EP0911776A2 - Alarm system and method - Google Patents

Abstract

The hazard warning system has a central processing station (9) coupled to several hazard alarms, esp. for smoke and/or fire (8), and/or sensors, esp. spatial monitoring sensors (11,13,17), of one or more buildings (2) for common detection of information, esp. warnings and/or measurement values. The central processing station is coupled to one or more hazard warning and/or operating centres (15) and/or a higher level building control centre (14) for passing on warnings, measurement values and/or combination results.

Description

The invention is directed to a hazard alarm system and on an operating procedure for this.

In contrast to automation systems, which are continuous Tasks like the less relevant control of an air conditioning system take over arise when a hazard alarm system is triggered highly relevant consequences by the fire department or even police are called. Therefore, one is as precise as possible Detection of a dangerous situation is necessary. On the other hand Dangerous situations of all kinds can arise. E.g. fires can be completely different depending on the source of the fire Properties with regard to heat and smoke development and have speed of propagation. The response threshold fire detectors have therefore recently become relative set low to make even small fires reliable to be able to recognize. As a result of this high sensitivity however, a hazard detector is sometimes misled, e.g. by heavy cigarette smoke. In addition, some are fire detectors also susceptible to other environmental influences. So be Smoke sensors often operated according to the light barrier principle, one with fog or similar filled atmosphere the transmittance a beam of light and thereby over a light-sensitive element triggers an alarm. Especially in rooms that lack heating or air conditioning exposed to significant temperature fluctuations dew is deposited on the lenses of such a smoke sensor and a refraction and / or (partial) absorption of the Effect measurement light beam. This also allows the degree of transmission be significantly reduced, causing false alarms to be triggered. This is just an example that shows that conventional hazard alarm systems in unfavorable environmental conditions can be outwitted.

These disadvantages of the known prior art result the problem initiating the invention, a hazard alarm system as well as to create an operating procedure for this which is the accuracy when recognizing a dangerous situation increased so that false alarms are excluded without reducing reliability.

überschauen" und dabei erkennen, ob eine Gefahrenmeldung durch andere Umwelteinflüsse vorgetäuscht wird oder gar im Widerspruch zu anderen Informationen steht. Erst dann, wenn auch die anderen Informationen keinen anderen Schluß zulassen, als daß die Gefahrenmeldung auf eine tatsächliche Gefahrensituation zurückzuführen ist, wird ein Alarm ausgelöst und an eine Gefahrenmeldezentrale und/oder direkt an eine Einsatzzentrale der Feuerwehr oder Polizei weitergeleitet. Hierdurch wird die Gefahr von Fehlalarmen reduziert. Andererseits ist es auch möglich, in Anbetracht des erhöhten Informationsgrades einen Alarm auszulösen, obwohl noch kein Gefahrenmelder angesprochen hat, und zwar dann, wenn die Gesamtheit der Meßwerte eine nachhaltige Störung erkennen läßt, welche das Eingreifen eines Hilfsdienstes notwendig erscheinen läßt. Schließlich ist es auch denkbar, bei der Signalauswertung gewonnene Ergebnisse zusätzlich einer Gebäudeautomatisationsanlage zur Verfügung zu stellen. Indem hier frühzeitig Gegenmaßnahmen ergriffen werden, lassen sich die Umgebungsparameter für den Fall, daß keine Gefahrensituation vorliegt, in einem eng begrenzten Bereich halten, wodurch einerseits die Funktionssicherheit herkömmlicher Melder heraufgesetzt wird und andererseits eine deutliche Trennung zwischen kurzzeitigen Störungen einzelner Umgebungsparameter sowie nachhaltigen Gefahrensituationen erreicht werden kann.To solve this problem, the invention provides a central processing station in a hazard detection system which is equipped with a plurality of hazard detectors, in particular smoke and / or fire detectors, and / or sensors, in particular room surveillance sensors, of one or more buildings for the joint detection of the information, in particular messages and / or measured values, is coupled, is designed to link several messages and / or measured values and is coupled to forward messages, measured values and / or link results to one or more hazard detection and / or operations centers and / or a higher-level building control center. According to the invention, therefore, the information generated by a detector is not accepted uncritically by the hazard alarm system and passed on to an operations center of the fire service or police, but several pieces of information from different detectors and / or sensors are collected in a central processing station in order to provide an overview of the current parameters of a Building or wing. The central processing station according to the invention can then use the information here to determine the current situation

"and thereby recognize whether a hazard report is simulated by other environmental influences or even contradicts other information. Only when the other information does not allow any other conclusion than that the hazard report can be traced back to an actual danger situation does an alarm occur triggered and forwarded to a fire alarm center and / or directly to a fire brigade or police operations center, thereby reducing the risk of false alarms. On the other hand, it is also possible to trigger an alarm in view of the increased level of information, although no hazard alarm has yet responded then, when the totality of the measured values reveals a sustained malfunction, which makes the intervention of an auxiliary service appear necessary. Finally, it is also conceivable to additionally provide the results obtained in the signal evaluation to a building automation system By taking countermeasures at an early stage, the environmental parameters in the event that there is no dangerous situation can be kept within a narrow range, which on the one hand increases the functional reliability of conventional detectors and on the other hand a clear distinction between short-term disturbances of individual environmental parameters and sustainable dangerous situations can be reached.

It has proven favorable that at least one output interface meets fire protection requirements. Some companies voluntarily use hazard alarm systems installed to the building in question protect. In many cases, however, the installation of a Hazard detection system from commercial offices and / or insurance companies required. This is especially true for the connections Individual elements of the fire alarm system have strict requirements imposed to keep the system functional to ensure when the dangerous situation arises. Such, Fire protection regulations are often enforced Use of wire leads met.

On the other hand, building automation systems are often standardized bus interfaces used. To be a direct one here To enable coupling, the invention further provides that at least one output interface meets the requirements on building management installation buses. This is the central processing station according to the invention compatible with building automation systems of this type and can, if necessary can be used several times.

The invention also offers the possibility that the central Processing station with a danger control center and / or a building control center is integrated. Located here the central processing station according to the invention generally in a particularly safe place so that their Functional reliability guaranteed, especially in dangerous situations is.

It is also possible at the central processing station further interfaces for connecting signal transmitters and / or to provide actuators. In the case of a decentralized arrangement a central processing station according to the invention can point out abuses on the spot or even Take countermeasures without an alarm to a Hazard reporting or operations center is forwarded. In the simplest case, a horn can be operated here to call the staff on a scoreboard where extraordinary Measured values are displayed, or it can be, for example Exhaust fan or even part of a sprinkler system switched on become.

The generation of alarm messages is thereby according to the invention causes the information of two or more hazard detectors and / or sensors are evaluated. Here it does not have to be two detectors or sensors for the same act physical quantity. For example, a smoke sensor. be supplemented by a temperature sensor so that the central Processing station additional information about it receives whether an increased smoke development with a is accompanied by a corresponding rise in temperature. Is the temperature in a normal range, so with the notification of a fire service center may still be serviced and first an in-house security service in the room in question can be ordered. But also a humidity sensor can make the information portion more optical Smoke sensors supplement sensibly by maintaining a high level of humidity suggests that dew may form has put down the smoke sensor and an error message caused. Furthermore, a motion sensor can also be used Auxiliary sensor conduct good services. This shows the present of people in a certain room, so the Report of a smoke sensor most likely to the Return smoke from a cigarette. These examples show that preferred for information evaluation according to the invention such hazard detectors and / or sensors are used should, which according to different physical Principles are operated. This can be annoying Hide environmental influences as much as possible by using different typical sizes are determined for a dangerous situation. With such a monitored size, it becomes a dangerous situation feigned, so shows the other measurement signal in most Cases reliably indicate that no actual hazardous situation is present.

It has proven to be favorable that an alarm message Limit values exceeded on several hazard detectors and / or sensors is triggered. This is an easy measure for example, a link between a smoke and bring about a temperature sensor. In the event of a fire both sensors display elevated values, and if so, so it is time to actually generate an alarm message.

On the other hand, there are also fires in which initially an increased Smoke development, but only a slight increase in temperature is to be recorded, for example in a remote Source of fire. In this case, the invention provides that a Alarm message when a limit value is exceeded at a Hazard detector or sensor and a correlated signal change triggered on another hazard detector or sensor becomes. Here, for example, the alarm signal of a smoke sensor as an increased indication of a fire, and it is not waited until the temperature rise has reached the prescribed limit value; rather, in in such a case, a small rise in temperature in order to to display the central processing station according to the invention, that indeed a high probability of one Brand speaks. This can help alert the fire department valuable time can be gained while on the other hand the The probability of a false alarm is relatively low.

Finally, it corresponds to the teaching of the invention that at Presence of certain information System adjustments in the form of limit value, parameter and / or link changes be made. In this way, in certain situations, especially if there is a first hazard report, sensitize other sensors so that despite increase false alarm security, a quick response is possible is. On the other hand, in typical environmental conditions, which cause a malfunction of individual hazard detectors, these unreliable hazard detectors temporarily desensitized to avoid false alarms.

More details, features and advantages based on the Invention result from the following description of a preferred embodiment of the invention and based on the drawing. The only figure shows a block diagram an alarm system according to the invention.

The alarm system 1 is installed in a building 2, of which in the drawing one floor with several, one Center aisle 3 branches 4 - 7 is shown. In each room 4-7 as well as in corridor 3 there is one Smoke sensor 8a - 8e available, for example according to the light barrier principle is operated. All smoke sensors 8a - 8e are connected to a central processing station 9 and transmit their measured values via a communication line 10. So that the central processing station 9 one Overview of the actual situation in rooms 4 - 7 and can do in gear 3, it is with other sensors coupled, mostly for other reasons in these rooms 3 - 7 are arranged.

E.g. is a motion detector in corridor 3 to protect against burglars 11 installed at night from the central processing station 9 for generating an intrusion alarm signal 12 is evaluated, which becomes an operations center is forwarded to the police. During the day the signal of the Motion detector 11 from the central processing station 9 evaluated to see if there were 3 people in the aisle stop. If this is the case, then an increased measurement signal of the smoke sensor 8a in the aisle 3 suspects that this is due to cigarette smokers, and therefore the limit value for the smoke sensor 8a there is shifted upwards, for false alarms due to cigarette smoke to avoid.

Room 4 is used as a computer room and contains one larger computer system, to protect it a moisture sensor 13 is present, the output signal of the central processing station 9 of a building control center 14 is provided so that a corresponding Control of those not shown in the drawing Air conditioning the humidity to a predetermined set point can be adjusted.

Since the computer room 4 is not heated after work, sink the temperatures there strongly decrease at night, so that in the morning hours there is a risk of condensation on the smoke sensor 8b is. Is therefore from the moisture sensor 13 in this Time interval senses increased humidity, so the central processing station 9 concludes that alarm triggered by the local smoke sensor 8b Condensation of the same, and directs a corresponding False alarm not to an operations center 15 of the Firefighters continue. In contrast, is used during the day by the smoke sensor 8b signals or shows a danger at the same time Moisture sensor 13 no increased humidity, so the alarm is passed on by the central processing station 9 and causes the fire brigade 15 to disengage.

Room 5 is used as an office and is equipped with a heater 16 provided by the air conditioner 14 according to the signal a temperature sensor is operated to determine the room temperature stabilize at about 20 ° C. The building control center 14 receives the temperature measurement signal of the sensor 17 via the central Processing station 9, so that this also on the temperature information can access. It is therefore able when the smoke sensor 8c responds in the room 5 simultaneous evaluation of the temperature measurement signal of the sensor Exclude 17 false alarms. On the one hand, it is possible the signals of the sensors compared with limit values 8c, 17 in the central processing station 9 with an AND gate to link with each other, so that only the simultaneous If both sensors 8c, 17 respond, disengage the fire brigade 15 leaves. On the other hand, it is also possible to respond of the smoke sensor 8c the limit value for the temperature sensor 17 in order to prevent false alarms at an early stage Registration signal for the operations center 15 of the fire brigade produce. There is also the possibility, if present a corresponding alarm signal of the smoke detector 8c not to query the absolute value of temperature 17, but rather the tendency to change the same, and when a predetermined one is exceeded Rate of rise for the temperature also to forward a fire alarm to the fire brigade's operations center 15.

The interface 18 to the fire brigade control center 15 is as well as the connection 10 to the smoke sensors 8a-8e trained for fire protection reasons as a wire line.

In order to connect the inventive, central processing station 9 to an existing one To enable building control center 14 is the relevant one Interface 19 of the central processing station 9 compatible to commercial building management buses.

Another interface 20 is used to connect an acoustic and / or optical signal transmitter, for example a horn 21 in order for a signal from a sensor 8a-8e, but unacceptable alarm an acknowledgeable information signal to deliver.

Claims (10)

Hazard detection system (1), characterized by a central processing station (9) which is equipped with several hazard detectors, in particular smoke and / or fire detectors (8), and / or sensors, in particular room monitoring sensors (11, 13, 17), of one or more buildings ( 2) is coupled (10) to collect the information, in particular messages and / or measured values, is designed to link several messages and / or measured values and to forward messages, measured values and / or link results to one or more hazard detection and / or control centers (15) and / or a higher-level building control center (14) is coupled (18, 19). Hazard detection system according to one of the preceding claims, characterized in that at least one output interface (18) corresponds to fire protection requirements. Hazard detection system according to claim 1 or 2, characterized in that at least one output interface (19) meets the requirements for building management installation buses. System according to one of claims 1 to 3, characterized in that the central processing station (9) is integrated with a danger control center (15) and / or a building control center (14). System according to one of the preceding claims, characterized by further interfaces (20) for connecting signal transmitters (21) and / or actuators. Method for operating a system (1) according to one of the preceding claims, characterized in that the information (10) from two or more hazard detectors (8) and / or sensors (11, 13, 17) is used to form alarm messages (12, 18). be evaluated. Method according to Claim 6, characterized in that the information (10) from such danger detectors (8) and / or sensors (11, 13, 17) which are operated according to different physical principles are used for the evaluation. Method according to Claim 6 or 7, characterized in that an alarm message (12, 18) is triggered when limit values are exceeded at a plurality of danger detectors (8) and / or sensors (11, 13, 17). Method according to one of Claims 6 to 8, characterized in that an alarm message (12, 18) when a limit value is exceeded for a hazard detector (8) or sensor (11, 13, 17) and for a correlated signal change on another hazard detector (8 ) or sensor (11,13,17) is triggered. Method according to one of claims 6 to 9, characterized in that when certain information (10) is present, system adjustments are made in the form of limit value, parameter and / or link changes.

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