DE19951886A1 - Fire extinguisher has container with inlet and outlet, distributor, holes, bursting membranes and retainers - Google Patents

Abstract

The inlet and outlet of the extinguisher-container (3) are closed in a non-operating position. The extinguisher agent is discharged by means of an inert, non-toxic gas, with interposition of a buffer volume (5). On the outlet side, a distributor (7) for the mixture of extinguisher agent and propellant gas has a number of holes (8) . One or more bursting membranes (9,10) close the container. Near the holes are retainers for parts of the bursting membranes.

Description

The invention relates to an extinguishing device for suppressing fires. Thus, with the extinguishing device does not extinguish existing and fully trained fires, but after the first flare, the flame should spread to a fire be prevented.

From publication DE 195 44 399 C2, a pyrotechnically operated extinguishing device for suppressing explosions has become known, which uses the environmentally friendly extinguishing agent water and uses the nitrogen (N ₂ ) generated pyrotechnically as compressed gas. However, this extinguishing device is not suitable for use in rooms occupied by people, because in addition to a loud muzzle blast, there is a high impulse of the extinguished extinguishing agent and, in addition, sharp-edged parts of the extinguishing agent container are expelled.

The publication DE 195 46 251 C1 shows a likewise pyrotechnically operated extinguishing gas generator which briefly lowers the O ₂ volume concentration in the fire area below the fire limit by means of inert extinguishing gases (CO ₂ , H ₂ O vapor, N ₂ ) due to its large volume flow . However, the extinguishing gas generator generates a very high gas temperature and a high noise level. This is just as humane as the composition of the gas produced.

Finally, a spray nozzle for fire extinguishing systems is known from DE 44 07 780 A1 have become particularly useful for fighting fires that have already broken out and for Fire cooling phase is suitable.

The present invention is based on the object of an extinguishing device for suppression incipient fires in smaller, occupied rooms or to protect endangered people To develop devices in larger, occupied or accessible rooms, that avoids the human-intolerable properties of known devices.

The task is accomplished in a simple manner by the extinguishing device described in the main claim solved. Advantageous embodiments are the characteristic features of the subclaims refer to.  

The particular advantages of the extinguishing device presented are due to the fact that starting Fires can be extinguished before reaching the maximum flame formation the extinguishing agent and the delivery of the extinguishing agent in the fire area is human-friendly. This includes that the extinguishing agent is non-toxic and that it is expelled from water and Nitrogen existing extinguishing agent without muzzle blast and without the ejection with sharp edges Parts occur, a sufficient amount of the extinguishing agent being released within a short time becomes. The sound level can be easily adjusted by choosing the number and size of the Adjust the outlet openings. Because of the multitude of single beams it will be a good one Atomization achieved over a larger solid angle. The mixing of water with the Propellant causes the extinguishing agent to cool down at a short distance from the extinguisher.

An embodiment of the extinguishing device is simplified schematically in the drawing shown and is described in more detail below. Show it

Fig. 1 shows a section through a quenching device in the basic version,

Fig. 2 is a detailed view of an outlet of the distribution head,

Fig. 3 shows a variant of Fig. 1,

Fig. 4 shows a further variant of FIG. 1,

Fig. 5 shows a variant with compressed gas bypass.

In Fig. 1 a compact extinguisher for fighting fires is shown by resulting in smaller spaces occupied by persons, which is characterized by the fact that the forming itself in the room to be protected flame before reaching its maximum extent is deleted human tolerated. It is also characterized by a simple and compact design, which makes the device easy to assemble and maintain.

In addition to the extinguishing agent container 3, the gas generator 2 generating the compressed gas is mounted inside the housing 1 and is connected via suitable electrical connections 4 to one or more sensors (not shown) for detecting the fire that is occurring. An intermediate space 5 is provided as a buffer volume between the gas generator 2 generating the compressed gas and the extinguishing agent container 3 . On the output side, the housing 1 has a flange 6 for attachment to the wall of the space to be protected. The output end of the housing 1 is formed by the distribution device 7 , which is designed as an approximately hemispherical shell with a plurality of openings 8 .

The compressed gas generator 2 arranged in the housing 1 corresponds to known embodiments of gas generators which are also used for inflating airbags in motor vehicles. Only non-toxic nitrogen (N ₂ ) is generated as the compressed gas. The gas generator 2 is followed by a buffer volume 5 , which serves to weaken the maximum pulse of the compressed gas generated and at the same time to extend the discharge time of the compressed gas. Experiments have shown that dimensioning in which the length of the buffer volume corresponds approximately to its diameter has shown good results.

The pressure gas generated strikes the bursting membrane 9 attached to the inlet side of the extinguishing agent container 3, which breaks when a pressure threshold dependent on its dimensioning is reached. The bursting membranes 9 , 10 , which close off the extinguishing agent container, are designed in such a way that they can only tear open but cannot shear off. Flow and demolition blocks due to free fragments are avoided. The compressed gas flows into the extinguishing agent container 3 and the extinguishing agent, for which water is generally used, mixes with the inflowing compressed gas to form a 2-phase mixture of water and gas. The bursting membrane 10 on the output side then bursts and the water / gas extinguishing agent mixture flows through the openings 8 , which are arranged approximately perpendicular to the surface of the distribution device 7 , in the direction of the fire which is occurring.

The two-phase extinguishing agent produced from atomized water and nitrogen uses the principle two different deletion methods. Firstly, the inert gas nitrogen is used to the volume concentration of oxygen in the fire area briefly below the fire limit of lower about 16 vol.% at 20 ° C. In order to lower the high gas temperature, the compressed gas mixed with the water, due to the large surface of the atomized water rapid cooling to human-compatible values occurs. At the same time forms the atomized  Water is a suitable extinguishing agent, which has properties for fire suppression supplemented with those of the compressed gas.

Fig. 2 shows a detail of one of the openings ( 8 ) through which the gas / water mixture flows. In the example, the opening is designed as a cylindrical bore with a chamfer 12 on the inside. A knife tripod 11 is arranged within the chamfer 12 as a cutting device for the bursting membrane 10 lying against the inner wall of the distribution device 7 . In the event of the extinguishing device being triggered, the bursting membrane 10 on the output side is pressed onto the tip of the knife tripod, breaks open and is slit by the cutting edges of the knife tripod 11 . The parts of the bursting membrane that are created in this way lie against the chamfer 12 , so that the cross section of the bore 8 is not narrowed and no parts separated from the bursting membrane can pass through the bore 8 to the outside. The knife tripod is only one of various options for providing a safety device for free parts of the bursting membranes in the area of the distribution device 7 . The bores 8 are arranged within the distribution device 7 such that their preferred directions cover the entire angular range between the main axis 19 of the extinguishing device and the perpendicular to the main axis.

Fig. 3 shows an extension of the erasing apparatus of Fig. 2. In this case, the container guide devices 13 are in the extinguishing agent tank 3 parallel to the main axis 19 is provided for the generated gas / water mixture. These can be constructed in various forms. A honeycomb-shaped cross section of the sections of the guide device 13 has proven to be suitable. In any case, the guide device should cause a laminar flow of the gas / water mixture. This two-phase flow, which limits the maximum flow through the outflow openings 8 due to its lower sound velocity compared to pure compressed gas, is adjusted in a suitable manner either by channeling and laminarizing the flow in the extinguishing agent container 3 or by metered mixing of the compressed gas in the area of the distribution device 7 , as shown in Fig. 5.

A variant of the extinguishing device is shown in FIG. 4. Instead of the bursting membranes 9 , 10 , pyrotechnic valves 14 can also be used. The advantage of these valves is that the opening time can be determined very precisely and that there are no loose parts that can block flow or outflow. The conically opening bores 15 in the distribution device 7 serve as a further advantageous addition. They serve to reduce the speed of the expelled extinguishing agent / gas mixture and thus to reduce the noise level. Further modifications of the bores 15 with regard to the atomization of the extinguishing agent are conceivable.

FIG. 5 shows a supplement or alternative to the guide devices 13 shown in FIG. 3. It has proved advantageous to branch a part of the pressure generated gas prior to introduction into the extinguishing agent container 17 and to bring this part into one or more bypass conduits 20 into the region of the distributor. 7 The admixture with the expelled extinguishing agent then takes place either in the area of an empty volume 21 between the extinguishing agent container 3 and the distribution device 7 or within the distribution device 7 itself. The mixing ratio between compressed gas and extinguishing agent is thus set only immediately before the extinguishing device is exited, as a result of which a quicker and trouble-free Dispensing of the extinguishing agent is guaranteed.

Claims (12)

1. Extinguishing device for suppressing fires in which an extinguishing agent container ( 3 ) which is closed on the inlet and outlet sides in the idle state is acted upon by compressed gas, whereby the extinguishing agent is expelled from the extinguishing device and distributed over the fire area, in which an inert, non-toxic gas is used as the compressed gas is used, in which the compressed gas with the interposition of a buffer volume ( 5 ) is applied to the extinguishing agent container ( 3 ) and in which on the output side a distribution device ( 7 ) for the extinguishing agent / propellant gas mixture with a plurality of openings ( 8 ), the preferred directions in the area of up to ± 90 ° to the main axis ( 19 ) of the extinguishing device is provided. 2. Extinguishing device according to claim 1, characterized in that nitrogen (N ₂ ) or carbon dioxide (CO ₂ ) is preferably used as the compressed gas. 3. Extinguishing device according to claim 1 or 2, characterized in that the compressed gas is generated by means of a pyrotechnic gas generator ( 2 ). 4. Extinguishing device according to at least one of claims 1 to 3, characterized in that the extinguishing agent container ( 3 ) with one or more bursting membranes ( 9 , 10 ) is closed. 5. extinguishing device according to claim 4, characterized in that in the region of the openings ( 8 ) devices ( 11 , 12 ) are provided for retaining parts of the bursting membranes. 6. Extinguishing device according to claim 4 or 5, characterized in that in the region of the openings further devices ( 11 ) are provided for opening a bursting membrane ( 10 ). 7. Extinguishing device according to one of claims 4 to 6, characterized in that the openings ( 8 ) are designed as cylindrical bores with at least one inner bevel ( 12 ) and a cutting device ( 11 ) arranged within the bore. 8. extinguishing device according to at least one of claims 1 to 7, characterized in that the ratio of length to diameter of the openings ( 8 ) is in the range of 1 to 5. 9. Extinguishing device according to at least one of claims 1 to 8, characterized in that the diameter of the openings ( 8 ) becomes larger towards the outside. 10. Extinguishing device according to at least one of claims 1 to 9, characterized in that in the extinguishing agent container ( 3 ) parallel to its main axis ( 19 ) guide devices ( 13 ) for the outflowing compressed gas / extinguishing agent mixture are provided. 11. Extinguishing device according to claim 10, characterized in that a plurality of tube-like guide devices ( 13 ) in the extinguishing agent container ( 3 ) are arranged. 12. Extinguishing device according to at least one of claims 1 to 11, characterized in that in the region of the distribution device ( 7 ) a derived part of the compressed gas ( 17 ) is added to the exiting extinguishing agent.