RU2551067C1 - Sprinkler for dispersion of fire extinguishing liquid of fire extinguishing unit - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: sprinkler for dispersion of fire extinguishing liquid of a fire extinguishing unit contains the housing designed as a thick-walled barrel with a bottom part with channels and a wall fitted with channels, located in rows and inclined to the spray axis, the inclination axes of which in each row are increased with increase of distance from the bottom part of the barrel to the right angle, forming a number of horizontal channels. According to the invention the sprinkler is fitted with additional inclined channels located in at least one row above the row with horizontal channels, and the diameter of horizontal channels exceeds the diameter of inclined channels. In the bottom part of the barrel and on external sidewall in rows with inclined channels V-shaped ring flutes with the angle 90° are made. V-shaped flutes are made so that the inclined channels have an outlet to the side of V-shaped flute which is oriented at right angle to the axis of inclined channels.

EFFECT: improvement of efficiency of fire suppression due to creation of a compact dome-shaped flow of fire extinguishing liquid with dense and uniform distribution of drops in whole volume of the dome providing fire protection of big surfaces at the minimum consumption of liquid.

6 cl, 2 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 source. Also, the invention can be used in other areas where spraying of liquid means is required, for example, in agriculture, when applying various types of coatings, etc.

The effectiveness of suppressing a fire depends on many parameters, and, in particular, on the nature of the movement of the droplets of the extinguishing liquid: the trajectory of the droplets, the angle of their departure, the density and uniformity of the distribution of droplets in the spray of the sprayed liquid, the distribution of the extinguishing liquid over the surface of the combustion zone, the possibility of reaching the source of drops burning, etc. These parameters are achieved, first of all, due to the design of sprinklers used in fire extinguishing devices.

Known sprinklers for spraying a fire extinguisher, the body of which is made in the form of a hemisphere, with channels for spraying a fire extinguishing liquid. The angle of inclination of the channels is determined by the radius of the external spherical surface (PM RU No. 28622, class A62C 35/00, 1997; CN No. 203264111, A62C 31/02, 2013; JP No. H1119268, A62C 31/24, 2013 ) Fire extinguishing fluid sprinklers are known in which the body is made in the form of a truncated cone, spray holes are made at the end and conical surface of it (RU No. 2428235, A62C 31/02, 2010; RU No. 2287351, A62C 31/05, 2005; RU No. 2481137, А62С 31/02, 2012; DE No. 20318317, А62С 31/02, 2005).

Irrigators of this design do not allow to obtain a continuous stream of sufficiently finely divided droplets on the irrigation surface of the required area without increasing the flow rate of the liquid,

Known sprinkler, the body of which is made in the form of a truncated cone, equipped with side inclined channels. The design of the sprinkler provides a central channel with slots for dispersing the liquid and a reflector that is installed above the inclined channels (RU No. 2297865, A62C 37/09, 2005). The reflector contributes to the formation of a fine continuous stream in the form of a torch of atomized liquid within the protected area. The design drawback is the small protected area, which is limited by the size and angle of inclination of the walls of the reflector.

Known sprinkler made in the form of a camera, the lower part of which is W-shaped (US No. 2005011652, A62C 31/05, 2005), as well as a sprinkler made in the form of a camera, the lower part of which is V-shaped (US No. 5358179, B05B 1/26, 1994). In the walls of the known chambers are made inclined channels. The jets of extinguishing liquid coming out of the channels collide with each other, contributing to the crushing of drops and the formation of a continuous torch of finely dispersed liquid. The disadvantage of this type of sprinklers is that it can be used to extinguish fires of a small area from a distance close enough to the burning center. At the same time, the sprinkler should be located directly above the burning area, because extinguishing is carried out mainly by jets of extinguishing fluid intersecting in the area of the axis of the sprinkler.

There are known sprinklers whose body contains a cylindrical part turning into a truncated cone (CN No. 102939133, А62С 31/05, 2013; RU No. 2474452, А62С 31/12, 2011; RU No. 2416443, А62С 31/02, 2010 g.). In the walls of the cylindrical and conical parts, channels are made for the release of the extinguishing agent, and on the cylindrical part of the sprinkler, the axis of the channels are horizontal, on the conical part - the axis of the channels are angled. Such sprayers can be used to extinguish fires in large enough areas, however, there is a large spray of extinguishing agent in the volume of the room, and, accordingly, a decrease in the efficiency of fire extinguishing.

Known fine sprinkler with a housing made in the form of a truncated cone. The housing is equipped with an axial channel and horizontal and vertical channels made on a conical surface and forming pairs of mutually perpendicular channels (RU No. 2456041, class A62C 31/02, 2011). When extinguishing fluid exits from mutually perpendicular channels, a fan-shaped stream is formed from finely dispersed droplets obtained by the mechanism of crushing liquid droplets. The disadvantage of the sprinkler is that the fire extinguishing liquid, leaving the mutually perpendicular channels, forms a dome with an uneven filling of the inner part of the fire extinguishing fluid, and therefore a large amount of fire extinguishing agent is required to extinguish the fire.

There are known sprinklers, the housing of which contains two parts, made in the form of a truncated cone, between which a cylindrical part is located. Paired mutually perpendicular channels are made in the lower truncated cone of the body, horizontal channels are made in the cylindrical part of the body and inclined and horizontal channels are made in the upper truncated cone (RU No. 2474452, 2011; RU No. 2416443, class A62C 31/02, 2010 .). This design of the sprinkler makes it possible to obtain finely dispersed spraying of a fire extinguishing liquid due to the crushing of oncoming streams flowing from mutually perpendicular channels of the lower truncated cone, and oncoming streams flowing from horizontal channels on the cylindrical part of the body and inclined channels in the upper truncated cone. Streams of fire extinguishing fluid flowing from the horizontal channels of the upper truncated cone, allow to increase the area of the irrigated surface, however, this stream is mostly sprayed throughout the room, without significantly affecting the fire fighting efficiency.

Closest to the claimed technical solution is the sprinkler for extinguishing a fire with a fire extinguishing liquid - PM CN No. 201760018, cl. А62С 31/05, 2011. The sprinkler is made in the form of a thick-walled cup, in the bottom of which channels are made, the axes of which are parallel to the spray axis. The walls of the glass are equipped with inclined channels located in annular rows. The axis of inclination of the channels in each row increases with distance from the bottom of the glass. The axis of the channels of the last row are located at right angles to the axis of the sprinkler, forming a series of horizontal channels.

The disadvantage of the sprinkler is that the flow of extinguishing fluid emerging from the horizontal channels is sprayed for the most part over the volume of the room, without reaching and not falling onto the burning center. In this case, to extinguish a fire effectively, a large quantity of extinguishing fluid is required.

The technical task of the proposed technical solution is to increase the efficiency of extinguishing fires by creating a compact flow of fire extinguishing liquid in the form of a dome with a dense and uniform distribution of droplets throughout the dome, providing protection against fire of large surfaces with a minimum flow rate.

The technical result is achieved by the fact that the sprinkler for spraying the extinguishing fluid of the fire extinguishing installation, comprising a housing made in the form of a thick-walled cup having a bottom with channels and a wall equipped with rows arranged in rows inclined to the axis of the spray gun, the tilt axes of which in each row increase with distance from the bottom of the glass to the right angle, forming a series of horizontal channels, is equipped with additional inclined channels located at least one row above the row with the horizon solid channels, while the diameter of the horizontal channels exceeds the diameter of the inclined channels.

When additional inclined channels are arranged in at least two or more rows, the inclination angles of the additional channels in each row decrease towards the horizontal channels.

The inclination angles of the additional inclined channels are greater than the inclination angles of the inclined channels located below the horizontal channels.

The channels of the bottom of the glass are arranged in circular rows and are oriented at an angle relative to the axis of the sprinkler, increasing from the axis of the glass to its side wall.

The angles of inclination of the channels of the bottom are smaller than the angles of inclination of the inclined channels in the side wall of the glass.

In addition, in the bottom of the glass and on the outer side wall of the glass in the rows with inclined channels, V-shaped annular grooves are made with an angle of 90 °, while the V-shaped grooves are made so that the inclined channels have an exit to the side of the V-shaped groove, which is oriented at right angles to the axis of the inclined channels.

The invention consists in the following.

From the inclined channels located below the row of horizontal channels, the flows of the extinguishing fluid, consisting of fine droplets, are directed to the source of ignition in the form of a dome. Large-diameter horizontal channels provide a range of large-droplet flow. The fine stream emanating from the inclined channels located above the horizontal channels acts on the large-droplet stream, crushing large drops to a finely dispersed state and limiting its dispersion over the volume of the room. Fire extinguishing liquid flowing from the inclined channels of the bottom part enters the burning area in the zone adjacent to the axis of the sprinkler. As a result, a solid dense dome of fire extinguishing liquid is formed over the burning area, which provides protection of a large combustion area without increasing the flow rate of the fire extinguishing liquid.

In FIG. 1 shows an atomizer in section along the axis.

In FIG. 2 shows a cutout of a wall of a beaker with V-grooves.

The sprinkler for spraying a fire extinguishing liquid contains a housing 1 made in the form of a thick-walled glass, the neck of which is provided with a thread 2 for attaching it to a fire extinguishing device. The inclined channels 4 are made in the bottom part 3 of the glass. The inclined channels 4 are arranged in circular rows, while the inclination angles α ₁ , α ₂ and α _{3 of the} axes of the inclined channels of the bottom part increase from the axis 5 of the sprinkler to the wall 6 of the glass. In the wall of the glass 6 is made of inclined channels 7 located in circular rows. The inclination angles β ₁ , β ₂ , channels 7 increase with distance from the bottom 3 of the glass. Above the rows with inclined channels 7 there is a series of horizontal channels 8, the axes of which form a right angle with the axis of the sprinkler 5. Above the row of horizontal channels 8, additional inclined channels 9 are arranged in circular rows. The additional inclined channels 9 can be arranged in more than one row. When the channels are arranged in more than one row, the slope angles β ₃ , β _{4 of the} channels decrease towards the horizontal channels. Moreover, the tilt angles β ₁ , β _{2 of the} channels 7 are less than the tilt angles of the channels 9. The tilt angles α ₁ , α ₂ and α _{3 are} less than the tilt angles of the channels 7 and 9. The number of rows with tilted channels, their tilt angles to a greater extent determine the size of the dome formed by the flows of extinguishing fluid emanating from these channels, the distribution and density of drops inside the dome.

On the glass wall from the outside, in rows with inclined channels 7 and 9, V-shaped annular grooves are formed with a 90 ° angle, opening outward 10. The grooves are oriented so that one of the sides 11 of the annular grooves is at right angles to the axis of the inclined channels. The aforementioned side 11 has exits of inclined channels. The same grooves are made in the bottom of the glass. The grooves 10 contribute to the concentration and direction of the flow of the extinguishing fluid and increase the length of the flow formation, because the extinguishing liquid jets begin to spray at a certain distance from the glass wall.

Inclined channels have the same diameter d. The horizontal channels have a diameter D that exceeds the diameter of the inclined channels. Coarse-flow extinguishing liquid flowing out of horizontal channels 8 provides an increase in the surface to be protected and prevents the dispersion of fine-flowing flowing out of inclined channels 7. The fine-flowing extinguishing fluid flowing out of inclined channels 9, colliding with a coarse-flow stream, contributes to its fragmentation and somewhat limits the range flight of droplets, concentrating the extinguishing fluid in the form of a dome.

The sprinkler works as follows.

The threaded part on the neck of the glass sprinkler is attached to a fire extinguishing device, such as a fire extinguishing module. When the module is activated, the fire extinguishing fluid through the sprinkler enters the combustion site. From the inclined channels 7, a fire extinguishing liquid enters the combustion zone in the form of fine droplets. The large-droplet flow of extinguishing liquid emerging from the horizontal channels 8, having a significant range of flight of droplets, increases the surface to be protected and at the same time prevents the dispersion of finely dispersed flow throughout the room. The fine extinguishing liquid stream formed by inclined channels 9 enters at an angle to the flow of a large-drop extinguishing liquid, contributes to its crushing and ensures the concentration of the extinguishing liquid. As a result, extinguishing fluid flows from inclined and horizontal channels form a dome, consisting of polydisperse droplets uniformly distributed with a high density throughout the dome, and providing high fire fighting efficiency over large areas.

Claims (6)

1. A sprinkler for spraying a fire extinguishing fluid of a fire extinguishing installation, comprising a housing made in the form of a thick-walled cup having a bottom with channels and a side wall equipped with rows of channels inclined to the axis of the sprinkler, the tilt axes of which in each row increase with distance from the bottom glass to a right angle, forming a series of horizontal channels, characterized in that the sprinkler is equipped with additional inclined channels located at least one row above the row with horizontal perimental channels, wherein the diameter of the horizontal channels is greater than the diameter of inclined channels. 2. The sprinkler according to claim 1, characterized in that when the additional inclined channels are arranged in the side wall in at least two or more rows, the inclination angles of the additional channels in each row decrease towards the horizontal channels. 3. A sprinkler according to claim 1 and 2, characterized in that the inclination angles of the additional inclined channels are greater than the inclination angles of the inclined channels located below the horizontal channels. 4. The sprinkler according to claim 1, characterized in that the channels of the bottom of the glass are arranged in circular rows and are oriented at an angle relative to the axis of the sprinkler, increasing from the axis of the glass to the side wall of the glass. 5. Sprinkler according to claim 1 and 4, characterized in that the angles of inclination of the channels of the bottom are smaller than the angles of inclination of the inclined channels in the side wall of the glass. 6. The sprinkler according to claim 1 and 4, characterized in that in the bottom of the glass and on the outer side wall of the glass in rows with inclined channels, V-shaped annular grooves with an angle of 90 ° are made, while the V-shaped grooves are oriented in such a way that one of the sides of the groove is located at right angles to the axis of the inclined channels, while the channels have access to the said side.

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