SU1547082A1 - Relay switchboard - Google Patents

Abstract

The invention relates to a pulse technique and can be used in various automation devices. The purpose of the invention, the reduction of power consumption, is achieved by discharging the capacitor during the operation of the remote switch on the winding switch. The relay switch contains switching cells made on the remote switch 11 controlled by buttons 19 by recharging the capacitor 20 through windings 12,13 records and disconnecting. Information is recorded in the cells by discharging capacitor 20 through transistor 6 and diode 15. New is the introduction of diode 21 and connections in the circuits of the output windings 13 and the power supply circuit of the cells through control buttons 19. 1 il.

Description

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The invention relates to a pulse technique and can be used in various automation devices.

The purpose of the invention is to reduce power consumption by discharging a capacitor during the operation of a remote switch on the winding.

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

The relay switch contains the power source 1, the first diode 2 connected to the power supply buses 3 and 4 in the opposite direction through the closing contact of the reset button 5, the transistor 6, the first 7 and the second 8 resistors and cells 9 and 10, each of which contains a remote switch 11 with windings 12 and 13 records and disconnects, second 14, third 15, fourth 16, fifth 17 and sixth 18 diodes, control button 19 with a closing contact and a capacitor 20, the first output of which is connected to the collector of the transistor through the recording winding 12 6. Obmo 13 from the remote switch 11 of each cell 9 (10) is connected parallel to the first diode 2. The base of transistor 6 is connected through the first resistor 7 to the first output of the second resistor 8. The first terminals of the closing contact of the button 19 of the control of each cell 9 (10) are combined, and the second terminals are connected via a serially connected second 14 and third 15 diodes connected to the emitter of the transistor 6. The first terminal of the capacitor 20 of each cell 9 (10) is connected in one circuit with the first terminal of the fourth diode 16 of the cell. The second conclusions of the diodes 16 cells 9 and 10 are combined. In another circuit, the first capacitor lead through the fifth diode 17 of the cell is connected to the second lead of the second resistor 8. The second lead of the capacitor 20 of each cell 9 (10) is connected to the common point of the second 14 and third 15 cell diodes. The connection point of the second diode 14 of each cell 9 (10) with the contacts of the cell control button 19 is connected to the first terminal of the second resistor 8 via the sixth diode 18 of the cell. In each cell 9 (10), the second 14, the third 15, and the fourth 16 diodes are connected in the forward direction with respect to the power source 1, the fourth 16 and

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17 diodes are connected by opposite electrodes, and the second 14 and sixth 18 diodes are connected by the same electrodes. A seventh diode 21 is connected to the relay switch, connected between the collector of transistor 6 and the combined second terminals of the fourth diode 16 connected to the common point of the first diode 2 and the contact of the reset button 5. The combined first terminals of the control buttons 19 are connected to a common point of the supply bus 4 with the contacts of the reset button 5. The seventh diode 21 is connected to the corresponding fourth diode 16 in one direction.

Relay switch works as follows.

In the initial state, the windings 12 and 13 of the remote switches 11 are de-energized. Switching on any distance DRONONG of the switch 11 along the winding 12 of the recording is carried out by pressing the control button 19. Suppose that before turning on the remote switch 11 of the cell 9, the remote switch 11 of the cell 10 along the winding 12 of the record was turned on. Then, when the control button 19 is pressed, the cells 9 will be powered by the winding 13 from the remote switches

11 all cells in the circuit: + source t - windings of 13 cells 9 and 10 - diode

16 cells 9 - 20 cells capacitor

9 - diode 14 cells 9 - button 19 cells 9 - - source 1. With the charging current of the capacitor 20, the previously switched on remote switch 11 of cell 10 is activated by winding 13 and switches its contacts (not shown). The capacitor 20 of the cell 9 is charged before the voltage of the power source 1, and the windings 3 of the remote switches 11 are de-energized. When you release the button 19 control cell 9 in chains; capacitor 20 - diode i

17- resistors 8 and 7 - base-emitter transition of transistor 6 - diode 15- capacitor 20 (transistor 6 will open at the same time) and capacitor 20 - winding

12 - collector - emitter junction of transistor 6 - diode 15 - capacitor 20 by discharge current of capacitor 20 operates remote switch 11 of cell 9 by winding 12 records and switches its contacts (not shown). The capacitors 20 are chosen so as to ensure the operation of the remote switches 11 on

the windings 13 are disconnected when charging the capacitor 20 and along the windings 12 of the record when it is discharged. The diode 21 is designed to protect against overvoltages occurring on the windings 12 of the record (a circuit of series-connected diodes 21 and 16). The reset button 5 serves to activate the switched on remote switch 11 on the winding 13 of the release without turning on the other remote switches.

Thus, the proposed relay switch can reduce

power consumption, since from the source resistor, the second output of the power supply unit consumes energy to charge the capacitor while simultaneously operating the remote switch on the coil, and then the energy of the charged capacitor is used to operate the remote switch on the write winding.

Claims (1)

Claims 25 A relay switch containing a power source, a first diode connected to the supply busses in the opposite direction through the make contact of a reset button, a transistor, the first and second resistors and cells, each of which contains a remote switch, second, third, fourth, Each cell is connected to the common point of the second and third diodes of the cell, and the connection point of the second diode of each cell to the second pin of the cell control button is connected to the first pin of the second resistor through the sixth diode of the cell, and in each cell the second, third and fourth the diodes are connected in the forward direction with respect to the power source, the fourth and fifth diodes are connected with different electrodes, and the second and sixth diodes are connected with the same electrodes, characterized in that, in order to reduce energy children, the seventh diode is inserted, which is connected to the collector of the transistor by the first terminal, to the connection point of the second terminals of the fourth diodes of the cells and the connection point of the first diode to the first terminal of the reset button, and the first terminals of the control buttons with the second output contact of the reset button, and the seventh diode is connected to the fourth diode of each cell in one direction. Fifth and sixth diodes, control button, with a closing contact, a capacitor, the first output of which is connected to the collector of the transistor through the write winding of the remote switch, the output winding of the remote switch of each cell is parallel to the first diode, the base of the transistor through the first resis the torus is connected to the first terminal of the second resistor, the first terminals of the closing contacts of the control buttons of each cell are combined, and the second terminals are connected through the second and third diodes connected in series to the emitter of the transistor, the first terminal of the capacitor of each cell is connected in one circuit to the first the output of the fourth diode of the cell, the second terminals of which are combined; on another circuit, the first terminal of the capacitor is connected to the second terminal of the second resistor through the fifth diode of the cell, the second terminal of the capacitor0 five five 0 Each cell is connected to the common point of the second and third diodes of the cell, and the second diode of the second diode of each cell is connected to the second output of the contact of the control button of the cell to the first output of the second resistor through the sixth diode of the cell, and each cell of the second, third and fourth diodes in the forward direction with respect to the power source, the fourth and fifth diodes are connected by opposite electrodes, and the second and sixth diodes are connected by the same electrodes, characterized in that, in order to reduce the energy The seventh diode is inserted, which is connected to the collector of the transistor by the first terminal, the second terminal to the connection point of the second terminals of the fourth diodes of the cells and the connection point of the first diode to the first terminal of the reset button, and the first terminals of the control buttons with the second output contact of the reset button, and the seventh diode is connected to the fourth diode of each cell in one direction.