RU2038245C1 - Device to delay operation of relay in railway automatic control systems - Google Patents

Abstract

FIELD: railway automatics. SUBSTANCE: device has control relay 1, supply source 2, matching element 3, actuator relay 4, two pulse generators 5 and 9, two threshold elements 6 and 11, two pulse transformers 7 and 10, two voltage converters 8 and 12, two diodes 13 and 14, two capacitors 15 and 16, two controlled generators 17 and 18, three frequency dividers 19, 20, 21, two AND gates 22 and 23 and three univibrators 24, 25, 26. EFFECT: enhanced reliability of operation. 1 dwg

Description

 The invention relates to railway automation, in particular to devices for regulating the movement of trains, and can be used in self-locking and electrical centralization schemes.

 Closest to the proposed technical essence is a device for delaying the operation of relays in railway automation systems, containing a control relay, the front contact of which is connected to the output of the power supply with one output and the input of the matching element through the front contact of the executive relay to the winding of the said executive relay , a pulse generator, a threshold element, a pulse transformer and a voltage converter, the output associated with the coil of the Executive relay.

 A disadvantage of the known solution is the relatively low reliability due to the failure of the executive relay in case of an accidental failure of the counting mode of operation of the dividers.

 The aim of the invention is to increase reliability by providing excitation of the Executive relay in case of accidental failure of the counting mode of operation of the dividers.

 This goal is achieved by the fact that the device for delaying relay operation in railway automation systems, containing a control relay, the front contact of which is connected to the output of the power source with one output and the input of the matching element through the front contact of the executive relay to the winding of the said executive relay, is a generator pulses, a threshold element, a pulse transformer and a voltage converter, the output associated with the coil of the Executive relay, is equipped with additional generators pulse generator, pulse transformer, threshold element and voltage converter, diodes, capacitors controlled by generators, frequency dividers, AND elements and single-vibrators, the outputs of the first and second of which are connected respectively to the first winding of one and the first winding of another pulse transformers, and the inputs, respectively, to the outputs of the first and second frequency dividers, the first inputs of which are connected to the outputs of the pulse generators, and the second inputs to the outputs of the elements And, the first inputs of which are connected are given to the outputs of the matching element, and the second inputs to the output of the third one-shot, the input of which is connected through the third frequency divider to the output of the first frequency divider, and the inputs of the first and second voltage converters are connected respectively to the outputs of the first and second threshold elements, the inputs of which are connected respectively to the outputs the first and second controlled generators, the inputs of which are connected to the plates of the first and second capacitors, respectively, and through the first and second diodes to the second windings of the pulses transformers, and the output circuits of voltage converters are connected in series and connected to the coil of the executive relay.

 The drawing shows a structural diagram of a device for delaying relay operation in railway automation systems.

 A device for delaying relay operation in railway automation systems contains a control relay, the front contact 1 of which is connected to the output of power supply 2 by one output and by the other to the input of matching element 3 and through the front contact 4.1 of the executive relay to the winding of the said executive relay 4, 5 pulse generator , threshold element 6, pulse transformer 7, voltage converter 8, output connected to the winding of the executive relay 4, additional 9 pulse generator, pulse transformer 10, a threshold element 11 and a voltage converter 12, diodes 13 and 14, capacitors 15 and 16, controlled oscillators 17 and 18, frequency dividers 19-21, elements 22 and 23, and single vibrators 24-26, the outputs of the first 24 and second 25 of which are connected respectively to the first winding of one 7 and the first winding of another 10 pulse transformer, and the inputs, respectively, to the outputs of the first 19 and second 20 frequency dividers, the first inputs of which are connected to the outputs of the 5 and 9 pulse generators, and the second inputs to the outputs of the elements And 22 and 23, the first inputs of which are connected to the output m matching member 3, and the second inputs to the output of the third monostable multivibrator 26, whose input is connected via a third frequency divider 21 with the output of the first frequency divider 19. The inputs of the first 8 and second 12 voltage converters are connected respectively to the outputs of the first 6 and second 11 threshold elements, the inputs of which are connected respectively to the outputs of the first 17 and second 18 controlled generators, the inputs of which are connected to the plates of the first 15 and second 16 capacitors respectively and through the first 13 and second 14 diodes to the second windings of the pulse transformers 7 and 10, and the output circuits of the voltage converters 8 and 12 are connected in series and connected to the winding of the actuating relay 4.

 A device for delaying relay operation in railway automation systems operates as follows.

 As identical dividers 19 and 20, series-connected counting triggers are used, the combined R-inputs of which, the counting input of the first and the output of the last, respectively form the installation input, input and output of each of the dividers 19 and 20. The conversion factor of the dividers 19 and 20 and the pulse repetition rate at the outputs of identical generators 5 and 9 are selected based on the required delay time of the actuating relay 4, and the conversion factor of the third divider 21, which are also used The sequence of counting connected triggers, conditions of repeated increasing the nominal delay pickup actuator relay 4 for random failure in the first 19 or second 20 divisors. The matching element 3, containing two optocouplers, ensures the appearance of logical units at the first inputs of the elements And 22 and 23 when the contact 1 of the control relay closes. The first 24 and second 25 single vibrators produce single pulses, and the third 26 zero pulse at the moment of switching to the single state of the last triggers of the first 19, second 20 and third 21 dividers, respectively. As each of the identical controlled generators 17 and 18, a multivibrator powered by an emitter follower powered from the corresponding capacitor 15 and 16 is used. The input resistance of the controlled oscillators 17 and 18 provides the necessary value of the discharge time constant of the capacitors 15 and 16, exceeding the deceleration of the actuator relay 4, and the amplitude value of the pulse output signal of the controlled generators 17 and 18 is proportional to the voltage across the plates of the respective capacitors 15 and 16. The threshold voltage elements 6 and 11 is 30% of the maximum envelope of the pulse signal appearing at the output of each of the controlled generators 17 and 18 at the time of starting the corresponding single-vibrator 24 and 25. Each of the voltage converters 8 and 12 is a key-operated amplifier with a rectifier connected to the output through the isolation transformer. The voltage converters 8 and 12 convert the pulse sequences at the outputs of the corresponding threshold elements 6 and 11 into a constant voltage equal to half the voltage of the actuating relay 4.

 In the initial state, with the open contact 1 of the control relay, at the outputs of the matching element 3 there are logical zeros, which through the corresponding elements And 22 and 23 act on the installation inputs of the dividers 19 and 20, keeping them in the initial state. The capacitors 15 and 16 are discharged and the actuating relay 4 is de-energized.

 When the contact 1 of the control relay is closed, logical units appear on the installation inputs of the dividers 19 and 20. The dividers 19 and 20 go into counting mode and after the set time has passed, start the corresponding single-vibrators 24 and 25. At the outputs of the latter, single pulses are generated almost simultaneously, from which capacitors 15 and 16 are charged through the corresponding pulse transformers 7 and 10 and diodes 13. at the end of the action of the indicated pulses, the capacitors 15 and 16 begin to discharge to the corresponding controlled generators 17 and 18. During the entire time of the discharge of the capacitors 15 and 16, the outputs of the threshold elements are formed mpulsnye signals and outputs on the inverters 8 and 12 voltage constant voltage from which reliably driven actuator relay 4.

 After the discharge of the capacitors 15 and 16, the executive relay 4 is energized through the self-locking circuit through its own contact 4.1. If after the closure of contact 1 of the control relay in the counting mode of operation of one of the dividers 19 and 20, a failure occurs, then after a certain time, significantly exceeding the set delay, the one-shot 26 starts, at the output of which a zero pulse is generated. Through the corresponding elements And 22 and 23, a zero pulse acts on the installation inputs of the dividers 19 and 20, ensuring their synchronization.

Claims (1)

 A DEVICE FOR DELAYING THE RELAY ACTIVATION IN RAILWAY AUTOMATION SYSTEMS, containing a control relay, the front contact of which is connected to the output of the power source by one of the terminals and the input of the matching element through the front contact of the executive relay to the coil of the executive relay, pulse generator, threshold element, pulse a transformer and a voltage converter connected with an output relay winding, characterized in that it is equipped with an additional pulse generator, a pulse a transformer, a threshold element and a voltage converter, diodes, capacitors, control generators, frequency dividers, AND elements and single vibrators, the outputs of the first and second of which are connected respectively to the first winding of one and the first winding of another pulse transformers, and the outputs, respectively, to the outputs of the first and second frequency dividers, the first inputs of which are connected to the outputs of the pulse generators, and the second inputs to the outputs of the AND elements, the first inputs of which are connected to the outputs of the element coordination, and the second inputs to the output of the third one-shot, the input of which is connected through the third frequency divider to the output of the first frequency divider, and the inputs of the first and second voltage converters are connected respectively to the outputs of the first and second threshold elements, the inputs of which are connected respectively to the outputs of the first and second controlled generators whose inputs are connected to the plates of the first and second capacitors, respectively, and through the first and second diodes to the second windings of pulse transformers, and the output circuits of voltage converters are made in series and connected to the coil of the executive relay.