SU1394329A2 - System for controlling and checking three-phase power supply lines for outdoor illumination with cascading - Google Patents

Abstract

) The invention relates to electrical engineering., In particular, to device circuits for providing remote control and indication of the operating modes of the AC network. current. The purpose of the invention is to increase the reliability and quality of information transfer. The invention allows information to be transmitted along the off-stage lighting circuit, eliminating the possibility of distortions and interferences in the transmission path, as well as spurious triggers of contactors at the time of generation of voltage pulses in the line of illumination — both single and a series of pulses. When a fault is detected, the network control unit gives a command to a series of single switching triacs. In this case, the voltage enters the phase A of the first line of illumination. In this case, the amplitude of the voltage supplied to the phase wire A depends on the ratio of the resistances of the resistors. When selecting these resistances, taking into account the decrease in the amplitude of the information pulse below the turn-on voltage of the threshold element, the voltage is not directed towards the coils of the contactors and the control relay. Thus, the voltage information pulses do not affect the contactors, excluding their false alarms. 1 il. with b (L

Description

1H

The invention relates to electrical engineering, in particular, to device circuits for providing remote control and indication of the modes of operation of the AC network, can be used in systems for automatic control and monitoring of outdoor lighting networks with cascade switching and is an improvement 10 known system for avtvsv, № 1136256.

The purpose of the invention is to increase the reliability and quality of information transmission

15

tion

Installing a load resistor in the lighting line allows for the transmission of information on a disconnected cascade to reduce the amplitude of information pulses, which, due to the presence of the threshold element, will not affect the coils of the contactor and the control relay, moreover, when the discharge line equipment is equipped with gas discharge lamps, an active resistance to ensure reliable operation of the AC key.

The drawing is a schematic diagram of a control and monitoring system for three-phase outdoor lighting networks with cascade switching.

The system contains point 1 of control, connected by line 2 of communication with executive point 3, to the latter is connected line D of illumination with pins 5 to which the phase and neutral wires 6 of control are connected.

The coil 7 of the contactor 8 of the executive point 9 is connected in parallel to the coil 10 of the control relay. Coils 7 and 30 are connected between the neutral conductor N of the control and the first terminal of the two-pole threshold element I1. The second terminal of the latter is connected to the phase conductor 6 of the control of the lighting line 4.

The connection point of the bipolar threshold element 11 with the phase wire 6 of the control line 4, the lighting is connected to the first output of the AC key 12, the second output of which is connected to the switching contact 13 of the control relay.

The breaker group of the switching contact 13 is connected to the phase wire A of the mains supply ABC of the lighting line 1A, and the closing group

5 10

five

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0

35

40 45

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The contact 13 is connected to the neutral wire N of the control line 4 of the illumination. The switching contact 15 of the control relay is connected to the connection point of the second terminal of the two-pole threshold element 11 with the phase control wire 6 of the lighting line 4. The opening group of the switching contact 15 is connected to the first terminal of the load resistor 16, and the closing group of the switching contact I5 is connected to the connection point of coils 10 and 7 with the first terminal of the two-pole threshold element 11, the second terminal of the load resistor 16 is connected through the opening auxiliary contact 17 of the contactor 8 ground wire N of the control line 4 lighting. The executive station 9 also contains a power supply voltage control unit 18-voltage control unit, connected to the ABC phase wires of the control point 9, as well as the first lighting voltage control unit 19 to the lighting line 14, the second lighting power control unit 20; the block 21 controls the current of the lighting line, the sensor 22 controls the pulses of the voltage of the lighting line, the sensor 23 controls the pulses of the current of the lighting line. Executive paragraph 9 also contains the encoder 24, the first input of which is connected to the switching contact 25 of the relay trolley bus, razmykayuscha

the group of which is connected to the output of the power supply voltage monitoring unit 18, and the closing circuit to the output of the first lighting voltage control unit 19. The second input of the encoder 24 is connected to the switching contact 26 of the lighting-turning contactor 8, the disconnecting group of which is connected to the output of the second control unit 20 for controlling the voltage of the lighting line section, and the closing group is connected to the output of the lighting current control unit 21. The output of the encoder 24 is connected to the first input of the switch 27 by a two-wire line, one of the wires of which is connected to the terminal 28 connected to the neutral wire of the supply network. The second input of the switch 27 is connected to the switching contact 29 of the lighting contactor 8, the disconnecting group of which is connected to the output of the sensor 22 for monitoring the pulses

the splicing of the illumination line, and the closure of the group to the sensor 23 for monitoring current pulses of the illumination line.

The control input of the switch 27 is connected to the first and second inputs of the tamper 24, the output of the switch 27 is connected to the input of the analyzer 30 characters. The output of the latter is connected to the control input of the AC key 12. The lighting line 14, the executive point 9 has pins 31 to which the phase and neutral wires 32 of the executive point 33 are connected, to which the lighting line 34 is connected. At point 9, the mains ABC poles are connected to the lighting contactor 8 via fuses 35-37. The lighting line current control unit 21 is connected to the lighting line 14 via current transformers 38 40. A sensor 23 for monitoring current pulses of the lighting line is connected to the phase conductor of the lighting line 14 through a current transformer 41. The secondary windings of the current transformers 38-40 are connected by a common wire to a neutral wire terminal 28.

The control and monitoring system of three-phase, outdoor lighting networks with cascade switching operates as follows,

In the disconnected state of the outdoor lighting cascade, two emergencies are monitored: the power supply side voltage disappeared due to fuse failure, which could burn during the cascade operation or the maintenance personnel took off, and external voltage applied to the lighting line section as a result of contacting the wires general purpose networks or welding of lighting contactors.

In the event of an emergency, such as a third-party voltage on the lighting line 14, this voltage goes to the input of the second lighting voltage control unit of the executive point 9, from the unit 20 through the switching contact 26, the voltage is applied to the second input of the encoder 24 and SW-input of the switch 27, With the help of the encoder 24 and the switch 27

0

Two pulses of negative polarity relative to the neutral wire of the network with a time interval T between them are generated and 30 characters are input to the analyzer. From the latter, these pulses arrive at the AC key 12, which generates two voltage pulses in the control wires in the lighting line 4 with a time interval T. In this case, the voltage from phase A of the actuation point 9 comes through the switching contact 13, the AC key 12 5 into phase A line 4 illumination. With

The amplitude of the voltage supplied to the phase wire of the lighting line 4 depends on the ratio of the resistances of the resistor 42 of the AC key 12 and the load resistor 16 connected when the lighting line 4 is turned off to its wires A and K. When selecting these resistances, taking into account the decrease in the amplitude of the information the pulse is lower than the turn-on voltage of the bipolar threshold element 11; the voltage is not directed to the side of the coils 10 and 7 of the contactor and the control relay.

Thus, the information voltage pulses do not affect the coils 10 and 7. In turn, the voltage information pulses through the control wires 6 and the lighting line 4 arrive at the executive point 3, from it through the communication line 2 arrive at the control point 1.

0

five

0

five

40

Thus, in the event of an emergency in the area of the lighting line 4, two information pulses of negative polarity and, and Uj with a temporary pause T, are transmitted to control point 1,

45 in between. The polarity of the pulses encodes a symptom of a malfunction, and the temporary pause T „is the number of the operating point.

Such a malfunction may also occur at the executive station 33, then the voltage information pulses are generated in the same way as at the executive station 9 and due to the threshold element the pulses do not affect

gg to the coils of the contactor for turning on the network 34 of the lighting and the relay control of the actuating station 33, Information pulses come through the control wires 32 to the lighting line 14, where

fixed by sensor 7.7. monitoring the VM voltage pulses, through the switching contact 29, are transferred to the switch 27, then, according to the described scheme, to the control point. A temporary pause 1 between pulses determines the location of the malfunction - execute clause 33.

When fuses 35-37 malfunction at the executive point 9, the network voltage control unit 18 detects the malfunction and sends a voltage across the switching contact 25.

21 current control monitors the total number of faulty light sources. The transmission of information pulses in the event of a malfunction of the illumination line occurs in the same way as with an illuminated illumination line, with the only difference that the transmission through the switched on outdoor illumination stage is carried out by current pulses, which form the AC key 12.

Thus, the control system

encoder 24 and switch 27, where the control of three-phase networks externally

Two voltage pulses of positive polarity are paired with a pause between them, the information arrives at point 1 of the control. When commanding to turn on the lighting line from point I of control through the communication line 2, the executive point 3 voltage from the lighting line 4 goes to the executive point 9, the amplitude of the network voltage is higher than the turn-on voltage of the two-field threshold element 1, the result is that the coils 10 and 7 are energized, which ensures the operation of the contactor 8 and its auxiliary contact 17, which opens the load circuit; the resistor 16 to the wires of the lighting line 4, and the switching contact 15 of the control relay shorts out the threshold element 1 1, Switching the contact 13 of the control relay turns off the AC key I2 from the phase wire A and connects it to the neutral wire

N, providing information transfer on the contactor contactor contact, with a two-pole threshold element connected between the contact point of the contactor coil and control relay and a control wire with a terminal for connection to the phase wire, the control relay short-circuit contact is connected in parallel with the two-pole element , and between the control wires with leads for connection to the neutral and phase wires, a circuit is connected, consisting of a disconnecting contact of a control relay, a load resistor and a break in series conductive auxiliary contact of the contactor.

line 4 lights on. The switching contacts 25, 26 and 29 of the control relays are switched respectively to the first lighting line voltage control unit 19, to the lighting line current control unit 21, to the lighting line current pulse sensor 23. The current control unit 21 controls the current load of the illumination line 14 in phases using current transformers 38-40. When the lighting line is on, the health of the fuses 35-37 is monitored by the lighting line voltage control unit 19, and

The cascade-enabled lighting allows you to transmit information through the off-stage cascade off, eliminating the possibility of distortions and interference in the transmission path and false actuators of the contactors at the time of generation of voltage pulses in the illumination line, as well as in the series of pulses.

Claims (1)

Invention Formula The control system and control of three-phase networks of outdoor lighting with cascade switching on by author. No. 1136256, characterized in that, in order to increase the reliability and quality of information transmission, in each performance point of the illumination line sections, starting from the second, a two-pole threshold element, a load resistor, and an open and close relay are additionally introduced control and disconnecting auxiliary contact of the contactor, when than a two-pole threshold element is connected between the connection point of the contactor coil and control relay and a control wire with a terminal for connecting to a phase wire, the control relay contact is connected parallel to the two-pole element, and between control wires with a terminal for connecting to zero and A phase wiring includes a circuit consisting of a series-connected disconnecting contact of the control relay, a load resistor, and a disconnecting auxiliary contact of the contactor.  :