The invention relates to a smoke warning system in particular for use in aircraft.
Smoke warning systems in common use function with optical smoke warning transmitters. These smoke warning transmitters apply the so-called diffused-light principle with a specified alarm threshold. In the case where there is no smoke and there are no particles, the receiver does not receive a signal because there is a barrier between the light source and said receiver. However, if smoke particles (or other particles) are encountered in this region, then the light is scattered and the receiver registers a corresponding signal rise. If this signal rise exceeds a specified threshold value, the smoke warning transmitter issues an alarm.
However, the above-mentioned functional principle is associated with a disadvantage in that not only smoke particles but all aerosols cause light scattering and can thus cause the smoke warning transmitter to assume an alarm state. In practical application it has been shown that for example fog, dust or even the use of insecticides has caused false alarms.
In most applications such false alarms pose a safety risk. For this reason, high priority is accorded to minimising the probability of faults occurring.
The above-mentioned problem is even more acute in the case of mobile smoke warning systems which at times are confronted with quickly changing ambient conditions.
It is thus an object of the invention to provide a smoke warning system which in changing ambient conditions minimises the probability of a false alarm.
The above-mentioned object is met as stated in claim 1. Advantageous improvements of the invention are stated in the dependent claims.
The smoke warning system according to the invention is preferably used in aircraft, wherein, in the assessment as to whether an alarm is to be issued, an ambient condition such as for example temperature, atmospheric humidity, wind, type of the load to be transported, etc. is included in the evaluation of a status signal that is transmitted by a smoke warning transmitter.
According to an exemplary embodiment of the invention, the system according to the invention comprises an evaluation device which from a smoke warning transmitter receives a status that is characteristic of a smoke situation, and, taking into account an ambient condition acquired by an acquisition device, evaluates this status so as to, based on the evaluation result, trigger an alarm via an output device.
This may be associated with the advantage that the smoke warning transmitter itself does not have to be adjustable. The probability of a false alarm occurring may be minimised in that the signal supplied by the smoke warning transmitter is evaluated by a separate device, taking into account the ambient condition.
According to another exemplary embodiment of the system according to the invention, smoke warning transmitters are used whose sensitivity is adjustable. Their sensitivity is set based on the ambient condition received by the acquisition device.
According to an exemplary embodiment of the invention, the ambient conditions, which hereinafter are also referred to as input parameters, are continuously acquired via at least one sensor.
In this way it becomes possible to quickly adjust the smoke warning system to currently valid ambient conditions.
According to one aspect of the invention, the alarm threshold of the system is thus raised under certain ambient conditions so that the smoke warning transmitter per se is set so as to be less sensitive. In this way, the probability of false alarms occurring under “unclean” ambient conditions (for example dust, fog) can be considerably reduced when compared to smoke warning systems with a fixed alarm threshold. This is above all advantageous in systems in mobile applications (for example aircraft, railway, submarine systems) because these systems are at times subjected to quickly changing ambient conditions.
Below, an advantageous exemplary embodiment of the invention is described in detail with reference to
As shown in
According to
According to the exemplary embodiment, the second group 3 of smoke warning transmitters shown in
Of course, the two groups 2, 3 of smoke warning transmitters can also be interconnected in order to exchange data among themselves.
The smoke warning transmitters 2a-2c and 3a-3c provide status information which is characteristic for an existing smoke situation in the vicinity of the respective smoke warning transmitters.
As shown in
The device 8 is used for setting an alarm threshold of the smoke warning system 1; said device 8 comprises for example an evaluation device 9. This evaluation device 9 receives information concerning the status of the smoke warning transmitters 2a-2c via the bus line 4 and the data line 6. Similarly, the evaluation device 9 receives information concerning the status of the smoke warning transmitters 3a-3c via the bus line 5 and the data line 7. The information received can for example be stored in a storage device (not shown) inside or outside the device 8. Instead of the data lines and the bus line, it is also possible to provide a single bus line.
Furthermore, the device 8 according to the preferred embodiment is connected to an aircraft data network 10. The connection can either be a wireless connection or a wire connection. The aircraft data network 10 receives data from various acquisition devices 11a-11e, which collect information concerning environmental conditions.
The acquisition device 11a is for example a central maintenance system which, via a connection 12a, transmits flight data to the aircraft data network 10 during a flight.
The acquisition device 11b is for example a flight management system which transmits information concerning the destination to the aircraft data network 10 via a connection 12b.
The acquisition device 11c is for example a door control system which supplies information concerning the status of doors (for example the cargo compartment door) to the aircraft data network 10 via a connection line 12c.
The acquisition device 11d is for example an air data system which supplies information concerning for example the temperature, humidity, pressure etc. of the air to the aircraft data network 10 via a connection 12d.
The acquisition device 11e is for example a flight warning system which supplies corresponding information to the aircraft data network 10 via a connection 12e.
As indicated by dashed lines in
According to the invention, the acquisition devices 11a-11e, for example, continuously supply current data to the aircraft data network 10, which transmits this data automatically or on request to the device 8 via a connection interface 13. The connections 12a-12e, via which the respective acquisition devices 11a-11e are connected to the aircraft data network, can be wireless or wired connections.
Likewise, the connection interface 13 between the aircraft data network 10 and the device 8 can be a wireless or wired connection.
According to the exemplary embodiment, as shown in
Furthermore, as shown in
As described above, the ambient conditions are acquired by the acquisition devices 11a-11e and are continuously provided, and are for example requested by the device 8. Based on these ambient conditions (hereinafter also referred to as input parameters) and the information relating to the status of the smoke warning transmitters 2a-2c and 3a-3c, the evaluation unit 9 calculates a corresponding command for adapting the alarm threshold of the system 1. As an alternative, the evaluation device 9 can also supply a corresponding command to a respective smoke warning transmitter in order to set its sensitivity.
Adaptation of the alarm threshold preferably take place depending on the following parameters:
According to the exemplary embodiment, the procedure to be adhered to is as set out in the following status table. Smoke warning transmitter statuses 1-3 correspond to sensitivity levels:
Although, above, the invention has been described with reference to an application in an aircraft, the system according to the invention can also advantageously be used in other mobile applications (for example relating to railways, submarines, motor vehicles), because these systems can be subjected to quickly changing ambient conditions.
Although, above, the invention has been described with reference to a preferred embodiment, it is understood that a person with technical skills in this field can make modifications and alterations without leaving the scope of protection.
For example, a smoke warning transmitter can comprise temperature sensors 15 and issue an alarm if a critical temperature value is exceeded, irrespective of the ambient conditions. Similarly, the ambient conditions may be entered by a user, for example via a keypad.
Number | Date | Country | Kind |
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10 2004 034 904 | Jul 2004 | DE | national |
The present application is a 35 U.S.C. §§ 371 national phase conversion of PCT/EP2005/007876, filed 19 Jul. 2005, which claims the benefit of the filing date of U.S. Provisional Patent Application No. 60/589,272 filed Jul. 19, 2004 and of German Patent Application No 10 2004 034 904.5 filed Jul. 19, 2004, the disclosures of which are herein incorporated by reference. The PCT Application was published in the English Language.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/007876 | 7/19/2005 | WO | 00 | 1/18/2007 |
Publishing Document | Publishing Date | Country | Kind |
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WO2006/008145 | 1/26/2006 | WO | A |
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20080061996 A1 | Mar 2008 | US |
Number | Date | Country | |
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60589272 | Jul 2004 | US |