EP1783714A1 - Signalling of an hazard situation by failure of an hazard monitoring central station - Google Patents

Abstract

The method involves connecting a danger detecting center with another danger detecting center through an emergency communications unit (NK2) and a communications network (KN). Emergency information related to a dangerous situation, which is detected by a danger detector, is transmitted to the latter detecting center during failure of the former detecting center. A central processing unit (CPU) of the former detecting center is monitored by a monitoring unit with respect to the existence of the failure of the former center. Independent claims are also included for the following: (1) a device for signaling a dangerous situation detected by a danger detector (2) a danger detecting system for signaling a dangerous situation detected by a danger detector.

Description

The invention relates to a method, a device and a system for signaling a dangerous situation detected by at least one danger detector via a danger detector associated with the danger detector at least one processing unit, a monitoring unit and an emergency communication unit containing danger control panel to at least one other security alarm center.

• Übertragungswege: In diesem Fall muss ein Alarm über alternative Wege an eine zuständige Stelle weitergeleitet werden;
• Verarbeitungseinheiten (Prozessoren (Central Processing Unit) = CPU) der Gefahrenmeldezentrale: Fällt eine Verarbeitungseinheit in einer Gefahrenmeldezentrale aus, muss mindestens eine reduzierte Notfall-Information in Form einer Meldung, Nachricht etc. an weitere Gefahrenmeldezentralen etc. signalisiert werden können. Der Ausfall der Verarbeitungseinheit wird in der Regel durch einen Software-Absturz, Speicherproblemen oder einer falschen Konfiguration verursacht.

Various standards for alarm systems or alarm systems such as fire alarm systems require emergency and redundancy properties. A hazard alarm system or a hazard alarm system may consist of one or more hazard control panels. The security control centers are interconnected via an emergency communication network. This has the purpose that in case of failure or failure of a unit of a security control center an alarm can still be forwarded to a competent authority. The following units of the danger control panel can fail, for example:

• Transmission paths: In this case, an alarm must be forwarded to a competent body via alternative routes;
• Processing units (processors (Central Processing Unit) = CPU) of the danger control panel: If a processing unit fails in a security control panel, at least a reduced emergency information in the form of a message, message, etc., must be signaled to other hazard control panels. Failure The processing unit is typically caused by a software crash, memory issues or incorrect configuration.

• Indikationsmittel: Diese zeigen einem Nutzer des Gefahrenmeldesystems einen Alarm an. Dies kann optisch oder akustisch erfolgen. Der Nutzer kann sich auch in einer zentralen Empfangsstelle (CMS = Central Monitoring System) befinden, welche über ein Fernmeldeübermittlungsnetz via eine Fernübermittlungseinrichtung erreichbar ist. Derartige zentrale Empfangsstellen sind im Allgemeinen permanent besetzte Alarmempfangs- und Interventionsstellen.
• Reaktionsmittel: Diese reagieren auf einen Gefahrenfall wie zum Beispiel einen Brand. Darunter fallen Löschungseinrichtungen, Rauchabzug-Steuerungen, Evakuationssysteme etc.

Responsible bodies are called:

• Indication means: These indicate to a user of the danger detection system an alarm. This can be done visually or acoustically. The user can also be located in a central receiving station (CMS = Central Monitoring System), which can be reached via a telecommunication network via a remote transmission device. Such central receiving stations are generally permanently occupied alarm receiving and intervention agencies.
• Reagents: These react to a hazard such as a fire. This includes deletion facilities, smoke control systems, evacuation systems, etc.

The regulations and standards usually require the bridging of a single fault, which must also be detected and displayed accordingly. If several errors occur at the same time, according to these regulations it is permitted that the hazard detection system can no longer fulfill its functions completely or not at all. Nevertheless, it must be ensured that, in the event of any error in the hazard alarm system, an alarm can be forwarded to a competent authority despite the error. This is often solved by the fact that the components or units of a security control panel are several times present in the danger control center. These components are then also separately connected to the multiple components of the other hazard control panels of the hazard detection system, so that several independent Systems are present at the same time. If one unit of a system fails, the unit of a parallel system can be used and a detected dangerous situation can be reported. As a dangerous situation, a fire, smoke, gas detection, burglary etc. is considered.

The object of the present invention is to provide a simple and efficient way of signaling a dangerous situation in case of failure of a security control center.

The object is achieved in each case by the subject matters of the independent claims. Further developments of the invention are specified in the subclaims.

A core of the invention is to be seen in the fact that in case of failure of a security control center detected by at least one danger alert hazard situation is forwarded in an emergency information to another danger control center. A danger control center has at least one processing unit, a monitoring unit monitoring the processing unit, and an emergency communication unit for forwarding the detected dangerous situation to a competent authority. According to the invention, the danger control center contains a further emergency communication unit via which emergency information is sent if, for example, the monitoring unit detects a failure of the processing unit. The further emergency communication unit is connected via a communication network with the at least one further security control center. As the communication network, for example, an IP communication network such as the Ethernet, an EIA-485 communication network, or a similar communication network can be used. For the According to the invention, communication with the at least one further alarm control panel can also be integrated into a further emergency communication unit in the at least one further alarm control panel so that an emergency communication system is created between the alarm control panels. According to the invention, any message, message, signaling message can be used as emergency information. The at least one further alarm control center forwards the emergency information received from the security control center to a competent authority, which is connected to the at least one further security control center via a remote transmission network. As a responsible body, an indication unit, a reaction unit, etc. are used. The goal of a danger message or an emergency information is usually a human. This can be made aware of the fire message by various indication units, for example. Indication units may be horns / sirens, optical indication units such as flashlights and lamps, displays and graphical user interfaces (user interface), central receiving stations, etc. If reactions are necessary in the event of danger, an alarm system must send an evacuation unit according to a message to a reaction unit, such as an extinguishing unit (which actively extinguishes a fire by means of suitable extinguishing agents), a ventilation unit (used to remove smoke from the fire). These systems provide for the evacuation of persons from the building or area affected by the danger) etc. are sent.

An advantage of the invention is that only one communication network is required between the at least two alarm control panels. Thus, it is possible the number of components in a security control center and multiple data lines between the security centers to a minimum.

Another advantage is that the maintenance and configuration costs for a security control panel can be set considerably lower.

Figur 1

eine vereinfachte Architektur einer erfindungsgemässen Gefahrenmeldezentrale,

Figur 2

eine Gefahrenmeldeanlage mit mehreren über ein Kommunikationsnetz miteinander verbundene Gefahrenmeldezentralen.

The invention will be explained in more detail with reference to an embodiment shown in a figure. Show

FIG. 1

a simplified architecture of a security control center according to the invention,

FIG. 2

a hazard alarm system with several alarm control panels interconnected via a communication network.

FIG. 1 shows a simplified architecture of a danger control center GMZ according to the invention. An emergency running path (solid line) is set up in the danger warning center GMZ, which connects all connected detector lines or their interfaces with the necessary indication and reaction means. This emergency run path bypasses the processing unit CPU. It allows the transmission of a general emergency alarm ("emergency alarm") and, for example, the transmission of switching off the optical and / or acoustic indication means ("horn mute"). The further emergency communication unit NK2 is connected to this path in order to achieve a favorable transmission of the emergency information via the emergency communication network (KN). In this example, two detector zones P2 ITF with danger detectors, manual call points, acoustic sirens, etc. are connected to the GMZ alarm control panel. The evaluation of the information sent by the hazard detectors, manual detectors, etc. via the detector line is done by a processing unit CPU.

In this case, the processing unit CPU is monitored by a monitoring unit UE. In this case, the monitoring unit UE contains an emergency operation logic NL which, in the event of a failure of the processing unit CPU, sends emergency information to the emergency communication unit NK1 and NK2 for forwarding to another danger reporting center GMZ2, GMZ3 and / or forwards the emergency information directly to a responsible authority FUE, PMI , The security control center GMZ is connected to the further security control center GMZ2, GMZ3 via a communication network KN. The responsible body is an indication unit FUE and a reaction unit PMI. The direct forwarding can be done according to previously defined rules such as the size of the fire, the location of the fire, etc. in the emergency logic. Since the emergency communication unit NK1 also contains a processor (CPU) with memory, it must be able to be bypassed like the processing unit CPU. This can be done with the inventive further emergency communication unit NK2. With this further emergency communication unit NK2 only the emergency information can be transmitted. It (NK2) is not directly connected to the processing unit CPU. If a failure of the processing unit CPU is detected by the monitoring unit UE, emergency information regarding a dangerous situation detected by at least one danger detector is relayed via the further emergency communication unit NK2 to another danger reporting center GKZ2, GKZ3. The further danger reporting center GKZ2, GKZ3 can now send the received emergency information to a responsible authority FUE, PMI.

FIG. 2 shows a hazard alarm system with a plurality of hazard alarm centers interconnected via a communication network KN. In this case, each security messaging center GMZ, GMZ2, GMZ3 another emergency communication unit NK2.

Claims (13)

Method for signaling a dangerous situation detected by at least one danger detector via an at least one processing unit (CPU), a monitoring unit (UE) and an emergency communication unit (NK1) containing danger control center (GMZ) to at least one further alarm control panel (GMZ2, GMZ3 )
characterized,
in that the alarm control panel (GMZ) is connected to at least one further alarm control panel (GMZ2, GMZ3) via a further emergency communication unit (NDC2), that in the event of failure of the danger alerting unit (GMZ) at least emergency information regarding the dangerous situation detected by the at least one hazard alarm unit another emergency communication unit (NK2) is forwarded to the at least one further alarm control panel (GMZ2, GMZ3) and
that the at least one further alarm control center (GMZ2, GMZ3) forwards the emergency information to a responsible body (FUE, PMI). Method according to claim 1,
characterized,
that the processing unit (CPU) by the monitoring unit (UE) is monitored in regard to the existence of a failure. Method according to claims 1 and 2,
characterized,
that (CPU), a detected from at least one hazard alarm danger situation to the other emergency communication unit (NK2) is passed in the presence of a failure in the processing unit. Method according to claims 1 and 2,
characterized,
that in the presence of a failure of processing unit (CPU) an emergency information regarding a detected from at least one hazard alarm hazard situation from the monitoring unit (UE) to a competent authority (FUE, PMI) is forwarded. Method according to one of the preceding claims,
characterized,
in that a unit of a communication network (KN) is used as the further emergency communication unit (NK2) of the danger control center (GMZ). Method according to claim 5,
characterized,
that the communication network (KN) either an IP communication network or an EIA-485 communication network are used. Method according to claims 5 and 6,
characterized,
that the hazard warning center (GMZ) via a communication network (KN) with the at least one other hazard warning center (GMZ2, GMZ3) is connected. Method according to claims 5 to 7,
characterized,
that a further emergency communication unit in the at least one other hazard warning center (GMZ2, GMZ3) is used for communication. Method according to one of the preceding claims,
characterized,
that the further emergency communication unit (NK2) via the monitoring unit (UE) with the at least one hazard alarm is connected. Method according to one of the preceding claims,
characterized,
in that a message, a message and / or a signaling message are used as emergency information. Method according to one of the preceding claims,
characterized,
in that the responsible body (FUE, PMI) is an indication unit (FUE) and / or a reaction unit (PMI). Device for signaling a dangerous situation detected by at least one hazard detector via a at least one processing unit (CPU), a monitoring unit (UE) and an emergency communication unit (NK1) containing alarm control panel (GMZ) to at least one other alarm control panel (GMZ2, GMZ3 ) with the monitoring unit (UE) for monitoring the processing unit (CPU) and for forwarding emergency information to another emergency communication unit (NK2) in the event of a failure of the processing unit (CPU), - With the further emergency communication unit (NK2) of the danger warning center (GMZ) for forwarding at least one emergency information concerning the detected by at least one hazard alert situation in case of failure of the processing unit (CPU) to at least one connected to the danger control panel (GMZ) another danger control center (GMZ2 , GMZ3). Danger alarm system for signaling a dangerous situation detected by at least one hazard detector via a connected to the hazard detector at least one processing unit (CPU), a monitoring unit (UE) and an emergency communication unit (NK1) containing danger control center (GMZ) to at least one other danger control center (GMZ2, GMZ3), - With the one another emergency communication unit (NK2) containing danger reporting center (GMZ) for forwarding at least one emergency information regarding the at least one hazard detector detected hazard situation in case of failure of the processing unit (CPU) to at least one connected to the danger control center (GMZ) another danger control center (GMZ2, GMZ3) and - with the at least one further alarm center (GMZ2, GMZ3) for forwarding the emergency information to a competent authority (FUE, PMI).

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