NL1008969C2 - Water based fire extinguisher with two gas bottles uses one gas bottle to propel water and the other to form flow of water into fine spray - Google Patents

Abstract

When the handgrips (6) of the extinguisher (1) are squeezed together both gas bottles are pierced. The gas from the first bottle provides pressure on the water (3) in the cylinder and propels it up the siphon tube (7) to the mixing chamber (13). Gas from the second bottle (11) is mixed with The water to form a fine spray. The spray of droplets is ejected via the flexible pipe (9) and the nozzle (8), onto the seat of the fire.

Description

PROCESS FOR EXTINGUISHING A FIRE

The invention relates to a method for extinguishing a fire, wherein an extinguishing agent is sprayed under pressure from a nozzle in the direction of the seat of the fire.

Such a method is generally known. The known method involves a hand-operated, portable fire extinguisher, wherein an extinguishing agent in the form of water is kept in a cylindrical container and, when used from a nozzle, which is arranged on one end of a hose connected to the cylindrical container, is sprayed in the direction of the seat of the fire 15. In order to allow the fire extinguishing water to leave the fire extinguisher under pressure, the known method uses a gas cartridge located in the cylindrical container, in which a compressed propellant gas is arranged. This compressed propellant is able to expel the extinguishing water from the fire extinguisher under high pressure within a few seconds. Carbon dioxide (CO2) is used as the propellant. A drawback of the known method is that the extinguishing water is sprayed from the fire extinguisher used therewith in a very short time, which period of time proves to be too short for a person who has not been trained to do so in practice. extinguish adequately. For instance, a known fire extinguisher with a capacity of 9 liters has been found to be emptied in about 28 seconds, while a 6-liter capacity appears to have been emptied even after 21 seconds. These periods are so short that only trained persons can effectively fight a (starting) fire. It will be clear that a fire can often not be extinguished in the specified time periods, with all the resulting (life) dangerous consequences. Moreover, the drawback of the known method is that, because of the above effect, in practice several fire extinguishers often have to be used one after the other, which entails the use of large quantities of extinguishing water. Such abundant water consumption is not only inefficient, but is also very environmentally harmful, since the extinguishing water generally contains environmentally unfriendly extinguishing additives.

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It is the object of the invention to obviate the drawbacks of the prior art and for this purpose a method of the type stated in the preamble according to the invention has the special feature that a compressed gas with a predetermined pressure in a mixing chamber upstream of the The nozzle is fed to the extinguishing agent, after which the extinguishing agent is sprayed in drops towards the seat of the fire downstream of the nozzle. Extensive research has surprisingly shown that mixing the extinguishing agent (preferably water) with the compressed gas (preferably air) in the mixing chamber sprays the water downstream of the nozzle in a mist of drops towards the seat of the fire 25. The fire-extinguishing effect of the water / compressed air mixture emerging from the nozzle and the resulting finely divided water droplets is particularly great. The compressed air provides, as it were, the speed at which the masses of water droplets move, resulting in an optimum impulse at the water droplets. All this allows a normal user to have sufficient time to extinguish a fire adequately, without using an abundant, inefficient amount of water with all kinds of harmful effects on the environment. The aforementioned water droplets have a surface, which has an increased cooling effect on the

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3 has a seat of the fire.

In a preferred embodiment of a method according to the invention, the pressure of the compressed gas is at least 3 bar, in particular at least 5 bar, more in particular at least 8 bar. In particular, the pressure of the compressed gas is adjustable, preferably even stepless. By mixing the extinguishing agent in the mixing chamber with thus pressurized gas, a finely divided mist of, for example, water droplets is obtained, whereby optimum use is made of as little water as possible, without compromising the fire-extinguishing effect.

In a further preferred embodiment of a method according to the invention, the pressure of the extinguishing agent is adjustable, preferably infinitely variable. This makes it possible to adapt the droplet shape and size and the extinguishing agent / compressed gas ratio 20 to the conditions of the fire to be controlled. Ideally, the pressure of the extinguishing agent can be controlled independently of the pressure of the compressed gas.

In a further preferred embodiment of a method according to the invention, the pressure of the compressed gas and the pressure of the extinguishing agent are adjusted in a ratio varying between 1: 3 and 3: 1.

The ability to control the pressure of the compressed gas and / or the pressure of the extinguishing agent described above plays a particularly important role in industrial fire extinguishers, such as, for example, fire engines and the like.

As already indicated, the compressed gas is preferably selected from the group of air, carbon dioxide (CO2) or nitrogen (N2), or a mixture 1008969 4 thereof. The extinguishing agent is preferably a liquid, in particular water. It is preferable to spray the extinguishing agent in drops distributed in the direction of the seat of the fire over a distance smaller than the distance at which the extinguishing agent becomes turbulent downstream of the nozzle. It has been found that the mist of drops will become turbulent at a certain distance with respect to the nozzle, whereby there is no longer a question of, for instance, a water jet, but in which the water drops "float", as it were. The water droplets then no longer have an "impulse", so that they can hardly extinguish fire.

The invention also relates to a device 15 for carrying out a method according to the invention, with the special feature that it is provided with a mixing chamber, at least one nozzle connected thereto, and means for supplying a pressurized substance upstream of the nozzle standing extinguishing agent and of a compressed gas with a predetermined pressure. In particular, the nozzle is located in a wall of the mixing chamber, which mixing chamber is preferably constricted in the direction of the nozzle. The latter has the advantage that a mist of, for example, fine water droplets can leave the mouthpiece with great force, while moreover an optimum mixing of water and, for example, compressed air is effected.

In a preferred embodiment of a device according to the invention, means are provided for controlling the pressure of the compressed gas, preferably steplessly, as well as for means for controlling the pressure of the extinguishing agent, preferably steplessly, in particular independent of the pressure of the compressed gas.

1 008969 5

The aforementioned supply means of a fire extinguisher according to the invention are at least substantially formed by a first container for the extinguishing agent connected to the mixing chamber, a second container for the compressed gas also connected to the mixing chamber at the predetermined pressure, and also by a third container for a compressed propellant gas connected to the first container for expelling the extinguishing agent under pressure in the direction of the mixing chamber. The second and third containers are preferably formed as one gas cartridge, which will be explained in more detail below with reference to the figure description.

The invention will be further elucidated with reference to figures shown in a drawing, in which figure 1 shows a schematic vertical longitudinal section of a fire extinguisher according to the prior art; Figure 2 corresponds to figure 1 with the proviso that there is a preferred embodiment according to the invention; and Figure 3 corresponds to Figure 2, in which there is another preferred embodiment. 25

Figure 1 distinguishes a known, manually operable, rotatable fire extinguisher 1 consisting of a cylindrical container 2 filled with water 3 acting as an extinguishing agent, and of a gas cartridge 4 placed in the container 2, in which carbon dioxide gas 5 is applied under pressure. Optionally, the extinguishing water 3 is diluted with extinguishing additives that increase the extinguishing effect of water. When using the known fire extinguisher device 1, a safety lock (not shown) must first be unlocked, after which the compressed carbon dioxide gas 5 serving as propellant 1008969 6 is released from the gas cartridge 4 by squeezing handle parts 6. As a result, the water 3 will leave the cylindrical container 2 by means of a riser 7, after which it will be sprayed in the direction of the seat of the fire via a nozzle 8, which is arranged at one end of a straightening hose 9 connected to the cylindrical container 2. The opening through which the carbon dioxide gas 5 is released into the container 2 is indicated by 10.

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Figure 2 relates to a preferred embodiment of a fire extinguisher 1 according to the invention, parts corresponding to those of figure 1 being indicated with the same reference numerals. In particular, parts 1 to 10 now have the same function as in the known fire extinguisher of figure 1. The fire extinguisher 1 shown in figure 2a further comprises a second container or gas cartridge 11 filled with compressed air, carbon dioxide gas or nitrogen gas 12. Furthermore, a mixing chamber 13 is provided, in which, in use, the extinguishing water 3 forced out of the cylindrical container 2 - as a result of the carbon dioxide gas 5 driven off from the gas cartridge 4 - is mixed with the compressed air 12 escaping from the gas cartridge 11. The air 12 incidentally reaches the mixing chamber 13 via channel 14, while the water 3 arrives there via the riser 7. This mixture of water / compressed air is then forcefully ejected from the nozzle 8 in the form of 30 drops onto the seat of the fire.

Figure 3 refers to another preferred embodiment of a fire extinguisher 1 according to the invention, in which parts corresponding to those of Figures 1 and 2 are indicated with the same reference numbers and therefore have the same function.

Both gas cartridges 4 and 11 have now been replaced by an enlarged gas cartridge 15 filled with compressed carbon dioxide gas 5. This gas serves both to expel the extinguishing water 3 and to mix it with this water 3 in the mixing chamber 13, for which purpose the gas the extinguishing water 3 can expel via opening 5 if the mixing chamber 13 can be reached via channel 14.

1008969

Claims (14)

1. A method of extinguishing a fire, wherein an extinguishing agent is sprayed under pressure from a nozzle towards the seat of the fire, characterized in that a compressed gas with a predetermined pressure in a mixing chamber upstream of the nozzle to the extinguishing agent. is supplied, after which the extinguishing agent is sprayed in droplets downstream of the nozzle in the direction of the seat of the fire. 2. A method according to claim 1, wherein the pressure of the compressed gas is at least 3 bar, in particular at least 5 bar, more in particular at least 8 bar. A method according to claim 1 or 2, wherein the pressure of the compressed gas is adjustable, preferably continuously adjustable. 20 A method according to claim 1, 2 or 3, wherein the pressure of the extinguishing agent is adjustable, preferably continuously adjustable. A method according to any one of claims 1 to 4, wherein the pressure of the compressed gas is controllable independently of the pressure of the extinguishing agent. A method according to any one of claims 1 to 5, wherein the pressure of the compressed gas and the pressure of the extinguishing agent are adjusted in a ratio between 1: 3 and 3: 1. 35 The method of any one of claims 1 to 6, wherein the compressed gas is 1008969 selected from the group consisting of air, carbon dioxide (CO2) or nitrogen (N2). A method according to any one of the preceding claims 1 to 7, wherein the extinguishing agent is at least substantially selected from water. Fire extinguishing device for carrying out a method according to any one of the preceding claims 1 to 8, characterized in that it is provided with a mixing chamber, at least one nozzle connected thereto, and means for feeding into the mixing chamber upstream of the nozzle. a pressurized extinguishing agent and of a compressed gas at a predetermined pressure. Fire extinguishing device according to claim 9, wherein the supply means are at least substantially formed by a first container 20 for the extinguishing agent connected to the mixing chamber, a second container for the compressed gas also connected to the mixing chamber at the predetermined pressure, and also by a third a compressed propellant gas connected to the first container for expelling the extinguishing agent under pressure towards the mixing chamber. Fire extinguisher according to claim 10, wherein the second and the third container form one container. 30 Fire extinguisher according to claim 9, 10 or 11, wherein the nozzle is located in the wall of the mixing chamber. Fire extinguisher according to any one of the preceding claims 9 to 12, wherein the mixing chamber narrows in the direction of the nozzle. 1008969 Fire extinguishing device according to any one of the preceding claims 9 to 13, wherein means are provided for regulating the pressure of the compressed gas, preferably steplessly, as well as means for controlling the pressure of the extinguishing agent, preferably steplessly. control, in particular independent of the pressure of the compressed gas. 1008969