RU2664060C1 - Swirling generator of high-conversion polydisperse foam - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: invention relates to the field of fire fighting equipment and is intended for use in automatic fire extinguishing systems by generating a high-speed polydisperse foam in a smoke-fogging environment when blocking high-speed products with high-speed polydisperse foam. Generator of polydisperse high-density foam contains a body, a distributing and directing device. Body is made in the form of a prismatic shell, and on one side a distributor of a foam solution is connected to the body, which is made in the form of vertically arranged at least one inlet pipeline with support and network flanges for connection to the fire extinguishing liquid solution system of the foaming agent. Perpendicular to the input pipeline, horizontally placed at least two additional pipelines rigidly connected to it with plugs at both ends. Distributor of the foam solution fits into the inner contour of the housing. Diameters of the internal cavities of the inlet and additional pipelines are equal to each other. Cavities are interconnected. To the internal cavities of the inlet and additional pipelines are connected on the side of the casing shell and parallel to its axis: short, medium and long ones ending with injectors. Nozzles are oriented to the guiding sieve device, which consists of three coaxial arranged pyramidal shells in the form of generating grids: external, intermediate and internal. Each of the shells comprises a wire frame from two bases of square shape and lateral edges of a truncated pyramidal surface. Outer shell is fixed to the casing by the bigger base. Its second smaller base is simultaneously a large base of the intermediate shell with lateral ribs. Its smaller base is simultaneously a large base of the inner shell with a smaller base. Generating grids in the form of truncated pyramidal surfaces are arranged so that all their vertices lay on the axis coinciding with the casing axis. Direction of the vertices of the outer and the inner generating grids is the same. Vertex of the intermediate generating grid is directed opposite to the vertices of the external and internal generating grids, and toward the distributor of the foam solution. Each of the nozzles comprises a cylindrical hollow body with a fluid supply channel, a threaded portion and a garter belt cutter. In the lower part of the cylindrical hollow body with a channel for supplying liquid, a hollow conical swirler is fixed. Conical shell of the swirler is fixed between the perforated disk separating the cylindrical hole and the diffuser and a perforated disk fixed to the sheath of the cylindrical chamber to the body on which the lower part of the hollow conical swirler is supported. On the surface of the hollow cone swirler a screw thread is made.EFFECT: technical effect: higher efficiency of spraying a fire-fighting liquid solution of a foaming agent (a high-expansion polydisperse foam).1 cl, 3 dwg

Description

The invention relates to the field of fire fighting equipment and is intended for automatic fire extinguishing systems with high-foam foam rooms of oil pumping stations and other rooms subject to automatic fire protection.

The closest technical solution is a foam generator containing a housing, a distribution and a guiding device, (RF patent No. 2136389, B05B 1/04, 1998 - prototype).

A disadvantage of the known object is the lack of the ability to create an optimal flow structure at the outlet and the insufficient efficiency and performance of spraying a fire extinguishing liquid solution of a foaming agent, a highly polydisperse foam.

The technical result is an increase in the spraying efficiency of a fire extinguishing liquid solution of a foaming agent (high polydisperse foam).

This is achieved by the fact that in a foam generator containing a housing, a distribution and a guiding device, the housing is made in the form of a prismatic shell, and on one side of the housing is connected a foam dispenser, which is made in the form of at least one inlet pipe with support and network flanges for connecting a foaming agent to the system of a fire extinguishing liquid solution, and rigidly connected to it at least perpendicularly to the inlet pipe at least two additional pipelines with plugs at both ends, and the foam dispenser fits into the inner contour of the housing, and the diameters of the internal cavities of the input and additional 5 pipelines are equal to each other, while the cavities themselves are interconnected, and to the internal cavities of the input and additional pipelines, bends are connected from the side of the shell of the housing and parallel to its axis: shortened, medium and long, ending with nozzles oriented to the guide mesh device, which consists of three coaxial, coaxially arranged pyramidal shells in the form of generating grids: external, intermediate and internal, and each shell contains a wire frame of two bases in the form of a square and side edges of a truncated pyramidal surface, while the outer shell is attached to the body with a large base, and its second smaller base is simultaneously a large base of the intermediate shell with side ribs, and its smaller base is simultaneously a large base of the inner shell eggs with a smaller base, and the generating grids in the form of truncated pyramidal surfaces are arranged in such a way that all their vertices lie on the axis coinciding with the axis of the body, and the direction of the vertices of the external and internal generating grids coincides, and the vertex of the intermediate generating grid is opposite to the vertices of the outer and internal generating grids, and towards the foam dispenser, each nozzle comprising a housing with a screw and a fitting with a cylindrical hole, a diffuser and a gasket th, and the screw is pressed into the housing chamber to form a conical outer surface of the screw is at least single-filar helical groove on the right or left-threaded screw and the nozzle is made of hard materials: tungsten carbide, ruby, sapphire.

In FIG. 1 shows a general view of a polydisperse high-multiply foam generator; FIG. 2, 3 - options for nozzle circuits.

The generator of polydisperse high-fold foam consists of a housing 1 (Fig. 1), made in the form of a prismatic shell (for example, a rectangular prism, the cross-section of which is a square). On the one hand, a foam dispenser is attached to the housing 1, which is made in the form of at least one inlet pipe 3 with supporting 2 and network flanges (not shown in the drawing) vertically for connecting a foaming agent to the fire extinguishing system. At least two additional pipes 5 with plugs at both ends rigidly connected to it horizontally perpendicular to the inlet pipe 3 are arranged horizontally, the foam dispenser fitting into the inner contour of the housing 1, and the diameters of the internal cavities of the inlet 3 and an additional 5 pipes are equal to each other, and the cavities themselves are interconnected. To the internal cavities of the inlet 3 and an additional 5 pipelines, bends are connected from the side of the shell 1 and parallel to its axis: shortened 4, middle 6 and long 7, ending with nozzles 8 oriented to the guide mesh device 10.

The guide device 10 consists of three coaxial, coaxially arranged pyramidal shells in the form of generating grids: external 15, intermediate 11 and internal 14. Each of the shells contains a wire frame of two bases in the form of a square and side edges of a truncated pyramidal surface. The outer shell 15 is attached with a large base to the housing 1, and its second smaller base 9 is simultaneously a large base of the intermediate 11 of the shell with side ribs 12, and its smaller base is simultaneously a large base of the inner 14 of the shell with a smaller base 13. Generating grids in the form of truncated pyramidal surfaces are arranged in such a way that all their vertices lie on an axis coinciding with the axis of the housing, and the direction of the vertices of the outer 15 and inner 14 of the generating grids coincides, and the vertex is intermediate The generating network 11 is directed opposite to the vertices of the external 15 and internal 14 generating networks, and toward the foam dispenser. The housing 1 is attached to the foam dispenser by means of fasteners 16.

Each of the nozzles 8 (Fig. 2) consists of a housing 17, inside of which there is a screw 23, pressed into the housing 17. The outer surface of the screw 23 is at least a single-pass screw groove 24 with a right (or left) thread.

The supply of the solution (liquid) is carried out through the fitting 18, mounted in the upper part of the housing 17 through the sealing gasket 21. Inside the fitting 18, a cylindrical hole 19 is made, passing into the diffuser 20, which is connected to a conical chamber 22 made in the housing 17 into which the screw is pressed 23.

The foam generator is installed directly above the zone of possible ignition; the length of the created jet in the horizontal or vertical position of the generator does not exceed 1.8 m.

A variant is possible when each of the nozzles 8 (Fig. 3) consists of a housing 25, a fitting 26, mounted in the upper part of the housing. Inside the nozzle 26, a cylindrical hole 28 is made, passing into the diffuser 29, which is connected to the cylindrical chamber 27, made in the lower part of the housing 25, through the sealing gasket 30. In the diffuser 29 is located the upper part of the hollow conical swirler 32, while its conical shell is fixed between a perforated disk 31 separating the cylindrical hole 28 and the diffuser 29, and a perforated disk 34 mounted on a slice of the cylindrical chamber 27 to the housing 25, on which the lower part of the hollow conical swirler 32. On the outer surface of the hollow conical swirler 32 is sequentially screw thread 33.

The centrifugal nozzle operates as follows.

The fluid is supplied through a cylindrical hole 28 into a diffuser 29, and from it into a cylindrical chamber 27, from which it flows under pressure to a hollow conical swirl 32, m exits through through screw threads 33, forming a fine liquid flow. Using the nozzle of the described design allows to obtain a uniform flow volume of fine spray droplets in the range of droplet diameters from 30 to 150 microns with a water supply pressure of not more than 1 MPa.

Generator polydisperse high-fold foam works as follows.

In the event of a fire, the pumping unit (not shown in the drawing) delivers the foaming agent solution from the metering tank or the fire truck to the inlet pipe 3 of the foam generator, from where it is supplied under pressure foam distributor to the bends 4, 6, 7, nozzles 8 of which form sprayed jets.

Each of the nozzles works as follows.

The liquid is supplied through a cylindrical hole 19 into the diffuser 20, and from it into the conical chamber 22, from which it under pressure enters the screw external cavity of the screw 23. A rotating fluid flow in the external screw cavity of the screw forms a vortex movement, and additional drops of liquid due to turbulization of the outlet stream, and a finely divided rotating stream exits the nozzle with a wide rotating torch of the atomized liquid (solution). The nozzle screw 23 can be made of solid materials: tungsten carbide, ruby, sapphire.

At the beginning of the torch, the sprayed spray of the foaming agent solution has the highest speed and, when it gets onto the generating grid, foam with small bubbles (2 ÷ 3 mm across) is formed, with the distance from the nozzle, the jet velocity drops and then foam with larger bubbles forms on the grid (4 ÷ 12 mm across). Thus, the foam generator produces polydisperse (differently sized for bubbles) foam, which has the property of rapid spreading over the surface. Obtaining foam in the conditions of smoke in the room is carried out according to the principle of air ejection by sprayed jets of a 6% aqueous solution of a fluorinated foam former from nozzles 8 sequentially located in the foam dispenser.

Tests have shown that even in conditions of intense smoke, foam is formed in predetermined volumes and has good resistance to decay.

As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. It also works on a 6% aqueous solution of fluorinated foaming agent "Sublayer" in the conditions of smoke in the room.

The foam generator is also designed for automatic fire extinguishing systems of closed technological rooms (supplying foam to the place of ignition), where steam and gas-air mixtures are possible, for example, in pump rooms of pumping stations, pressure control chambers, etc.

The foam generator works efficiently with the following optimal technical parameters:

Specifications

The working pressure of the foaming agent, MPa 0.9 ± 0.1 Foaming agent solution consumption, l / s, not less 7 Productivity on foam, m ³ / s, not less 2,8 Multiplicity of foam, not less 400

Claims (2)

1. The generator of polydisperse high-fold foam containing a housing, a distribution and a guide device, the housing is made in the form of a prismatic shell, and on one side of the housing is attached a foam dispenser, which is made in the form of at least one inlet pipe with supporting and network flanges for connections to the system of the fire extinguishing liquid solution of the blowing agent, and perpendicular to the inlet pipe horizontally rigidly connected to it along the edge there are at least two additional pipelines with plugs at both ends, and the foam dispenser fits into the inner contour of the housing, and the diameters of the internal cavities of the inlet and additional pipelines are equal to each other, while the cavities themselves are interconnected and connected to the internal cavities of the inlet and additional pipelines the sides of the shell of the body and parallel to its axis, bends: shortened, medium and long, ending with nozzles oriented to the guiding mesh device, which The second consists of three coaxial coaxially arranged pyramidal shells in the form of generating grids: external, intermediate and internal, each shell containing a wire frame of two bases in the form of a square and side ribs of a truncated pyramidal surface, while the outer shell is attached to the body with a large base, and its second smaller base is simultaneously a large base of the intermediate shell with side ribs, and its smaller base is simultaneously a large base of the inner shell nails with a smaller base, and generating grids in the form of truncated pyramidal surfaces are arranged so that all their vertices lie on an axis that coincides with the axis of the body, and the direction of the vertices of the outer and inner generating grids coincides, and the vertex of the intermediate generating grid is opposite to the vertices of the outer and internal generating grids, and in the direction of the foam dispenser, characterized in that each of the nozzles contains a cylindrical hollow body with a channel for supplying fluid, p a hollow section and a belt with turn-key sections, and in the lower part of the cylindrical hollow body with a channel for supplying liquid, a hollow conical swirl is fixed, the conical shell of which is fixed between the perforated disk separating the cylindrical hole and the diffuser, and the perforated disk mounted on a section of the cylindrical chamber to the housing, on which the lower part of the hollow conical swirl is supported, and a through screw thread is made on the outer surface of the hollow conical swirl. 2. The generator of polydisperse high-fold foam according to claim 1, characterized in that each of the nozzles consists of a housing, inside of which there is a screw, pressed into the housing, while the outer surface of the screw is at least a single-thread helical groove with right or left thread, and the fluid solution is supplied through a fitting fixed in the upper part of the housing through a sealing gasket, while a cylindrical hole is made inside the fitting, passing into a diffuser, which is connected to a conical th camera made in the housing in which the screw is pressed.

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