EP0911774A2 - Space monitoring sensor - Google Patents

Abstract

The spatial monitoring sensor has smoke and temp. sensors (2,3) operating on different physical principals integrated in a common housing and one or more interfaces (8,13) for connection to a fire alarm (7) and/or building control (11) centre for transferring the sensor measurement signals. One or more sensors are deployed and the measurement signal ranges (4,5,8,13) are selected to enable continuous measurement value detection, processing and/or transmission over the entire conventional range of monitored parameters up to the hazardous region.

Description

The invention is directed to a room surveillance sensor with integrated in a common housing according to different smoke and working physical principles Temperature sensors as well as with one or more interfaces for connection to a fire alarm and / or building control center for the transmission of the sensor measurement signals.

Automatic fire detectors are often equipped with smoke sensors built up, which operates according to the light barrier principle in an atmosphere filled with smoke Transmittance of a light beam is reduced, which of a light sensitive element is detected and an alarm triggers. However, it has been shown that in rooms which not heated or air-conditioned at night, considerable Temperature fluctuations can occur, causing dew to build up the lenses of such an optical smoke sensor can result in refraction and / or (partial) absorption of the measuring light beam. This can also Transmittance can be significantly reduced, so that sometimes False alarms are triggered. To the through the unnecessary Deployment of the fire brigade is lower therefore already two with different, physical Principles operated sensors integrated in a fire detector an alarm is only triggered when both Sensors matching danger in the decorative measured values deliver. For example, a heat sensor can be used as the second sensor become. Furthermore is in such a fire alarm often include a preprocessing assembly, both of which Sensor readings linked together and a sum alarm signal generated. Because of this complex construction such a largely false alarm-proof fire detector much more expensive than a single smoke alarm. One and only Benefit, namely that false alarms are avoided naturally not perceived by operators, and there is a further benefit in such complex fire detectors cannot be realized, these are technically mature Products have so far been used tentatively in practice.

These disadvantages of the known prior art result the problem initiating the invention, one with two to further develop hazard detectors equipped with one or more sensors, that the high manufacturing costs by an additional Benefit can be caught.

To solve this problem, the invention provides a generic Room surveillance sensor that one or more Sensors designed in this way and the relevant measurement signal area (s) is (are) chosen such that a continuous Measured value acquisition, processing and / or forwarding over the entire normal range of monitored Size (s) up to the danger zone. Here is therefore next to the actual danger zone, in which also known multisensors for the purpose of generating a Alarm signal, also the usual range of the monitoring quantities recorded. This means that, for example Heat sensor also temperatures below the usual Room temperature, for example, from 0 ° C, or from - 10 ° C or below are detectable. With a smoke sensor, this does not mean that only a significant absorption, as caused by thick smoke is caused, but already minimal air turbidity, which can be caused, for example, by cigarette smoke, is detected to monitor the air quality in a room. By making the measurement values generated in this way either directly or indirectly via the fire alarm center to the building automation can be forwarded there, corresponding Measures are taken, for example the air conditioning or heating readjusted or a ventilation device switched on to the monitored quantities at specified target values to stabilize. This allows the elaborate and therefore expensive measured values also obtained for an improvement in the indoor climate can be used, with additional Sensors are now unnecessary. Through this saving of additional sensors can increase the cost of more complex fire detectors. This will it is possible to be more reliable without significant additional costs Use fire detectors and avoid false alarms.

It is within the scope of the invention to use sensors with a short Use response time, so that the rise times of Measured values can be transferred exactly. This has the advantage that in a fire alarm and / or building control center also a dynamic evaluation of the incoming signals is possible. E.g. can a sudden rise in temperature even a few degrees better and above all earlier Indicate a fire as a gradual rise in temperature, the malfunction of the heating system, for example. Like. Is attributable.

By combining with other sensors, e.g. for moisture or movement, the false alarm security and the possible application of a room surveillance sensor according to the invention can be further increased. So can a moisture sensor For example, provide a positive indication that a Condensation on the optical lens system of a smoke sensor fear. A motion detector can provide additional information about whether smoke development, for example Can be attributed to smokers. Such can also be Use additional information for climate control, a motion sensor in particular being used for this can determine the presence of people in a room and then the temperature setpoint of the air conditioning or heating system to raise a few degrees.

It is within the scope of the invention that at least one Interface meets fire protection requirements. Since the primary application of the invention The sensor is located in the fire detection area, requires the use of a room surveillance sensor according to the invention in a prescribed by building authorities and / or insurance companies Fire alarm system compliance with legal requirements, especially at the interfaces.

On the other hand, it is recommended that at least one interface the requirements for building management installation buses corresponds. The building control center can be used for climate control necessary measured values either via the fire alarm control panel received or by a direct coupling of the concerned room monitoring sensor to an installation bus of the building management system. For the latter case a corresponding interface on the room monitoring sensor to be available.

The invention is further characterized by one or more Digitization modules for the transmission of the measured values as digital values. Such a signal transmission is more accurate and reliable than a transmission of analog measurement values.

The invention further provides one or more multiplex modules for transmission of the measured values in multiplex technology in front. This makes it possible to use a single, for example Connection made two-wire line the measured values of several Transfer sensors, so the installation effort is further reduced. Such a building block can also be designed as an intelligent communication module, from a fire alarm and / or building control center a specific address is addressed and then the measured value transmits one or more sensors.

It is also possible to use one or more modulation modules for modulating a carrier frequency with the measured values to use. As a result, the transmission capacity and -Quality and thus the reliability of the system be improved.

Finally, it corresponds to the teaching of the invention, a microprocessor to control the communication of the sensors with of the connected center (s). This microprocessor can also simultaneously evaluate the different Transfer measurement signals from the existing sensors be as well as deciding whether an exceptional case the intervention of the fire alarm or building control center required. In such a case, further provision can be made be that the microprocessor to send an emergency call prompted the relevant center to do the same so early is informed of the exceptional situation as possible and appropriate countermeasures can be initiated.

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. This shows in the single figure Block diagram of a room surveillance sensor according to the invention.

The core of the room surveillance sensor 1 according to the invention is a smoke sensor 2, for example after an optoelectronic Principle works, as well as a temperature sensor 3, for example. is constructed as a semiconductor sensor. These sensors are according to the invention designed such that their output signals 4, 5 within a wide range of monitored, physical Size are proportional to the monitored size. E.g. The temperature sensor 3 can also be temperatures around or even below of the freezing point exactly, while the smoke sensor 2 already recorded the slightest cloudiness of the room air. This However, high sensitivity can be achieved with a simpler one Embodiment also limited to one of the two sensors be.

The output signals 4, 5 of the sensors 2, 3 become a processing module 6 supplied, the signals on one specified range, e.g. 0 ... 10 V or 4 ... 20 mA, or which comprises one or more analog-digital converters, around the signals 4, 5 of a digital further processing to make it accessible.

In the simplest configuration of an inventive Room monitoring sensor 1 can in particular be analog current or Voltage signals for forwarding to a higher-level Fire alarm center 7 issued at an interface 8 become.

In addition, in the room surveillance sensor according to the invention 1 an intelligent module 9, for example a microprocessor, be installed, the two, processed 6 sensor signals 4, 5 evaluates, possibly linked to one another and possibly can generate an emergency call to the fire alarm center 7. This microprocessor 9 can also be used to create a To control communication module 10, which is also optional is.

The communication module 10 can have its own intelligence be equipped and, for example, from the fire alarm center 7 addressable memory locations in which the processed 6 sensor measurement signals 4, 5 for a query by the Fire alarm center 7 are provided. At a purely analog implementation without a microprocessor 9 can Communication module 10, for example, one or more modulation modules to use the different measured values different carrier frequencies over the same two-wire line 8 to be transmitted to the fire alarm control panel 7.

Due to the large measuring range, the measured value signals 4, 5 also interesting for a building control center 11. This can the corresponding measured values 4, 5 either through communication 12 procure with the fire alarm control panel 7 or them communicates directly, i.e. via its own Interface 13 with the room surveillance sensor according to the invention 1 to get the information you need first hand receive.

With a direct connection to both the fire alarm control panel 7 and to a building control center 11, it is up to the intelligent Module 9, if available, to decide whether and what kind of exceptional situation exists. Signal For example, both sensors 2, 3 a fire hazard, an emergency call sent 8 to the fire alarm control panel 7, on the other hand senses only the temperature sensor 3 an increase in Room temperature, a corresponding message can be sent to the building control center 11 to be issued 13.

Claims (10)

Room surveillance sensor (1) with smoke (2) and temperature sensors (3) integrated in a common housing, working according to different physical principles, and with one or more interfaces (8, 13) for connection to a fire alarm (7) and / or building control center (11) for transmitting the sensor measurement signals (4,5), characterized in that one or more sensors (2, 3) are designed in this way and the measurement signal area (s) (4,5) 8.13) is (are) selected such that continuous measurement value acquisition, processing and / or forwarding is possible over the entire, usual range of the monitored variable (s) into the danger zone. Room surveillance sensor according to claim 1, characterized in that the measuring range of the temperature sensor (3) begins below the usual room temperature, for example at 0 ° C. Room monitoring sensor according to claim 1 or 2, characterized in that the sensors (2, 3) have a short response time in order to reproduce the rise times of the measured values in an unadulterated manner. Room monitoring sensor according to one of claims 1 to 3, characterized by further sensors, for example for moisture and / or movement. Room surveillance sensor according to one of the preceding claims, characterized in that at least one interface (8) corresponds to fire protection requirements. Room monitoring sensor according to one of the preceding claims, characterized in that at least one interface (13) meets the requirements for building management installation buses. Room surveillance sensor according to one of the preceding claims, characterized by one or more digitizing modules (6) for transmitting (8, 13) the measured values (4, 5) as digital values. Room surveillance sensor according to one of the preceding claims, characterized by one or more multiplex modules for transmitting (8, 13) the measured values (4, 5) in multiplex technology. Room monitoring sensor according to one of the preceding claims, characterized by one or more modulation modules (10) for modulating a carrier frequency with the measured values (4, 5). Room monitoring sensor according to one of the preceding claims, characterized by a microprocessor (9) for controlling the communication (8, 13) of the sensors (2, 3) with the connected center (s) (7, 11).

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