DE19850564A1 - Fire detection comprises use of fire alarms incorporating electrochemical and/or semiconductor gas sensors - Google Patents

Abstract

The origin and progress of the fire is detected and followed by one or more fire alarms (8) incorporating one or more electrochemical and semiconductor gas sensors (1,2) of the same or different design, which identify one or more different types of gas. The origin and progress of the fire is detected and followed by one or more fire alarms (8) incorporating one or more electrochemical and semiconductor gas sensors (1,2) of the same or different design, which identify one or more different types of gas. An Independent claim is also included for a system for fire detection, comprising ionization smoke detectors and flame detectors. The system has electrochemical sensors for CO (1) and HCN (2), a semiconductor gas sensor (3) for the detection of flammable gases, a temperature sensor (4), smoke gas detectors (5), a microprocessor (6), a data storage system (7), fire alarm (8), a fire extinguishing system (9), and a display system (10).

Description

The invention relates to a method and a device for early detection and for complex assessment of fires such as open and covert fires or smoldering fires, in particular also from bulk or otherwise stored goods, already in their development phase.

In buildings, public facilities, industrial plants and Warehouses, but also in private households, are built annually Million damage from the outbreak of fires. Such fires will be often due to carelessness of people, negligence in dealing with flammable substances or technical defects, such as defective electrical ones Leads caused.

Initials such as glowing particles or flying sparks are encountered flammable substances, this often leads to inflammation of further flammable ones Materials in their environment.

Smoldering fires usually occur in one place or are in several Ignition initials scattered over several places.

Usually a longer period of time is then required to get out of one Smoldering or smoldering open fire.

With the classic fire detection systems based on flame or Smoke detectors do not become such smoldering fires in their development phase recognized.

Only speak to them through the appearance of flames or smoke Sensor systems equipped fire detectors and can one Trigger the alarm and activate an extinguishing system.

Valuable time is lost when it comes to the early detection of a fire used for fire fighting and rescue purposes  could, with early fire fighting also with considerable less damage to property can be expected.

It is common knowledge that the first signs of the emergence of a Fire, often in the emission of gases, especially from substance-dependent carbonization gases.

Be in a smoldering fire during this pyrolysis process material-specific, gaseous products in different Concentrations released.

These include carbon monoxide (CO), hydrogen (H ₂ ), methane (CH ₄ ) as well as long-chain saturated and unsaturated hydrocarbons and sulfur compounds.

In the course of further fire development and with increasing temperature, the emission of products from complete combustion, such as CO ₂ and H ₂ O, increases.

In the beginning phase of a fire, in small part Concentrating gases are caused by the use suitable gas sensors are detected early. This makes people quickly get alarmed and suitable fire-fighting equipment used.

Using gas sensors to detect fires, in particular hidden smoldering fires, is from the patent literature known.

For example, EP 0 608 483 A1 discloses a method and a device for determining the risk of fire and explosion from open or covered fires, in which the gas development of substances is determined by at least two semiconductor gas sensors which react differently to gases due to their basic resistance behavior is evaluated, preferably using SnO ₂ sensors.

The different resistance behavior of the sensors is due to different operating temperatures supported and by exploitation different physical processes can be achieved.

Various gases that characterize a dangerous situation are emitted by several semiconductor resistance sensors with fundamentally different ones Resistance properties detected.

If a dangerous situation occurs due to gas formation, a Alarm triggering in cases where the measured values of the sensors are one critical range of values exceed or previously stored critical patterns are detected.

The focus of this known invention is early detection of gases by semiconductor gas sensors, especially for the Fire detection in dusty rooms.

Applications of semiconductor sensors for Gas detection in smoldering fires have the disadvantage that moisture in different concentrations and a high cross sensitivity of Interfering gases have a significant impact on the reliability of the Practice measurement results and not with a constant one Sensitivity can be expected. In addition, the number of means Semiconductor sensors detectable gas types quite limited. Semiconductor sensors have a very high power consumption, up to to reach several 100 ° C operating temperature. In addition, the catalyst layer of semiconductor sensors due to occurrence some substances, such as silicones, lead, phosphates and sulfur-containing Connections decomposed so that the function is no longer guaranteed. Other compounds such as hydrogen sulfide and halogenated Hydrocarbons are the catalyst of the semiconductor sensors absorbs and lead to a significant reduction in sensitivity.

The in many areas of industry, households and public Existing fire hazards are of various types and make a flexible, sensory adapted to the type of hazard Concept required.  

The determination of the fire-specific gases, gas concentrations and their The time course is of great importance for an early warning system in fire protection Importance.

Pyrolysis gases that are quickly released during the development of a fire are often toxic even in low concentrations and form a primary one Danger to humans and animals.

The present invention is therefore based on the object To create procedures and a facility, which an early and selective detection of the gases which characterize the occurrence of a fire is permitted and their use in the environment of various substances and / or Reliable gas concentration measured values. This task is accomplished by the in the characterizing part of the first Characteristics specified solved.

Advantageous embodiments of the invention are in the subclaims specified.

The originating of an emerging fire and the course of the fire characteristic gases (pyrolysis gases) are made up of one or more Fire detectors with one or more electrochemical gas sensors detected, with several electrochemical gas sensors of the same or different types for detection of the same or different Gas types can be used.

Also through various suitable controls of the electrochemical Sensors can be different types of gas within certain limits detect.

Electrochemical gas sensors record gaseous substances when they are react in an electrochemical cell or in the cell influence ongoing reactions.

Electrochemical cells consist of at least two electrochemical cells Half cells. A half cell in turn consists of an electrolyte and one Electrode.  

Toxic gases are measured in so-called three-electrode Systems, with a working reference and counter electrode, which by an electrolyte are conductively connected together.

For example, a gas to be detected passes through a hydrophobic one Diffusion capillary from the working electrode in the electrolyte.

The electrode has a gas-specific electrocatalytic layer. If there are traces of the gas to be detected, one occurs Three-phase reaction in which the gas component is converted.

The corresponding counter reaction takes place at the counter electrode of the cell instead of.

By varying the electrocatalytic layer of the electrode, the achieve suitable selectivity for the detection of different types of gas.

Use the fire detectors used in the device according to the invention one or more different electrochemical sensors (measuring cells) for the determination of toxic gases and oxygen.

For this purpose, one or more identical or different electrochemicals Gas sensors integrated in a fire detector and with a microcontroller connected to evaluate the sensor signals.

Fire detectors with electrochemical sensors are able to do so themselves lowest gas concentrations up to the ppm range selectively detect.

A preferred embodiment of the invention consists in the additional Arrangement of one or more semiconductor gas sensors for Fire detection. These can be used together with the electrochemical Sensors integrated in a fire detector or arranged separately his.

A further advantageous embodiment of the invention consists in the additional arrangement of one or more temperature sensors, which  also integrated in the fire detector or in its immediate vicinity can be arranged.

With the help of those determined in the immediate vicinity of the fire detector Temperature values and one in its microcontroller or an external one central processing unit implemented intelligent control logic (software) can temperature influences on the electrochemical Compensate for fire detector sensors.

In addition to the detection of the gases that characterize the occurrence of fire fire detectors with electrochemical sensors also cover this Determination and evaluation of further fire parameters in the area of Invention.

The additional arrangement of suitable sensors, such as ionization and Scattered light or transmitted light smoke sensors, temperature sensors or Radiation sensors for IR or UV radiation allow more Fire parameters to be determined promptly and also in terms of data technology to process. It doesn't matter whether these sensors are included the electrochemical sensors integrated in the fire detectors (sensor array) or whether they are arranged separately.

By the detection of one or more the occurrence of fire characteristic gas components by means of electrochemical sensors a certain, variably adjustable time period can be disturbed Industrial environments, such as outgassing substances or as much as possible in the home through smoking or cooking compensate.

That of the electrochemical - and the other sensor elements Detected fire parameters are digitized and stored in a memory filed.

Memory and evaluation circuit (microcontroller or microprocessor) can be both in the fire detector and / or in the Computer unit of a fire alarm control panel can be arranged.  

With the data stored in one or more memories, the Track the course of the sensor signals and an automated one Implement zero point adjustment or sensitivity adjustment.

About the temporal consideration of the concentration course of one or of several gases and their derivation as well as the temporal view the smoke aerosol density and the temperature rise and their comparison with the sample tables previously created in fire tests or Algorithms, is a reliable identification of a fire in the short term possible.

The data processing of all identified fire parameters and the concentration curves of the gases then convey a comprehensive one Image of the current course of the fire.

A particular advantage of the invention is the ability to Selection of suitable sensors in connection with a computer unit To set up fire detectors, which alarm early and valuable Relays information on the type and condition of the fire.

The fire detectors with the appropriate display means are displayed the measured gas concentration.

LC displays can preferably be used here.

With the integration of further sensor types, in addition to gas concentrations other gases also other fire parameters with the display of the Show fire alarm. Appropriate means of selection are required intended.

The method according to the invention enables the targeted introduction of Countermeasures such as B. the use of an effective for the fire Extinguishing media or the warning of people in the danger area before toxic pollution of identified fire gases.  

In contrast to electrochemical fire detectors tend to Scattered light principle working fire detectors due to contamination the measuring chamber to false alarms.

Ionization detectors have a very high sensitivity and react to them visible and invisible aerosols, so that false alarms also occur here can come.

By linking to one or more suitable gas sensors, can control the sensitivity of sensors sensitive to smoke and the false alarm rate can be reduced.

In a further preferred embodiment of the invention, the Linking and evaluation of the various sensor signals and the Determination of the degree of danger with an expert system and / or one Fuzil logic. The expert system or the fuzil logic are software-wise in the microcontroller of the fire detector or a central / decentralized one Computer unit implemented.

The invention will now be based on a drawing in one Embodiment will be explained in more detail.

Fig. 1 shows a schematic representation of the inventive device for fire detection with a fire detector.

The device according to the invention for fire detection shown in Fig. 1 consists essentially of one or more fire detectors 8 , which are equipped with one or more sensors 1-5 , a microcontroller 6 and a data memory 7 , at least one sensor of a fire detector as an electrochemical gas sensor is trained.

The electrochemical gas sensor 1 integrated in the fire detector 8 is designed for the detection of carbon monoxide (CO) and comprises a measuring range of approx. 300 ppm with a resolution of 0.5 ppm. A second electrochemical gas sensor 2 integrated in the fire detector 8 serves for the detection of hydrogen cyanide (HCN) with a measuring range of 50 ppm and a resolution of 0.5 ppm. It is used specifically to detect toxicity in plastic fires.

With a semiconductor gas sensor 3 , particularly flammable gas-air mixtures and hydrocarbons (CxHy) can be detected. Due to the very low detection limit, semiconductor gas sensors are ideally suited for use in potentially explosive areas.

A temperature sensor 4 and a flue gas and / or radiation sensor 5 are also integrated in the fire detector 8 . The temperature sensor 4 serves on the one hand to compensate for the temperature behavior of the other sensors 1 to 3 and on the other hand provides temperature measurements of the current fire situation. The flue gas and / or radiation sensor 5 provides additional valuable information about the fire, particularly in a more advanced fire phase.

The sensors 1 to 5 are connected to a microcontroller 6 and a data memory 7 via an A / D converter.

The fire detector 8 is either itself equipped with a display 10 for displaying fire parameters or other information relating to the fire, or these are displayed via a fire alarm center 9 .

The extinguishing system, not shown, is connected centrally via the fire alarm control panel 9 or directly to the fire detectors 8 of a fire detection line. The connection between the fire detectors 8 installed in the surveillance area and the fire alarm control panel 9 is made here using 2-wire technology.

Measurement data are continuously transmitted using a standardized 4 to 20 mA interface. Alternatively, up to one hundred fire detectors 8 can be operated on one fire detection line.

The fire detectors 8 have extensive safety functions, such as sensor control, voltage and program sequence monitoring. The sensor is calibrated via an additional device as a menu-guided one-man calibration or an automatic, electronic calibration is carried out.

The fire detector 8 is housed either for indoor use in a plastic ceiling housing or in a robust industrial housing that is also suitable for outdoor use.

The components of the fire detection device according to the invention procedurally interact as follows.

In the event of a fire, gases (pyrolysis gases, smoldering gases) of the ignited substances first form. This happens long before smoke aerosols occur or a temperature increase can be detected by means of temperature sensor 4 .

In addition, these gases have a molecular structure and spread due to their im Relative to smoke aerosols very small mass much faster in Room volume.

The carbon monoxide that usually occurs first in this phase of the fire is therefore detected early by the electrochemical gas sensor 1 .

Via the analog-digital converter, the sensor signals of sensors 1 to 5 are recorded continuously or at adjustable time intervals, evaluated by microcontroller 6 and written into data memory 7 .

Using the data in the data memory 7 , slowly changing sensor signals, which are not caused by a fire but are caused, for example, by sensor aging or environmental influences, can be compensated for.

The carbon monoxide concentration determined in the vicinity of the fire detector 8 by means of the electrochemical gas sensor 1 leads to the triggering of an alarm when a predetermined limit value is exceeded or when a concentration increase rate is exceeded.

Limit values and rates of concentration increase are determined in accordance with the local conditions of the monitoring area and the type of fire hazard and are stored in the data memory 7 of the microcontroller 6 .

The alarm is forwarded to the fire alarm control center 9 , evaluated and displayed. Depending on the implementation and design of the alarm program (s) in the computer unit of the fire alarm control center 9 , the extinguishing system (not shown) is activated immediately or after evaluation of further fire alarm data.

Before the extinguishing system is activated, acoustic and / or optical signals can also be activated Alerts are issued. Vulnerable people in This gives the surveillance area the opportunity to get out in time remove the danger zone.

With the combination of electrochemical gas sensors of different types 1 , 2 and / or with a gas sensor 3 operating according to another ( 3 ) measuring principle according to the invention, further information about the fire and its ambient conditions can be determined, such as the temperature profile, the smoke development and the concentration increase more toxic Gases.

The hydrogen cyanide released during the combustion of plastics is detected by the electrochemical gas sensor 2 and its concentration profile is evaluated with the aid of the microcontroller 6 or in the fire alarm control center 9 .

As the fire develops and the temperature increases, the emission of products from complete combustion, such as CO ₂ and H ₂ O, increases.

Such combustion products and / or the increase in the concentration of combustible gases, in particular hydrocarbons, are reliably detected by the semiconductor gas sensors 3 integrated in the fire detector.

The detection of other types of gas and their concentration curve over time provide valuable information about the type of fire and fire development, so that an intelligent evaluation of the gas sensor signals for the selection an extinguishing agent suitable for fire fighting or other selective fire fighting measures can be used.

The signal from the temperature sensor 4 transmits the current temperature profile in the detection range of the fire detector 8 and is used to compensate for the temperature influence on the gas sensors 1 to 3 .

An integration of smoke gas sensors 5 (ionization smoke sensors) and / or radiation sensors 5 (optical radiation sensors, IR, UV) in the fire detector 8 provides further information on fire development, in particular in a more advanced phase of fire development.

The microcontroller 6 processes essentially all of the signals coming from the sensors 1 to 5 , in particular also the sensor signals for the conventional fire parameters, such as heat ( 4 ), smoke ( 5 ) and infrared and ultraviolet radiation ( 5 ), and links them to form a complex state function of fire development.

The intelligent evaluation of data from multiple sources Sensor data enable more reliable detection and compensation of disturbance variables that can simulate a fire, so that False alarms are largely excluded.

This ensures early and safe control of the extinguishing system possible.

Another task of the microcontroller 6 is to monitor, adjust and calibrate the sensors 1 to 5 and their wiring. The corresponding values are also stored in the data memory 7 .

The control of the LC display of the fire detector 8 and / or a decentralized or central display device 10 as well as warning messages to the fire detection control center 9 to improve personal protection are likewise carried out by the microcontroller 6 . The microcontroller 6 can also be designed as a programmable logic arrangement or as a microprocessor.

It also falls within the scope of the invention not to integrate the various sensors 1 to 5 into a fire detector 8 , but to arrange them separately from one another.

The signal storage and evaluation then takes place in one Fire alarm control panel or in decentralized facilities.

The main advantages of the invention are the possibility of a early fire detection, which usually leads to a reduction in the Fire and extinguishing agent damage to property leads and dangers of Turns away people.

The fire detectors used are based on electrochemical sensors and the additional arrangement of further, according to different measuring principles working sensors and their common signal evaluation and intelligent processing not only allow the selection of suitable ones Extinguishing media, but also provide information on the properties of the burning substances, such as the gas concentrations of various gases, etc. In Combined with a fuzzy logic and corresponding databases further information, such as the recommended type of protective mask or the expected heat development for use by the fire brigade to disposal.

The invention allows a more precise assessment of the current Incendiary.  

Reference list

1

Electrochemical gas sensor for CO detection

2nd

Electrochemical gas sensor for HCN detection

3rd

Semiconductor gas sensor for Cx Hy detection (detection of flammable gases)

4th

Temperature sensor

5

Flue gas sensor / radiation sensor (ionization, scattered light sensor / optical radiation sensor)

6

Microcontroller / microprocessor

7

Data storage

8th

Fire alarm

9

Fire alarm control panel (extinguishing system)

10th

Display, display of fire parameters, information about the fire and warning messages

Claims (15)

1. A method for detecting open or hidden fires or fire nests in industrial plants, public facilities and in the domestic area, characterized in that the gases emanating from an emerging fire and characterizing the course of the fire from one or more fire detectors ( 8 ) with one or more electrochemical Gas sensors ( 1 , 2 ) are detected, several electrochemical gas sensors ( 1 , 2 ) of the same or different types being used to detect the same or different types of gas. 2. The method according to claim 1, characterized in that the fire and the course of the fire characterizing different gas types with the aid of gas sensors based on different measuring principles, in particular electrochemical and semiconductor gas sensors ( 3 ) are detected. 3. The method according to claim 1 or 2, characterized in that the temperature influences on the gas sensor or sensors ( 1 , 2 , 3 ) are compensated for by temperature measurements of a temperature sensor ( 4 ) mounted in the immediate vicinity of the gas sensors. 4. The method according to one or more of claims 1 to 3, characterized in that in addition to measuring fuel-specific gas concentrations also others, the emergence and course of the fire Characteristic fire parameters measured and evaluated especially the smoke development, the temperature curve and the radiation values, in particular from the infrared and the Ultraviolet range. 5. The method according to one or more of the preceding claims, characterized in that one or more gas components characterizing the development phase and / or the course of a fire are detected, digitized and stored over a period of time (t), the storage and processing of the signals in one or more fire detectors ( 8 ), which have at least one microcontroller ( 6 ) with memory unit ( 7 ) and / or are connected to a decentralized or central computer unit, and the dangerous situation depends on the gas concentration and on the temporal increase in the gas concentration is determined and evaluated. 6. The method according to claim 5, characterized in that the background concentration of the gases typical of the fire and the course of fire is detected at pre-adjustable time intervals and the sensitivity of the gas sensors ( 1 , 2 , 3 ) is adjusted accordingly. 7. The method according to claim 6, characterized in that the evaluation of all sensor signals is carried out by an electronic computer unit, which is in particular also arranged in one or more fire detectors ( 8 ) or centrally or decentrally and for determining the degree of danger a fire-typical combination of the sensor signals with an expert system ( 9 ) and / or a fuzzy logic evaluation and / or by comparison with sample tables or stored algorithms. 8. The method according to claim 7, characterized in that the information determined and evaluated about the fire and / or fire parameters, such as the type of fire, the type of gas characterizing the fire, the type of materials caught fire and additional information on the choice of extinguishing agent and / or on existing hazards to persons, etc to a permanently manned position, such as the control center of a fire brigade, transmitted and displayed and / or saved by means of a display ( 10 ). 9. Device for the early detection of open or hidden fires or fire nests in industrial plants, public facilities and in the home, consisting of one or more fire detectors ( 8 ), at least one fire detector ( 8 ) one or more gas sensors ( 1 , 2 , 3 ), characterized in that the gas sensor or sensors are designed as electrochemical gas sensors ( 1 , 2 ) of the same or different types, with which different types of gas which characterize the occurrence and course of the fire can be detected. 10. The device according to claim 9, characterized in that gas sensors, which work according to different measuring principles, are used, in particular electrochemical gas sensors ( 1 , 2 ) and semiconductor gas sensors ( 3 ). 11. The device according to claim 9 or 10, characterized in that, one or more gas sensors of the same or different design are integrated in a fire detector ( 8 ) to detect different types of gas characterizing the fire. 12. The device according to claim 11, characterized in that in addition to the gas sensors further sensors ( 4 , 5 ) of different types, such as ionization and / or scattered light and / or transmitted light smoke sensors and / or temperature sensors ( 4 ) and / or radiation sensors ( 5 ) are integrated in the fire detector ( 8 ), which enables a complex assessment of the fire situation. 13. The device according to one or more of claims 9 to 12, characterized in that the fire detector (s) ( 8 ) via a computer unit ( 6 ) (microcontroller or microprocessor) for receiving, processing and / or transmitting the from the sensors ( 1 to 5 ) coming signals to a decentralized or central computer unit (fire alarm control center) ( 9 ) and at least one data memory ( 7 ). 14. The device according to claim 13, characterized in that the fire detector (s) ( 8 ) are equipped with a display device ( 10 ), in particular with an LC display for displaying the measured gas concentration. 15. Device according to one or more of the preceding Claims, characterized in that to activate an extinguishing system and / or an alarm system is used.