RU2265971C1 - Emergency lighting device - Google Patents

Abstract

FIELD: mechanical engineering, in particular, equipment for forming emergency lighting in industrial quarters.

SUBSTANCE: device additionally includes band filters, included in each light source between output of controlled modulator and transformer control circuit, and amplitude modulator, connected along control chain to adjustable generator and connected between power source and light source.

EFFECT: higher energy efficiency.

3 dwg

Description

The emergency lighting device belongs to the field of emergency and backup lighting and can be used for emergency lighting in industrial, public and residential buildings and objects for various purposes.

Systems for evacuation lighting are known and widely used, consisting of individual lighting devices and light indicators connected to a power supply network that is not connected to a work lighting network, or powered by an independent external or local source (battery, diesel generator set, etc.) .) not used in normal mode to power the working light.

Their disadvantage is that when the lighting system is turned on, the lighting devices and indicators are constantly on and the energy of the power source is spent uneconomically.

Of the known closest in technical essence is a system for evacuation lighting based on fluorescent lamps with a controller of electronic ballasts of the company Dodeka, for example, type 1211EU (reference information from Dodeka, website of the company http // www.dodeca.ru). Its functional diagram is shown in figure 1. It contains a power source (battery) 1 connected to the fixtures 2. Each fixture includes a lighting device (fluorescent lamp) 3, connected by a power source 1 through an electronic ballast controller 4, containing an emergency voltage source to voltage converter (generator) AC voltage) 5 with a control circuit 6.

The disadvantage is that when you turn on the lighting system, the lighting fixtures 3 are constantly on and the energy of the power source is consumed uneconomically. The controller 4 allows you to turn on the fixtures 2 alternately or in any necessary sequence, for example, creating the effect of a traveling wave in the direction of movement to the exit from the room. However, this requires the use of an additional control circuit connected to the input of the control circuits 6 of each luminaire 2 with a separate wire, which leads to a complication of the installation of the lighting system and additional costs for the control wires.

The present invention is aimed at improving the efficiency of the emergency lighting system. This is achieved by the fact that in the emergency lighting device containing a power source and lamps, which include a lighting device connected to a power source through a voltage converter of the source to the voltage of the lighting device, and a converter control circuit according to the invention, bandpass filters are additionally introduced included in each luminaire between the output of the amplitude modulator and the converter control circuit, and the amplitude modulator connected by control circuits with a tunable generator, and connected between the power source and the fixtures. The introduction of new elements and the relationships between them provide a solution to the problem.

Figure 2 presents the structural diagram of the proposed device. The device contains a power source (battery) 1, an amplitude modulator 6, a controlled generator 7 and fixtures 2, which include a lighting device 3, a converter 4 of the voltage source to the voltage of the lighting device 3, the control circuit of the converter 5 and a bandpass filter 8. In this case a power source 1 through an amplitude modulator 6, connected via a control circuit to a controlled generator 7, is connected in each of the luminaires 2 with a converter 4 of the voltage of the source into the supply voltage of the lighting 3 and with the input of the band-pass filter 8, the output of the band-pass filter 8 is connected through the control circuit 5 to the converter 4, and the output of the converter 4 is connected to the lighting device 3.

The device for emergency lighting operates as follows. The controlled generator 7 generates a variable frequency voltage in accordance with a given control signal. The voltage of the power source 1 is modulated with a small modulation coefficient in the amplitude modulator 6 in accordance with the specified law of changing the frequency of the generator 7. One of the possible forms of the output voltage of the modulator 6, corresponding to the linear law of changing the frequency of the sinusoidal oscillations, is shown in Fig.3. The passband of the bandpass filters 8 luminaires 2 are tuned to different frequency ranges. During the time until the modulation frequency of the output voltage of the modulator 6 falls into the passband of the bandpass filter 8 of the luminaire 2, the output signal of the filter 8 turns on the converter 4 of the source voltage to the supply voltage of the lighting device 3 through the control circuit 5, and the lighting device 3 turns on. For example, if the law of variation of the modulation frequency is linear, and the passband of the filters of 8 adjacent luminaires are adjacent to each other, then the luminaires will turn on alternately. In this case, the sequential inclusion of the luminaires 2 can create, for example, the effect of a traveling wave in the direction of movement toward the exit from the room.

The proposed device allows to increase the efficiency of the emergency lighting system due to the alternate inclusion of lamps. At the same time, all luminaires are connected to a power source by a two-wire communication line. Due to the resulting lighting effects, it is not necessary to use special light direction indicators for the evacuation.

Claims (1)

A device for emergency lighting, containing a power source and fixtures, which include a lighting device connected to a power source through a voltage source to voltage converter, and a converter control circuit, characterized in that, in order to increase efficiency, it is additionally bandpass filters are introduced, included in each luminaire between the output of the controlled modulator and the converter control circuit, and an amplitude modulator connected by enu control tunable oscillator, and is connected between the power supply and lighting.

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