RU29433U1 - Lighting control device - Google Patents

Abstract

1. The control device of the lighting installation, containing a three-phase supply network with a common wire, in which the first gas discharge lamp and the first main choke, the receiving device and the contactor connected to its output, the first additional choke, which is turned on, are connected to phase A and to the common wire into the phase A gap of the three-phase supply network, in parallel with which the first contactor contact is connected, characterized in that a transmitting device is additionally inserted into it, to the output of which I connect a receiving device, a second additional choke, which is included in the phase B break of the three-phase supply network, in parallel with which the second contactor contact is connected, a third additional choke, which is included in the phase C of the three-phase power supply, in parallel with which the third contactor contact is connected, and between phase B and a second gas discharge lamp and a second main inductor are connected in series with a common wire, a third gas discharge l is connected in series between phase C and a common wire MPa and third main throttle and transmission control is performed on the receiving device signala.2 encoded. The device according to claim 1, characterized in that the lighting installation is included in the nominal power mode for the duration of the start-up cycle of gas-discharge lamps, and the time delay for operating at full power is carried out by a time relay, which controls the contactor together with the receiving device. The device according to claim 1, characterized in that all three additional chokes are partitioned. The device according to claim 1, characterized in

Description

g: s-; about 2. -

LIGHTING CONTROL DEVICE

The invention relates to electrical engineering, and more particularly to lighting devices, and can be used to control a lighting system with gas discharge mercury and sodium high-pressure lamps.

A multi-lamp lighting device is known that contains gas-discharge lamps powered by phases of an alternating current network, pulse transformers according to the number of lamps, the secondary windings of which are connected in series with the lamps, while the above-mentioned windings and lamps are connected by capacitors, and the primary transformers mentioned are connected in series and connected to the output of the ignition unit, and the ignition unit is connected to the line voltage of the network 1.

The disadvantage of this device is the inability to control the luminous flux and power consumption.

A control device for a lighting system with adjustable power is also known, which contains a three-phase power supply network with a zero wire, to which a gas discharge lamp E is connected between phase A and the neutral wire, in series with which the main LI and auxiliary LI reactors are connected, and the receiving device D connected to the phase And the supply network, the output of which is connected to the contactor K, the contacts of which shunt the auxiliary choke L2, the switching device KU included in the phase A break of the supply network, and Noe for receiving telecontrol signal generating device / l D 2.

MKI: Н05В41 / 23 INSTALLATION The disadvantage of this device is low reliability

work, since the switching device KU is included in the rupture of the phase wire of the filament network and must pass the rated current and short circuit current of the lighting installation, and the receiving device D is constantly under the phase voltage of the supply network.

This device is selected as a prototype.

The purpose of the utility model is to increase the reliability of the lighting installation.

This goal is achieved by the fact that in a known device containing a three-phase supply network with a common wire, in which the first gas discharge lamp and the first main inductor, the receiving device and the contactor connected to its output, neptf.m are connected in series to phase A and to the common wire an additional inductor included in the phase A break of the three-phase supply network, in parallel with which the first contactor contact is connected, a transmitting device is additionally introduced, to the output of which a receiving device is connected oh, the second additional inductor included in the phase B break of the three-phase supply network, in parallel with which the second contactor contact is connected, the third additional inductor included in the phase C of the three-phase supply network, in parallel with which the third contactor contact is connected, connected between phase B and the common wire / 1 a second discharge lamp and a second main inductor connected in series, as well as a third discharge lamp and a third main connected in series between phase C and a common wire Rossel.

Improving the reliability of operation is achieved by the fact that additional chokes in phases A, B and C of a three-phase network are bypassed when the contactor contacts are switched off.

.

2 In this case, the lighting system is turned on at full power, then

there is a possible failure of the control device does not decrease light. In addition, the receiving device is disconnected from the phase wire and the mains voltage does not act on its input, which also increases the reliability of operation.

A diagram of the proposed lighting control device is shown in FIG. 1.

The proposed device comprises a three-phase supply network with a common wire 1, a transmitting device 2, a receiving device 3, a contactor 4, a first, second and third additional chokes 5, 6 and 7, a first, second and third contacts of a contactor 8, 9, and 10, the first , the second and third discharge lamps 11, 12 and 13, the first, second and third main chokes 14, 15 and 16.

The control device allows you to adjust the power and the amount of energy consumed by switching the lighting system to the nominal or reduced power mode, thereby achieving energy savings.

To switch to low power mode, the transmitting device 2 sends a signal to turn on the contactor 4 to the receiving device 3. The contactor 4 turns on, the additional chokes 5, 6 and 7 are not bridged by the contacts 8, 9 and 10 of the contactor 4. The inductances of the additional chokes are selected so that the currents consumed by discharge lamps 11, 12 and 13 are reduced by 35 - 40%, which leads to a decrease in their luminous flux by about half.

To switch to the rated power mode, the transmitting device 2 sends to the receiving device 3 a trip signal of the contactor 4. The contactor 4 shunts additional chokes 5, 6 and 7 with its contacts 8, 9 and 10. The currents consumed

3

gas discharge lamps 11, 12 and 13 reach their nominal values and the luminous flux of the lamps increases.

This technical solution improves the reliability of the lighting installation by eliminating the transmitting and receiving devices from the power circuits of the lighting installation, as well as switching to the rated power mode when the contactor is switched off.

Applicant:

Vice Rector

on scientific work

E.M. Tarasov

Claims (4)

1. The control device of the lighting installation, containing a three-phase supply network with a common wire, in which the first gas discharge lamp and the first main choke, the receiving device and the contactor connected to its output, the first additional choke, which is turned on, are connected to phase A and to the common wire into the phase A gap of the three-phase supply network, in parallel with which the first contactor contact is connected, characterized in that a transmitting device is additionally inserted into it, to the output of which I connect a receiving device, a second additional choke, which is included in the phase B break of the three-phase supply network, in parallel with which the second contactor contact is connected, a third additional choke, which is included in the phase C of the three-phase power supply, in parallel with which the third contactor contact is connected, and between phase B and a second gas discharge lamp and a second main inductor are connected in series with a common wire, a third gas discharge l is connected in series between phase C and a common wire MPa and third main throttle and is controlled by the transmission to the receiver of the encoded signal. 2. The device according to claim 1, characterized in that the lighting installation is included in the rated power mode for the duration of the start-up cycle of gas-discharge lamps, and the time delay for operating at full power is carried out by a time relay, which controls the contactor together with the receiving device. 3. The device according to claim 1, characterized in that all three additional chokes are partitioned. 4. The device according to claim 1, characterized in that the contactor is controlled by two photocells connected to a receiving device.