RU1797172C - Outdoor lighting network - Google Patents

Abstract

SUMMARY OF THE INVENTION: the network comprises a wire monitoring unit and lighting units using phase wire as a control wire. It is possible to discretely control the lighting power and prevent emergency operation of the network. 2 ill.

Description

The invention relates to the field of electrical engineering, in particular to systems for monitoring and controlling outdoor lighting networks,

A known outdoor lighting network comprising phase conductors connected through a contactor to the terminals of a power source. The contactor coil is connected to the control unit. In the outdoor lighting network, the voltage at the beginning of the phase conductors is monitored.

The closest in technical essence and the achieved result to the claimed one is the outdoor lighting network selected as a prototype, comprising three phase wires, lighting installations, each of which is made in the form of a chain of a series-connected discharge lamp, main and additional chokes connected between the zero and first or second phase wires of the diode and relay, the winding of which is connected between the anode of the diode and the neutral wire, and the make contact is parallel to the additional oscel, contactor, two

the power contacts of which are connected between the beginnings of the first and second phase wires and the corresponding phase terminals of the power source through the first and second fuses, respectively, the third phase terminal of the power source is connected to one of the terminals of the third fuse, the first and second control switch with make contacts, the third switch control with an NC contact, one of the terminals connected to the neutral wire, a limiting resistor, five diodes, the anode of the first diode is connected to one of the terminals first contact of the control switch and the anode of the second - with one of the terminals of the third power contacts of the contactor, the other terminal connected to the beginning of the third phase conductor, and a control unit connected to the ends of the phase and neutral conductors and having a diode, the two ballast resistor.

This outdoor lighting network has a complex circuit design and provides for laying an additional wire along the network. Significance

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A certain number of circuit elements in a known device is characterized by its complexity and, in a number of cases, insufficient reliability.

The aim of the invention is to simplify and increase reliability.

This goal is achieved by the fact that a voltage relay with a closing contact and a current relay with a breaking contact are introduced into the outdoor lighting network, the first control switch is equipped with a second closing contact, and the second switch is equipped with a breaking contact, while the other terminal of the third fuse is connected to another terminal of the opening contact the third control key through series-connected coil of the contactor, the closing contact of the voltage relay and the breaking contact of the current relay, with one of the terminals of the coil of the voltage relay and the cathode third its diode through the coil of the current relay, with the cathode of the second diode through the make contact of the second control key and with the other terminal of the first make contact of the first control key through the make contact of the second control key, the second output of the voltage relay coil is connected to the anodes of the third, fourth and fifth diodes, the cathode of the fourth diode is connected via a second make contact of the first control key and a neutral wire terminating resistor connected in series, the cathode of the fifth diode is connected to the cathode ne the first and the anode of the second diode, each lighting unit is equipped with a threshold element with one-sided conductivity and a control resistor, and its relay is double-wound polarized, one of the windings of which is connected to the cathode of the threshold element with one-sided conductivity, and the other to the neutral wire, the cathode of the diode the lighting unit is connected to the anode of the indicated threshold element and through the control resistor to the third phase wire, the control unit is equipped with three diodes, a thyristor and a generator pulses on a single-junction transistor, the output of which is connected to the thyristor control electrode, the anodes of the diodes of the control unit are connected to the ends of the corresponding phase wires, and their cathodes are connected to the thyristor anode and through the first ballast resistor to the first power terminal of the specified pulse generator, the second terminal of which is connected with the thyristor cathode and through the second ballast resistor - with a neutral wire.

In FIG. 1 is an electrical diagram of an outdoor lighting network; in FIG. 2 is a graph of voltages and currents in various modes of operation of an outdoor lighting network.

The outdoor lighting network contains the first 1, second 2, third 3 phase wires and neutral wire 4. The beginning of the first 1 and second 2 phase wires through power

the contacts of the contactor 5 and through the first 6 and second 7 fuses are connected to the first and second terminals of the power source 8. The third terminal of the power source 8 is connected to one of the terminals of the third 9

5 fuse. The beginning of the third phase wire 3 through the third power contact of the contactor 5 is connected to the connection point of the cathodes of the first 10 and the anode of the second 11 diodes. The second terminal of the third guard 9 through the coil 12 of the current relay is connected to the first terminal of the coil 13 of the voltage relay and the cathode of the third diode 14. The anode of the third diode 14 is connected to the anode of the fourth diode 15, with the second terminal of the coil 5 of voltage relay 13 and the anode of the fifth diode 16. The cathode of the fifth diode 16 is connected through the third power contact of the contactor 5 to the third phase wire 3. The anode of the first diode 10 through the first closing contact of the first control key 17 and the breaking contact of the second control key 18 is connected to the connection point of the second about the output of the fuse 9 with the first output of the coil 19 of the contactor 5, the second output

5 of the coil 19 through a series circuit from the make contact 20 of the voltage relay 13, the make contact 21 of the current relay 12 and the make contact of the third control key 22 is connected to zero

0 by wire 4. The cathode of the second diode 11 is connected to the make contact of the second control key 18. The cathode of the fourth diode 15 is connected to the neutral wire 4. through the second make contact of the first control key 17 and the limiting resistor 23. The cathode of the fifth diode 16 is connected to the cathode of the first 10 and the anode of the second 11 diodes. The outdoor lighting network includes lighting units 24 and 25. Lighting

0 installation 24 has a gas discharge lamp 26 connected through the main 27 and additional 28 chokes connected to the first phase 1 and zero 4 wires of the network. Lighting installation 24 contains

5 of the relay 29. The relay 29 has two windings and is polarized. One of the terminals of the first coil of the relay 29 is connected via a diode 30 and the control resistor 31 to the phase conductor 3. One of the terminals of the second coil of the relay 29 is connected to the cathode of the threshold element 32. The anode the threshold element 32 is connected to the junction point of the cathode of the diode 30 with the control resistor 31. Other terminals of the first and second coils of the relay 29 are connected to the neutral wire A of the network. The relay 29 has a closing contact 33 connected in parallel with the additional inductor 28. In the lighting installation 25, having a circuit similar to the lighting installation 24, the gas discharge lamp is connected through the main and additional inductors through the second phase 2 and zero 4 wires, and the first conclusions of the relay coil are one the outputs through the diode, the threshold element 32 and the control resistor 31 are connected to the third phase wire 3, and the other to the neutral wire 4.

The control unit 34 is connected to the ends of the phase wires 1-3 and the neutral wire 4. The control unit 34 contains the first 35, second 36 and third 37 diodes connected by the anodes to the ends of the phase wires 1-3 of the network, respectively. The cathodes of the diodes 35-37 are combined and connected to the anode of the thyristor 38. The cathodes of the diodes 34-36 are connected through the first ballast resistor 39 to the first output of the pulse generator 40. The cathode of the thyristor 38 is connected through the second ballast resistor to the end of the neutral wire 4 of the outdoor network lighting. A single-junction transistor 42 is installed in the pulse generator 40, the first base of which is connected to the control electrode of the thyristor 38 and, through the first resistor 43, to the second output terminal of the generator connected to the cathode of the thyristor 38. The second base of the transistor 42 is connected through the second resistor 44 to the first output power pulse generator. A zener diode cathode 45 is connected to the first power terminal, the anode of which is connected to the second power terminal. A chain of a third resistor 46 and a capacitor 47 is connected between the first and second power leads, the connection point of which is connected to the emitter of a single-junction transistor 42.

The outdoor lighting network operates as follows.

When the first contact of the first control key 18 is open, the coil 19 of the contactor 5 is de-energized and the power contacts of this contactor are open. Thus, in the initial state, the voltage in the phase wires 1-3 is absent. Contact 33 of relay 29 in lighting installations 24 and 25 is open. To turn on the contactor 5, close the first and second contacts of the first control key 17. In this case, the current from the pole C of the power supply 8 through the fuse 9, the coil of the current relay 12 and the voltage relay 13, diode 15, the second contact of the switch 17 and the resistor 23 enters zero wire 4. As a result, voltage relay 5 is activated 13. contact 20 of which closes the power circuit to coil 19 of contactor 5. When current flows through coil 19, contactor 5 closes its contacts, connecting phase wires 1 and 2 to voltage

0 phases A and B of the power supply 8, and wires 3 through the diode 16 and relay coils 12 and 13 are in phase with the power supply 8. If there is a three-phase voltage in the wires 1-3 and bring it to the anodes of the diodes 35 - 37 in the block

5, control 34, at their cathodes from the positive half-waves of voltage Ua, UB and Uc (see Fig. 2a), a constant voltage component is formed. When applying a constant voltage component to the generator

0 pulses 40 from the output of the latter after a time delay of the order of 0.1 s, a control pulse is applied to the thyristor 38. Thyristor 38 is also opened along the circuit: the connection point of the cathodes of diodes 35-37, the thyristor

5 38, resistor 41, current flows to the neutral wire 4.

Since the first and second contacts of the control key 17 are closed, positive half-waves at the 0-voltage of phase C with amplitude Uc are fed into wire 3 (see Fig. 26). This voltage level in the wire 3 causes the switching of the threshold element 32 to the conductive state and the relay 29 switches, closing its

5, contact 33. After turning on the contactor 5, the control key 17 is set to its initial position, i.e. its first and second contacts open. Since, in the control block 34, thyristor 38 is open, after times0. the contact of the key 17 of the voltage relay 13 remains in the on state, since positive half-waves of the 5th voltage of phase C flow through its coil, shunted by the diode 14 behind the buffer one. Due to the voltage drop in the relay coil 13 the half-wave of the voltage wire 3 after opening the second contact of the switch 17 is reduced to a value (see Fig. 26). However, a decrease in the amplitude of .0 lititude of this half-wave does not lead to the thyristor 38 being locked in the control unit 34, since a continuous component of current flows through it. Thus, in the presence of voltage at the anodes of diodes 35-37

5 control units 34, i.e. normal operation of the lighting network, the contactor 5 is in the on state and flows through wire 3

current (s (see Fig. 2c)). Thus, after the contactor 5 is turned on, the outdoor lighting network operates in the nominal mode

power with the luminous flux of lamps f Fnom (see, Fig. 2B).

If it is necessary to switch the network to low power, close the second control key 18. In this case, from phase C of the power supply 8 through the contact of the key 18. The diode 11 and the contact of the contactor 5 to the wire 3 are applied a negative half-wave voltage - Uc (see Fig. 26 ) Since in lighting installations 24 and

25 with positive half-waves. + U- with the threshold element is locked, the half-wave voltage -Uc acts on the second section of the coil of the relay 29. The relay 29 is switched, opening contact 33 and thereby entering the lamp circuit

26 additional inductor 28. Thus, the lighting network is switched to a low power mode with a luminous flux of lamps, 5 (see Fig. 2c). After that, the key 18 returns to its original position, opening its contacts and removing the voltage-Uc from the wire 3.

In the event of an accident - a break in any of the wires, for example, wire 2.c. component of the rectified voltage removed from the cathodes of diodes 35-37, a temporary pause Tn is formed. In the control unit 34, the thyristor 38 is closed, causing a current 1c to stop in the wire 3. The current interruption 3 causes the voltage relay 13 to turn off, which, by its contact 20, opens the power supply circuit of the coil 19 of the contactor 5. When the power supply circuit of the coil 19 is disconnected, the contactor disconnects the wires 1-3 from the voltage of the power source 8. A similar technology for disconnecting the lighting network from the power source is performed when the wire 1 is broken. When the wire 3 is broken, the voltage relay 13 is disconnected, which disconnects / opens its contacts 20, which dit disables the contactor 5 to the above-described technology. In case of short circuits of wires 1 and 2 with wire 4 or between each other, fuse inserts 6 or 7 burn out, which causes the thyristor 38 to lock in the control unit 34 and, according to the above-described technology, disconnects the contactor 5. When the wires 1, 2 and 4 with a wire 3, a current relay 12 is activated, which opens its contacts 21 installed in the power circuit of the coil 19 of the contactor 5. This ensures that the contactor 5 is disconnected.

The outdoor lighting network allows you to remotely control the power of the lighting load and control emergency situations - disconnect the network from the power source in case of wire breaks.

The use of one of the phase wires as a control wire simplifies the construction of the network and increases its reliability, which allows the invention to be implemented in outdoor lighting networks of any construction.

Claims (1)

SUMMARY OF THE INVENTION An outdoor lighting network comprising three phase wires, lighting units, each of which is made in the form of a circuit of a series-connected discharge lamp, a main and additional chokes connected between the zero and first or second phase wires, a diode and a relay whose winding is connected between the anode of the diode and the neutral wire, and the make contact is parallel to the additional inductor, a contactor whose two power contacts are connected between the beginnings of the first and second phase wires odes and the corresponding phase terminals of the power source through the first and second fuses, respectively, the third phase terminal of the power source is connected to one of the terminals of the third fuse, the first and second control keys with make contacts, the third control key with an open contact, one of the terminals connected to a neutral wire, a limiting resistor, five diodes, the anode of the first diode is connected to one of the terminals of the make contact of the first control key, and the anode of the second to one of the terminals of the third the power contact of the contactor, another terminal connected to the beginning of the third phase wire, and a control unit connected to the ends of the phase and neutral wires and having a diode, two ballast resistors, characterized in that, in order to simplify and increase reliability, voltage relays are introduced with a closing and a current relay with NC contacts, the first control switch is equipped with a second NC contact, and the second key is equipped with an NC contact, while the other terminal of the third fuse is connected to the other terminal of the NC contact the control key through a series-connected contactor coil, the make contact of the voltage relay and the make contact of the current relay, with one of the terminals of the coil of the voltage relay and the cathode of the third diode through the coil of the current relay, with the cathode of the second diode through the make contact of the second control key and with another the output of the first make contact of the first control key through the make contact of the second control key, the second output of the voltage relay coil is connected to the anodes of the third, fourth and fifth diodes, the cathode the fourth diode is connected via a second make contact of the first control key and a terminating resistor with a zero wire connected in series, the cathode of the fifth diode is connected to the cathode of the first and the anode of the second diode, each lighting unit is equipped with a threshold element with one-sided conductivity and a control resistor, and its relay is double-wound Polarized, one of the terminals of the second winding 9Vr / which is connected to the cathode of the threshold element with one-sided conductivity and the other to the neutral wire, the cathode of the diode of the lighting unit is connected to the anode of the specified threshold element and through the control resistor to the third phase wire, the control unit is equipped with two diodes, a thyristor and a pulse generator on a single-junction transistor, the output of which is connected to the control electrode of the thyristor, the anodes of the diodes of the control unit are connected to the ends of the corresponding phase wires, and their cathodes are connected to the anode of the thyristor and through the first the second ballast resistor - to the first power terminal of the specified pulse generator, the second terminal of which is connected to the cathode of the thyristor and through the second ballast resistor to the neutral wire.