RU2628967C2 - Fire extinguishing liquid of fire extinguishing unit with asymmetric spray diagram - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: device provides the supply of fire extinguishing liquid to the fire in production, office, warehouse and other premises. The extinguishing liquid extinguisher of the extinguishing system comprises a body made in the form of a glass having a bottom part with spray channels and a side wall with main spray channels arranged in circular rows and formed at angles to the axis of the sprinkler increasing to a right angle in the direction from the bottom. The casing is provided with at least one series of additional spray channels formed on a portion of the side wall of the beaker above the last row of main spray channels, forming a spray sector that creates an asymmetric spray pattern of the extinguishing liquid relative to the axis of the sprinkler.

EFFECT: spray sector with additional spray channels allows fire extinguishing in problem areas beyond the main irrigation zone.

6 cl, 7 dwg

Description

The invention relates to the field of fire extinguishing and, in particular, to devices for supplying a fire extinguishing fluid to a fire in industrial, office, warehouse and other premises.

It is known that for extinguishing fires in rooms, as a rule, stationary fire extinguishing systems are used, which include fire extinguishers equipped with sprinklers of fire-extinguishing liquid, which are usually placed on the ceiling and fire extinguishing fluid is supplied to the fire with a diagram symmetrical with respect to the axis of the sprinkler spray mainly in the form of a fan-shaped dome, the shape and dimensions of which are determined to a large extent by the design of the irrigator.

Basically, the sprinklers contain a housing made in the form of a glass, the spray channels are made in the walls and in the bottom of which, in order to obtain a dome for spraying extinguishing fluid, the axes of the channels are arranged at an angle to the axis of the sprinkler, increasing from 0 to 90 ° in the direction to the axis of the sprinkler . Known sprinklers made in the form of a hemisphere with channels designed to spray fire extinguishing liquid in the form of a fan-shaped symmetrical flow (PM RU No. 28622, class A62C 35/00, 2002, CN No. 203264111, A62C 31/02, 2013, JP No. 2007-209579, A62C 31/07. 2007). Fire extinguishing fluid sprinklers are known having a truncated cone-shaped body with spray channels at the end and lateral surface (RU No. 2428235, A62C 31/02, 2010, RU No. 2287351, A62C 31/05, 2005, RU No. 2297865, А62С 37/09, 2005, RU No. 2481137, А62С 31/02, 2012). Known sprinklers, the housing of which contains a cylindrical part, turning into a truncated cone (CN No. 201253442, CL A62C 31/05, 2009, CN No. 102939133, A62C 31/05, 2013, RU No. 2474452, A62C 31/12 , 2011, RU No. 2416443, А62С 31/02, 2010).

Known sprinklers are designed in such a way that the flow of the extinguishing fluid flows to the fire source with a spray pattern in the form of circles (circular zones) symmetrical with respect to the axis of the sprinkler. In this case, between the circular zones on the spray surface of the extinguishing fluid, outside the spray pattern, there remain “problem” zones to which the extinguishing fluid does not fall. To eliminate the "problem" zones during fire extinguishing, it is necessary to increase the number of fire extinguishers, i.e. install them, for example, at a shorter distance from each other to overlap the "problem" zones.

It is known that increasing the coverage of the fire area (the area of the spray pattern) by the flow of the extinguishing fluid can be accomplished by the implementation of nozzles, the design of which ensures the spray of the extinguishing fluid over a larger area. So, in patent RU No. 2450866, class. B05B 1/14, 2010, directed droplet movement is ensured, in which the area of movement of the fluid flow is uniformly stretched in the direction from the axis of the atomizer, forming a fan-shaped flow with a large cross section. In WO No. 2012/141595, A62C dated 31/05, 2012, the flow of extinguishing liquid enters the source of ignition through irrigation channels made in such a way that the extinguishing liquid is directed to the irrigation surface at a certain angle and the supply of extinguishing liquid through the spray channels is also provided, whose axis is a right angle with the axis of the sprinkler. Invention No.CN 103480109, А62С 31/05, 2014, presents a multidirectional sprinkler, which provides spraying of extinguishing fluid to the sides of the floor, walls, and ceiling of a room. Despite the fact that the well-known sprinklers provide a large spray of fire extinguishing fluid, there are still “problem” zones, for the overlap of which it is necessary to install an increased number of fire extinguishers to block the “problem” zones.

“Problem” zones during fire extinguishing are areas of the irrigated surface, to which fire extinguishing liquid does not fall during spraying, or in small quantities. These are the zones between the circular spray zones outside the pattern of the extinguishing fluid, which is supplied to the ignition site in the form of a domed or fan-shaped stream. Especially the “problem” zones are the corner zones of the room.

A known fire extinguishing module, in which the module casing is equipped with pipelines installed in its bottom part, and fire extinguishing fluid sprinklers are installed at the ends of the pipelines (patent RU No. 2424839, class A62C 35/00, 2010). Such a fire extinguisher can be installed on the ceiling of the room so that one of the pipelines with a sprinkler is directed to the corner zone of the room, ensuring the supply of the fire extinguishing fluid by this pipeline to the corner.

The disadvantage of this module is that each pipeline with a sprinkler delivers a fire extinguishing liquid in the form of separate circular irrigation zones, without ensuring that the fire extinguishing liquid evenly enters the main fire within the spray zone of the entire sprinkler.

The closest technical solution is the sprinkler according to patent RU No. 2551067, 2014.

The sprinkler for spraying the fire extinguishing fluid of the fire extinguishing installation includes a body made in the form of a thick-walled cup having a bottom with channels and a side wall provided with arranged rows of channels inclined to the axis of the sprinkler. The axis of inclination of the channels in each row increases with distance from the bottom of the glass to a right angle, forming a series of horizontal channels whose diameter exceeds the diameter of the inclined channels. Above this row, at least one row of inclined irrigation canals is located. When sprayed, the sprinkler forms a dome from a fire extinguishing liquid, consisting of polydisperse droplets uniformly distributed with high density throughout the dome. When installing, for example, a sufficient number of fire extinguishers on the ceiling, sprinklers will provide high fire extinguishing effectiveness over large areas. The disadvantage is that in order to extinguish the fire effectively, a denser arrangement of the installations is necessary so that the “problem” zones are covered by the extinguishing fluid. However, the additional installation of fire extinguishing devices entails a large flow rate of the extinguishing fluid and, accordingly, the possibility of causing great damage when extinguishing a fire.

The technical task of the proposed solution is to increase the efficiency and reliability of extinguishing fires in a dense with uniform distribution of droplets a stream of extinguishing fluid with an asymmetric spray pattern that provides protection from fire "problem areas", ie surfaces partially extending beyond the symmetrical spray area, as well as to prevent the development of fire.

The technical result is achieved in that the sprinkler of the extinguishing fluid of the fire extinguishing installation, comprising a housing made in the form of a cup having a bottom part with spray channels and a side wall with main spray channels located in circular rows and angled to the axis of the sprinkler, increasing to a right angle in direction from the bottom, is provided with at least one row of additional spray channels made on a part of the side wall of the glass above the last row of the main spray channels, forming a spray sector, creating an asymmetric diagram of the spray of fire extinguishing fluid relative to the axis of the sprinkler.

The spray sector is made with a central spray angle of 30 ° -180 °.

Additional irrigation channels are made at right angles to the axis of the irrigator.

Additional irrigation channels are made at angles to the axis of the irrigator, less than a right angle, increasing from the bottom of the glass.

Additional irrigation channels are made at angles to the axis of the sprinkler less than a right angle, increasing from the bottom of the glass to a right angle.

Additional irrigation canals are made with a diameter equal to 1.1-1.2 of the diameter of the main irrigation canals.

The essence of the invention lies in the fact that the main irrigation channels create a dome from a fire extinguishing liquid, which forms a symmetrical spray pattern in the form of a main circular zone on the irrigated surface, and

additional irrigation channels increase the irrigated surface with a sector output of the irrigated liquid beyond the symmetrical spray pattern to obtain a given spatial configuration of the irrigation surface, i.e. for the possibility of irrigation of “problem” zones extending beyond the main irrigation zone, or for increasing the amount of extinguishing fluid supplied to a certain hard-to-reach zone.

There are known sprinklers for spraying a fire extinguishing liquid, in the body of which the spray channels are made on part of the outer surface of the body (CN No. 103316442, A62C 31/05, 2013), or the spray channels are made on a spherical body asymmetrically relative to the axis of the sprinkler (JP H0847549, A62C 31 / 05, 1999). Such fire extinguishing devices are designed to be installed in the corner zones of the premises, creating a sector supply of extinguishing fluid. However, when a fire occurs on a surface far from the corners of the room at a considerable distance, effective fire extinguishing becomes problematic.

The invention is illustrated by the following figures.

In FIG. 1 shows a sprinkler containing the main spray channels and additional spray channels forming a spray sector.

In FIG. 2 shows a section of the sprinkler along AA with one sector of additional spray channels.

In FIG. 3 shows a section of the sprinkler along AA with two sectors of additional spray channels.

In FIG. 4 shows a cutout of the wall of the irrigation cup with additional spray channels made at right angles to the axis of the irrigator

In FIG. 5 shows a cutout of the wall of the irrigation cup with additional spray channels made at angles to the axis of the sprinkler, increasing from the bottom of the cup.

In FIG. 6 shows a cutout of the wall of the irrigation cup with additional irrigation channels made at angles to the axis of the sprinkler, increasing from the bottom of the cup to a right angle.

In FIG. 7 shows a spray pattern of a fire extinguishing fluid with an irrigator with one spray sector.

The sprinkler of a fire extinguishing liquid contains a housing 1 made in the form of a thick-walled cup, the neck of which is provided with a thread 2 for connecting it to a fire extinguishing device. In the bottom part 3 of the glass, inclined channels 4 are made. In the side wall 5 of the glass, the main spray channels 6 are arranged, arranged in circular rows. The main spray channels are made at an angle to the axis of the sprinkler, increasing from the bottom of 3 cups to a right angle as you move away from the bottom. The side wall of the glass 5 above the row with the main spray channels made at right angles can be equipped with several rows of inclined main channels 7. Above the rows of the main spray channels in the side wall of the glass 5, additional spray channels 8 are arranged in rows on a part of the side wall 5 of the glass in the circumferential direction. They form a spray sector 9, creating an asymmetric diagram of the spray of fire extinguishing fluid relative to the axis of the sprinkler. The central angle 9 of the spray sector 9 is 30-180 °. The sprinkler may be provided with one or more spray sectors. In FIG. 3 shows a sprinkler with a spray sector 9 and a second spray sector 10. Additional irrigation channels 8 in the spray sectors can be made at right angles α to the axis of the spray gun (Fig. 4). This ensures the flight range of the extinguishing liquid droplets. Additional spray channels can be located at angles to the axis of the sprinkler β ₁ , β ₂ (Fig. 5), which increase in the direction of the axis of the sprinkler from the bottom 5 of the glass. This ensures that the droplets of the extinguishing fluid are concentrated in the spray sector. The angle of the last row of spray channels can be direct relative to the axis of the sprinkler (Fig. 6). This ensures the flight range of the extinguishing liquid droplets. The number of rows of additional spray channels is from 1 or more, preferably up to 3 rows. Such a number of rows of additional irrigation canals is sufficient to ensure the task. An increase in the number of rows of additional spray channels of more than 3 will lead to an excess consumption of extinguishing fluid without the additional effect of extinguishing the fire. Additional irrigation canals are made with a diameter d equal to 1.1-1.2 of the diameter of the main irrigation canals d ₁ . Spray channels of a larger diameter than the main spray channels will provide the required amount of extinguishing fluid with a smaller total number of additional channels. The implementation of additional spray channels of a larger diameter than indicated above will lead to a loss in the intensity of the supply of extinguishing fluid to the “problem” zone.

The spray sector is proposed to be performed with a central spray angle θ = 30 ° -180 °. The central angle of the spray sector depends on the area of the irrigated surface. At smaller central angles of the spray sector, there will be too little coverage of the irrigation fluid with the fire extinguishing fluid that goes beyond the symmetrical pattern of the spray; at large angles, there will be a fairly low concentration of the fire extinguishing fluid in the “problem” zones with an ineffective spray of excess extinguishing fluid.

In FIG. 7 shows a diagram for spraying a fire extinguishing fluid with an irrigator containing one spray sector. The module is located near the corner zone of the room, limited by the walls 11 and 12. The circular zone for spraying the extinguishing liquid 13 is formed by the main spray channels 4, 6 and 7 and is a symmetrical circular diagram for spraying the extinguishing liquid. Between the walls of the room 11 and 12 and the circular spray zone 13, a "problem" zone 14 is formed. Additional spray channels of the spray sector direct fire extinguishing fluid to the "problem" zone. The circular spray zone 13 and the spray sector form an asymmetric diagram of the spraying of the extinguishing liquid, providing fire extinguishing both in the main ignition zone 13 and in the “problem zone” 14. The atomizer operates as follows. The threaded part on the neck of the glass assembly complete with an additional sector is attached, for example, to the fire extinguishing module. The module is installed in such a way that additional spray channels are directed to the alleged "problem" zones. When the module is activated, the fire extinguishing liquid through the main spray channels enters the source of ignition in the form of a symmetrical dome from the drops of the fire extinguishing liquid. From the additional spray channels, the fire extinguishing liquid enters the surface in the form of a sector extending beyond the main spray area, irrigating the “problem” zones inaccessible to the fire extinguishing liquid of the main irrigation channels. When installing adjacent fire extinguishers with the orientation of the fire extinguishing liquid spray sectors from several sprinklers towards each other, the spray sector zones overlap and irrigate the “problem” zone formed between the main circular zones of neighboring sprinklers. As a result, a flow of extinguishing liquid is formed, which provides high fire extinguishing efficiency.

Claims (6)

1. Sprinkler fire extinguishing fluid fire extinguishing installation, comprising a housing made in the form of a glass having a bottom part with spray channels and a side wall with the main spray channels located in circular rows and made at angles to the axis of the sprinkler, increasing to a right angle in the direction from the bottom characterized in that it is provided with at least one row of additional spray channels made on a part of the side wall of the glass above the last row of the main spray channels, spray forming sector that generates asymmetric diagram spray extinguishing liquid with respect to the axis of the sprinkler. 2. The sprinkler according to claim 1, characterized in that the spray sector with additional spray channels is made with a central angle of 30 ° -180 °. 3. The sprinkler according to claim 1, characterized in that the additional irrigation channels are made with a diameter equal to 1.1-1.2 of the diameter of the main irrigation channels. 4. The sprinkler according to claim 1, characterized in that the additional irrigation channels are made at right angles to the axis of the sprinkler. 5. The sprinkler according to claim 1, characterized in that the additional irrigation channels are made at angles to the axis of the sprinkler less than a right angle, increasing from the bottom of the glass. 6. The sprinkler according to claim 1, characterized in that the additional irrigation channels are made at angles to the axis of the sprinkler less than a right angle, increasing from the bottom of the glass to a right angle.

Images