EP2162675A1 - Flashlight for alarm systems - Google Patents

Abstract

The invention relates to a flashlight for alarm systems, comprising a light source (L) containing at least one light emitting diode (1) and a circuit which controls said light source, said circuit comprising a feed supply (2), a current converter (W) and flash control device (B). Said current converter (W), the light source (L) and flash control device (B) are connected in series. The current converter (W) comprises a control unit (4), an inductor (6), an induction stop (7) and a resistor (8) which are connected in series. The flash control device (B) comprises at least one switch (10) for actuating the light source (L) and a microprocessor (9) for controlling the at least one switch (10).

Description

description

Flashing light for alarm systems

The present invention relates to a flashing beacon for alarm systems with a light source containing at least one light emitting diode and a driving this circuit having a power supply, a current transformer and a flash control.

Such flashing lights are together with the hazard detectors on the detector bus of the alarm system, for example, together with the fire alarms on the detector bus a fire alarm system. Known flashing lights have a relatively high power consumption of about ten times a scattered light smoke detector. It would therefore be advantageous to use flashing lights with the lowest possible power consumption at a certain effective light intensity. It is obvious that the effective light intensity must not fall below a certain lower limit, for example, when mounting the flashing lights in long runs, this is often seen at a shallow angle, so that the intensity of light perceived by the eye can be very small.

The invention will now be given a flashing light of the type mentioned, which has the lowest possible

Electricity requirement and thus has an improved efficiency.

This object is achieved according to the invention in that the current transformer, the light source and the flash control are connected in series.

In the case of the flashing beacon according to the invention, therefore, the converter current flows through the light-emitting diodes, which is very important because it reduces the power consumption. Another advantage of the invention solution is that the efficiency is improved by about a factor of 2 and the current and thus the light emission of the flashing light over a large Voltage range of about 12 to 30 V can be kept relatively constant.

A first preferred embodiment of the flashing beacon according to the invention is characterized in that the current transformer has a control unit, and that this with a

Inductance, an induction barrier and a resistor in

Row is switched. Preferably, the resistor stops in

Connection with the control unit the current for the light source during the lighting time constant.

Further advantageous embodiments of the flash unit according to the invention are claimed in the dependent claims 4 to 10.

In the following the invention will be explained in more detail with reference to an exemplary embodiment and the single figure of the drawing, which shows a block diagram of a flashing beacon according to the invention.

The figure shows in the middle part of a six light-emitting diodes (LEDs) 1 containing light source L, in the upper half of their supply and a current transformer W and in the lower part called the flash controller B control electronics of the light source 1. Darstellungsgemass are the six light source L forming light-emitting diodes 1 arranged in two parallel branches to three LEDs 1. Flashing lights of the type described are often used in combination with an acoustic alarm, such combined acoustic / optical alarms as a "sounder beacon", or in German "Blitzsummer" are called. The flashing light or the flash buzzer is preferably mounted on the ceiling and has a similar shape as the fire alarm. Because of the shape and mechanical structure of the flashing light or a suitable flash buzzer is made to the EP application 07105779.8 the applicant of the present patent application, in which the mechanical structure of the flashing light is described in detail. Of course could also be provided with light emitting diodes 1 more than two parallel branches.

The power supply includes a voltage source 2 providing a voltage of, for example, 12 and 30 V, and a current limiter 3 for limiting the current supplied by the voltage source 2 to 3 in A. The reference numeral 5 denotes a current memory formed by a capacitor. The current transformer W, contains a control unit 4, an inductance 6, a diode acting as an induction lock for the inductance 6 and a diode 7 acting as a current limiter resistor 8, at whose output the light source L is located. The control unit 4, the inductor 6, the diode 7 and the resistor 8 are connected in series.

Through the resistor 8, the current flowing to the light source L is kept constant during the lighting time to a certain value of, for example, 280 inA. Once this value is reached, the power supply is interrupted in the current transformer W, switched on again after a few hundred milliseconds, and so on. In this way, the interaction of the resistor 8, the inductor 6 and the current transformer 4 results in a significant reduction in the power consumption of the light source L and thus an improvement in efficiency by about a factor of 2. This interaction could be characterized as an "inductive down converter".

The flash controller B essentially comprises a microprocessor 9 which is connected, for example, via an ASIC to the detector bus of a fire alarm system and from which an operating voltage of 3 V and all required alarm data, and two switches 10 for switching on and off the light source L. The microprocessor 9 controls in case of alarm, the two switches 10 so that the light-emitting diodes 1, for example, each for 20 ms and then switched off for 1.2 s. Due to the temperature dependence of the luminosity of the LEDs, the duration of the switch-on time depends on the temperature. For example, the amount Switch-on time of the LEDs at a temperature of -20 ° 15 ms, at + 20 ° 20 ms and at + 70 ° 27 ms. That means the

Pulse width increases with temperature. This temperature course of

Luminous intensity of the light emitting diodes lwird by a sensor contained in the microprocessor 9, for example, a diode

(not shown) for the measurement of the ambient temperature, corrected. With the help of the two resistors between the

Switches 10 and the two branches with the light-emitting diodes 1, an equally bright light distribution of the LEDs 1 is possible.

The ability to drive the LEDs 1 by the flash controller B in certain pulse shapes, also contributes to the reduction of power consumption. You can also interpret the pulse shapes for the control of the light emitting diodes 1 according to the degree of attention to be achieved. Thus, for example, the two branches with the light-emitting diodes 1 can be alternately switched on and off in order to give the impression of a moving light source L, or the flashing light can flash sequentially, with pre-flash and main flash.

These various ways of controlling the light source L are particularly advantageous when the flashing light is mounted in places, for example in a long corridor, where the light emitted from the light source L does not necessarily attract immediate attention.

The flashing light described has the advantage of low power consumption, improved efficiency and a fairly constant light emission over a wide voltage range of 12 to 30 V. It has the maximum effective light intensity for a given power consumption and can also in places where they only under one relatively flat angle is seen, which alert there present reliably.

Claims

claims 1. Flashing beacon for alarm systems with a light source containing at least one light emitting diode (1) and a driving this circuit having a supply (2), a current transformer (W) and a flash control (B), characterized in that the current transformer (W) , the light source (L) and the flash controller (B) are connected in series. 2. flashing light according to claim 1, characterized in that the current transformer (W) has a control unit (4), and that this with an inductance (6), an induction lock (7) and a resistor (8) is connected in series. 3. Flashing light according to claim 2, characterized in that the resistor (8) in connection with the control unit (4) holds the current for the light source (1) during the lighting time constant. 4. Flashing light according to claim 3, characterized in that the flash control (B) at least one switch (10) for the actuation of the light source (L) and a microprocessor (9) for controlling the at least one switch (10) contains, and the microprocessor (9) has a data communication connection to the detector bus of the alarm signaling system. 5. flashing light according to claim 4, characterized in that the light source (L) comprises a plurality of light emitting diodes (1), which are arranged in the form of two branches, and that each branch is associated with a switch (10). 6. flashing light according to claim 5, characterized in that the pulse shape of the switches (10) controlling pulses is adjustable. 7. Flashing light according to claim 6, characterized in that the pulse shape of said pulses from the microprocessor (9) is controlled in dependence on the ambient temperature, and that the microprocessor (9) comprises a temperature sensor. 8. flashing light according to claim 7, characterized in that the width of said pulses increases with increasing temperature. 9. Flashing light according to one of claims 5 to 8, characterized in that the light source (L) is controlled so that the two light emitting diodes (1) containing branches are switched on and off alternately 10. Strobe light according to one of claims 5 to 9, characterized in that the light source (L) is controlled so that a sequential flash emission takes place in the form of pre and main flashes.