RU2429079C2 - Device to generate gas liquid mixture and fire extinguishing plant sprayer - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: in the device for generation of a gas liquid mixture in a fire extinguishing plant the body is equipped additionally with an attachment in the form of a cylindrical bushing with a central hole for installation of a siphon tube and an external thread for its fixation in the neck of the reservoir with fire extinguishing liquid. In the attachment there are through inclined holes, which pass from one end surface to the other with arrangement at one end of inlet holes that communicate with the inlet chamber. At the other end there are outlet holes that ensure swirling of the working gas. Diameters of attachment holes ensure total volume of gas passing through them equal to the volume of gas passing through an inclined hole, which communicates the gas chamber with the inlet chamber. Besides, in the sprayer of the fire extinguishing agent the body is made as a cylindrical staged body. Nozzles are formed by channels made in the form of a truncated cone with D_in= 1.3 D_in with arrangement of its top in direction of the fire extinguishing agent flow with arrangement of channels at the end and side surfaces of the body. Axes of coupled pairs of nozzles are arranged at the angle (90±1)°. Number of pairs of nozzles is less or equal to 12 with their arrangement in the quantity of ≤6 at two opposite sides of the body. The angle of nozzles inclination relative to the axis of the body symmetry makes (20±3)°. The point of nozzle channel axes meeting is selected at the distance of 3.4±0.4 of the outer diameter of the nozzle from the outer side wall of the body.

EFFECT: higher extent of fire extinguishing liquid spraying to form a more finely dispersed gas liquid mixture, which accelerates fire extinguishing as the fire extinguishing mixture components consumption reduction.

2 cl, 4 dwg

Description

The technical solution relates to fire fighting equipment, namely, to the construction of the gas-liquid mixture forming unit and the design of the atomizer of the installation for extinguishing a fire with finely sprayed water of enclosed spaces and individual objects, in particular electrical installations.

A device for forming a gas-liquid mixture is known, comprising a housing fixed to a container with a fire extinguishing liquid, an inlet chamber coaxially located therein, connected by an opening to the tank, a mixing chamber connected to the tank by a siphon tube, and an output chamber for installing a supply pipe (see copyright certificate SU No. 607575, MKI-2 A62C 3/08).

It is known a spray device comprising a housing, the front portion of which is made in the form of a truncated cone with spray holes, one of which is central, located on the axial line of the housing, and the other, angular, are located on the conical surface of the housing so that their axes are angled to the axial the line of the housing, and the angle between the axes of the central and angular holes is 30-55 ° (see patent RU No. 2287351, IPC-8 A62C 31/05).

A disadvantage of the known devices is the insufficiently finely dispersed composition of the resulting gas-liquid mixture, which leads to an excessive consumption of fire extinguishing substances and to a decrease in the efficiency of fire fighting.

Closest to the claimed is a node for the formation of a gas-liquid mixture of a fire extinguishing installation, comprising a housing made in the form of an adapter with a coaxially located inlet chamber, a bypass chamber and a mixing chamber and a transversely arranged gas chamber communicating through one inclined opening with the inlet camera, through another inclined opening with a mixing chamber, while on the case from the side of the inlet chamber an external thread is made for mounting it in the neck of the tank with a fire extinguisher it liquid within the overflow chamber - internal thread for securing the exit end of the siphon tube and inside the discharge chamber - internal thread for securing the inlet end of the supply line (see patent RU №2193908, A62S 35/02 IPC-7.).

Closest to the claimed technical solution is a sprayer containing a housing made in the form of a stepped volumetric hollow body with mating pairs of nozzles formed by channels, the outlet openings of which are uniformly located around the circumference on the end surface of the housing and on the side surface of the cone, the axes of each channel pair being located at an angle (60 ± 5), and the point of meeting of the axes is selected at a distance (4.0 ± 0.5) of the diameter of the nozzle from the outer side wall of the volumetric body. The housing with nozzles is equipped with a fitting for connecting the sprayer to the collector of the supply pipe (see U1 No. 16829, MPK-7 А62С 31/05).

A disadvantage of the known devices are: the degree of atomization of the gas-liquid mixture is somewhat reduced, which leads to a decrease in the efficiency of fire extinguishing and to the overuse of extinguishing agents.

The technical result of the claimed technical solutions is to increase the degree of spraying of the extinguishing liquid with the formation of a finely dispersed gas-liquid mixture, accelerating fire fighting while reducing the consumption of components of the extinguishing mixture.

The technical result is achieved in that in a device for forming a gas-liquid mixture of a fire extinguishing installation, comprising a housing made in the form of an adapter with a coaxially located inlet chamber, a bypass chamber and a mixing chamber and a transversely arranged gas chamber communicating through one inclined opening with the inlet chamber, through another an inclined hole - with a mixing chamber, while an external thread is made on the housing from the inlet chamber to mount it in the neck fire extinguishing fluid, inside the bypass chamber - internal thread for securing the outlet end of the siphon tube, and inside the outlet chamber - internal thread for securing the inlet end of the supply pipe, the housing is additionally equipped with a nozzle in the form of a cylindrical sleeve with a central hole for installing the siphon tube and an external thread for fastening it in the neck of the tank with a fire extinguishing liquid, while the nozzle is made through inclined holes passing from one end surface to another with the location on the one end of the inlet openings communicating with the inlet chamber, and on the other end of the outlet openings, which ensure the working gas is twisted, while the diameters of the nozzle openings provide a total volume of gas passing through them, equal to the volume of gas passing through an inclined opening communicating with the gas chamber with input camera.

The technical result is also achieved by the fact that in a spray extinguishing agent containing a housing made in the form of a stepped volumetric hollow body with mating pairs of nozzles, the housing is made in the form of a cylindrical stepped body, the nozzles being formed by channels made in the form of a truncated cone with the location of its apex in the direction of flow of the extinguishing agent with the arrangement of channels along the end and lateral surfaces of the housing, the axes of the conjugated pairs of nozzles being located at an angle of (90 ± 1) °, the number of pairs with sang less than or equal to 12 with their location equally on two opposite sides of the casing, and the angle of inclination of the nozzles relative to the axis of symmetry of the casing is (20 ± 5) °, while the meeting point of the axes of the channels of the nozzles is selected at a distance of 3.4 ± 0.4 of the output diameter nozzles from the outer side wall of the housing.

Supply of the device for forming a gas-liquid mixture with a nozzle in the form of a cylindrical sleeve with a central hole for installing a siphon tube and an external thread for fastening it in the neck of a container with a fire extinguishing liquid, with through-hole inclined openings passing from one end surface to another for gas supply allows you to increase the degree of atomization of the liquid, since the gas entering the tank, dividing into two streams and receiving a rotational movement, splits the droplets of the water stream initial at two points in contact with them, and also additionally from rotational motion together with the liquid with the formation of a fine gas-droplet stream. This pressure stream is displaced from the vessel, enters through the siphon into the mixing chamber for further crushing the liquid droplets and then through the supply pipe to the atomizer, at the outlet of which the liquid droplets are finally crushed to form a misty curtain due to collisions exiting at right angles of gas-droplet flows in each pair of nozzles at an increased rate of their expiration, providing additional crushing of liquid droplets of the stream.

Figure 1 shows a General view of the device Assembly with the nozzle;

figure 2 shows the nozzles: a is a side view; b is a view along arrow A in FIG. 2; C is a view along arrow B in FIG. 2;

figure 3 shows a spray in section;

figure 4 is a view along arrow a in figure 3.

A device for forming a gas-liquid mixture of a fire extinguishing installation comprises a housing made in the form of an adapter, with an inlet chamber 1 coaxially arranged coaxially arranged one into another, a bypass chamber 2 and a mixing chamber 3 and a gas chamber 4 transversely disposed thereto 4. The chamber 4 is hermetically connected to the outlet end gas hose and connected through an oblique opening 5 with a diameter d ₁ to the input chamber 1 and through the oblique holes 6 with a diameter d ₂ - a mixing chamber 3, the ratio dia etrov mixing chamber and the overflow chamber _cm D / D _trans = 1,5-l, 7, ad ₂ / d ₁ = 0.8-1.4, the absolute values of the diameters of the bypass chamber sizes 2- _lane D = 12-35 mm and holes d ₁ = 1-10 mm. An external thread 7 is made on the housing from the side of the inlet chamber 1 for fixing the housing in the neck 8 of the container with extinguishing fluid. Inside the bypass chamber 2, an internal thread 9 is made for fixing the output end of the siphon tube 10, while the input end of the siphon tube 10 is lowered into a vessel with a fire extinguishing liquid. Inside the output chamber is an internal thread 11 for securing the inlet end of the supply pipe. The housing is additionally equipped with a nozzle 12 in the form of a cylindrical sleeve with a central hole for installing a siphon tube 10 and an external thread 13 for mounting it in the neck 8 of the tank with a fire extinguishing liquid. In the nozzle 12, two through inclined openings 14 and 15 are made, passing from one end surface to another with the inlet openings communicating with the inlet chamber 1 at one end and the outlet openings providing the swirling of the working gas at the other end. The diameters of the holes 14 and 15 of the nozzle 12 provide a total volume of gas passing through them, equal to the volume of gas passing through the inclined hole 5, which communicates the gas chamber 4 with the inlet chamber 1.

The spray consists of a housing 16, made in the form of a cylindrical stepped volumetric body. The housing 16 is made hollow and is equipped with mating pairs of nozzles, the total number of which ≤12. The nozzles are formed by channels 17 with inlet openings located at ≤6 on two opposite sides of the inner end of the step of the larger case, the axes of which are parallel to the axis of the case, and channels 18 located on the side surface of the step of the case of smaller diameter. The axes of each pair of channels are located at an angle of (90 ± 1) °. The channels are made in the form of a truncated cone with the location of its apex in the direction of the flow of the extinguishing agent with Din. = 1.3 Dout., While the meeting point of the axes is selected at a distance of 3.4 ± 0.4 of the outlet diameter of the channel from the outer side wall of the housing, and the angle of inclination of the nozzles relative to the axis of symmetry of the housing is (20 ± 3) °. The housing has an internal thread 19 for mounting it on the orientation device of the supply pipe.

A device for forming a gas-liquid mixture with a spray fire extinguishing installation works as follows.

When the working gas enters the gas chamber 4, the gas stream through the hole 5 enters the inlet chamber 1 and from it through the openings 14 and 15 the nozzle 12 enters the vessel with the extinguishing liquid. The jets of gas at the outlet of the nozzle 12 receive a rotational movement, in contact with the liquid break it into smaller particles and, under pressure, displacing it from the vessel through a siphon tube 10, it is supplied to the bypass chamber, and from it to the mixing chamber. Under the influence of another gas jet formed by the inclined hole 6, the previously crushed drops of the water stream are repeatedly crushed in the mixing chamber with the formation of a finely dispersed gas-liquid mixture of water with the working gas (carbon dioxide). The gas-liquid mixture through the supply pipe under a certain pressure enters simultaneously on the mating pairs of nozzles of the spray gun mounted on the pipe through the orientation device. The outflow rate of the gas-liquid mixture increases as it passes through the nozzle channels 17 and 18 in the form of a truncated cone, and when the jets collide at the intersection point, additional droplet crushing occurs to a droplet size of less than 100 microns in diameter, i.e. to a foggy state.

The installation was tested using 16 pieces of the claimed sprayers when extinguishing a fire on an area of 60 m, the results are shown in the table. The check showed a high degree of atomization of the extinguishing agent (OTV) and, consequently, its high smoke-settling ability, providing a low consumption of OTT and a reduction in the time of extinguishing the fire.

Protected area Number of Sprayers Pressure in the vessel with OTV OTV consumption Duration of supply of OTV class. - AT. 60 m ² 16 pcs. 1.4 MPa 0.15 l / s 20 s

A device that provides a fine extinguishing agent (gas-liquid mixture of water with carbon dioxide), which can significantly intensify the process of cooling surfaces with high temperature, which reduces the consumption of the extinguishing agent and the time to eliminate the fire, will find application in fire fighting.

Claims (2)

1. A device for forming a gas-liquid mixture of a fire extinguishing installation, comprising a housing made in the form of an adapter with a coaxially located inlet chamber, a bypass chamber and a mixing chamber, and a transversely arranged gas chamber communicating through one inclined opening with the inlet camera, through another inclined opening a mixing chamber, while on the case from the side of the inlet chamber, an external thread is made for mounting it in the neck of a container with a fire extinguishing liquid, inside chamber - internal thread for securing the output end of the siphon tube, and inside the output chamber - internal thread for securing the inlet end of the supply pipe, characterized in that the housing is additionally equipped with a nozzle in the form of a cylindrical sleeve with a central hole for installing a siphon tube and an external thread for mounting it in the neck of the container with a fire extinguishing liquid, while in the nozzle there are made through inclined holes passing from one end surface to another with one m of the end of the inlet openings in communication with the inlet chamber, and at the other end of the outlet openings, providing torsion of the working gas, while the diameters of the openings provide the total volume of gas passing through them, equal to the volume of gas passing through the inclined hole that communicates with the gas chamber with the inlet chamber. 2. A spray extinguishing agent containing a housing made in the form of a stepped volumetric hollow body with mating pairs of nozzles, characterized in that the housing is made in the form of a cylindrical stepped body, the nozzles are formed by channels made in the form of a truncated cone with D _I = 1, D _O 3, with its top located in the direction of flow of extinguishing agent to the location of the channel on the end face and side surfaces of the housing, the axis of conjugate pairs of nozzles are arranged at an angle (90 ± 1) °, the number of pairs of nozzles less yl equal to 12 with their location in ≤6 from two opposite sides of the casing, and the angle of inclination of the nozzles relative to the axis of symmetry of the casing is (20 ± 3) °, while the meeting point of the axes of the channels of the nozzles is selected at a distance of 3.4 ± 0.4 of the nozzle exit diameter from the outer side wall of the housing.

Images