PL120094B1 - Foam ejector for fire extinguishing purpose - Google Patents

Description

The present invention relates to a fire extinguishing foam ejector provided with an ejector tube, provided with air passage openings, connected coaxially to the outlet nozzle of the fluid supply housing, the outlet nozzle being an assigned central tubular shape, lengthwise adjustable. Sufficient air must be supplied to and admixed with the fluid stream in the ejector to ensure proper foam formation. Ejectors in which the air is fed into the liquid stream from outside not only through the corresponding through-holes of the ejector tube, but in which it can also directly flow into the liquid stream have proved particularly useful. For this purpose, a central tubular form projects inside the outlet nozzle of the liquid supply housing. As a result, air is sucked in through the tubular shape due to the discharge of a cone-shaped fluid stream by the annular nozzle. The air is drawn in from the outside and inside to the liquid stream to ensure the desired foam formation. In order to make it possible to control the degree of foaming, partial or complete closure of the air passages of the ejector tube and the suction openings of the air-pipe form is used, which allows for the swaying of foam with different stability or the flow of the liquid itself. The disadvantage of these foam ejectors is the inability to regulate the jet of fluid ejected, and thus to adapt the flow rate each time to the conditions at the site of the fire. Fire guns are already known, which make it possible to regulate the jet of the liquid itself by means of a control spindle located in the ejector tube, and provided with a closing cone, a support body and a guiding cone, where by axial displacement of the control spindle relative to the mouthpiece of the ejector tube, the liquid stream is cut off or more or less opened, but despite the very complicated structure there is no axially introducing air directly into the liquid stream. If the gun is to spray the extinguishing agent in the form of a foam instead of a liquid form, a foam ejection tube is inserted in place of the ejector tube, allowing air only to enter the liquid stream from the outside. However, it is the object of the invention to construct a foam ejector of the type described in the introduction, which allows air to flow into the liquid stream not only from the outside but also inside it, and to regulate the flow rate in the simplest manner. and according to the conditions. This object according to the invention is achieved by the fact that the foam ejector has a ring-shaped control projection with a cross-sectional area greater than the mouthpiece, or the like, slidably mounted on the outlet nozzles. The displacement of the central tubular form has been used so far. only for cleaning and de-loosening the outlet nozzle, a variety is now used also to choke the flow of liquid flowing through the outlet nozzles, in a simple manner consisting in the fact that the annular control projection of the central tubular shape more or less slides into the outlet nozzles and thus changes the annular cross-sectional area of the nozzle accordingly . The adjustment of the central pipe form can be carried out without difficulty in any way, e.g. manually, pneumatically, electrically, directly or remotely, and of course also by introducing other means into the liquid stream, e.g. the foaming agents themselves, in which case it is only necessary to connect the central pipe to the appropriate reservoir of this agent, or the like. The shape of the annular control lug can be adapted to the necessary range of flow adjustment possibilities. And so according to the further feature of the invention, The steer arm preferably has tapered and / or cylindrical steering parts to provide either a continuous or a gradual throttling option. It is also preferred according to the invention that the annular steering boss or the like has a valve section adapted to internal diameter of the outlet nozzle, In the event of a sufficiently large extension of the central pipe, the flow of liquid can even be completely interrupted by closing the discharge nozzle. It is not important, however, how the ring-shaped control lug is produced. However, it is recommended that in a simple form the control ring should be conically-shaped central tubular portion. It is particularly preferred that the annular steering projection or the like is a flange or the like attached to the central tubular form. In this case, it is possible to replace the annular control lug, thereby changing the range of the adjustment possibilities as required. Also in this case, when the shape of the annular steering island is complicated, it is most rational to manufacture the annular steering boss as a flange independent of the central tubular form. The subject matter of the invention is schematically shown in the embodiment in a horizontal section on The housing 1 for the fluid supply, fitted with a suitable connecting piece 2, leads through the outlet nozzle 3 into the discharge pipe 4, on the circumference of which holes 5 for air passage are arranged. Coaxially with the ejection tube 4 and the discharge nozzle 3 there is a central 5, designed for internal air supply, embedded in the bearing bush 8 of the fluid supply housing 1, guided longitudinally therein by means of the hand lever 7 and projecting the mouthpiece 9 through the outlet nozzles 3. A ring-shaped control projection 10 is formed on the central tubular form 6, the cross-sectional area of which is greater than that of the mouthpiece 9 and which can be inserted into and inside the nozzle. 3 by shifting the central tubular shape 6. Thus, the ring-shaped passage 11 of the discharge nozzle changes according to the shape of the annular control projection 10, changing the flow rate through the discharge nozzle 3 accordingly, since the adjustment depends on the cross-sectional area and the axial course ring steering island, then after by appropriate selection of the ring shape of the steering lip, the control method can be adapted to different conditions, the method of producing the steering ring itself does not play any role, and therefore a flange, a bead 10, may be present as one whole. with a central tubular shape, or a part of a specific shape. Also, the driving system is not limited to the illustrated hand lever, but may be of any suitable design suitable for the purpose. Claims 1. Fire extinguishing foam ejector with tubing an ejector, provided with openings for air passage, coaxially connected to the outlet nozzle of the fluid supply housing, the outlet nozzle being arranged in a central lengthwise-adjustable pipe, characterized in that the central pipe-form (6) has a ring-shaped control projection (10) by age A cross-sectional area less than the mouthpiece, or the like, slidingly inserted into the outlet nozzles (3). 2. The ejector according to claim The method of claim 1, wherein the ring-shaped control lug (10) or the like has conical and / or cylindrical control portions. 3. Ejector according to claim A method as claimed in claim 1 or 2, characterized in that the annular control lip or the like comprises a valve piece adapted to the internal diameter of the outlet nozzle (3). 4. Ejector according to claim A method as claimed in claim 1, characterized in that the annular control projection forms part of the conical-shaped central tubular body. 5. Ejector according to claim A method according to claim 1, characterized in that the annular control projection (10) or the like is a flange or the like - put on the central tubular shape (6), 120 094 EN

Claims (5)

Claims 1. A fire extinguishing foam ejector, provided with an ejector tube, provided with air passage openings, connected coaxially to the outlet nozzle of the fluid delivery housing, the outlet nozzle being assigned a central, longitudinally adjustable tubular form, characterized by the central tubular form (6) has a ring-shaped control projection (10) with a cross-sectional area greater than the mouthpiece or the like, slidably mounted on the outlet nozzles (3). 2. The ejector according to claim The method of claim 1, wherein the ring-shaped control lug (10) or the like has conical and / or cylindrical control portions. 3. Ejector according to claim A method as claimed in claim 1 or 2, characterized in that the annular control lip or the like comprises a valve piece adapted to the internal diameter of the outlet nozzle (3). 4. Ejector according to claim A method as claimed in claim 1, characterized in that the annular control projection forms part of the conical-shaped central tubular body. 5. Ejector according to claim A method according to claim 1, characterized in that the annular control projection (10) or the like is a flange or the like - put on the central tubular shape (6), 120 094 EN