EP0848967A2 - Apparatus for extinguishing fires - Google Patents

Abstract

The layout is used for extinguishing a fire in a space (1) in a building or vehicle, which is fitted with fire-detection sensors (8) and extinguishing equipment. Partitioning equipment is arranged in passages (1,2) or shafts which can conduct air, and consists of at least one bag (10-16) which can be inflated. The space which is at risk from fire is equipped with at least one cavitation nozzle (4,5,6,7) for spraying an extinguishing agent, such as a liquid. The partitioning equipment and the nozzles can be triggered by the sensors. The airbags may be connected to a compressed-air supply network, or may have a pyrotechnic gas generator in the central bag.

Description

The invention relates to an arrangement for extinguishing fires the preamble of claim 1.

Usual arrangements for. Extinguishing fires order from sprinkler systems, the sensor controlled a room in which a fire was found under water put. Other arrangements provide for a room that is at risk of fire Add carbon dioxide to suffocate the band hearth. In addition to carbon dioxide are still known halons that achieve the same effect.

The object of the invention is to provide an arrangement for extinguishing fires, in which the dangers or damage from extinguishing for people and material are as small as possible. The arrangement should be a simple one Have structure and be inexpensive.

The invention solves this problem according to the characterizing features of claim 1. Advantageous developments of the invention are the dependent claims refer to.

According to the invention, with the extinguishing method, every conceivable fire is possible in any environment to delete. Collateral damage, d. i.e., damage not caused by fire, but occurring through deletion are minimized. This is also the inhibition threshold, use the deletion process, very deep. In addition, the cost of Installation, use and consumables of the extinguishing system low and the Handling the extinguishing system is easy.

Fig. 1

einen Brandherd in einem Raum in einer Ansicht von oben,

Fig. 2

einen Querschnitt II- II nach Fig. 1,

Fig. 3

eine Einzelheit III nach Fig. 2,

Fig. 4, 5

Kavitationsdüsen und

Fig. 6

Tropfenbildung der Düsen nach den Fig. 4 und 5 in einem Diagramm.

Embodiments of the invention are shown in the drawing. It shows:

Fig. 1

a source of fire in a room in a top view,

Fig. 2

2 shows a cross section II-II according to FIG. 1,

Fig. 3

a detail III of FIG. 2,

4, 5

Cavitation nozzles and

Fig. 6

Drop formation of the nozzles according to FIGS. 4 and 5 in a diagram.

A room 1 has two entrances 2, 3 and is one in the corner area Cover with a cavitation nozzle 4 to 7 and also with a central on the Ceiling of the room (not shown) arranged sensor 8 for smoke or Provide fire alarm. The room 1 and the entrances 2, 3 have different Built-in components, see also FIG. 2

In the accesses 2, 3 there are inflated air bags 10, 11 with associated auxiliary bags 12, 13 arranged to fill the cross-section.

2 are on the side walls 30 and in the area of the ceiling 31st the access 2 internals, such as pipes 32, shafts 33, 34 for hydraulic or electrical Lines or the like arranged fixed.

In order to seal the access 2 airtight, the airbag 10 has the corresponding Corner areas 35 and the spaces 36 auxiliary bags 12 to 16 on the air bag 10 and the auxiliary bags 12 to 16 are cut so that - different from the schematic representation in Fig. 2 - all gaps and spaces that in the schematic representation are shown visibly, filled in or at least are almost filled.

The airbag 10 and 11 and the auxiliary bags 12 to 16 are made by a stationary Air pressure network - not shown - or by a pyrotechnic gas generator - also not shown - supplied with air or inflated. Here a solution can also be provided in which the air bags 10; 11 each with a gas generator are provided, which then also feeds the auxiliary bags 12 to 16.

Order one between your airbag 10 or 11 and the auxiliary bags 12 to 16 Connection via a valve 17 in the form of a film 18, starting from a certain Pressure within the airbag 10; 11 tears open, so that according to the arrow 19th the auxiliary bag 14 is also inflated, see FIGS. 2 and 3.

The cavitating nozzle or cavitation nozzle 4 to 7 has according to FIGS. 4 and 5 a level 19 on the mouthpiece 20. So that is already at relatively low pressure Cavitation creates.

Another, equivalent effect training is shown in Fig. 5, after which Mouthpiece 21 an aperture 22 is provided.

On the other hand, depending on the medium pressure in the cavitation nozzle 4 to 7 Beam 25 excited so strongly in its resonance frequency that it shortly after leaving the nozzle 4 to 7 burst into small drops 26. The excitement happens through Pressure fluctuations in the nozzle 4 to 7 in the jet 25 due to intentional cavitation be generated.

6 is the water mist consisting of the fine tropics 26 in the diagram with the coordinates 40 for the droplet size of the water drops and the Coordinate 41 for the time represented by the area 42.

Einspritzgesetz", d. h., die zeitabhängige Tropfendurchmesserverteilung kann leicht über das an die Düse 4 bis 7 angelegte Einspritzdruckprofil gesteuert werden. Zum Beispiel liefern unsaubere" Start- und Stoppprofile größere Tropfen 27 entsprechend der Bereiche 43, 44 als der stationäre" Auslegungsteil des Einspritzdruckprofils mit dem Bereich 42.The

Injection law ", ie the time-dependent drop diameter distribution can easily be controlled via the injection pressure profile applied to the nozzle 4 to 7. For example, deliver dirty "start and stop profiles larger drops 27 corresponding to the areas 43, 44 than that stationary "design part of the injection pressure profile with the area 42.

With such nozzles 4 to 7, one obtains with minimal energy input One very narrow drop spectrum of small drops 26 and on the other Side - with a corresponding injection pressure profile - significantly larger drops 27.

In contrast to the conventional nozzles, which have shear stress and surface stability effects work, the cavitation nozzle 4 to 7 has a relatively high Efficiency and a more uniform drop spectrum in at least two Areas 42; 43, 44 of drop size 26, 27.

Due to the exact and complete decomposition of the jet 25 into small drops 26, the sprayed water is almost completely used for extinguishing a source of fire 50, see FIG. 1; you delete Dry ". The usual water damage, consequential damage due to the excess supply of water, which actually does not contribute to the actual extinguishing process, does not occur. With the method according to the invention, sensitive goods such as EDP devices can also be deleted without the known water damage.

Through the water mist due to the small drops 26 according to the regular Working area 42 (FIG. 6), a fine water mist is generated at the source of the fire 50, which provides general heat extraction.

Corresponding to the work areas 43, 44 by appropriate pressure controls in the water supply line or in the nozzles 4 to 7 relative produces large drops. These are relatively high in energy and enable one Penetration on the fire source 50 to cover it.

Since all the water is used effectively, little water is required. At stationary systems for room protection can use the cavitation nozzles 4 to 7 directly be fed from a water supply network. The mass flow and therefore the flow rate of the water in the pipes is so low that the Pipeline losses are acceptable. Storage tank immediately in front of the cavitation nozzles 4 to 7, from which water in, if necessary, for. B., with compressed air the cavitation nozzles 4 to 7 are conveyed can be omitted.

Handheld devices for object protection can, according to the invention, be small and therefore light and be built handy. Its construction is very simple: the water is there the cavitation nozzles 4 to 7 in a flexible sack (not shown), which of Is acted upon externally by the compressed gas. So that the not shown Extinguishers can be used regardless of their orientation.

It is also advantageous that the transport and storage tanks for water are very small. Because of its low mass, this extinguishing system affects the stability of Vehicles such as air, water and land vehicles only a little.

In the event of a fire according to FIG. 1, the air bags 10 to 16 are inflated and blocked then the entrances 2, 3; d. that is, they prevent the fire from spreading further 50 or a spread of the flue gases as well as the supply of atmospheric oxygen. Afterwards or in parallel with this, room 1 in which it burns and / or in the actual source of fire 50 the heat of reaction from a water mist from larger and smaller drops of water 26, 42; 43, 44 withdrawn. The water mist or the drops 26, 27 is generated by the nozzles 4 to 7, the deletion process is triggered by the sensor 8 or an alarm system. The possibly still existing Residual fire can be caused by fire extinguishing personnel using water mist from handheld devices be fought.

Water should be used as the extinguishing medium. Water is non-toxic and chemical neutral, has a heat capacity and a heat of vaporization and is always avaliable. Because of its high density, the movement of water drops relatively little influenced by a gas flow.

With the cavitation nozzles 4 to 7 you get a very low energy consumption narrow drop spectrum of small drops 26.

The pressure required for atomization, in contrast to known methods ( low fog "/" high fog ", Δp = 100 - 1000 bar) work with pressures that are available in every on-board compressed air network (Δp ≈ 6 bar). You can therefore not only use existing installations, you do not have to take special safety precautions.

Laying out such a cavitation nozzle 4 to 7 does not pose any risk if one knows the material properties of the jet and the surrounding medium, here air.

The choice of the extinguishing medium is not on clean "water bound. Salt water, drinking water or water with additives, eg with foam additives to cover the source of the fire, can be atomized in the same way as distilled water.

The air or auxiliary bags 10 to 16 can be provided with an ablation layer be. The geometry of these bags 10 to 16 is in accordance with those to be blocked To design cross sections and are with safety, pressure relief valves for the used Gas, such as air, to interpret carbon dioxide. Lußsäcke of this type are simple under construction and are quick and inexpensive to install or replace. she prevent the supply of atmospheric oxygen to the source of the fire 50 in a simple manner prevent unwanted, uncontrolled and dangerous quickly and safely Spread of smoke and extinguishing gases. The need for extinguishing gas and with it on pressure bottles u. a. favorable on the system costs and the Space requirements and - in vehicles - because of the lower mass advantage on the Stability of vehicles. The inflatable bags 10 to 16 can be inflated with any gas, also with the extinguishing gas. This simplifies the structure of the extinguishing system considerably.

The extinguishing system according to the invention in accordance with the arrangement described have a minimal impact on people, the environment and machinery. For example, one will be in yours Room 1 trapped person not endangered or damaged by the extinguishing. The pressure level in room 1 remains constant. With this come loads of Installations in vehicles, such as aircraft, watercraft, do not open when extinguishing. The The arrangement according to the invention is very simple in structure and operation. It is therefore quick to install, use and test anywhere to control. The consequential damage is minor, since room 1 immediately after the Delete can be entered again. The costs, i.e. maintenance, repair and Operating costs are very low.

Claims (7)

Arrangement for extinguishing fires in buildings, aircraft, watercraft and land vehicles, the rooms of which are equipped with sensors for detecting fires and an extinguishing device,
characterized, that partitioning devices, consisting of at least one inflatable sack (10 to 16) in air-conducting passages (1, 2), shafts arranged in the fire-endangered room (1) at least one cavitation nozzle (4 to 7) for atomizing fire-extinguishing media, such as Liquids are provided
the partitioning devices and the cavitation nozzles (4 to 7) can be triggered by sensors (8). Arrangement according to claim 1,
characterized, that the one or more air bags (10 to 16) are connected to a compressed air network or each have a pyrotechnic gas generator in the central air bags (10, 11). Arrangement according to claim 1,
characterized, that the bag material is provided with a coating, such as an ablation layer, metal layer. Arrangement according to claim 1,
characterized, that the sack (10, 11) is connected to at least one further auxiliary sack (12 to 16) via a valve (17). Arrangement according to claim 1,
characterized, that the cavitation nozzle (4 to 7) has internals (19) or an aperture (22). A method of operating the cavitation nozzle according to claim 1,
characterized, that the cavitation nozzle (4 to 7) can be controlled via an injection pressure profile to generate either small drops (26) or large drops (27). Arrangement according to claim 1,
characterized, that the beam (25) passing through the cavitation nozzle (4 to 7) can be excited with its resonance frequency to generate small drops (26).

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