RU2819667C1 - Portable fire extinguishing device - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: invention relates to fire-fighting equipment, in particular to hand-held devices generating a gas-aerosol mixture of combustion inhibitors, intended for primary suppression of fire centres with a directed flow of extinguishing mixture. Portable fire extinguishing device comprises a tubular body-handle with a cover, a cartridge from a pyrotechnic composition of a fire-extinguishing aerosol, a grating primer-igniter with a grater. Perforated and guide shells are coaxially connected by means of contact welding. Metal mesh covers the perforation windows of the perforated shell. Space between the perforated shell and the guide shell is filled with a granular coolant in the form of tablets of an easily gasified substance. Grating primer-igniter is installed in the channel of the tube fixed with interference on the guide shell and providing the distance from the grating primer-igniter to the cartridge of pyrotechnic composition of the fire-extinguishing aerosol not more than ¼ along the length of the free volume of the device. Cover of the body-handle is made of polymer material and is connected by means of a capron thread with a grating primer-igniter.

EFFECT: increased reliability of ignition of pyrotechnic composition and reduced time of device activation.

5 cl, 1 dwg

Description

The invention relates to fire-fighting equipment, in particular to hand-held devices that generate a gas-aerosol mixture of combustion inhibitors, intended for the primary suppression of fires with a directed flow of the extinguishing mixture.

The portable fire extinguishing device of the proposed design is intended for volumetric, directed aerosol extinguishing of fires of solid and liquid flammable substances, as well as electrical equipment, including live equipment.

The level of this field of technology is characterized by a manual fire extinguishing aerosol generator described in patent RU 2597580 C2 dated 02/09/2015, A62C 13/22, which contains a functional charge of pyrotechnic bombs sequentially installed in a tubular polymer or cardboard body.

Between the checkers and the body there is a thermally insulating asbestos tube, supported through a seal on an inert massive jumper.

The body is connected from the inside to a supporting shank, on which a grooved handle is pressed against the body, with a diameter equal to the size of a human hand.

On the opposite side, a casing is attached to the body, forming a highly directed flow of generated aerosol when the functional charge of pyrotechnic bombs burns.

Inside the casing there is a freely movable cylindrical hollow plug, at the end of which a grater is attached.

The central plug and the casing are rigidly connected by means of a cotter pin with a pull-out ring.

The diaphragm contains a fire transfer sleeve adjacent to the upper end of the pyrotechnic block of a functional charge, filled with a friction-sensitive pyrotechnic composition, the excess of which forms the ignition head for interaction with the float.

The known manual aerosol generator operates as follows.

To bring the generator into working condition, hold it with one hand by the handle, and with the other hand, pull out the cotter pin (pin) by the ring, releasing the plug, removing the safety level in official handling.

Then a free plug with a float at its end is fed along the casing until it touches the head of the ignition composition, after which the plug is rotated, striking the float against the head, after which the plug is removed from the casing, and the generator is directed to the source of fire.

In this case, the friction-sensitive composition of the head ignites and burns in the fire transfer sleeve, at the end of which the transfer of a thermal energy pulse is localized to the pyrotechnic composition of the block, which ignites, thereby ensuring its stable end combustion.

The gaseous combustion products of the pyrotechnic bomb stream out through the free nozzle hole of the bushing into the inside of the casing, where they expand and mix, forming a directed flow of fire extinguishing aerosol to the source of the fire, into uzins and other hard-to-reach places to actively influence the interruption of chain oxidative combustion reactions, eliminating the formation of active radicals, As a result, when the extinguishing concentration of fire inhibitors is reached, the fire is suppressed.

A stream of extinguishing mixture is manually directed directly to the source of fire for effective local impact and suppression of fire sources.

The disadvantage of this generator is the presence of a high-temperature jet of aerosol and flame, which can lead to collateral damage to material property.

The noted drawback has been eliminated in the fire extinguishing aerosol generator described in patent RU 2770196 C1 dated 06/21/2021, A62C 13/22, which, based on the number of matching features, was chosen as the closest analogue to the proposed portable device for extinguishing fire.

The known generator contains a tubular housing-handle with a lid, a block of pyrotechnic composition of a fire-extinguishing aerosol, a grating primer-igniter with a grater and a perforated diaphragm located inside the housing-handle.

A feature of the proposed technical solution is that the grating primer-igniter is installed in a guide tube mounted on a perforated diaphragm, the perforation windows of which are covered with a metal mesh, and the annular space between the tube and the diaphragm is filled with tablets of an easily gasifying substance, for example, ammonium oxalate, the decomposition products of which have a fire extinguishing effect, while the gap between the cut of the tube and the block is at least ¼ of the internal cavity of the body-handle, and the distance from the diaphragm to the cut of the body is at least ½ of the internal diameter of this body.

Tablets made of an easily gasifying substance ensured the effective removal of thermal energy from the gaseous combustion products of the bomb from the pyrotechnic composition.

An easily gasified substance, for example ammonium oxalate, performs several functions: on the one hand, it cools the fire extinguishing aerosol formed during the combustion of the pyrotechnic composition and provides internal flame extinguishing, and on the other, decomposition products, in particular water and carbon dioxide, enhance the fire extinguishing effect of the aerosol.

The presence of a metal mesh enhances the flame extinguishing effect in the housing and prevents large fragments from flying out along with a highly dispersed aerosol.

The gap between the cut of the tube and the block, which is at least ¼ of the internal cavity of the body-handle, forms a free internal volume that acts as a mixing chamber for the fire extinguishing aerosol, where the flame extinguishing processes are also completed.

The internal volume of the housing-handle between the diaphragm and its cut is at least ½ of the internal diameter of this housing, in addition to the fact that it contains a ring and a float cord in the transport position (with the lid installed), and forms a stream of fire extinguishing aerosol.

The disadvantage of the known generator is the unsatisfactory reliability of ignition of the pyrotechnic composition when the igniter capsule is triggered, due to the large gap between the cut of the tube and the block, amounting to at least ¼ of the internal cavity of the body-handle.

Another disadvantage of the known generator is the rather long activation time of the device when using it due to the presence of two actions - unscrewing the lid and pulling out the cord, which initiates the ignition of the block.

The technical problem to be solved by the proposed invention is to expand the functionality of a portable device for extinguishing a fire with high reliability of ignition of the pyrotechnic composition and short activation time of the device.

The required technical result is achieved by the fact that a portable device for extinguishing a fire contains a tubular body-handle with a lid, a block of pyrotechnic composition of a fire-extinguishing aerosol, a grating primer-igniter with a grating, a perforated and guide shell, coaxially connected by resistance welding, a metal mesh covering the windows perforating the perforated shell, wherein the space between the perforated shell and the guide shell is filled with granular coolant.

A feature of the proposed technical solution is that the grating primer-igniter is installed in the channel of the tube, which is tightly secured to the guide shell, while the distance from the grating primer of the igniter to the block of the pyrotechnic composition of the fire extinguishing aerosol is no more than 1/4 along the length of the free volume of the device, and the cover of the body-handle is made of a polymer material - thermoplastic elastomer (for example, brand “Teplex 220”) and is connected using a nylon thread to a rubbing primer-igniter.

A block of pyrotechnic composition of fire extinguishing aerosol is coated with heat-resistant enamel, which prevents unsteady combustion of the composition.

The cover has a convenient tongue for its removal, made of polymer material in the form of a strip of the cover material, ensuring speed when removing it from the case.

A device made with the ratio of the mass of the granular coolant to the mass of the fire extinguishing composition is determined in the range from 0.2 to 0.5, which makes it possible to significantly reduce the proportion of the coolant in relation to the mass of the fire extinguishing composition and simultaneously reduce the temperature of the housing walls.

The granular coolant consists of ammonium oxalate or urea or ammophos.

Distinctive features ensured high reliability of ignition of the pyrotechnic composition and short activation time of the device.

The tube, fixed and pressed onto the guide shell, ensures reliable ignition of the pyrotechnic composition when the igniter capsule is triggered, and the specified limitation on the size of the gap between the cut of the tube and the block eliminates the possibility of non-ignition.

The elongated tongue on the cover makes it easy to remove it from the device while simultaneously activating the igniter primer using a nylon thread (in one movement).

Heat-resistant enamel covering the block of pyrotechnic composition eliminates the possibility of unsteady combustion.

A given limitation on the ratio of the mass of the coolant to the mass of the fire extinguishing agent allows for maximum efficiency of the device.

Consequently, each essential feature is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in the features in isolation, that is, the posed technical problem is solved not by the sum of effects, but by a new super-effect of the sum of features.

A comparative analysis of the proposed technical solution with identified analogues of the level of this field of technology, from which the invention does not clearly follow for a specialist in fire-fighting equipment, showed that it is unknown, and taking into account the possibility of practical mass production of a portable device for extinguishing a fire in an existing production, it is possible to make conclusion on compliance with patentability criteria.

The essence of the proposed technical solution is illustrated by the drawing (Fig. 1), which has a purely illustrative purpose and does not limit the scope of claims of the set of features of the claims. The drawing shows a proposed portable fire extinguishing device.

In the cavity of the body-handle (1) there is a block (2) made of a pyrotechnic composition.

A perforated shell (4) is fixed above the block (2) made of pyrotechnic composition using retaining rings (3), the perforation windows of which are covered with a metal mesh (5), and into which a guide shell (6) is coaxially installed using spot welding.

An elongated tube (7) is pressed onto the guide shell (6).

The annular space between the perforated shell and guide shell is filled with tablets (8) of an easily gasifying substance, for example ammonium oxalate, or carbamide, or amaphos. When the tablets decompose from heat, they cool the aerosol passing through them.

To prevent the tablets (8) from moving relative to each other, they are pressed with a metal mesh (5), the compression of which is ensured by rolling up the perforated shell (4).

In the elongated tube (7) there is a cap with a grating composition (9) made, for example, of berthollet salt, antimony trisulfide and zirconium carbide, and a metal spring (10) passing through it with a shank connected to a piece of cord (11) with a lid (12).

A cover (12) is pressed onto the upper part of the handle body. The hole in the upper part of the cover is filled with any type of sealant (13), for example, silicone sealant according to GOST R 57400-2017.

The portable fire extinguishing device operates as follows.

To activate a portable fire extinguishing device, hold it by the lower part of the housing-handle (1) with one hand, and with the other, with a sharp movement of the hand, pull out the cover (12) by the elongated tongue.

In this case, due to the tension force of the cord (11), kinematically connecting the cover with the spring (10), the spring is pulled out and with a sharp movement strikes the grating composition (9), causing the initiation of ignition.

A fire pulse from the grating composition passing through the elongated tube (7) ignites a block (2) of the pyrotechnic composition, forming an aerosol stream passing through the tablets (8), which, by taking away heat for decomposition, reduce the temperature of the aerosol.

Aerosol products passing through the holes of the perforated shell (4) contain inhibitor particles that act on the flame reaction zone and create chemical bonds that prevent combustion.

During operation of the device there is no sparking or flame, the temperature of the aerosol jet does not lead to ignition of materials and does not cause material damage.

The device is activated in one motion when the cover (12) is removed, which increases its effectiveness in extreme situations.

As a result of testing prototypes of the proposed design of a portable fire extinguishing device, it was established that there were no failures when using the device, as well as ease of use.

A comparison of the proposed technical solution with the closest analogues of the state of the art did not reveal an identical coincidence of the set of essential features of the invention.

The proposed differences in a portable fire extinguishing device are not obvious to a fire-fighting equipment specialist and do not directly follow from the formulation of the technical problem.

The production of a set of structural elements of the proposed portable fire extinguishing device in their interconnection in a single device can be carried out in the existing production of pyrotechnic products, which was confirmed during the manufacture of a pilot batch of this fire extinguishing device.

From the above we can conclude that the invention complies with the conditions of patentability.

Claims (5)

1. A portable device for extinguishing a fire, containing a tubular housing-handle with a lid, a block of pyrotechnic composition of a fire-extinguishing aerosol, a grating primer-igniter with a grating, a perforated and guide shell, coaxially connected by contact welding, a metal mesh covering the perforation windows of the perforated shell, in this case, the space between the perforated shell and the guide shell is filled with a granular coolant in the form of tablets made of an easily gasifying substance, characterized in that the grating primer-igniter is installed in the channel of the tube, fixed with an interference fit on the guide shell and providing a distance from the grating primer-igniter to the pyrotechnic block the composition of the fire extinguishing aerosol _is no more than ^1/4 along the length of the free volume of the device, and the housing-handle cover is made of polymer material and connected using a nylon thread to a grated primer-igniter. 2. The device according to claim 1, characterized in that the block of the pyrotechnic composition of the fire extinguishing aerosol is coated with heat-resistant enamel, which prevents unsteady combustion of the composition. 3. The device according to claim 1, characterized in that the cover of the housing-handle has a tongue for its removal, made of polymer material. 4. The device according to claim 1, characterized in that the ratio of the mass of the granular coolant to the mass of the fire extinguishing composition is in the range from 0.2 to 0.5. 5. The device according to claim 1, characterized in that the granular coolant consists of ammonium oxalate, or urea, or ammophos.