SU963031A1 - Multi-point indication device - Google Patents

Description

The invention relates to automatic signaling, mainly to alarm systems with remote monitoring of serviceability of communication lines.

A device for signaling is known, comprising an electronic circuit with an indicator element connected to three-wire communication lines, some of which are connected to a switching sensor, the fixed contacts of which are bridged by a resistor, and protective resistors through which auxiliary signals are supplied to the signal lines along with the supply voltage. The voltage drop across the protective resistance is controlled by an electronic circuit

However, the known device only works with three-wire communication lines and, providing a signal for lamination when the signal wires are broken, does not provide an alarm when they are short-circuited. In addition, the * * generalized signaling of signal line malfunctions makes it difficult to find and eliminate a malfunction with a large number of monitored signal lines.

Closest to the proposed technical essence is a multi-point signaling device5 containing signal cells, each of which is made on two LEDs, some of which are connected to the switching contact of the sensor, other terminals of the LEDs are connected to the power supply buses, which are connected to the control button contacts to sensor position contacts {2J.

However, in the known device there is no information about the cause of the failure of the communication link.

The purpose of the invention is the expansion of functionality and increase the reliability of the device.

This goal is achieved by the _fact that in a device for multipoint signaling, containing cells, each of which is made on two LEDs, the cathode of the first of which is connected to the anode of the second light-emitting diode, the cathode of which is connected to the first bus of the power source, the second bus of which is connected through the first NC contact control buttons connected to the first output of the sensor contact, communication lines, to each sensor

3. два two diodes and a resistor are introduced and two resistors are introduced into each signal cell, the first output of the first resistor and the first output of the second resistor are connected to the cathode of the first LED, the anode of which is connected 5 to the cathode of the second LED, the first output of the first signaling cell resistor through the first the closing contact of the control button is connected to the second bus of the power source, the third 1Q bus of which is connected through the second shorting, the contact of the control button is connected to the first output of the sensor contact and the first output of the sensor resistor, W Ora terminal of which is connected to the cathode of the first diode, the anode of which is connected to the cathode of the second diode and via the communication line connected to a second terminal of the second resistor corresponding signaling cells jn anode of the second diode is connected to the second ^rod You are a sensor contact water.

The drawing shows a schematic diagram of a device.

The device contains a power supply unit 1, sensors 2, a make contact 3, a resistor 4, diodes 5 and 6, signal cells 7, each of which contains the first and second resistors 8 and 9, LEDs 10 and 11, a common bus 12 of block 1 power supply, first wire 13 50 communication lines, second wire 14 of all communication lines, make contact 15, control buttons 16, negative bus 17 of power unit 1, make contact 18 of control button 16, positive 35 bus 19 of unit 1, power, make pin 20 of the control button 16.

The device operates as follows. 40

When the state of the communication line monitoring button 16 is released, the device provides multi-point signaling of the state of objects represented by the opening (closing) contacts of 45 sensors 3 of the sensors 2, while the state of the monitored object is indicated by the LED 10 of the corresponding signal cell 7 connected via resistor 8 and contact 3 sensor 2 to the positive bus 19 of the power supply unit 1.

The control of communication lines is carried out by pressing the button 16 control. In this case, the polarity of the voltage supplied to the communication line is changed, and 55 between the negative and positive positive buses of the power supply unit 1, a divider is formed, formed from the series-connected resistances of one wire 14 of the communication line, resistor 4 connected in parallel with pin 3 of sensor 2, of the second wires 13 of the communication line, resistors 8 and 9 of the corresponding signal cell 7, and the state of contact 3 of the sensor 65

3031 4 due to the inclusion of decoupling diodes 5 and b does not affect the ratio of the arms of the divider.

The resistance of the resistors 8 and 9 in each signal cell 7 is selected so that, in the absence of an open or short circuit in the wires of the communication lines, the potential of the connection point A of the resistors 8 and 9 is zero (the potential of the common bus of the power supply unit 1), due to which none of the LEDs will not glow, which indicates the serviceability of the communication line.

If any of the wires of the communication line is cut off, the LED 10 is connected to the positive bus 19 of the power supply unit 1 through the resistor 9 and the make contact 20 of the control button 16. Therefore, the glow of the LED 10 when the control button 16 is pressed indicates a type of breakage in the corresponding communication line.

With a short circuit in the wires of the communication line, the condition of equality of the arms of the divider is violated, and if the short circuit occurs on the side of the sensor 2, then resistor 4 is excluded from one side: divider, if the short circuit occurs on the side of the individual signal cells, the resistance of the wires is also excluded 13 and 14 communication lines. In this case, the potential of point A is shifted in the negative direction, which causes the LED 11 to glow, and for long communication lines, by selecting resistors 4, 8, and 9 of the potential of the power supply 1, it is possible to provide different gradation of the LED 11 glow during a short circuit on the Sensor side and on the individual side signal cells. In the first case, LED 11 is dimmer, and in the second case brighter.

Thus, in the proposed multipoint signaling device, a simultaneous remote control of a group of communication lines is carried out with a visual representation of any of the possible states of the communication line with each of the sensors (normal, open, short circuit), and additionally one indicator element is required for each individual signal cell.

The economic effect is to reduce the troubleshooting time for the device.

Claims (2)

1. The patent of Germany 21633, cl. G 08 B 25/00, 1979. 2. USSR author's certificate No. 583462, cl. G 08 V 23/006, 1976 prototype). fZ o (7 o nineteen I