RU2123871C1 - Aerosol-type water spray beam nozzle - Google Patents

Abstract

FIELD: fireproofing equipment. SUBSTANCE: nozzle has casing with flow-through part formed by coaxially arranged Laval nozzles and distributing grid. Openings of distributing grid have diameter equal to 0.3-1.0 of diameter of critical nozzle. Such construction allows smoke to be effectively suppressed during fire extinguishing and people to be protected from dangerous fire effects by improved dispersion of overheated water flow. EFFECT: wider operational capabilities of nozzle and increased fire suppressing efficiency. 2 cl, 3 dwg

Description

 The invention relates to fire fighting equipment and can be used as portable and stationary means for suppressing smoke and extinguishing fires at different stages of its development with aerosol spray water in various premises, as well as fire departments for rapid response and rescue operations.

 Known nozzle for thin spraying liquids for fire extinguishing installations, comprising a housing with a flowing part. However, the known device is able to regulate the spray in a narrow range by constructive changes in the nozzle profile, which complicates and narrows the possibilities of operation and, as a result, reduces the efficiency of its use.

 The technical result of the invention is to expand the functionality of devices for suppressing smoke during extinguishing and to protect people from dangerous fire factors by improving the quality of dispersion of the stream of superheated water.

 The technical result is achieved due to the fact that in the nozzle for creating a water spray of an aerosol type containing a housing with a flow part, according to the invention, the flow part consists of a coaxially arranged Laval nozzle and a distribution grid having hole sizes of 0.3-1.0 diameters critical Laval nozzle, for selective supply of a directed gas-liquid flow or a moving water curtain. A container with a chemical composition in the form of a surfactant, for example, based on sodium alkyl sulfonate absorbed by silica gel, is introduced to the nozzle by means of locks to introduce the chemical composition at a distance of 0.2-0.4 meters from the nozzle.

 In FIG. 1 shows nozzles, a section, in FIG. 2 - a container with a chemical composition, section, in FIG. 3 is a general view of a nozzle with an attached container.

 The nozzle consists of a nozzle 1 for supplying fluid screwed into the housing 2, inside of which there is a distribution grid 3 in the form of a slotted nozzle and a Laval nozzle 4. A profiled nut 5 is screwed directly onto the housing. Inside the housing there is a movable sleeve 6 forming with a nut 5 at the outlet of the nozzle, the flow restriction 7. The container for the chemical composition consists of a housing 8, inside which the chemical composition 9 is attached to the rod 10. The part of the composition protruding from the housing 8 is formed by a restrictor 11 and a spring 13, which Acrytes with a divider 14.

 The chemical container is attached to the nozzle body by means of mounting locks 12 and two rods 15.

 The nozzle works as follows.

 Water heated to a temperature above the boiling point enters the distribution grid 3 through the nozzle 1, at the outlet of which the flow is accelerated and concentrated in the neck in front of the expanding part of the Laval nozzle 4. At the outlet of the nozzle, the gas-liquid flow reaches an extremely high speed, which ensures maximum range feed and fine spray.

 If necessary, the formation of a moving water curtain, the Laval nozzle 4 is moved to the nozzle 1 by turning the handle of the crane. Water heated to a temperature above the boiling point enters the Laval nozzle 4, at the outlet of which the flow reaches a sufficient speed for its distribution over the surface of the grate 3. At the outlet from it, explosive boiling of the flow occurs in combination with suction of ambient air to the formation of the veil. The joint use of the Laval nozzle 4 and the distribution grid 3 allows you to give the gas-liquid curtain a directional movement in combination with providing a fine spray.

To increase the efficiency of protecting people from dangerous fire factors by improving the quality of cleaning the gas-air environment from smoke particles and weakening the effect of thermal radiation, the atomizer can form foam aerosol jets. In FIG. 2, 3 presents one of the proposed options. To ensure these functions, the nozzles are brought into working position by moving and fixing on the locks 12 a container for chemical composition 9 in the form of a surfactant (surfactant) (for example, based on sodium alkyl sulfonate absorbed by large-pore silica gel). At a distance of 0.2-0.4 m from the nozzle, the gas-liquid stream, ejecting the surrounding air, is cooled to a temperature of 40-50 ^o C and leaches the chemical composition from the surface of the container. Moreover, the concentration of the foaming solution is stabilized by increasing the temperature of dissolution, which contributes to an increase in the concentration of surfactants as a result of an increase in the intensity of diffusion processes.

 The invention will improve the process of generating a gas-liquid flow, which will increase the range of use of the forms in the form of which the liquid jets are fed. This will increase the efficiency of smoke suppression of smoke and extinguishing fires of various classes.

The uniform concentration of the foaming composition provided by the turbulent transport in the jet, the high thermal stability of the proposed chemical composition (up to 180 ^o C) in combination with good wetting properties makes foam aerosol jets a universal means of fire suppression.

Claims (2)

 1. Nozzles for creating an aerosol-type water spray, comprising a housing with a flowing part, characterized in that the flowing part consists of a coaxially arranged Laval nozzle and a distribution grid having hole sizes equal to 0.3-1.0 of the diameter of the critical section of the Laval nozzle for selective feed of directional gas-liquid flow or a moving water curtain.  2. Nozzles according to claim 1, characterized in that a container with a chemical composition in the form of a surfactant, for example, based on sodium alkyl sulfonate absorbed by silica gel, is introduced to it by means of locks for introducing the chemical composition at a distance of 0.2-0, 4 m from the nozzle.

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