DE10301671B3 - Electrical alarm system e.g. a fire alarm system, with operating voltage for transmission device supplying detector signals to communications network obtained from network voltage - Google Patents

Abstract

The alarm system has at least one detector (M1) for providing an alarm signal transmitted via a LV communications network (KN) to a reception station (AE). The transmission device (UE) supplying the alarm signal to the LV communications network has a current supply circuit (EV) with a transformer (TR) for delivering the supply voltage for the transmission device from the communications network voltage.

Description

The invention relates to a hazard detection system With

• - at least a detector that triggers an alarm signal,
• - one Low voltage communication network for the transmission of the alarm signal to a receiving station and
• - a transmission device to hand over the Alarm signal from the at least one detector in the communication network.

A preferred application of the invention lies in the field of alarm transmission in fire alarm systems. Such systems are used for automatic Alerting fire brigade transmission facilities used with which the alarm signal of a fire alarm control panel or a push-button fire alarm via a transmission network, for example ISDN, transferred to a fire brigade center and there from one Receiving device is evaluated. The transmission device, the yourself in the area of protection Property is still operational even if the fire alarm system was itself affected by a fire and therefore none Alarm can give more to the transmission device. In this case it has to for example, be possible through a Push-button detector still an alarm via the transmission device Fire department to give. For this reason it is avoided that Power supply of the transmission device with to link the fire alarm system; therefore it becomes common a separate power supply device is provided in the transmission device.

For example, in the US 3,883,695 described an alarm transmission system in which the alarm signal is transmitted via telephone lines and in which a separate power supply from the AC network is provided. A battery is also switched on for emergency power supply.

In the utility model DE 20113878U1 A system for detecting a malfunction is also described, in which a sensor device for forwarding a signal for a malfunction is coupled to a telecommunication device. In this case too, the sensor device has an energy supply device in the form of a rechargeable battery that is independent of the building energy supply system.

Such independent power supplies thus meet although the above requirement that the transmission device also still operational in the event of a power failure in a burning object is so far the communication network itself has not yet been destroyed - but that is not one inconsiderable additional Effort for the maintenance of the battery connected.

The aim of the present invention is it, therefore, a hazard detection system of the type mentioned above to design that the transmission device is not only completely independently from the supply network of the to be monitored Object, but about it in addition, practically no maintenance is required.

According to the invention, this goal is achieved that the transmission device has a power supply circuit with a transformer, the primary side is connected to the voltage of the communication network and on the secondary side the supply voltage for the transmission device supplies.

The invention makes it Take advantage of the knowledge that the usual Communication networks, for example ISDN, the possibility offer, for the power supply of connected devices electrical Performance up to a predetermined upper limit, for example 380 mW. This means that the transmission device of the hazard detection system according to the invention just like a telephone without its own mains connection, its energy is directly available relates to the communication network. However, this device does not meet this requirement only the requirements of the fire service regulations regarding the Functional maintenance of the transmission device in the event of a fire, because the battery is no longer required, it is practically maintenance-free. Another advantage is that the effort of a separate Power supply included a supply line from the 230 V network with the required protection is saved.

Of course, the circuit of the transmission device be interpreted so that the permissible Energy consumption from the communication network is not exceeded becomes. However, this is without correspondingly miniaturized components further possible. In this context, it is a further development of the invention also possible that the transmission device including their power supply circuit in a common housing with a detector, preferably a push-button fire detector will what an additional Saving space and assembly costs means. Furthermore but it is also possible in the same housing possibly also the network termination unit to accommodate the communication network if the detector housing is needed is adjusted in size.

The invention will follow embodiments based on the drawing explained. It shows

1 a first block diagram of an alarm system according to the invention with a transmission device and a single detector and

2 the block diagram of one opposite 1 somewhat modified hazard alarm system with a fire alarm system connected to the transmission device.

1 shows a block diagram of a hazard detection system, for example as a fire detection system with a manually operated detector M1, a transmission device UE, a communication network KN and a message center FZ, which is a fire department in the present example.

The communication network KN here is only indicated, is at its ends shown with a network termination unit NA provided that the connection of terminals allows. If the network is an ISDN network, for example, the termination takes place in each case with the so-called NTBA device (Network Termination Basic Access). This is at the headquarters FZ an alarm detection device AE is connected to the communication network, while at the other end the transmission device UE according to the invention the network termination unit NA is switched on. In the transmission facility is the actual transmission circuit, preferably a microcontroller MC, designed so that it, for example evaluates a message signal m1 from the detector M1 and in the form of an alarm signal AL on the communication network and to the evaluation device AE addressed in the headquarters FZ. Conversely, control signals MS can also from the central FZ via the communication network KN are transmitted to the transmission device.

The transmission device UE also contains a power supply circuit EV, which essentially contains a schematically illustrated transformer TR. This is also connected on the primary side to the network termination unit NA and takes the supply current I _{V from it} for the transmission device UE.

In 2 a somewhat modified embodiment is shown schematically. In this case too, the transmission device UE is connected to the communication network KN together with its energy supply circuit EV via the network termination unit. In this case, however, an interface SS is additionally provided in the transmission device, via which a fire alarm system BMA with a plurality of detectors can be switched on. A detector signal m2 from the fire alarm system BMA is thus converted via the interface SS and the microcontroller MC into an alarm signal AL and sent to the communication network KN. If the fire alarm system fails, there is still the possibility to generate an alarm signal via detector M1.

By designing the interface accordingly SS it is still possible also certain information from the individual detectors of the alarm system BMA about the transmission device to give to the central FZ. Conversely, you can use the appropriately equipped interface SS also control signals from the control center to the BMA or given to their individual detectors.

Both in the case of 1 as well in which the 2 it is possible to accommodate the transmission device together with the energy supply circuit EV in a housing G1 or G2, which is advantageously the housing of a push-button detector M1. If, as in 2 indicated that the network connection unit NA is also to be accommodated in the housing, this housing (G2 + G2 ') will be somewhat larger in size than a normal push-button detector. However, the saving in space for a second housing and additional assembly work justifies changing the housing dimensions of the push-button detector in this case.

Claims (8)

Hazard detection system with - at least one detector (M1) triggering an alarm signal, - a low-voltage communication network (KN) for transmitting the alarm signal to a receiving station (AE) and - a transmission device (UE) for transferring the alarm signal from the at least one detector (M1) into the communication network (KN), characterized in that the transmission device (UE) has a power supply circuit (EV) with a transformer (TR) which is connected to the voltage of the communication network on the primary side and supplies the supply voltage for the transmission device (UE) on the secondary side. System according to claim 1, characterized in that the detector contains a sensor of a given change a physical environmental condition triggers the alarm signal. System according to claim 1, characterized in that the detector (M1) a mechanically operated contains electrical switching element. System according to one of claims 1 to 3, characterized in that that the transmission device (UE) together with the power supply device (EV) with a detector (M1) in a common housing (G1; G2) is arranged. System according to claim 4, characterized in that a network termination device (NA) additionally in the common housing (G1; G2) is arranged. System according to one of claims 1 to 5, characterized in that that a alarm system equipped with a plurality of detectors to the transmission device connected. System according to claim 6, characterized in that between the alarm system (BMA) and the transmission facility (UE) an interface (SS) is designed such that it is in addition to Detector signals (m2) also optionally individual information of the in the Signaling system (BMA) to transmit connected detectors to the control center (FZ) can. System according to claim 6 or 7, characterized in that that about a Interface (SS) between the alarm system (BMA) and the transmission facility (UE) control commands from the control center (FZ) to the alarm system (BMA) or to individual detectors of the alarm system.