relay 2. When the trigger 19 is set to the state O, the subsequent pulse of the generator 1 (with a good relay) unlocks the key 3, as a result, the controlled relay 2 will operate. The movable contact 2 will overlap and close the switched circuit + E, through the closing contact 2g the resistor 25 to the ground. In this case, the high potential of the direct voltage + E (–f 1) goes to the input of element 4 and the element 9, from whose output (0) arrives at the input of element 5. Elements 4 and 5 do not work, t. K. at one of the inputs of these elements there is no high potential: at the input of the element And 4 (0) will come from the output of the trigger 19, and at the element And 5 - from the output of the element NO 9; From the outputs of the And 4, 5, 7, 8 signals, the signals are sent to the flip-flops 20, 21 and 22. From the output of these flip-flops, the information is fed to the input of the indicator 13 and through the elements OR-NOT II, 12 to the input of the And 6 element. the pulse from trigger 19, winding 2 is de-energized and contact 2z is closed with opening contact 2. In this case, + E through contact 2, 1, and resistor 24 will go to ground, and (+ 1) will go to inputs of elements And 7 and NOT 10. On elements AND 4, 5, 7, 8 pulses from the second output of generator 1 did not arrive, because at the inputs of elements AND 4, 5, 8 there will be O, outputted by the element NOT 10, and n the input element And 7 will be O, the trigger will be pulled out. 19. If at the time of the monitored relay operation the contact 2h did not spill over and remained in position 2, i.e. stuck, then the voltage + 1 will go to the input of the element 7, at the second input which will also be +1 coming from the output of the trigger 19, and the third input of the element And 7 +1 will come from the output of the element NOT 9. The pulse from the second output of the generator 1 will pass through the element And 7 and be fixed by the trigger 23, the high potential of which through the element OR NOT 11, due to the lack of capacity at the exit, will close the ent and 6, which causes termination of counting pulses indicator 14 which displays the number of actuation pulses to the first controlled switch failure. At the same time, the high potential of the trigger 23 will go to the input of the indicator 13; element 16 will indicate the number of the faulty contact and the nature of the fault. If contact 2z is transferred to contact 2g, but does not close its circuit (i.e., hang), then the output of the HE element 9 will have a high potential (+ 1) that will open the AND 5 element, since its other inputs will also have -f 1: from the output of the element NOT 10 and from the output of the trigger 19. A shorter pulse from the second output of the generator 1 will pass through the element 5 and transfer the trigger 22, switch on the element 15, through the element .OR-NOT 12 will close the element 6. If in the absence of a pulse on the winding 2 controlled by the relay, contact 2h when working on vacation Since it is stuck with contact 22, then +1 from contact 22 will go to element 4, which will pass a pulse from the second output of the generator, since the remaining inputs will also have +1 from the output of the element 10 and from the second output of the trigger 19. From the output of the element And the 4th signal will throw the trigger 21, m. M will ensure switching on element 18 and actuation of element 6. If contact 2z, working on tempering, did not reach contact 2i and did not close the circuit (hang), then in this case –f 1 from the output element 10 disables element 8, on the remaining inputs of which will be present also +1, coming from the element HE 9 and from the trigger 19. From the output of the element AND 8, the signal will go to the trigger 20, the output potential of which will be fed to the indicator 13 and elements 17 and AND 6. Since the contact bounce occurs in the contacts, then in the circuit of the device, triggerings 20-23 are triggered after the contacts of the monitored relay have tripped. This is achieved by the fact that the impulse from the second output of the generator 1 is supplied to the elements AND 4, 5, 7, 8 after the contacts of the monitored relay actuate under the influence of the output impulse of the trigger 19 of a longer duration than the impulse from the second input of the generator 1.