DE2638000A1 - High efficiently foam forming fire extinguisher - introduces variable foam producing agent quantities into air stream with subsequent turbulence producing section - Google Patents

Abstract

The extinguisher consists of an air supply tube (1) terminating in mixing box (2). The tube is connected to a compressor delivering a constant air volume. The air leaves the narrowed orifice of the tube which is placed at a distance from the emulsifying entry of tube (4). Through the gap between tube (1) and (4) the foam-producing solution is admitted through pipe (8). The pipe is fitted with control valve (9) operated by control device (7) which opens or closes the valve in accordance with the air/solution ratio which can be preset on the control device. The air/solution mixture passes a finishing section (6) before entering section (5) connected to the hand jet. The design improves the efficiency of the foam producing equipment and the range of the foam jet.

Description

"Process and device for the creation of fire

extinguishing technology used extinguishing foam "The Ea-invention concerns a Method and a device for the production of used in fire extinguishing technology1 I.öschschaum, which essentially consists of the components air, water and foaming agent and its composition by the volume of air expansion factor = Volume water + volume foaming agent is characterized.

In practice, a classification is made with the aid of the expansion factor of the extinguishing foam in three groups, namely in heavy foam with a foaming factor from 5 to 10, in medium foam with a foaming factor between 70 and 75 and in lightweight foam with a foaming factor of over 150. This consists of Heavy foam, for example, made up of 84.0% air, 15.4% water and 0.6% foaming agent (Foam concentrate).

To produce the extinguishing foam you generally need a Foam pipe and a proportioner (Z proportioner). The proportioner is a suction jet pump that sucks under atmospheric pressure and thus the foam concentrate sucks directly out of a transport canister. The foaming agent is continuous added to the water flow in a fire hose line. The proportioning rate is 2 - 5 94. This Water foam mixture is added in the foam tube Air foam is processed further by using this as a spray jet. in the lower part of the jet pipe is initiated. The water foam agent jet acts as a Propulsion jet and sucks in the casing of the jet pipe to generate foam necessary air. The mixing of the air with the propulsion jet takes place within a conical extension of the tube, so that a foam jet emerges at the end. Commonly used and known as foam agents on the market are z. B.

Tutogen FP, foam spirit and comet extract.

Disadvantageously, in addition to achieving a fixed one, it cannot be varied Foaming factor is the efficiency of the foam pipe as a result of the propulsion jet for sucking in the air for foam generation very low. According to wing, calculation von Strahlapparaten, VDI-Zeitschrift Bd 83, Nr. 38, 1939, Bild 2 you will find information about the theoretical efficiency of such a jet device. Based on the indicator of the relative propellant consumption weight air volume Air . Density air µ = weight of water, volume of water. Density of water 1 6 µ = 70 . 8th . 10-2, 860 it follows that the efficiency of the foam tube tends to zero.

This can also be checked with the pressure ratio Pa - PO / pe - where Pa is the outlet pressure at the jet device, po is the pressure in the air intake point and e denotes the pressure of the water before leaving the nozzle. For the foam pipe the following numerical values result: Pa = atmospheric pressure pe # 4 atü PO # 0.9 atü pa - po = 0.1 ~ 0.033 pe - p0 3 Thus the assumptions can be considered correct be considered.

Blan can conclude from this that the efficiency must be <5 ° ó.

The fundamental problem with the generation of extinguishing foam is that a relatively large amount of air is required to generate foam, but in the Has a very small weight in relation to the amount of water. This leads to the bad Efficiency. In addition, the nozzles in the conical part are finishing screens to improve the foam quality. These destroy the kinetic energy of the propulsion jet, so that no worm width can be achieved with the foam.

The invention is based on the object of a method and a device to propose to carry out the method for generating extinguishing foam, with with which an improved efficiency is achieved and the foaming factor the deletion show can be set within specified limit values.

The object is achieved according to the invention in that an air jet is enriched with a variable amount of a water-foaming agent mixture and that the foaming is generated over a turbulent mixing section and in one the finishing line downstream of the mixing line is refined.

To carry out the method according to the invention, it is proposed that that in a pipe leading to the air jet a mixing nozzle to the variable Enrichment of the air jet with the water-foaming agent mixture is arranged, that the admixing nozzle has a niche section and one equipped with finishing sieves Processing line are connected downstream and that the processing line over a Hose or the like in connection with an outlet nozzle stands.

Further refinements of the device according to the invention are shown in the further subclaims.

The main advantage of the invention is the achievement of one much better efficiency compared to the known devices, since the The main part of oil foam is air and therefore expediently an air jet a water-foaming agent mixture is added. Another benefit is in the easy stepless variability of the expansion factor within the range from Schwerbis light foam to be seen, as only with a constant air flow the amount of 1Yesser foam-forming agent mixture according to the desired foaming factor and thus the desired foaming quality needs to be varied.

In the drawing, an embodiment according to the invention is shown. A pipeline is denoted by l, within which an admixing nozzle 2 is arranged is. The pipeline l is connected to a compressor, not shown in the drawing connected, the constant set air jet through the pipeline l and the admixing nozzle 2 blows. About the metering gap 3 of the admixing nozzle 2 is the A water-foaming agent mixture is added to the air jet. The air stream comes together with the water-foaming agent mixture in a mixing section downstream of the admixing nozzle 2 4 and one of the mixing line 4 downstream finishing line 5 with several Finishing screens. In the mixed resp.

The finishing line is the production of the extinguishing foam, the Via a hose (not shown in the drawing) or the like of an outlet nozzle is fed.

To regulate the quantity of the water-foaming agent mixture in the admixing nozzle 2, a control device 7 is provided with a in the connecting line 8 between the admixing nozzle 2 and a storage container, not shown for the water-foaming agent mixture arranged valve 9 cooperates. The valve 9 depends on the desired or specified expansion factor more or more wavy, so that straight with a constant air jet as much of the water-foaming agent mixture can get to the admixing nozzle as to the Achieving the desired expansion factor is required.

It is also conceivable that the control device connects directly to the admixing nozzle 2 cooperates. In this case, the admixing nozzle 2 could have a variable metering gap 3, which corresponds to the desired expansion factor from the control device is adjusted directly. Thus, according to the desired expansion factor resulting supply amount of the water ~ foaming agent mixture mixed with the air jet.

L e r s e i t e

Claims (1)

Claims 1. A method for producing fire extinguishing technology extinguishing foam used, which essentially consists of the components air and water and foaming agent and its composition by the volume of air foaming factor = Volume of water + volume of foaming agent characterized i t, characterized by that an air jet mlt a variable amount of a water foaming agent mixture is enriched and that the foaming via a turbulent mixing section (4) and in a finishing line (5) downstream of the niche line (4) 2. Device for performing the method according to claim 1, characterized characterized in that a proportioning nozzle in a pipe (1) carrying the air jet (2) for the variable enrichment of the air jet with the water-foaming agent mixture it is arranged that the admixing nozzle (2) has a mixing strut (4) and one with finishing sieves (6) equipped finishing line (5) are connected downstream and that the finishing line (5) is in communication with an outlet nozzle via a hose or the like. 3. Apparatus according to claim 2, characterized by a feed the water-foaming agent mixture into the admixing nozzle (2) regulating valve (9), the cooperates with a control device (7). 4. Apparatus according to claim 2, characterized in that the admixing nozzle (2) has an adjustable metering gap (3), the adjustment of which is dependent on of the resulting from the desired expansion factor The water-foaming agent mixture is fed in. 5. Apparatus according to claim 2, characterized in that the generation of the air jet is carried out by a compressor on a vehicle. 6. Vorriciitung according to claim 2, characterized by an additional Compressor arranged on a vehicle for generating the air jet.