DE19621851C2 - Method and device for fighting fires by discharging a liquid from an outlet under pressure - Google Patents

Description

The invention relates to a method for fire control by atomizing a liquid from a Outlet opening under pressure.

Fires are usually fought by taking under Pressurized liquid in the form of a fire Beam is fed. This is essentially through a complete extinguishing of the flammable substances achieved. Because of the comparatively strong, spatial Concentration of a liquid jet flows a large part the liquid ineffective; therefore become large liquid quantities needed, e.g. B. in buildings, damage to judge. Other desired effects like displacing oxygen supply, cooling and above all neutralization of z. B. Brandga sen come because of the unfavorable ratio of surface for volume with the extinguishing method mentioned not to bear.

It is also known to have a limited fluid to expose an explosion so that the liquid suddenly covers the entire source of the fire. With more suitable Arrangement of the liquid supply also leads to a loosening extinguish the fire, but there is a flare of fire  cannot be excluded with certainty and the arrangement of the Liquid stocks require comparatively cumbersome and also dangerous preparations.

From the DE company brochure Oertzen, fire extinguishing with High pressure water dust, from November 10, 1988 it is knows, fire with finely atomized water under maximum pressure Clear. The maximum pressure is there by means of a plunger Pump manufactured. Such a device is due to the required maximum pressure pump very large and also very heavy. As a result, the possible uses are particularly in Very limited in terms of flexibility. A sol ches device can practically only be transported with vehicles and usually not in a burning building to take. This means that long hose lengths are required. The Pump is powered by a gasoline engine. Such a Petrol engine is prone to failure. This in turn diminishes the reliability of the extinguishing device.

The invention is therefore based on the object known fire fighting procedures by discharging a Liquid coming out of an outlet under pressure hend to improve and expand that with very little Liquid supply in a simple way everywhere and with low equipment effort effectively deleted and neutral can be siert, so also under influence on possibly flaming fire.

This object is achieved in that a delete and Liquid with neutralizing effect from at least a nozzle is sprayed with a compressed gas.

It is important for the invention that the liquid is not used massively, but ver sufficiently fine divides in the form of droplets or fog. By the spray The liquid can be targeted to the source of the fire be fed. The fire site is covered extensively and the fire goes out extensively. Here are only small amounts of liquid needed, the targeted be used. As a result, that's through the liquid  The damage done is practically negligible. The Mixing the compressed gas with the liquid ensures a optimal coverage of the fire source by non-combustible. There the invention is based on the knowledge that Liquids such as B. water, sprayed under very high Press, behave completely differently than usual splashed liquids under low pressure. Due to the Droplet distribution results in a large droplet surface che, which cools. This creates an immediate large area cool effect. Due to the subsequent evaporation Another cooling effect arises because the formation of the reverse deprives you of further energy. That when the droplets evaporate As a further effect, the resulting gas displaces impact the oxygen the fire needs. As a result the fire immediately suffocates and a protective wall forms between free oxygen atmosphere and fire. The fine distributed liquid and the evaporation Gas bind and neutralize combustion gases and other pollutants fe particularly effective. Through the large surface of the rivers Liquid in the form of a droplet mist also becomes effective of a neutralizing additive to the extinguishing liquid reinforced. As a result of the immediate cooling and keeping away from Fire gases result in new extinguishing options. In particular in particular, the impairment of fire victims is reduced, experience has shown that they suffocate before they burn. When it comes to high-pressure spraying of the compressed gas, this is what it does achievable different size of the droplets of importance because the larger droplets transport the smaller ones sweep away, so that despite the spraying a comparison wise long throw results.

It is particularly advantageous if what as liquid ser is used. Water is readily available and has good properties Deletion properties and dissolves many different types of damage fabrics.

When liquid is an aqueous solution of a damage Substances used to neutralize can extinguish liquid in terms of its properties on a spe specific application. If at one  Fire z. B. strong acids are formed or released, it is sensible to use a buffer solution in water. Thereby extreme PH values are buffered.

Advantageously, compressed air or Nitrogen used. Both gases are available on an industrial scale bar, therefore inexpensive and can also be provided by pressure sources Location can be easily generated when a high pressure gas source pressure pump or a compressor is used.

The process is carried out particularly advantageously by spraying a liter of water with an excess pressure of at least 50 atm through the nozzle to form a droplet mist for more than 40 m ^{2 of} extinguishing area. This results in an optimum extinguishing effect with a minimum of water and thus with a minimum of destructive effects of the water at the source of the fire. The water increases its volume by around 1640 times, which means a cooling or extinguishing volume of 1,640 liters with 1 liter of sprayed water.

The invention also relates to a device for Firefighting with a liquid, with a liquid storage container with an outlet opening for the liquid and with one the liquid towards to the outlet opening pressurizing pressure source, the the liquid in the reservoir below such a high It is able to put pressure out of at least one Nozzle can be sprayed as a droplet mist.

Such devices are common as fire trucks known. They spray the liquid with the help of a jet elaborate funding facilities and are always be disadvantageous that the carried liquid supply for übli fires are not sufficient. So that the vehicles are sufficient they must move quickly and be sufficiently erasable be oversized and very powerful. Nevertheless the liquid supply you carry often doesn't matter, e.g. B. when used as a fire engine in the airport area.

The invention is based on the object  such fire fighting devices with a river to improve liquidity with very little Liquid supply easily deleted and neutral can be siert, so also under influence on possibly flaming fire.

This object is achieved in that as a pressure source a source of pressurized gas is present, which the liquid in To put the reservoir under such a high pressure What is possible is that they come out of at least one nozzle as droplets is sprayable.

It is important for the invention that the liquid can be sprayed from a nozzle into a droplet mist. The is achieved by compressed gas with which the liquid of the Put the storage container under the desired high pressure is. The liquid has a very large extinguishing effect speed or the liquid sprayed into a droplet mist speed. As a result, the device is not only very effective sam, but the fluid supply can also be adjusted accordingly be kept low. It is easily possible that Storage container and the pressure source together into one device train that not only in terms of driveability is, but also portable. He has such a device Significantly improved range of uses. It can easily be trained as a fire extinguisher for an unlimited period is maintenance free. It can be used as a rescue device when driving fire are used, e.g. B. in cars, buses and in Airplanes or airport fire engines. Furthermore, it can effective in finding people to save in burn the objects are used, such as. B. in fires in residential systems, in business premises or in public buildings. The device can then also serve to protect the rescuers move in burning objects.

An appropriate design of the device is there achieved by that a hose is attached to the reservoir is closed, which has the nozzle. It is then possible the spray nozzle because of its low mass easily and quickly to be able to move while the storage container with the on it  attached compressed gas source not to be moved needs what for quick fire or rescue operations can be such.

It is particularly useful if the device is designed that the storage container is portable, and that the compressed gas source releasably connected to the reservoir is. The detachable connection between the reservoir and the compressed gas source allows optimal pairing to be achieved. At for example, a single source of pressurized gas can be used in succession several reservoirs can be connected to their rivers spray liquid supply. There can also be pressurized gas sources different high pressures are used, as well Pressurized gas sources, each with different pressurized gas are filled, such as compressed air or nitrogen.

A further advantageous embodiment is thereby achieved that the reservoir is designed as a handle is that with a pressure designed as a compressed gas cartridge gas source is assembled via a valve housing, the egg NEN valve control lever to control the passage of the has pressurized liquid in the nozzle. A such device is particularly light and easy to handle and assign the individual functional groups as ever because independent components, each made slightly to be exchanged and combined. You can can be brought together as a kit to un to be able to meet different requirements.

If the reservoir and the compressed gas source in one container that can be transported by a vehicle are used as a self-sufficient extinguishing unit with ver equally large storage container and large operating radius possible. Such an extinguishing container can be used for repair work are used in hazardous areas, e.g. B. at Schweiss work in tank systems or chemical warehouses. With a longer one A fire truck can be set up by a fire guard Fire containers to be replaced.

Another advantageous embodiment of the invention  is achieved in that a training as a compressed gas cartridge dete compressed gas source, the reservoir, one with a electronically controllable valve pressurized pressure line from the compressed gas source to the storage container and a smoke and Fire detector, which is connected to the Control electronics of the valve is connected to a station wagon nation device are assembled. Such a device can simply used as a fire protection device and upgraded the. It is also in hard to reach or narrow places install, e.g. B. to keep escape routes clear as Si Security for air conditioning systems, cable ducts or transformers Investments.

It also makes sense if the smoke and fire has an acoustic warning device.

When the reservoir is installed in a vehicle is, there are a variety of possible uses ing invention feasible.

Is at least one nozzle permanently installed in the vehicle and connected to the reservoir via a supply system In the interior of vehicles, fires can very quickly and be extinguished without major water damage. Especially in iso The cooling effect of the present Er carries the interiors to protect people.

If nozzles are installed in the interior of an aircraft is the protection of aircraft occupants from fire and hit guaranteed exposure. Through the effective use of the Liquid, the weight of the supply to be carried is low and contributes comparatively little to the total weight of the flight stuff.

It also makes sense when inside a ship Nozzles are attached. For example, one with three Chen network provided with nozzles on escape routes, in Maschi rooms, installed on fuel tanks or air conditioning systems become. With tankers can also be considered of the permissible pressure a pipe system for the Reini  system of the tanks with who is involved in the extinguishing system the.

Use as a mobile extinguishing unit with an extended Ak tion radius is made possible by the fact that at least one nozzle installed on the outside of the vehicle. It is possible that Attach nozzle substantially rigid to the vehicle and by moving the vehicle.

It also makes sense if at least one nozzle ends on a swiveling and / or telescopic boom a vehicle or on a nozzle suspended from the boom body is attached. Such an outrigger can take one with have numerous nozzles equipped head and can be remotely controlled be pivotable in the vertical and horizontal plane. Thereby alignment of the nozzle is possible without the vehicle must be moved.

In this context it makes sense if the nozzles Are part of a nozzle head that is stable against Bean spells when puncturing parts of the building, e.g. B. from Tü windows with shutters and light brickwork or shelves work is.

The present invention is advantageous as stationary Re extinguishing insert can be used if the storage container and a Supply system, which the liquid at least one stationary nozzle feeds, stationary in a building instal are. The invention can for example in the manner of a Sprinkler system via an electronically controllable trigger be automatically coupled with a smoke and fire detector. This will allow early extinguishing without major water damage.

The invention is based on Darge in the drawing presented embodiments explained.

It shows:

FIG. 1a is a schematic representation of a device for fire fighting with a liquid,

FIG. 1b is a particularly handy, another embodiment of the device according to the invention,

Fig. 2 is a schematic representation of a Löschcontai agent according to the present invention,

Fig. 3 is a schematic illustration of an invention retrofittable fire protection device according to the present,

Fig. 4 is a perspective view of an open sections NEN aircraft fuselage with a plurality of nozzles,

Fig. 5 shows a longitudinal section through a tanker ship with several nozzles, and

Fig. 6 is a schematic view of a fire truck with boom.

In Fig. 1a, a reservoir 13 for a liquid speed 10 is shown. In the neck 18 of this storage container 13 , a connection fitting 19 is inserted, which has a pressure pipe 20 with which the liquid 10 is fed to a discharge port 21 . At this discharge port 21 , for example, a hose or a nozzle is connected, with which the liquid can be sprayed. The nozzle has the suitable configuration known for spraying.

In order to be able to put the liquid under pressure, and to be able to discharge it through the pipe 20 , a compressed air supply line 22 is provided which has a discharge valve 23 which can be operated with a handwheel 24 , so that the passage of compressed gas can be closed or opened by a compressed gas connection 25 in the filling area 26 above the water 10 .

The connection 25 is used for the pressurized gas-conducting connection to a pressure source 14 in the form of a pressurized gas bottle in which pressurized gas 12 is present. From the pressure source 14, the pressurized gas 12 can flow 27 and passes via a compressed gas output 28 and a coupling piece 29 to the terminal 25 after opening the closure valve.

In Fig. 1b, a particularly handy device is Darge provides, in which the liquid can be accommodated in the reservoir 13 configured as a handle. Before storage container 13 and a pressure gas cartridge designed as a compressed gas cartridge 14 are built together with a valve housing 16 , in which a valve valve, not shown in detail, is housed, which has a valve control lever 17 with which the spraying of the water can be regulated. At the valve housing 16 , a hose 15 is ruled out, which has at its end a nozzle 11 with which water 10 in the form of droplets 30 can be sprayed.

FIG. 2 shows an extinguishing container which has runners on its underside and which is equipped with two compressed gas cartridges 12 on its upper side. The container 30 is designed as a cuboid storage container. Tubes 15 are shown on the two opposing end faces, which are wound on a drum. At the ends there are nozzles or spray guns.

Fig. 3 shows a fire protection device as Kombinati onsgerät 33rd It consists of a pressurized gas source 14 , which is connected to the reservoir 13 , and a Drucklei device 32 , which uses the pressurized gas cartridge 14 and the reservoir 13 . This compressed gas line 32 is closed by an electronically controllable valve 31 . This valve 31 is opened via a smoke and fire detector, not shown, so that the reservoir 13 is pressurized and the liquid is sprayed out of the nozzle 11 .

Fig. 4 shows the interior of an aircraft 35 with several ren nozzles 11 , from which liquid emerges and the interior of the aircraft is essentially completely covered. In the exemplary embodiment, the nozzles 11 hang together via a tube. They are arranged in the longitudinal direction of the aircraft.

Fig. 5 shows a longitudinal section through the hull of a tanker 36 with a plurality of nozzles 11. The liquid emerges from the nozzles 11 in every spatial direction.

Finally, in Fig. 6 a fire truck 34 is Darge, which has a telescopic boom 37 . In the exemplary embodiment shown, the nozzles 11 are attached to the head of the boom 38 in a hanging manner. Fighting an aircraft fire is indicated as an example of use in FIG. 6.

Claims (22)

1. A method for fire fighting by atomizing a liquid ( 10 ) from an outlet under pressure, characterized in that an extinguishing and neutralizing effect liquid ( 10 ) from at least one nozzle ( 11 ) with a compressed gas ( 12 ) is sprayed ver. 2. The method according to claim 1, characterized in that water is used as the liquid ( 10 ). 3. The method according to claim 1, characterized in that an aqueous solution of a pollutant neutralizing substance is used as the liquid ( 10 ). 4. The method according to any one of claims 1 to 3, characterized in that compressed air or nitrogen is used as the compressed gas ( 12 ). 5. The method according to any one of claims 1 to 3, characterized in that a high pressure pump or a compressor is used as the pressure gas source ( 14 ). 6. The method according to any one of claims 1 to 5, characterized in that one liter of the liquid ( 10 ) with egg nem pressure of at least 50 atü is sprayed through the nozzle ( 11 ) to form a droplet mist for more than 40 m ^{2 of} active area. 7. Fire-fighting device with a liquid ( 10 ), with a liquid ( 10 ) having a storage container ( 13 ) with an outlet opening for the liquid ( 10 ) and with a pressure source that pressurizes the liquid in the direction of the outlet opening, which is able to put the liquid ( 10 ) in the storage container ( 13 ) under such a high pressure that it can be sprayed out of at least one nozzle ( 11 ) as a droplet, characterized in that the liquid ( 10 ) has an extinguishing and neutralizing effect points, and that a pressure gas source ( 14 ) is present as the pressure source. 8. The device according to claim 7, characterized in that a hose ( 15 ) is connected to the reservoir ( 13 ), which has the nozzle ( 11 ). 9. The device according to claim 7 or 8, characterized in that the storage container ( 13 ) is portable and that the compressed gas source ( 14 ) is detachably connected to the storage container ( 13 ). 10. Device according to one of claims 7 to 9, characterized in that the reservoir ( 13 ) is designed as a handle which is assembled with a compressed gas source designed as a compressed gas cartridge ( 14 ) via a valve housing ( 16 ) which has a valve control lever ( 17 ) for controlling the passage of the pressurized liquid ( 10 ) into the nozzle ( 11 ). 11. The device according to one of claims 7 to 10, characterized characterized in that they are trained as fire extinguishers is. 12. The apparatus according to claim 8, characterized in that the storage container ( 13 ) and the compressed gas source ( 14 ) are installed in a container ( 30 ) which can be transported by a vehicle. 13. The apparatus according to claim 7, characterized in that a pressure gas source designed as a compressed gas cartridge ( 14 ), the reservoir ( 13 ), with an electronically controllable valve ( 31 ) acted upon Drucklei device ( 32 ) from the compressed gas source ( 14 ) to the reservoir ter ( 13 ) and a smoke and fire detector, which is connected via an electrical line to the control electronics of the valve ( 31 ), are assembled into a combination device ( 33 ). 14. The apparatus according to claim 13, characterized in  that the smoke and fire detector is an acoustic warning has direction. 15. The apparatus according to claim 7, characterized in that the storage container ( 13 ) is installed in a vehicle. 16. The apparatus according to claim 15, characterized in that at least one nozzle ( 11 ) is installed in the vehicle and is connected to the reservoir ( 13 ) via a supply system. 17. The apparatus according to claim 16, characterized in that a plurality of nozzles ( 11 ) in the interior of an aircraft ( 35 ) are attached. 18. The apparatus according to claim 16, characterized in that a plurality of nozzles ( 11 ) in the interior of a ship ( 36 ) are attached. 19. The apparatus according to claim 15, characterized in that at least one nozzle ( 11 ) is installed on the outside of the vehicle. 20. The apparatus according to claim 19, characterized in that at least one nozzle ( 11 ) attached to the end of a pivotable and / or telescopic boom ( 37 ) egg nes vehicle ( 34 ) or on a boom ( 37 ) suspended nozzle body ( 38 ) is. 21. The apparatus according to claim 20, characterized in that the nozzles ( 11 ) are part of a nozzle head which is stable against stresses when penetrating parts of the building. 22. The apparatus according to claim 7, characterized in that the storage container ( 13 ) and a supply system, which supplies the liquid ( 10 ) to at least one stationary nozzle ( 11 ), are installed in a building in a stationary manner.