SU1116550A2 - Relay switching device - Google Patents

Abstract

RELAY SWITCH of aut. St. 946006, characterized in that, in order to selectively disconnect neutral electromagnetic relays, the closing contacts of the first decoder of each group are connected to the negative bus of the main power source through the first resistor, and parallel to the winding of each neutral electromagnetic relay are connected the entered dynistor, while in each group the closing contacts of the neutral electromagnetic relay are connected to the blocking bus through the groups entered in series with A single second resistor and a fourth decoupling diode.

Description

The invention relates to switching technology and can be applied in automatic control systems.

The main bus number 946006 is famous for a relay switch containing neutral electromagnetic groups, relays whose first terminals of windings in the group are connected and connected to the negative power source of the main power supply via series-connected corresponding first uncoupling diode and make contact of the first decoder. , and the second terminals of the windings of like neutral relays of the groups are connected through the corresponding second isolating diodes and connected via the corresponding closing contact of the second decoder The positive bus of the main power source is in each group. The second output of the neutral electromagnetic relay is connected via its closing contact to the group blocking bus, expanding the poisoning contact, the third decoupling diodes and an additional power supply, the negative bus of which is connected to the positive one. the main power supply and through the third decoupling diodes to the points of connection of the first terminals of the windings of the neutral electromagnetic relays of the groups, and the positive bus through the disconnecting control contact connected to blocking groups G1

However, in this relay switch, there is no possibility of selectively disconnecting previously generated neutromagnetic relays.

The purpose of the invention is to provide

selective shutdown of neutral electromagnetic relays.

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The goal is achieved by the fact that in the relay switch the closing contacts of the first decoder of each group are connected to the negative bus of the main power source through the input of the first resistor, and the input dynistor is connected parallel to the winding of each neutral electromagnetic relay, while in each group the closing contacts of the neutral electromagnetic relay are connected to bus interlocking group through entered in series connected the second resistor and the fourth extension diode.

The drawing shows the electrical circuit diagram of the relay switch.

The relay switch contains the closing contacts 1 of the first depotfrarator 2, the first resistor 3, the minus 4 and the plus 3 buses of the main source 6 of the ring, the closing contacts 7 of the second decoder 8, the disconnecting control contact 9, the positive 10 and. a minus 11 bus of an additional power source 12, groups of neutral electromagnetic relays 13, each of which contains the first 14, second 15, third 16, fourth 17 isolating diodes, second resistors 18, group blocking bus 19, neutral electromagnetic relays 20 with closing contacts 21 and dinistors 22.

Relay switch works as follows.

When the main 6 and additional 12 power sources are turned on, the minus voltage of the additional power source 12 via the third spreading diodes 16 goes to the first terminals of the windings of the neutral electromagnetic relays 20 of all groups of the neutral electromagnetic relays 13, and the positive voltage through the breaking control contact 9 to the buses 19 lock group. When one of the closing contacts 1 of the first decoder 2 is closed, the main supply source 6 through the first resistor 3 is minus the voltage, the first isolating diodes 14 are fed to the first windings of neutral electromagnetic relays 20 of the selected group of neutral electromagnetic relays 13..

When one of the closing contacts 7 of the second decoder 8 is closed, the positive voltage of the main power supply 6 through the corresponding second isolating diodes 15 is supplied to the second terminals of the selected neutral electromagnetic relays 20. The neutral electromagnetic relay 20 will work only in the selected group of neutral electromagnetic relays 13 and becomes interlocking through its normally open contact 21, the fourth decoupling diode 17, the second resistor 18 on the plus side of the additional power source 12. Since the minus bus 11 of the additional power source 12 is connected to the positive bus 5 of the main power source 6, when the neutral electromagnetic relay 20 is turned on, the total voltage of the power sources 6 and 12 is applied to its winding. The same voltage is applied to the dynistor 22, but dynistor 22 is not turned on, as the total voltage is lower than the turn-on voltage of the distor 22. When the closing contact 1 of the first decoder 2 and the closing contact 7 of the second decoder 8 opens, the voltage of the main source 6 The power supply is disconnected from the winding of the neutral electromagnetic relay 20, but this relay remains in the actuated state due to the voltage of the additional power source 12. The inclusion of any number of neutral electromagnetic relays 20 inside one group of neutral electromagnetic relays 13 is carried out similarly with the help of closing several wiring contacts 7 of the second decoder 8. Similarly, selecting any number of groups using the first contacts of the first decoder 2. For simultaneous deactivation of all activated neutral electro magnetic relay 20 opens control contact 9. To selectively disable any neutral electromagnetic relay 20, select It is produced similarly to the choice to turn on, but from the main power supply 6, an increased voltage is applied such that the total voltage of the power supply sources 6 and 12 surpasses the switching voltage of the dynistor 22. When the corresponding make contact 1 of the first decoder 2 increases, the minus voltage goes up The main power supply 6 is powered from the negative busbar through the first resistor 3, the closing contact 1 of the first decoder 2, the first decoupling diode 14 to the first electromotive neutral windings Auxiliary relays 20 of a selected group of neutral electromagnetic relays 13. When one of the closing contacts 7 of the second decoder 8 is closed, the increased positive voltage of the main power supply 6 from the plus bus 5 comes through the closing contact 7 of the second decoder 8, the decoupling diode 15 to the second terminals of the selected neutral electromagnetic relays 20. As a result of the connections made, the increased positive and negative voltages of the first power supply 6 is supplied only to one neutral electromagnetic relay 20 v brane group neutral electromagnetic relay 13. Since the sum voltage sources 6 and 12 prevsch1aet supply voltage incorporation dynistor 22 Shockley diode 22 is turned on and shunts the coil selected neutral electromagnetic relay 20 is turned off koto- Roe. At the same time, the third diodes 16 exclude powering by the increased positive voltage of the blocking bus of group 19 and supplying it to other included neutral electromagnetic relays 20 in the selected group of neutral electromagnetic relays 13. The second resistors 18 exclude bypassing the other 22 neutral switched electromagnetic relays 20 according to the voltage of the additional power supply 12, as well as its overload. The first resistor 3 eliminates the overload of the main source. Vika power when the dynistor is turned on 22. The technical and economic effect of the invention is to improve the quality characteristics of the relay switch due to selectively disconnecting neutral electromagnetic relays.

Claims (1)

RELAY SWITCH according to ed. No. 946006, characterized in that, in order to ensure selective shutdown of the neutral electromagnetic relays, the make contacts of the first decoder of each group are connected to the negative bus of the main power source through the introduced first resistor, and in parallel with each neutral a sub-key electromagnetic relay, a dynistor is introduced, while in each group the closing contacts of the neutral electromagnetic relay are connected to the group blocking bus through connected in series ennye second resistor and a fourth decoupling diode. 1116550 2