SU1088149A1 - Relay switching device - Google Patents

Abstract

A RELAY SWITCH containing i electromagnetic relays, the first winding pins of which are connected to the first power supply bus, the second windings of the odd electromagnetic relays are connected to the cathodes of two odd corresponding diodes, the anode of the first of which is connected to the first control through the contact terminal of the corresponding odd electromagnetic relay a push-pull amplifier bus whose control input is connected to a pulse sensor, a switching input to a second power supply bus, the second terminals the windings of the even electromagnetic relays are connected to the cathodes of the respective two even diodes, the anode of the first of which is connected via a contact with the contact of the corresponding even electromagnetic relay to the second control bus of the push-pull amplifier, and the input bus is connected to the second terminal of the winding of the first electromagnetic relay, characterized in that the purpose is to increase the reliability (L nosti, a break contact is inserted into each electromagnetic relay, and the anodes of the first (1 - 1) diodes through the break contacts (2) electromagnet tnyh relay connected to respective anodes of the second diodes -x. 00 oo 4; with

Description

The invention relates to electroautomatics and can be used in the development of switching devices on electromagnetic relays. A relay switch containing electromagnet relays is known, one output of a winding 4 of an electromagnetic relay is connected via an open contact of the (1 + 1) -th electromagnetic relay to one power supply bus, and the other output is connected via an isolating diode and closing contact (- 1) of the the relay is connected to the control bus, and to the blocking bus through the contact is a contact of the additional relay, the first winding terminal of which is connected to the closing contact (A - 1) -th relay, and the second to the second winding terminal (t + 1) relay ij. The drawback of the device is the need to use two relays in each cell. The closest to the invention to the technical essence is a relay switch containing i electromagnetic relays, the first winding terminals of which are connected to the first power supply bus, the second windings of the odd electromagnetic relays are connected to the cathodes of the corresponding two odd diode anode of the first one through which contact an odd electromagnetic relay is connected to the first control to the circuit of a push-pull amplifier bus, the control input of which is connected to a pulse sensor, a switch The input is connected to the second power supply bus; the second windings of the windings of the even-state relays are connected to the cathode of the corresponding two even diodes, the anode of the first of which is connected to the second control bus of the push-pull amplifier through the closing contact, and the input bus is connected to the second terminal of the winding of the first electromagnetic relay. L2J. A disadvantage of the known device is low reliability, which means that several relays (more than two) can be simultaneously turned on while simultaneously applying a pulse to the installation bus in zero and counting pulses to control gains. The purpose of the invention is to increase reliability. To achieve the goal, in a relay switch containing electromagnetic relays, the first winding terminals of which are connected to the first power supply bus, the second windings of the odd electromagnetic relays are connected to the cathodes of the corresponding two odd diodes, the anode of the first of which is connected to the first through the closing contact of the corresponding odd electromagnetic relay. the control bus of the push-pull amplifier, the control input of which is connected to the pulse sensor, the switching input - with the second bus of the power supply source The second terminals of the windings of the even electromagnetic relays are connected to the cathodes of the respective two even diodes, the anode of the first of which is connected to the second control bus of the push-pull amplifier via the closing contact of the corresponding even electromagnetic relay, and the input busbar is connected to the second terminal of the winding of the first electromagnetic relay. an electromagnetic relay is introduced break contact, and the anodes of the first (1 - 1) - diodes through the break contacts (i - 2) -x electromagnetic relays are connected to the anodes of the second corresponding diodes. The drawing shows a circuit diagram of the proposed device. The device contains a push-pull amplifier 1, the first 2 and second 3 busses of the power supply, a sensor 4 pulses, the first 5 and second 6 controls the bus of the push-pull amplifier 1, electromagnetic relays 7 1-7-tc with closing and opening contacts and diodes, and the input bus T2. The first windings of the electromagnetic relays are connected to the first bus 2 of the power supply, the second bus 3 of the power supply is connected to the switching input of the push-pull amplifier 1, the control input of which is connected to the sensor 4 and the pulses. Anodes of the first diodes 11 1-1 through the shorted contacts

9 i - 2 electromagnetic relays 7 i - 2 are connected to the anodes of the second diodes 10 i.

The switch works as follows.

After a triggering pulse is applied to the input bus 12, a relay is turned on, which becomes self-powered via the first control pin 5, its own short-circuit contact and a diode. At the same time, through a diode and a disconnecting contact 9 i, a relay is connected, which with its closing contact prepares to turn on the relay via the second control bus 6. When a signal from the sensor 4 is received, the voltage disappears on the first control bus 5, and on the second control bus 6 appears. In this case, the winding of the relay, which stands on the power supply via the first control bus 5, is de-energized and the relay disappears, closing its open contact in the relay winding circuit.

The relay coil is self-powered via the second control bus 6. The relay coil is energized in a circuit: a closing contact is a diode opening contact. The relay turns on and prepares to turn on the relay through the first control bus 5. When the signal from the sensor disappears

4 pulses first control

5 shows under voltage as well. second control bus 6 without tension. The relay is turned off and the relay is turned on. Further operation of the scheme is similar to that described. To set to zero, it is necessary to disconnect the power supply bus 3, and after restoring, apply voltage to the input bus 12.

Thus, in the proposed device, reliable operation is ensured, since the possibility of simultaneous operation of more than two electromagnetic relays is excluded.

Claims (1)

RELAY SWITCH containing i electromagnetic relays, the first leads of the windings of which are connected to the first bus of the power supply, the second leads of the windings of odd electromagnetic relays are connected to the cathodes of two odd corresponding diodes, the anode of the first of which is connected to the first control bus of the push-pull electromagnetic relay amplifier, the control input of which is connected to the pulse sensor, the switching input is with the second bus of the power source, the second conclusions of the windings h of electromagnetic electromagnetic relays are connected to the cathodes of the corresponding two even diodes, the anode of the first of which is connected via the make contact of the corresponding even electromagnetic relay to the second control bus of the push-pull amplifier, and the input bus is connected to the second terminal of the winding of the first electromagnetic relay, characterized in that, in order to increase reliability, an NC contact is introduced into each electromagnetic relay, and the anodes of the first (1 - 1) x diodes are connected through the NC contacts (<- 2) of the electromagnetic relays Second anodes <-x respective diodes. I