SU1467671A2 - Device for controlling outdoor lighting network - Google Patents

Abstract

The invention relates to electrical engineering and is intended to control the network of outdoor lighting by cascading. The aim of the invention is to increase the reliability of the device. Each device contains a contactor 1.1, 1.2 with a coil 2, a rectifier 4, a thyristor 3, an optocoupler 9, diodes 6 and 1I and resistors 7 and 12. The device includes an optocoupler 9 that performs the functions controllable buffer element, which allows, depending on the situation on the lighting line, to turn on or off the buffer circuit of the contactor coil, thereby ensuring its reliable operation. 1 il.

Description

The invention relates to electrical engineering, can be used in outdoor lighting networks with cascade control and is an improvement of the device according to the main author St. No. 1129698.

The purpose of the invention is to increase the reliability of the device.

The drawing shows a diagram of a device for controlling a cascade of external shedding.

The device contains a contactor

1.1, installed at the point of the ABC cascade, contactor 1.2, installed at the power point of the cascade A ¹ , B ¹ , C ', the coil 2 of the contactor 1.1, connected to the neutral wire N and the cathode of the thyristor 3, the anode of which is connected to the output of the three-phase rectifier 4, two the input of which is connected to different wires of the power point B 'C ¹ , and the third input to the control wire of the lighting network 5.1. To contactor

1.2 the lighting network 5.2 is connected, the control network 5.1 of the lighting is also connected via the control diode 6 and the control resistor 7 The control electrode of the thyristor 3. Parallel to the coil 2 is connected a photo-thyristor 8 of the optocoupler 9, moreover, the cathode is connected to the cathode of the thyristor 3, and the LED 10 of the optocoupler 9 the diode 11 and the limiting resistor 12 is connected to the phase conductors B * C ¹ power point A ¹ V 'C'.

The device operates as follows.

After applying voltage to the line of the lighting network 5.1 to the thyristor 3 through the coil 2, as well as a three-phase rectifier 4, a rectified pulsating voltage is supplied. A voltage is supplied to the control transition of the thyristor 3 through the control wire of the lighting network 5.1, the control diode 6, and the control resistor 7. Thyristor 3 opens, through a coil. 2. The current flows, the contactor 1, 2 is turned on. The voltage from the phase conductors B. ¹ C * of the power point A ¹ B ^f C 'through the diode 11 and the limiting resistor is supplied to the LED 10 of the optocoupler 9, but the photo thyristor does not open at the moment, since reverse voltage is applied to it. After the contactor 1.1 turns off the lighting network 5.1 through the thyristor 3, a rectified current flows without phase A. At the moment the current decreases, the photo thyristor turns on for a short time and the current in it is due to the stored energy in the coil inductance. Flowing through the thyristor, the current decreases to zero and the thyristor closes. No current flows through coil 2 and contactor 1.2 is switched off. If there is no voltage in phase B ¹ or C 'in the normal on state of the lighting network, then after the rectifier, a current without a single Laza will also flow through the thyristor 3, but when the current decreases, the photo-thyristor will not open, since the voltage is not supplied to the LED (there is no phase voltage In ¹ or C ^d ), the stored energy in the inductance is sufficient so that the current flowing through the thyristor does not drop to zero and the thyristor does not close, and the current flows through the coil and the contactor is turned on. Therefore, when the voltage disappears in the phase 'or C ^{1, the} contactor does not twitch') excluding the emergency situation in the lighting network. But when the contactor 1.1 is turned off, the voltage in phase A disappears and the photo-thyristor turns on briefly and makes it possible to turn off the contactor 1,2.

Claims (1)

Claim Device for controlling an outdoor lighting network according to ed. St. No. 1 129698, characterized in that, in order to increase the reliability of operation, each power point is equipped with an additional diode and a limiting resistor and an optocoupler, the photo-thyristor of which is connected parallel to the coil of the contactor and counter to the thyristor, and the LED with additional diode connected in series with it and a limiting resistor is connected between two other input terminals of a three-phase half-wave rectifier of the same power point.