DE102005044684B3 - Electrical energy supplying device for light units in e.g. parking lot, has feeder transferring signal to supply unit, where signal shows temporary lowering of voltage of supply unit and causes release of maximum intensity of light units - Google Patents

Abstract

The device has a feeder (17) transferring a signal to a power supply unit (18) of a lighting device. The signal shows a temporary lowering of supply voltage of the power supply unit and causes the release of maximum luminous intensity of infrared radiation emitting light units (11) of the lighting device. The light unit is designed as light emitting diodes (LED), and the power supply unit operates the light unit in an initial state with a luminous intensity lower than a maximum luminous intensity.

Description

The The invention relates to a device for supplying lighting elements with electrical energy in a lighting device with a power supply unit especially for the video surveillance an area, wherein the device comprises means to the lighting elements operate in the ground state with a lower light intensity than the maximum light intensity, and means for altering the light intensity by remote action.

such Lighting devices are used, for example, for monitoring of sensitive spaces, land or parking lots used. Usually is in the monitored Area arranged at least one video camera, their image signals on a screen in a surveillance center or the like become. There are the operations observed on the screen by a control person.

Around to be able to recognize details, must be one possible bright and high-contrast image are provided. Therefore will be monitored Area with high light intensity illuminated with the expenditure of correspondingly high electrical energy. It has been shown that movements on the screen are also at reduced light intensity immediately attract attention, even if details are less obvious.

From the DE 200 17 009 U1 a monitoring system is known in which a security guard in the event of an alarm via a telecommunications connection, the monitored area brighter light. From the DE 10 2004 002 026 A1 a control of the luminous intensity of the lighting elements is known, wherein high-frequency digital control signals of the supply voltage of the lighting unit are modulated. In the EP 0 471 215 B1 For remote control of an AC powered electrical device, it is proposed to use a cyclic AC signal by lowering the amplitude in successive half periods of the supply voltage. From the DE 298 06 971 U1 Finally, an electronic ballast with a at least two programs for the supply of a gas discharge lamp having microcomputer is known, wherein the switching of the programs is effected by a momentary turning off the mains voltage.

Of the Invention is based on the object to reduce energy consumption the device described above switching to maximum luminous intensity the lighting elements with the simplest means fail-safe to reach.

According to the invention Task solved by that the delivery of maximum light intensity of the light elements by a transmitted through the feed line to the power supply unit of the lighting device Signal causes a temporary lowering of the supply voltage of the Power supply unit of the lighting device has.

The inventive design has the advantage that modulating and detecting complex equipment are not required. Also, neither additional control lines, nor wireless transmission equipment needed, like that that too a disorder of radio signals not possible is.

The Lowering the supply voltage can be, for example, 20%. In in a particularly simple way, the signal can be triggered thereby that to a switch built into the feed line a resistor is connected in parallel, which is bridged by the closed switch. After opening the switch is the supply voltage due to the loss in resistance reduced.

The supervisor can now the light intensity from the surveillance room out by a small handle increase and thus details in the familiar quality detect. As a luminous element when operating with lower luminosity less energy consumes and absorbed by a light element energy dependent on its operating voltage is, the regulation of the luminous intensity in a simple manner Control of the operating voltage, which as the output voltage of the Power supply unit is discharged.

Of the Advantage of the operation of lighting elements in the ground state with a lower light intensity as the maximum light intensity is not just about saving energy for lighting, but also also in the much longer Life of the lighting elements, with the life example when operating with 60% of the maximum energy a multiple of the life with maximum energy. This not only costs the luminous elements themselves, but also the common ones much higher Personnel costs for saved the replacement of the lighting elements.

It It is understood that instead of or in addition to manual switching the light intensity This also by an electronic image analysis or a motion detector can be done.

For monitoring at night and in dark Spaces is a lighting device that has infrared radiation emitting light emitting elements. If, at the same time, light elements emitting visible light are dispensed with, a thief, for example, can not immediately recognize that monitoring is taking place. Since video cameras are very sensitive to infrared radiation, a relatively good amount of energy can be used to create a good image for the lighting.

The Lighting device consumes very little energy when the infrared radiation emitting light emitting elements as light emitting diodes (IR LEDs) are executed. Preferably, IR LEDs are recommended whose radiation has a wavelength in the range from about 850 nm to 900 nm.

The subsequent Conversion of an existing system to the operation with variable light intensity is especially simple, because the signal to increase the light intensity one temporary Lowering the supply voltage of the power supply unit of the lighting elements having. In particular, power supply units for LEDs, which are known to be operated with low voltage voltage included Transformers and a corresponding control to vary Supply voltage to deliver a constant output voltage. For example the same power supply units are used to light elements containing LEDs in the United States, with the usual line voltage of 110 V and in Europe with 230 V to operate. Therefore, a temporary affects Lowering the supply voltage does not affect the output voltage of the Power unit and thus not on the light intensity of the Illuminated elements.

One However, simple electronic component can after detecting a Signal interact with the control of the transformer and this to submit an amended, here a higher one Initiate output voltage.

One Response to mains voltage fluctuations is avoided if influenced only by the sudden change, not by a slow change the supply voltage takes place. Alternatively, this can be the voltage drop at the beginning of the operation the switch or the increase in the Spessepannung after the temporary Be lowering.

advantageously, is the delivery of maximum light intensity limited in time, preferably to an adjustable period. After this period, the supervisor can by renewed Actuate the switch the full light intensity switch on again.

Further Details, advantages and features of the invention do not arise only from the claims, the characteristics to be taken from them, alone and / or in combination, but also from the description below of one in the drawing illustrated preferred embodiment.

It demonstrate:

1 a device according to the invention schematically in the circuit diagram,

2 in two diagrams schematically the time course of supply voltage and output voltage when lowering the supply voltage in a first embodiment and

3 in two diagrams schematically the time course of supply voltage and output voltage when the supply voltage increases again in a second embodiment.

In 1 is schematic in the schematic diagram a device 14 for the supply of lighting elements 11 with electrical energy from a network 12 shown. The mains voltage U _N of 230 V is via a phase conductor 13 to a switch 14 passed and lies between this and a zero conductor 15 at. About the switch 14 to whom a resistance 16 is connected in parallel, is via a feed line 17 a supply voltage U _{S of} a power supply unit 18 supplied, wherein U _S ≤ U _N. In the power supply unit 18 the supply voltage U _{S is} converted into an output voltage U _A , a low-voltage DC voltage. This passes through a supply line 19 and a return 20 to the light elements 11 , which are designed as infrared light emitting diodes (IR LEDs). In the ground state, it is output voltage U _A 60% of the maximum permissible operating voltage U _{bmax of} the _lighting elements 11 of 2.38 V.

To the supply voltage U _S is except the power supply unit 18 a sensor 21 connected to the power supply unit 18 acts and their output voltage U _A changed, where U _A ≤ U _bmax . The sensor 21 responds to a sudden change in the supply voltage U _S by 20% and then controls the power supply unit 18 so that they output voltage U _A, the maximum allowable operating voltage U _bmax of 2.38 V to the _lighting elements 11 emits. After a given period of time, here of one minute, the sensor controls 21 the power supply unit 18 again to the output of a reduced output voltage U _A of 60%.

2 shows for a first embodiment in two superposed diagrams in same time scale schematically the time course of the supply voltage and the output voltage. In the lower diagram is the time course of the supply voltage U _S after opening the switch 14 at time t ₁ and closing at time t ₂ shown. In the period between t ₁ and t ₂ , the supply voltage U _{S is} due to the loss in the resistor 16 reduced to 80% of the mains voltage U _N. The sensor 21 Refers to the sudden increase in the supply voltage U _S on the level of the mains voltage U _N and controls, as shown in the upper diagram, at time t _2, the power supply unit 18 such that the output voltage U _{A is} 100%. After expiration of the predetermined time interval, the sensor controls 21 at time t _3, the power supply unit 18 again to the output of a reduced output voltage U _A of 60%.

3 shows for a second embodiment in two superimposed diagrams on the same time scale schematically the time course of the supply voltage and the output voltage. In the lower diagram is the time course of the supply voltage U _S after opening the switch 14 at time t ₁ and closing at time t ₂ shown. In the period between t ₁ and t ₂ , the supply voltage U _{S is} due to the loss in the resistor 16 reduced to 80% of the mains voltage U _N. The sensor 21 This refers to the sudden lowering of the supply voltage U _S and controls, as shown in the upper diagram, at time t _2, the power supply unit 18 such that the output voltage U _{A is} 100%. After expiration of the predetermined time interval, the sensor controls 21 at time t _3, the power supply unit 18 again to the output of a reduced output voltage U _A of 60%.

Claims (6)

Facility ( 10 ) for the supply of lighting elements ( 11 ) with electrical energy in a lighting device with a power supply unit ( 18 ), in particular for the video surveillance of an area, the facility ( 10 ) Comprises means for illuminating the light elements ( 11 ) in the ground state to operate with a lower light intensity than the maximum light intensity, and means for changing the light intensity by remote action, characterized in that the delivery of maximum light intensity of the light elements by a through the feed line ( 17 ) to the power supply unit ( 18 ) is transmitted to the illumination device signal, which is a temporary lowering of the supply voltage of the power supply unit ( 18 ) of the illumination device. Device according to claim 1, characterized in that the illumination device emits infrared radiation emitting light elements ( 11 ) having. Device according to claim 2, characterized that the infrared radiation emitting light elements as light emitting diodes (IR LEDs) are executed. Device according to one of claims 1 to 3, characterized in that the delivery of maximum light intensity of the lighting elements ( 11 ) is caused by the voltage drop in the temporary lowering. Device according to claim 4, characterized in that the delivery of maximum light intensity of the lighting elements ( 11 ) is caused by the voltage increase after the temporary lowering. Device according to claim 4 or 5, characterized that the output of maximum light intensity of the light elements in time is limited.