RU2451559C1 - Vortical foam generator of ejection type - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to the field of fire-fighting equipment and is designed for use in automatic systems of fire-fighting by generation of a high-expansion polydisperse foam under conditions of room smoke screening by blockage of quick-burning products with a high-expansion polydisperse foam. In a foam generator there is a vortex sprayer, which is connected to a foam nozzle vessel arranged in the form of a cylindrical shell. The shell is installed coaxially and axially relative to the sprayer. On the foam nozzle vessel in part located closer to the sprayer there are three windows arranged for air ejection. At the outlet there is a meshed splitter of a double-phase flow arranged in the form of a round meshed disc. A meshed cone is attached to a disc with a top lying on the body axis and facing towards the sprayer. To the foam nozzle vessel, near its cut, there is a diffuser's conical surface attached with its larger base, and on this surface there are at least three windows for air ejection. The smaller base of the truncated conical surface of the diffuser is fixed at the output of the splitter. The diameter of this base is equal to the diameter of the output hole of the sprayer, which comprises a bushing axial to the foam nozzle vessel. At one side of which there is a partition arranged perpendicularly to its axis connected to an inlet nozzle with a hole to supply a foaming and a fire-quenching solution into a vortex chamber. The chamber is fixed coaxially on the inner surface of the sprayer's bushing and is made in the form of a cylindrical cavity connected by at least three tangential holes to the sprayer's cavity connected to a nozzle hole. The cylindrical cavity is formed by a ring and two partitions. In the ring there are at least three tangential holes. The ring is arranged as axially to the foam nozzle vessel. One of partitions facing the nozzle is arranged as dead. The other partition facing the diffuser is made with an outlet hole arranged axially to the ring.

EFFECT: higher efficiency of spraying a fire-quenching liquid solution of a foaming agent (a high-expansion polydisperse foam).

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Description

The invention relates to the field of fire fighting equipment and is intended for use in automatic fire extinguishing systems by generating highly multiple polydisperse foam under conditions of smoke in the room while blocking fast-burning products with high-polydisperse foam.

The closest technical solution is a foam generator containing a spray, foam nozzle and a two-phase flow divider (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 (high 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 the foam generator containing the sprayer, the foam nozzle and the two-phase flow divider, the sprayer is made of a vortex type, which is connected to the foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically relative to the spray gun, and on the foam nozzle body, in at least three windows for air ejection are made of the part located closer to the atomizer, and a net divider of a two-phase flow made in the form of a round set is fixed at the outlet a disk, to which a mesh cone is attached with a vertex lying on the axis of the casing and facing towards the sprayer, while the conical surface of the diffuser, on which at least three windows are made, is attached to the casing of the foam nozzle at its slice for ejection of air, and the smaller base of the truncated conical surface of the diffuser is fixed to the outlet of the atomizer, the diameter of this base being equal to the diameter of the outlet of the atomizer, which consists of a sleeve, an axisymmetric body a foam nozzle, on one side of which a partition is located perpendicular to its axis, connected to an inlet fitting with an opening for supplying a foaming and extinguishing solution into a vortex chamber, fixed coaxially on the inner surface of the nozzle sleeve, and made in the form of a cylindrical cavity, connected at least three tangential holes, with a spray cavity connected to the nozzle hole, while the cylindrical cavity is formed by a ring in which at least three tangs are made ntsialnyh holes 9, wherein the ring is arranged axially froth nozzle body, and two partitions, one of which, facing towards nozzle is made hollow and the other facing towards the diffuser, - with an outlet opening arranged axially ring.

The drawing shows a General view of the foam generator ejection type.

The vortex ejection-type foam generator includes a vortex-type atomizer 3, which is connected to the foam nozzle body 12 made in the form of a cylindrical shell mounted coaxially and axisymmetrically with respect to the nozzle 3. On the foam nozzle body 12, in a part located closer to the nozzle 3, are made at least three windows 13 for ejection of air, and at the outlet there is fixed a mesh divider 17 of a two-phase flow, made in the form of a circular mesh disk, to which a mesh cone 16 is attached from the top hydrochloric lying on the axis of the housing 12 and facing towards the sprayer 3.

The conical surface of the diffuser 11, with at least three windows 14 for ejecting air, and the smaller base of the truncated conical surface of the diffuser 11, is attached to the outlet of the atomizer 3, is attached to the housing 12 of the foam nozzle, at its slice, with its large base the diameter of this base is equal to the diameter of the outlet 10 of the atomizer 3.

The vortex type sprayer 3 consists of a sleeve axisymmetric to the foam nozzle body 12, on one side of which a partition 4 is located perpendicular to its axis, connected to the inlet fitting 1 with an opening 2 for supplying a foaming and extinguishing solution to the vortex chamber 6, fixed coaxially on the inner surface of the sleeve 3 nozzles, and made in the form of a cylindrical cavity 8, connected by at least three tangential holes 9 with the cavity 5 of the nozzle connected to the hole 2 of the nozzle 1. Cylindrical the cavity 8 is formed by a ring 7, in which at least three tangential openings 9 are made, while the ring 7 is located axisymmetrically to the foam nozzle body 12, and two partitions 6 and 15, one of which facing the nozzle 1, is blind. and the other, facing the diffuser 11, with the outlet 10 located axisymmetrically to the ring 7.

Vortex foam generator ejection type 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 fire truck to the inlet pipe of the foam generator connected to the nozzle 1, from where it is supplied through the opening 2 and the chamber 5 under pressure to the inlet openings tangentially located 9 vortex chamber 6, from where the swirling flow exits through an opening 10 connected to the inlet of the confuser 11, through the windows 13 of which air is ejected to form foam, which is sent to the divider 17 of two phase flow. At the beginning of the plume, the sprayed spray of the foaming agent solution has the highest speed and due to air ejection a foam is formed with bubbles of both small size (2–3 mm across) and with larger bubbles (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.

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. The foam generator also works on a 6% aqueous solution of fluorinated foam former "Sublayer" in the conditions of smoke in the room.

The foam generator is universal and designed to supply foam in various fire extinguishing systems, for example in fire extinguishers, automatic fire extinguishing systems of closed technological rooms (supplying foam to the place of ignition), where vapor and gas mixtures may form, for example, in pump rooms of pumping stations, chambers pressure regulation, etc.

Claims (1)

An ejection-type vortex foam generator containing a sprayer, a foam nozzle and a two-phase flow divider, characterized in that the sprayer is made of a vortex type, which is connected to the foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically relative to the spray gun, and on the foam nozzle body, at least three windows for ejection of air are made in the part closer to the atomizer, and a net divider of a two-phase flow is made at the outlet in the form of a circular mesh disk, to which a mesh cone is attached with a vertex lying on the axis of the body and facing the sprayer, while the conical surface of the diffuser, at least made three windows for ejection of air, and the smaller base of the truncated conical surface of the diffuser is fixed to the outlet of the atomizer, the diameter of this base being equal to the diameter of the outlet of the atomizer, which consists of a sleeve, axial to the metric body of the foam nozzle, on one side of which there is a partition perpendicular to its axis, connected to the inlet fitting with an opening for supplying a foaming and extinguishing solution into the vortex chamber, fixed coaxially on the inner surface of the nozzle sleeve and made in the form of a cylindrical cavity connected by at least three tangential holes with a spray cavity connected to the nozzle hole, while the cylindrical cavity is formed by a ring in which there are at least three tangential openings, the ring being located axisymmetrically to the foam nozzle body and two partitions, one of which facing the nozzle is blind and the other facing the diffuser has an outlet located axially symmetrically to the ring.

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