SU1728990A1 - Device for monitoring lighting networks having gas-discharge lamps - Google Patents

Abstract

SUMMARY OF THE INVENTION: Under the control of a lighting network, a reduced voltage is applied. The device estimates the voltage level in the network and automatically adjusts the voltage boosting process to ignite only the controlled lamp. 3 il.

Description

The invention relates to electrical engineering, namely, devices for monitoring and controlling lighting networks.

A device for controlling a lighting network with gas-discharge lamps is known, which involves monitoring gas-discharge light sources by applying to the lamp a nominal voltage generated by converting a low-voltage voltage of a direct current source.

The disadvantage of the device is the ability to test the lamp only in the glow discharge mode, which, due to high power consumption, reduces the reliability of the control.

The closest in technical essence to the present invention is a device for controlling a network of lighting with gas-discharge lamps, containing a booster transformer with two extreme and intermediate terminals, one of the outputs of a control switch and a fuse, a single-phase bridge rectifier, the first relay with a switching and open contacts, second relay with closing contact, Zener diode, thyristor, four resistors, transistor, capacitor, voltage meter, two terminals for connection are monitored lamp, two terminals for connecting to the lighting network wires, with the first terminal of the first resistor connected to the first terminal of the capacitor, the second terminal of which is connected to the first terminal of the second resistor connected by the second terminal to the first terminal of the third resistor, the positive terminal of a single-phase bridge rectifier connected with the first output of the fourth resistor, and the negative output - with the anode of the Zener diode.

A disadvantage of the known device is the large size of the test facility and the considerable energy consumption in monitoring the operability of gas discharge lamps.

The purpose of the invention is to reduce mass and dimensioning parameters, as well as to reduce power consumption during control.

This goal is achieved by the fact that the first relay is equipped with a second break contact connected in parallel to the fourth resistor, and the transistor

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made one-junction, the emitter of which is connected to the second output of the capacitor, and its first and second bases to the second outputs of the third and first resistors, the second output of the fourth resistor, via the coil of the second relay, is connected to the thyristor anode, the control electrode of which is connected to the second output of the first resistor , and the cathode to its first output and to the anode of the Zener diode, the positive output of a single-phase bridge rectifier is connected to the cathode of the Zener diode and the second output of the second resistor through the coil relay, the common output of the switching contact of which is connected to the first output for connecting the controlled lamp, the disconnecting output - to one of the extreme leads of the booster transformer, the closing output - through its own disconnecting contact with the intermediate output of the specified transformer, and through the closing contact of the second relay - to another the fuse terminal and one of the AC terminals of the indicated rectifier, the other terminal of which is connected to the second terminals for connecting the controlled lamp and for connecting to the lighting network wire, as well as to the other extreme terminal of the booster transformer and one of the terminals of the voltage meter, the other terminal of which is connected to another terminal of the control key and the first terminal for connection to the lighting network wire.

The power of the controlled gas discharge lamp is supplied from the power supply source of the lighting network with reduced voltage in the switched off lighting network mode. Moreover, the monitoring device evaluates the voltage level in the network and automatically adjusts the voltage boost process. The use of undervoltage in the disconnected network mode ensures the construction of a small-sized device with an optimal power consumption, which is necessary only for igniting one lamp in the network when it is monitored.

FIG. 1 shows the electrical circuit of the device; in fig. 2 is a diagram of connecting the device to the lighting network; in fig. 3 — graphs of the operation of the network monitoring device.

The device for monitoring the lighting network with gas-discharge lamps (Fig. 1) contains the first 1 and second 2 terminals for connection to the wires of the lighting network. The first pin 1 is connected via the control switch 3 to the first pin of the fuse 4, to the second pin of the fuse 4 and the second pin 2 to connect the wires of the lighting network are connected to the AC leads of the single-phase rectifier

5. A voltage meter is connected to pins 1 and 2. Output 2 is connected to the first extreme output of booster transformer 7. To the positive output, rectifier 5 through the coil of the first relay 8

0, the cathode of the Zener diode 9 is connected. The anode of the Zener diode 9, the first terminals of the capacitor 10, the first resistor 11 and the cathode of the thyristor 12 are connected to the negative pole of the rectifier 5. The second terminal of the capacitor 10 is connected to the first terminal of the second resistor 13: and the emitter of the single junction transistor 14. The second the output of the second resistor 13 is connected to the connection point of the first output of the third

0 of the resistor 15 with the cathode of the Zener diode 9. The second terminals of the resistors 11 and 15 are connected to the first and second bases of the single junction transistor of the source 14, respectively. To the connection point of the first base of the transistor

5 14 with a resistor 11 a thyristor control electrode 12 is connected.

The anode of the thyristor 12 through the coil of the second relay 16 and the fourth resistor 17 is connected to the positive output of the rectifier

0 5. The first terminal 18 for connecting a controlled lamp is connected to the common terminal of the switching contact 19. The opening terminal of contact 19 is connected to the second extreme terminal of the additional voltage transformer 7, and the closing terminal through the disconnecting contact 20 of relay 8 to the intermediate terminal of the transformer 7, Contact point 20 with a closing terminal of contact 19 through a closing contact of 21 second relay 16 is connected to the second terminal of fuse 4. A second terminal 22 for connecting a controlled lamp is connected to the point of connection of the output AC line current rectifier 5 per5 vym extreme booster transformer terminal 1 and the second terminal 2 for connection to wire network illumination.

The second break contact23 of the first relay 8 is connected in parallel to the fourth resistor 17. The terminals 18 and 22 of the device for controlling the lighting network with gas-discharge lamps are connected via plug 24 to the lighting installation 25. The terminals 1 and 2 of the device are connected via plug 26 to zero 27 and phased 28 wire network. The phase wires 28-30 of the network are connected through the closing power contacts 31.1 to the poles A, B, C of the power supply source 32 of the rated voltage. Interlocking cit

The left contacts 31.2 of this contactor are connected between the phase wires 28-30 and the poles A, B and C of the source 33 of the low voltage supply.

The input poles of the power supply 33 through the make contacts of the auxiliary contactor 34 are connected to the poles of the power supply 32 of the nominal voltage. One of the phase poles (A) of power supply 32 is connected to the switching circuit of the first control key 35. The closing pole of the latter is connected via an opening auxiliary contact 36 of the contactor 34 to the first terminal of the coil 37 of the contactor 31. The opening pole of the key 35 is connected via the second control key 38 to the first terminal of the coil 39 of the contactor 34. The second terminals of the coils 37 and 39 are connected to the neutral wire 27. 35 control has position a and b. The following are connected to the network wires: lighting installation 40 via plug 41, installation 42 through plug connector 43, installation 25 through plug connector 24 and installation 44 through plug connector 45.

A device for monitoring a lighting network with gas-discharge lamps operates as follows.

When the control key 35 is set to position b, the coil 37 of the contactor 31 is applied to the phase voltage of the network. The contactor 31 triggers and supplies the nominal voltage of the poles A, B and C to the phase conductors 28-30. Auxiliary contacts 31.2 when turning on the power switch 31 opens, disconnecting wires 28-30 from power supply 33. The voltage of the poles A, B and C of the power supply source 32 enters the lighting network. The nominal phase voltage of the source 32 of the power supply is 200 V, so the lighting installations 40.42, 25. and 44 are connected to the appropriate voltage connectors 41, 43, 24 and 45 with a voltage of 220 V. For example, the phase conductor 28 indicates the voltage of pole C This voltage is supplied to the lighting installations 25 and 44, which in this case emit the light flux F25 and F44 (Fig. 3). When transferring to the second mode, the control key 35 is transferred from position b to initial position a. In this case, the coil 37 is de-energized and the contactor is disconnected, the main contacts 31.1 open and the auxiliary contacts 31.2 closed. Then the second control key 38 closes. In this case, the phase voltage of the pole C is supplied to the coil 39 of the contactor 34. The latter is activated by applying voltage to the primary winding

transformer - low voltage source.

A low voltage on the order of 36 to 48 volts of the power supply 33 through the closed 5 contacts 31.2 of the first contactor enters the lighting network. Since an under voltage of 36-48 V is supplied to the phase conductors 30, 29 and 28, gas discharge lamps in lighting installations with an ignition voltage of 80-100 V cannot burn. Thus, in the standby mode, the lighting network is under reduced voltage without causing the lamps of the lighting installations 40, 42, 25 and 44 to burn.

5 If it is necessary to check any of the lighting installations between the phase and neutral wires and the lighting installation by means of the plug connectors 24 and 26, the device for monitoring

0 networks with gas discharge lamps. Thus, the monitoring device is switched on between the network wires 27 and 28 and the lighting installation 25. To verify the operability of the lighting installation in the device, close the control switch 3. The undervoltage (fig. 3) comes from pins 1 and 2 to rectifier 5. Constant voltage from rectifier 5 through the coil of the first relay 8

0 goes to the zener diode 9. Since the voltage at poles 1 and 2 is low, the current through the coil of relay 8 has a value lower than the value of the relay operating current, and relay 8 does not operate, the voltage taken from

5, the rectifier 5 provides the charge to the capacitor 10 and, when the voltage of the transistor 14 is turned on, the latter opens, forming a control pulse to the thyristor 12.

0 When the thyristor is unlocked, relay 16 is activated, and its contacts are closed 21. Thus, the undervoltage from pins 1 and 2 is applied to the first and intermediate pins.

5 booster transformer 7. From the extreme terminals of the transformer 7 in this case, through pin 19 and pins 18 and 22, a transformable voltage is applied to the illumination installation 25 raised to the nominal level. Thus, when low-voltage lighting is applied to wires in the standby mode, this voltage does not affect the lighting systems 40,

5 42 and 44, and affects only the lighting installation 25 (U 220 V), providing the light flux F25 (Fig. 3) when the installation is working properly 25. The magnitude of the mains voltage is monitored by a measuring device. Disable if necessary

Turn off key 3. When this happens, relay 16 is turned off, and pin 21 returns to its original position.

The device for monitoring the lighting network can be used to ensure the operation of any lighting installation in a continuous mode, for example, at night, when all installations are turned on, and in the daytime, when all lighting installations, except installation 25, are not hot, and The lighting installation 25 provides for standby operation — for example, it serves to illuminate a subway or temporary structure. In this case, the device operates according to the described technology during the day when the reduced voltage is supplied to the lighting network. When transferring the network from the duty to the operating mode, the contact 38 opens, the coil 39 of the contactor 34 de-energizes and the contactor 34 disconnects the power supply 33 from the poles of the networks A, B and C. The contact 36 returns to its original position. In the control device, when the undervoltage is disconnected from the network, the relay 16 is de-energized by opening its contact 21. Thus, the device is reset.

When the network is switched to the operating mode, the switching contact 35 is set to position a to ensure that the contactor 31 is turned on. When connecting wires 28-30 to the poles A, B and C of power supply 32, the rated voltage of 220 V is applied to these wires. (Fig. 1) in this case (with the key 3 closed), the voltage of 220 V is supplied from pins 1 and 2. As the current in the circuit of the Zener diode 9 in this case increases to the magnitude of the relay 8, the latter is triggered, ensuring the opening of its contacts 20 and 23 as well as switching contact 19. After working out the time delay for unlocking the thyristor 12 according to the above technology, a relay 16 is triggered. In installation 25, this voltage is supplied by a booster transformer 7. Turning off the power supply voltage returns relay 8 and 16 to the initial position.

Claims (1)

Invention Formula A device for controlling a lighting network with gas-discharge lamps, containing a booster transformer with two extreme and intermediate leads, one of the terminals connected to a control key and a fuse, a single-phase rectifier bridge, a first relay with switching and opening contacts, a second relay with a closing contact, a zener diode , thyristor, four resistors, transistor, capacitor, voltage meter, two leads for connecting a controlled lamp, two leads for connecting to the wires of a lighting network, at The first pin of the first resistor is connected to the first pin of the capacitor, the second pin of which is connected to the first pin of the second resistor connected by the second pin to the first pin of the third resistor, the positive pin of the single-phase bridge rectifier is connected to the first pin of the fourth resistor, and the negative pin is connected to the Zener diode anode , characterized in that, in order to reduce weight and size parameters, as well as to reduce power consumption during control, the first relay is equipped with a second break contact m, connected in parallel to the fourth resistor, and the transistor is one-transition, the emitter of which is connected to the second capacitor terminal, and its first and second bases are connected to the second terminals of the third and first resistors, respectively; the second terminal of the fourth resistor is connected to the thyristor anode , the control electrode of which is connected to the second terminal of the first resistor, and the cathode to its first terminal and to the anode of the Zener diode, the positive terminal of a single-phase bridge rectifier is connected to the cathode stub Or the second and the second output of the resistor through the coil of the first relay, the common output of the switching contact of which is connected to the first output for connecting the controlled lamp, the disconnecting output - to one of the extreme leads of the booster transformer, the closing output through its own normally closed contact with the intermediate output of the specified transformer , and through the closing contact of the second relay - with another output of the fuse and one of the AC outputs of the specified rectifier, the other output of which is connected to the second terminals for connecting the controlled lamp and for connecting the lighting network to the wire, as well as to the other extreme terminal of the booster transformer and one of the voltage meter outputs, the other terminal of which is connected to the other output of the control key and the first terminal for connecting to the lighting network wire. FIG. four Рхим fxfJovvv, Mode d & k / nm % g. 5