RU2485985C1 - Thrown device of dry chemical fire suppression - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to fire-fighting equipment, namely to a device thrown under the influence of the pulse of barrelled launcher. The thrown device of dry chemical fire suppression comprises a cylindrical housing, a streamlined head part, dry chemical powder, the dry chemical powder fluffing agent, and means of its displacement. The dry chemical powder fluffing agent is a gas generator which is mounted with the ability of its replacement at the upper part of the housing. The gas generator is provided at the lower part with the aerator connected with it gasdynamically, and the upper part - with the electric trigger element. The lateral surface of the aerator is equipped with holes that are blocked with opening elements. One electrical wire of the electric trigger element is connected to the housing of the device. The second one is electrically insulated from the housing and connected to the metal cylindrical element of solid section, which is mounted coaxially to the gas generator. The cylindrical element protrudes from the upper part of the housing, and the streamlined head part of the device is releasably connected to the housing and is made meshed. The lower part of the housing is equipped with a neck that is blocked by the breakable membrane. The membrane is pressed against the neck by the swivel nut which is connected to the nozzle extension. The nozzle extension is placed in the interior of the head part of the device and is made in the form of a hollow cylinder with a longitudinal through slots and a central hole.

EFFECT: increased efficiency.

6 cl, 2 dwg

Description

The invention relates to fire fighting equipment, and in particular, to a device that is tossed under the influence of an impulse of a barrel throwing device, which can be used to extinguish and localize fires in hard-to-reach places, for example, in apartments of high-rise buildings, in explosive objects to which human access is impossible, and t .P.

The prior art fire extinguishing installation according to the patent of the Russian Federation No. 2121856 (publ. 11/20/1998), using the barrel principle of throwing to deliver a fire extinguishing device to the fire, containing a fire extinguishing agent, placed in a durable container, reusable.

The disadvantages of the known missile device include the separation of the container with the extinguishing agent and the expelling charge with the igniter, which are installed separately and in different places: the container with the extinguishing agent - in the barrel, the expelling charge with the igniter - in the gate, which leads to complication of assembly, and when recharging, cleaning of components of the previous assembly is required, i.e. Significant delays occur when requiring operational fire fighting.

The separation of the expelling charge and the extinguishing agent eliminates their mixing before being ejected from the barrel, i.e. there are no conditions for the preliminary extinguishing of the extinguishing agent, in addition, sintering of the powder by high-temperature gases with an expelling charge is not excluded.

The measures to limit clumping during the release of the extinguishing agent also have their drawbacks. The movable bottom and the lid in the container with the extinguishing agent are interconnected by rigid partitions, which exclude their mutual movement when the extinguishing agent is discharged. When the expulsion charge is triggered under the influence of the generated gases, the bottom in the container with the extinguishing agent begins to move and squeezes the lid of the container through the rigid partitions. As a result, a fire extinguishing composition flies out of the barrel, associated with the lid, bottom and partitions, which in flight quickly lose their speed, are separated from the mass of the fire extinguishing composition, destroy the integrity of the flow, which reduces the efficiency of fire extinguishing due to the lack of a compact supply of extinguishing agent to the combustion zone followed by its high-speed distribution in the protected area in order to effectively extinguish the fire. The sprayed stream of extinguishing agent eliminates the possibility of an exact hit in a given place, for example, in the window of a burning apartment of a high-rise building. In this case, it is only possible to cover with a fire extinguishing agent a sufficiently wide combustion zone with low extinguishing efficiency.

The use of quick-burning compositions in an expelling charge (for example, gunpowder) creates conditions for an almost instantaneous increase in pressure in front of the container lid, therefore, to reduce the likelihood of barrel destruction, the shutter is equipped with an overpressure relief valve. Significant recoil efforts must be compensated by special shock absorbers.

The prior art fire extinguishing installation according to the patent of the Russian Federation No.2008048 (publ. 02.28.1994), using the barrel principle of throwing to deliver the fire extinguishing device shown in Figure 4, adopted as a prototype, containing a cylindrical body, streamlined forms, extinguishing powder, a means of extinguishing the extinguishing powder and a means of displacing it.

When throwing a known fire extinguishing device, an expelling charge explodes from an initiating pulse, from which a detonating cord lights up, initiating a simultaneous explosion of spray charges and an igniter located in the streamlined head of the cylindrical body. The process of successive explosions of expelling charge, spray charges and igniter is instantaneous, therefore, the release of extinguishing agent can occur in flight. And since the cylindrical body of the known device, designed to deliver the extinguishing agent to the combustion zone, when throwing has the ability to rotate (there are no stabilizers that provide linear movement along its axis) and the fire extinguishing agent is forced out of the body by a narrow, one-way jet extinguishing agent may occur in a direction that does not correspond to the original sighting direction of the fire extinguishing device, which excludes the reliability of accurate and compact ingress of the extinguishing agent into the fire.

Even if the release of the extinguishing agent did not occur during the flight of the known device, the extinguishing agent is ejected from the casing with subsequent spraying in a narrow stream, the direction of which is determined by the location of the casing of the device after falling, and the ejection can occur in the direction opposite to the source of ignition.

In this case, the heterogeneity of the destruction of the hermetic shell into which the extinguishing agent was placed will lead to its non-uniform spraying.

When the hermetic shell is destroyed, an almost instantaneous pressure drop occurs inside the housing, i.e. there are no conditions for the high-speed distribution of the extinguishing agent, which significantly reduces the volume of its distribution in space and, accordingly, the extinguishing ability of the missile device due to the ineffective penetration of the extinguishing agent into the combustion zone.

Used spray charges from quick-burning compositions, burning a detonating cord can lead to sintering of the extinguishing powder.

The design of the known device, to give it an initial high speed, predetermines throwing from the barrel under high pressure provided by a knockout charge, which reduces the safety of throwing the device during operation.

These shortcomings cause a significant limitation of the reliability of obtaining a functional result, the speed of its achievement, which reduces the effectiveness of fire fighting when using the known device.

The objective of the present invention is to provide a device for powder fire extinguishing, throwing under the influence of a propellant barrel launcher, which expands the arsenal of means for this purpose, can improve fire extinguishing and throwing safety of the device by creating conditions to ensure guaranteed reliable discharge of fire extinguishing powder precisely after the device enters the fire zone rather than in flight, with a uniform, volumetric and high-speed distribution of extinguishing powder fire zone when excluding the possibility of its sintering in the housing, while minimizing pressure necessary for throwing.

The problem is solved by the proposed throwable powder fire extinguishing device, which contains a cylindrical body, a streamlined head, a fire extinguishing powder, a means for extinguishing a fire extinguishing powder and a means for displacing it. The peculiarity lies in the fact that the means of extinguishing the extinguishing powder is at the same time a means of displacing it and is a gas generator, fixed with the possibility of its replacement in the upper part of the housing, provided in the lower part with an aerator gasdynamically connected with it, the side surface of which is equipped with openings covered by opening elements, and in the upper part an electric starter element, one electric wire of which is connected to the device case, and the second is electrically insulated from the case and with It is connected with a solid-section metal cylindrical element mounted coaxially to the gas generator and protruding from the upper part of the housing, the head part of the streamlined shape of the device being detachably connected to the housing, made of a lattice, and the lower part of the housing equipped with a neck, a collapsible membrane, pressed against it by a union nut connected to nozzle nozzle made in the form of a hollow cylinder with through longitudinal grooves and a central hole to ensure its placement in the inner volume IU head of the unit.

In particular, each edge zone of the housing is provided with an annular collar in its outer diameter.

In particular, the membrane is designed to open it at a pressure of 2.4-2.6 MPa.

In particular, the ratio of the length of the housing to its diameter is 3-6.

In particular, the housing of the device is made with the possibility of reusable use.

In particular, the device is made with the possibility of throwing it at a pressure of 0.8-1.2 MPa.

A comparative analysis shows that the inventive device differs from the prototype in the presence of a gas generator in the internal volume of the casing, combining several functions (in the prototype, powder is pulled and emitted from the casing by different structural elements); ensuring the start of the gas generator at the time of throwing the device from the barrel (in the prototype, the explosion of spray charges and the ignitor located in the head of the body occurs after the explosion of the expelling charge); another embodiment of the streamlined head of the device — a lattice design that allows not only protruding from the body of the device protruding from the body when it hits the target, but also provides an unimpeded release of powder into the protected space (in the prototype, the all-metal part of the body connected to it indissolubly, destroyed when igniter explosion); the presence in the internal volume of the head of the device nozzle, which determines the comprehensive volumetric uniform high-speed discharge of the extinguishing powder while maintaining the working pressure during the period of its discharge (in the prototype, the extinguishing agent is released in the form of a narrow arbitrary direction of the jet with its subsequent spray and almost instantaneous pressure drop); the presence on the body of elements providing a tight working contact of the propelled device with the barrel channel, the stability of its movement in the barrel during firing; the ability to throw the device at low pneumatic pressure of the order of 0.8-1.2 MPa (in the prototype, the fire extinguishing device is ejected from the barrel by an expelling charge from a quick-burning composition, such as gunpowder, which requires the implementation of the necessary safety measures).

It is the combination of features that are distinctive from the prototype with the remaining essential features of the proposed solution that made it possible to achieve the above technical result, which cannot be achieved by the known missile extinguishing device, and to solve the problem.

The proposed throwable powder fire extinguishing device is illustrated by graphic images:

Figure 1 is a longitudinal section of a device;

Figure 2 - node a in figure 1.

The device (FIG. 1) comprises a housing 1, in which a fire extinguishing powder 2, a gas generator 3, gas-dynamically connected with an aerator 4, equipped with holes 5 with opening elements (not shown conditionally and can be made, for example, of adhesive film, or rubber, are placed, or paper). To start the gas generator 3 is equipped with an electric trigger element (not shown). The cylindrical part of the housing 1 is equipped with annular beads 6, stabilizing the movement of the device along the barrel of the propellant (for example, a pulsed barrel pneumatic installation). The neck 7 is covered by a destructible membrane 8, which is pressed by a nut 10 by means of a washer 9. A nozzle 11 is mounted on the nut 10 and is located in the internal volume of the lattice head part 12 of the device, made of, for example, steel bars.

One electric wire 13 (FIG. 2) of the electric start element of the gas generator 3 is connected to the housing 1, the second electric wire 14 is electrically insulated from the housing 1 by the non-conductive bushings 15, 16 and connected to the metal element 17, which is the second contact in the electric start system of the gas generator, made in the form a cylinder of a continuous section and installed coaxially with the gas generator 3. The electrical connection unit is mounted in a sleeve 18 with an external thread 19 intended for fastening a protective cap (not shown) when wounding and transporting device.

Throwing fire extinguishing device with a high-speed pulsed supply of extinguishing powder into the fire zone works as follows.

At the time of the signal to throw the device from the barrel pneumatic impulse installation, an electrical impulse is supplied to the electric wires 13, 14 of the electric start element and the gas generator 3 is triggered, followed by gas generation. The opening elements of the holes 5 of the aerator 4 are destroyed, and the low-temperature gas enters the internal volume of the housing 1 of the device. Passing through the powder 2, the gas fluffs it (fluidizes), preparing it to be released into the protected space. After the device falls onto the target surface in its body 1, a gas pressure corresponding to the opening level of the membrane 8 is reached, after the destruction of which the extinguishing powder 2 enters through the nozzle 7 into the nozzle nozzles 11 and, passing under high pressure through the longitudinal grooves and the central hole of the nozzle nozzle 11, with high speed in a pulsed mode propagates in the protected area and volume. To maintain the working pressure at the time of the ejection of the extinguishing powder 2, the gas generator 3 continues to produce gas after opening the membrane 8. The opening pressure of the membrane, which is 2.4-2.6 MPa, is reached after 6-10 s from the start of the gas generator 8 and is maintained during the pulse powder discharge 2.

After throwing one device, it is enough to insert, the next device, create the necessary pressure and throw the device into the fire zone without cleaning the propellant barrel and other auxiliary measures.

The tests showed that the inventive device equipped with a fire extinguishing powder ISTO-1, allows you to reliably extinguish the fires:

a) device with 6 kg of fire extinguishing powder:

- for class A fires in a volume of 60 m ³ ;

- for class B fires in a volume of 20 m ³ ;

b) a device with 10 kg of fire extinguishing powder:

- for class A fires in a volume of 100 m ³ ;

- for class B fires in a volume of 33 m ³ .

Additionally, the device was dumped with 10 kg of extinguishing powder vertically down from a height of 13 m onto a concrete base and aimed throwing by a pulsed pneumatic installation with a pressure of 1.2 MPa with its simultaneous launch. In both cases, the operation of the device was authorized, destruction and deformation of the elements of the body is not fixed. Throwing from a pulsed pneumatic installation showed the accuracy of firing at a distance of 110 m, while the release of extinguishing powder occurred after the contact of the missile device with the target.

Thus, the claimed device is practically feasible and can satisfy a long-existing need for solving the problem.

Claims (6)

1. A throwable powder fire extinguishing device comprising a cylindrical body, a streamlined head, a fire extinguishing powder, a means of extinguishing a fire extinguishing powder and a means of displacing it, characterized in that the means of extinguishing a fire extinguishing powder is at the same time a means of displacing it and is a gas generator, fixed with the possibility of it replacement in the upper part of the housing, equipped in the lower part with a gas-dynamically connected aerator, the side surface of which is equipped with holes , covered by opening elements, and in the upper part - by an electric starting element, one electric wire of which is connected to the device’s case, and the second is electrically insulated from the case and connected to the metal cylindrical solid element protruding coaxially from the upper part of the case, and the head part is streamlined devices detachably connected to the casing are lattice-shaped, and the lower part of the casing is equipped with a neck covered by a destructible membrane, pressed against it akidnoy nut connected to a nozzle head formed as a hollow cylinder with through longitudinal slots and the central opening ensuring its placement head in the interior volume of the device. 2. The device according to claim 1, characterized in that each edge zone of the housing along its outer diameter is provided with an annular bead. 3. The device according to claim 1, characterized in that the membrane is made to ensure its opening at a pressure of 2.4-2.6 MPa. 4. The device according to claim 1, characterized in that the ratio of the length of the housing to its diameter is 3-6. 5. The device according to claim 1, characterized in that the housing of the device is made with the possibility of reusable use. 6. The device according to claim 1, characterized in that it is made with the possibility of throwing it at a pressure of 0.8-1.2 MPa.

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