EP1580706A1 - Fire alarm system. - Google Patents

Abstract

A fire alarm installation (1) has an alarm (2) and separate test unit (3) connected through a switchable bus interface (9) providing power and allowing selection of display or test and adjustment of the test unit.

Description

State of the art

The invention relates to a fire alarm system, as well as a fire detector and a Test device for functional testing of the fire detector.

Fire detector types include, for example, fire detectors with temperature sensors, Fire detectors with chemosensors, optical smoke detectors or combinations of known different types. Optical smoke detectors work on the principle of Light scattering or light attenuation and detect the presence of aerosol in one defined measuring volume.

Since fire detectors are safety-relevant devices, most of them are Use cases, despite the very high reliability of the fire alarm a regular Checking the functionality is recommended or mandatory. this happens For example, in optical smoke detectors in that a maintenance technician the appropriate fire detector and a specially designated test aerosol from a Spraying spray into the measuring volume of the fire detector. The fire detector must then the Fire alarm panel signal an alarm. For example, from the German patent DE 100 40 570 C1 discloses a portable test device, which is used for functional testing of a Fire detector with an optical smoke detector and with a temperature sensor is suitable.

From WO 02/27293 A2 is a smoke detection system consisting of a transmitter, a Flue gas generator and a flue gas detector known, the flue gas generator and the Flue gas detector are fixed to each other such that they are in operative connection with each other. It is suggested that the test aerosol by evaporation of a volatile Hydrocarbon in a stationary next to the fire alarm mounted To produce a flue gas generator, and with a fan in the measuring volume of the Blowing flue gas detector.

Advantages of the invention

The fire alarm system described below with the characteristics of the independent Claim has the advantage that the fire alarm system a simple and inexpensive Functional test of fire detectors allows. Furthermore, the fire alarm system is characterized characterized in that both the one-time cost and the current Maintenance costs of the fire alarm system are low, since on the one hand, the installation of the Fire alarm system is easy to perform and on the other hand, the fire alarm system automated functional testing of fire detectors. Particularly advantageous is the Fire alarm system with fire detectors in hard-to-reach places, such as under one Ceiling paneling, in rolling doors or in ventilation ducts are housed. Is advantageous Furthermore, existing fire alarm systems simply to a described below Fire alarm system can be upgraded. The setting of the test device by the fire detector also has the advantage that the control unit of the tester easy and cheap can be realized because the control programs necessary for the functional test by the existing evaluation and control unit in the fire detector or by the fire alarm panel self-provided. In particular, a connection of the test device to a Communication bus of the fire alarm system is not necessary and it eliminates expensive Interface blocks to the communication bus. It is also particularly advantageous that a Cabling of the test device by control lines is eliminated.

It is particularly advantageous that the interface of the fire detector at least one switchable Output, in particular at least one switchable contact, for example a relay output, and / or at least one open-collector output (open-collector output), As this is a very robust, noise-insensitive and therefore especially for testing purposes suitable interface to a test device. Furthermore, such an interface inexpensive to produce. It is advantageous if the interface the at least one as c-point output includes designated control output of the fire detector. The nomenclature This control output stems from the fact that bus connections of the fire alarm according to Communication cores from the telecommunications are referred to as a and b connections and therefore another connection of the fire alarm with the consecutive numbering C port referred to as. Preferably, the control output is an open-collector output. The open-collector output is an output circuit with at least one Transistor, which is characterized in that several open-collector outputs in parallel a single collector resistor are switchable.

A further advantage is that the fire detector is designed such that in particular via a Connection to a fire panel is optionally adjustable, whether the interface, in particular the control output, for a display device or for activating the Test device is to be used, since this leads to a high flexibility of the field of application Brandmelders contributes. It is also particularly advantageous that the only control output of the Fire detector is used as an interface to the tester and only one appropriate programming of the fire alarm panel takes place. This happens because of that the fire panel is configured so that the fire panel is known that the control output of this fire detector is not connected to a display device, but with a test device that is suitable for functional testing of the fire alarm.

It is also particularly advantageous that the tester with the bus of the fire alarm system is connected, wherein the connection only to the power supply of the test device via the bus serves. The power supply of the test device via the bus of the fire alarm system contributes advantageously to a yearlong operability of the tester without necessary maintenance work, such as battery replacement, at. It is particularly advantageous that the Tester is connected to the power supply bus of the fire alarm system. It is also particularly advantageous that the test device has a rechargeable energy store has, as a result, on the one hand provided a high energy demand for functional testing can be, while on the other hand, the charging of the energy storage preferably slowly via the bus of the fire alarm system. The bus is thereby advantageously only little burdened.

A further advantage is that the fire alarm system comprises a fire alarm panel, wherein the Fire detector is designed so that the fire detector the tester in dependence of Signals of the fire alarm center ceases, as this is an automated functional test of Fire detectors of the fire alarm system allows. It is particularly advantageous that the Functional test of the fire alarm panel takes place for each individual detector and the Function test is centrally logged. It is particularly advantageous that at a faulty fire detector, which is detected during the automated functional test, automatically a maintenance service is notified.

Also particularly advantageous is a fire detector, wherein the fire detector is designed such that at least one test device which enables a functional test of the fire detector, is adjustable via at least one interface of the fire detector. In particular, it is advantageous that the interface of the fire detector has a switchable output, in particular a switchable contact, and / or that over the interface optionally at least one Display device and / or the test device is adjustable and / or that the fire detector is designed such that the fire detector, the test device in response to signals of the Fire alarm panel sets.

Furthermore, a test device, which is a functional test of at least one fire detector allows, particularly advantageous, wherein the test device is designed such that the Test device of the fire detector is adjustable. It is particularly advantageous that the Test device is spatially separated from the fire detector and / or stationary and / or that the test apparatus with at least one bus of the fire alarm system, in particular a power supply bus, is connected and / or that the power supply the test device is at least partially via the bus and / or that the test device having an energy store, wherein the energy store is preferably rechargeable.

Further advantages will become apparent from the following description of exemplary embodiments with reference to the figures and from the dependent claims.

drawing

The invention will be described below with reference to the embodiments shown in the drawing explained in more detail.

• Figur 1 eine Übersichtszeichnung der Brandmeldeanlage des ersten Ausführungsbeispiels,
• Figur 2 eine Übersichtszeichnung der Brandmeldeanlage des zweiten Ausführungsbeispiels.

Show it:

• 1 shows an overview drawing of the fire alarm system of the first embodiment,
• Figure 2 is an overview drawing of the fire alarm system of the second embodiment.

Description of exemplary embodiments

Below is a fire alarm system with fire detectors and fire detectors assigned, fixedly mounted test devices described. The tester enables the function test of the fire detectors. The fire detector has an interface by means of which the fire detector adjusts the test device via the interface. Further becomes a fire alarm and a test device for functional testing of a fire alarm described.

Fire detectors for use in professional fire alarm systems partly have a switchable electrical output, which is used for the control of separate Display devices is provided. These displays will normally used when the fire alarm is installed in a non-visible place. Examples For non-visible places are shelves or ventilation ducts. This allows, at one viewable location not far from the fire alarm, if this fire alarm an alarm has triggered. For fire detectors, which have a bus system, such as the local Safety Network (LSN) of Robert Bosch GmbH, with the fire alarm panel Typically, this switchable output is communicated from the fire panel controlled and is therefore independent of the alarm state of the fire alarm switchable. This as c-point output designated control output of the fire detector is in the hereinafter described fire alarm system used to test the stationary Control test device for functional testing of the fire detector. The fire alarm panel Performs a detector-specific, automatic function test of the fire detectors. Becomes determined that by the associated test device (fire detector test system) of the Fire detector can not be triggered, then the fire alarm panel directly Maintenance service notified and / or the faulty fire detector the operating personnel of Fire alarm panel displayed.

1 shows an overview drawing of the fire alarm system 1 of the first exemplary embodiment, consisting of a fire detector 2, a test device 3 and a connection of the fire detector 2 with the test device 3 via the c-point output 6 of the fire detector 2. In the first exemplary embodiment, a plurality of fire detectors 2, wherein in Figure 1, only one fire detector 2 is shown by way of example, connected via a bus 9, which is designed in two-wire technology, with a fire alarm panel. The bus 9 has two lines a and b. In the first embodiment, the bus 9 is a combination of communication bus and power bus. The individual fire detectors 2 as bus subscribers have a constant power consumption for the operation. Power fluctuations are used for information transmission. In the preferred embodiment, the fire detector 2 is an optical smoke detector, which operates on the scattered light principle. The fire detector 2 is attached to the ceiling 5. In the first embodiment, the stationary, so stationary, but spatially arranged by the fire detector 2 tester 3 is also mounted on the ceiling 5 and connected to the bus 9. The connection of the test device 3 to the bus 9 serves to feed the test device 3 from the bus voltage. The sequence of the functional test of the fire detector 2 will be explained below. The fire panel initiates the functional test of a first fire detector 2 by the first fire detector 2 is selected via the bus 9. The fire detector 2 controls the stationary test device 3 via the c-dot output 6, which is designed as an open-collector output. As a result, the current consumption of the test apparatus 3 changes from a current I ₁ , for example 0 mA, to I ₂ , for example 30 mA. The test device 3 generates a flue gas cloud 4, for example a flue gas and / or an aerosol, which is preferably blown by a blower to the fire detector 2. It is ensured that the current consumption of the test device 3 changes only from the c-point output 6 of the fire detector 2 from a constant value I ₁ to a second constant value I ₂ . In the next step, the fire panel waits a pre-defined time within which a correctly functioning fire detector 2 must detect an alarm condition and must have triggered an alarm. If the fire detector 2 triggers and sends an alarm message to the fire alarm control panel, the functional test was successful. If the fire detector 2 does not trigger, then there is an error. Subsequently, the fire panel sends a corresponding command to the inspected fire detector 2, so that the c-point output 6 of the fire detector 2 is deactivated and thus the stationary test device 3 of fire detector 2 is turned off. The current consumption changes from I ₂ to I ₁ . The functional test is continued according to the described procedure with further fire detectors 2 of the fire alarm system until all fire detectors 2 have been tested. In the first embodiment, the fire panel is set before the fire detector check in a revision state. This prevents that the fire brigade is automatically alerted by the functional test. Furthermore, the fire alarm panel logs the test carried out and / or the fire alarm panel displays the result of the test.

FIG. 2 shows an overview drawing of the fire alarm system 1 of the second Embodiment, consisting of a fire detector 2, a test device 3 and a Connection of the fire detector 2 with the test device 3 via the c-point output 6 of Fire detector 2. In this second embodiment, the bus 9 consists of a Communication bus 7 with two lines a and b and a power bus 8 with also two lines + U and 0V. The power supply bus 8 is used for the transmission of Energy by providing a voltage + U to OV. This tension + U is carried on the second wire pair (+ U, 0V). The auxiliary voltage + U becomes For example, for the operation of display devices (signalers), such as horns and / or Warning lights, used. In the second embodiment, this voltage + U on the Power supply bus 8 used to supply the stationary test device 3. There both the signal transmitter and the stationary test device 3 from the fire panel Controlled, it is excluded that by simultaneous operation of multiple consumers too much energy is taken from the power supply bus 8. Further, Figure 2 shows the Installation of the fire detector 2 and the test device 3 on a ceiling 3. The operation the individual components, such as the generation of the smoke gas cloud 4, corresponds to the first embodiment described.

In another embodiment, the bus is a DC line technology based bus used. This bus can not command from the fire panel be transferred to the fire alarm or back. This bus is also in two-wire technology executed, with all elements connected to the bus a constant current consumption to have. Usually, this bus has up to 32 elements connected to the two-wire line connected, the end of the line is terminated via a resistor. One Element is a fire detector. The power consumption of all 32 elements, preferably 0.1 mA per element, together is always smaller than the one flowing through the terminating resistor Electricity. A wire break is detected by the fact that the current flowing through the line a falls below a certain minimum value. If a fire detector goes into alarm, it raises his Power consumption so strong that this clearly from the fire panel on the Stub line outside the alarm state flowing quiescent current can be distinguished. If one of the two bus lines is looped through the element and is located in the Element a switch, with which this bus line can be opened, then the element can generate a fault message at the fire alarm panel by opening the switch. At This bus is used in this embodiment according to the first embodiment a stationary test device connected. This ensures that the Power consumption of the tester always, so in particular even if the tester activated by the fire detector, has a constant very low power consumption. There No commands are sent from the fire panel to the fire detector on this bus the test device is automatically activated by the fire detector. If at the Design of the fire detector as optical fire detector of the fire detector during the test no Test smoke or no aerosol in the measurement volume recognizes, for example, an error of Sensor, which is to detect the smoke is present and / or the measuring chamber is clogged, so the fire detector opens a line of DC line technology bus by means of a switch and thereby generates a fault message to the fire panel. The exam will be in This embodiment at regular intervals by the individual fire detectors without Initiation carried out by the fire alarm panel. In another variant, the Generation of the test aerosol requires a greater power requirement than is available from the bus can be made. Therefore, an energy storage is arranged in the test apparatus, the Required energy in the tester caches. The additional middle one Current load of the DC line technology bus is thereby kept low. alternative or in addition, the fire detector test is therefore carried out at great intervals, for example, months.

In a variant of the described embodiments, the fire detector has a Interface, whereby the fire detector sets the test apparatus via the interface, wherein the transmission via the interface electrically and / or optically and / or by radio he follows. Alternatively or additionally, the interface of the fire detector has at least one switchable contact on. Alternatively or additionally, the fire detector is designed such that optionally at least one display device, for example a horn, via the interface and / or at least one test device is adjustable.

Another variant provides that the fire alarm alternatively or in addition to the optical smoke detector at least one temperature sensor and / or at least one having chemical sensor. The testing device alternatively or additionally comprises means to cause an alarm triggering temperature increase in the fire alarm and / or a alarm-triggering exposure of the fire detector to a chemical substance guarantee.

Claims (13)

Fire alarm system comprising at least one fire detector and at least one test device, which allows a functional test of the fire detector, characterized in that the fire detector has at least one interface, wherein the fire detector adjusts the test apparatus via the interface. Fire alarm system according to claim 1, characterized in that the test device is associated with the fire detector, wherein the test device is preferably arranged spatially separated from the fire detector and / or stationary. Fire alarm system according to one of the preceding claims, characterized in that the fire detector adjusts the test apparatus such that means of the test device, which ensures a functional test of the fire detector, are activated and / or deactivated, wherein the means of the test apparatus are preferably designed such that the means so come into operative connection with the fire detector that detects the correct function of the fire alarm this alarm condition. Fire alarm system according to one of the preceding claims, characterized in that the interface of the fire detector has at least one switchable output. Fire alarm system according to claim 4, characterized in that the switchable output is at least one switchable contact and / or at least one open-collector output. Fire alarm system according to one of the preceding claims, characterized in that the fire detector is designed such that optionally at least one display device and / or the test device is adjustable via the interface. Fire alarm system according to one of the preceding claims, characterized in that the fire alarm system comprises at least one bus, wherein the fire detector and / or the test device are connected to the bus. Fire alarm system according to claim 7, characterized in that the power supply of the test device is at least partially via the bus. Fire alarm system according to one of claims 7 or 8, characterized in that the bus comprises at least one communication bus and at least one power supply bus, wherein the test device is preferably connected to the power supply bus. Fire alarm system according to one of the preceding claims, characterized in that the test device has an energy store, wherein the energy store is preferably rechargeable. Fire alarm system according to one of the preceding claims, characterized in that the fire alarm system comprises a fire alarm panel, wherein the fire detector is designed such that the fire detector adjusts the test device in response to signals from the fire alarm panel. Fire detector, in particular for use in a fire alarm system according to one of the preceding claims, characterized in that the fire detector is designed such that at least one test device that allows a functional test of the fire detector is adjustable via at least one interface of the fire detector. Test device which allows a functional test of at least one fire detector, in particular for use in a fire alarm system according to one of claims 1 to 11, characterized in that the test device is designed such that the test device is adjustable by the fire detector.

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