SU818038A1 - Illumination control device - Google Patents

Description

(54) DEVICE FOR LIGHTING MANAGEMENT

one

The invention approaches electrical engineering and can be used to control the lighting of streets, staircases, license plates, etc.

A device for controlling illumination is known, which contains a thyristor voltage regulator on LsNo1p, controlled through a pulse transformer connected to the generator output, the input of which is connected to the output of a photorelay connected by power buses to a stabilizer and a rectifier connected by input to the terminals for connection to the AC mains, provides phase regulation of the brightness of the lamps 1.

The disadvantage of this device is in the higher power consumption due to the fact that the brightness of the lamps does not change depending on the time of day.

The closest technical solution to the present invention is a lighting control device containing a thyristor voltage regulator on the lamps, a pulse transformer connected at the generator output, a photo relay connected by an output to the generator input, and a software time relay that switches the lighting on and off for a given program 12.

This device has a significant drawback in the absence of software voltage regulation; lamps, which leads to unproductive energy consumption and

0 to the rapid exit from incandescent lamps.

The purpose of the invention is to save energy and extend the life of incandescent lamps.

five

The goal is achieved by the fact that the device for controlling the illumination contains two outputs for connecting to the AC mains supply, to which the software time relay is connected, and through its closing contact the input of the rectifier connected by the output and power buses of the photo relay connected to the output ,, closing

5 contact of which is connected in series with current limiting and variable resistors in the control circuit of two anti-parallel-connected thyristors of a voltage regulator connected by the input

0 to one of the terminals for connection to the power supply, and an output connected to the output for connecting the load, protective diodes, one of which is connected between the control electrode and the cathode of one of the pipiTicTopOB, the other is connected by an anode to the cathode of the other thyristor, and the cathode is connected to the closing a relay contact, additionally equipped with a resistor, and a software time relay equipped with a disconnecting contact, with an additional resistor connected between the control electrode of the other thyristor and the cathode of the protective diode disconnecting contact time is connected in parallel with an additional resistor, and the base of the output transistor is connected to the collector of the input transistor through a zener diode and connected to a capacitor, the positive pole of which is connected to the plus of the stabilized voltage. The drawing shows a circuit diagram of the device. The device contains a software time relay 1 connected to the terminals for connection to the AC power supply with a closing contact 2 installed in the power supply circuit of the rectifier 3 and with the opening contact 4 connected in parallel to the resistor 5, a photo relay 6 consisting of a photoresistor 7, transistors 8 and 9, capacitors 10 and 11, Zener diode 12, variable resistor 13, resistors 14-19, relay 20, connected to the photo output of relay b and shunted by buffer diode 21, 3s1 contact 22 of relay 20, connected to the thyristor control circuit re a gullet 23 consisting of anti-parallel-connected thyristors 24 and 25, the control electrodes of which are interconnected via a current limiting resistor 26, a variable resistor 27, a closing contact 22 of the relay 20, and a chain of parallel-connected resistor 5 and contact 4 software relay 1, a protective diode 28 is connected between the cathode and the control electrode of the thyristor 25, the protective diode 29 is connected between the cathode of the thyristor 24 and the connection point of the resistor 5 with contact 22. A series circuit of the thyristor controller 23 and Loading the 30 is connected to terminals for connection to the mains alternating current. The number of such serial circuits, if necessary, can be increased and connected in any circuit to a single-phase or multi-phase heterogeneous power supply. In this case, it is necessary to increase the number of closing contacts of the relay 20 and the opening contacts of the program time relay 1 to the number of thyristor controllers used. The device works as follows. The network voltage through pins 2, software time relay 1 is applied to the rectifier circuit 3, from the output of which the stabilized voltage is applied to the power rails. The photoresistance (photo sensor) 7 is the voltage divider shoulder in the base circuit of transistor 8. With a large light level, when the resistance is low, the capacitor 10 is charged before unlocking the voltage of transistor 8. When transistor 8 is open and transistor 9 is locked, relay 20 disabled. When the illumination level is low, the resistance 7 increases, the capacitor 10 discharges to the voltage level of the resistor 14, the transistor 8 closes, the Zener diode 12 is punctured and the transistor 9 opens, the relay 20 operates. The bias voltage in the emitter circuit of the transistor 8 (divider 17-18 ) and the charging circuit (7,15,10) provide a predetermined delay time for switching off the relay 20 (and extinguishing the light). A diode 21 prevents the transistor 9 from backing out the voltage on the relay coil 20. Variable resistor 13 allows the sensitivity of the circuit to be adjusted. Control pulses are generated from anode voltage. Resistor 26 limits the current of the thyristor control electrodes 24 and 25, the variable resistor 27 allows you to change the unlocking angle of the thyristors and accordingly adjust the voltage in the load 30. The diodes 28 and 29 protect the thyristor control electrodes from the negative half-wave voltage. The contacts 2 of the first program of the 1 time relay are closed during the day, corresponding to the settings of the 1st program. The choice of settings deliberately excludes the operation of the device in the daytime. The opening contacts 2 of the second time relay 1 program shunt the resistor 5. At night, according to the settings of the 2nd program, contacts 4 are opened, the resistor 5 is included in the thyristor control electrode circuit 24. The control current drops to a value less than the current of the thyristor and it turns off. The load connection becomes half-wave, and the voltage across the lamps is approximately 0.6 of the original value. The ability to control allows the lamps to be turned on at a lower voltage of such magnitude as

Claims (2)

Claim 1. A lighting control device comprising two 'outputs for connecting to an AC mains supply, to which 15 program time relays are connected, and through its make contact, the input of a rectifier connected to the output power supply lines of a photo relay connected to the output by a relay, make contact 20 which is connected in series with current-limiting and with variable resistors in the control circuit of two counter-parallel connected thyristors of the voltage regulator, 25 connected by an input to one of the terminals for connection connected to the mains supply, and the output connected to the output for connecting the load, protective diodes, one of which jq is connected between the control electrode and the cathode of one of the thyristors, the other is connected by the anode to the cathode of the second thyristor, and the cathode is connected to the relay closing contact, characterized in that, in order to save energy and extend the life of incandescent lamps, it is additionally equipped with a resistor, and the software time switch is equipped with an opening contact, and an additional resistor is connected between the control elec the kind of the second thyristor and the cathode of the protective diode, and the NC contact of the time switch is connected in parallel with the additional resistor. 2. The device according to claim 1, characterized in that, in order to increase reliability by eliminating the transient response of the relay and power losses in the output transistor and thyristors, the base of the output transistor is connected to the input transistor collector through a zener diode and connected to a capacitor, whose positive pole is connected to the plus of the stabilized voltage.