SU1068132A1 - Fire-extinguisher - Google Patents

Abstract

1. An OVERHEADER, comprising a housing with a nozzle, pipelines for supplying a flame-retardant liquid and a sprayer installed in the housing, characterized in that, in order to increase efficiency in operation, it has an additional sprayer installed in the nozzle, and the housing is designed as a pipe, bent at a right angle, on the curved part of which a casing is installed, with no.f. the cavity between the casing and the casing is communicated through holes made in the casing. (L O) 00 oo y

Description

2. An obstacle arrester according to claim 1, characterized in that the additional atomizer is made in the form of a hollow blade, on the surface of which there are holes for the release of a flame-retarding liquid,

and pipelines for its supply are installed at the ends of the sprayer.

3, The arrester according to claim. H, is based on the fact that the angle between the axis of the holes and the surface of the blade coincides with the angle of flow around it.

4. A flame arrester according to claim 1, characterized in that the nozzle is made in the form of a spherical ring with one end connected to the housing, and a truncated cone is attached to the other end of it with a large base,

5, The flame arrester according to claim 1, which is that an aqueous solution of sodium chloride is used as the flame retardant liquid.

The invention relates to devices that limit the spread of fire in technological communications, namely in pipelines. A flame arrester is known, comprising a housing with a nozzle, pipelines for supplying a flame-retarding liquid and a spray gun mounted in housing 1. The disadvantage of this fire protection body is low efficiency in operation due to the supply of fluid. I restrict dosage and locally. The aim of the invention is to increase the efficiency in the operation of fire barrier. The goal is achieved by the fact that the flame arrester, containing an armature with a nozzle, pipelines for supplying a flame-retarding liquid and a discharger installed in the housing, has an additional spray gun installed in the nozzle, and the housing is made in the form of a pipe bent at a right angle, on the curved part of which the cover is installed, while the cavity between the body and the cover is communicated by means of holes made in the cc of the epus. An additional nebulizer is made in the form of a hollow blade, on the surface of which there are holes for the release of a flame-retarding liquid, and pipelines for its supply are installed in the ends of the nebulizer. The angle between the axis of the holes and the surface of the blade coincides with the angle of flow around it. The nozzle is made in the form of a spherical ring, one end connected to the body, and a truncated cone is attached to its other end with a large base. An aqueous solution of sodium chloride is used as a flame retardant liquid. FIG. 1 shows a flame arrester, general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section bB of FIG. one; in fig. 4 shows a section B-B in FIG. 3. The flame arrester comprises a housing 1 with openings therein. On the housing 1 there is a hollow casing 2 to which the pipeline 3 is connected for the supply of the refrigerant. A nozzle 4, made in the form of a spherical ring and ending with a truncated tapering cone, is connected to the housing 1. The nozzle 4 is connected to the pipeline 5, which supplies an additional sprayer with the refrigerant. 6, mounted in the middle part of the nozzle spherical ring and made in the form of a blade with openings arranged at an angle coinciding with the angle of flow past the blade. The coolant to the ends of the additional sprayer 6 is supplied via pipeline 7 connected to pipeline 5. The fire extinguisher works as follows. The hot high-speed jet from the source through the housing 1 enters the hollow housing 3, here it is found with water penetrating through the openings of the housing, where it flows under pressure through the pipeline 3. Under the action of high temperature, the water is converted into steam, as a result of which a partial jet is cooled. Due to the fact that the peripheral part of the jet comes in contact with water, the latter is partially cooled (external part). Moving at high speed, partially cooled in a steam environment, the jet enters nozzle 4, where it comes in contact with the whole section with a saturated salt solution coming from the hollow part of the atomizer through the holes, where it is fed under pressure through line 7. The airflow is cooled and enriched in salts precipitated from solution. The cooled and enriched salt jet, coming into contact with flammable bulk material, mixes with it, neutralizing its ability to ignite. In order to avoid overheating of the water in the housing and the spray gun to the active evaporation temperature, as well as its locking in it, high constant pressure must always be maintained in the pipes 3, 5 and 7. In addition, the holes in the sprayer are made at an angle to the surface, which is equal to the angle of the air flow around it, so that a more active flow of fluid occurs due to ejection. In the proposed flame arrester, the high-temperature air flow is cooled by a step: first, the outer part, which is very important for maintaining the walls of the contour in which the flow moves, about and then the entire flow throughout the section. Moreover, the location of the main flame retardant device (sprayer) in the expander will allow to enrich the flow throughout the entire cross section with salts, and the location of the holes in the sprayer at an angle equal to the flow angle of the sprayer will ensure good flow of the extinguishing mixture into the stream due to ejection. The proposed flame arrester will significantly expand the field of application of turbojet aircraft engines for cleaning vehicle bodies from bulk residues and airing quarries that develop flammable materials, while improving jet efficiency from the point of view of its mechanical effect on the surface to be treated by introducing solid additives into the cooled jet, which will also increase the safety of the use of purification plants.

Claims (5)

1. FIREPROOFER, comprising a housing with a nozzle, pipelines for supplying a flame-retardant liquid and a sprayer installed in the housing, characterized in that, in order to increase efficiency in operation, it has an additional sprayer installed in the nozzle, and the housing is made in the form of a pipe bent at a right angle, on the curved part of which the casing is installed, while the.? · cavity between the casing and the casing is communicated through holes made in the casing. 2. Fire arrester according to π. 1, characterized in that the additional sprayer is made in the form of a hollow blade, on the surface of which holes are made for the exit of the flame-retardant liquid, and pipelines for its supply are installed at the ends of the sprayer. 3. Fire arrester according to π. Ί, characterized in that, the angle between the axis of the holes and the surface of the blade coincides with the angle of flow around it. 4. The flame arrester according to claim 1, characterized in that the nozzle is made in the form of a spherical ring, one end connected to the housing, and a truncated cone is attached to its other end with a large base. 5. The flame arrester according to claim 1, about τι, characterized in that an aqueous solution of sodium chloride is used as a flame-retardant liquid.