RU150560U1 - FIRE EXTINGUISHING AEROSOL GENERATOR - Google Patents

Abstract

1. A fire extinguishing aerosol generator, comprising a cylindrical body fastened through a calibrated gap forming an output annular nozzle, with a support disk of a larger diameter, equipped with punchings, fixing holes and through holes for connecting plates, integral with the open end of the cylindrical body, which, through a layer of cured material, a functional pyrotechnic block with an axial igniter charge is fixed, initiating removable from the outside, characterized in that between the case and adjacent embossments of the support disk, where the slots are coaxially made, mounting clips are mounted on the connecting plates, through which a thermochemical cord connected to the ignition charge is laid through the support disk. 2. A generator according to claim 1, characterized in that a double-sided tape is attached to the outer flat side of the support disk.

Description

The utility model relates to fire fighting equipment, and more particularly, to automatic devices for extinguishing fires in enclosed spaces by means of gaseous and condensed combustion inhibitors generated by the combustion of their pyrotechnic equipment, organized in a jet manner directed to a fire source.

The level of this technical field is characterized by a fire extinguishing aerosol generator described in patent RU 2256475, A62C 3/00, 2005, containing two pyrotechnic charges in a mass ratio of 3: 7, placed through a layer of gypsum in counter-bonded containers with guaranteed clearance, one of which has a plate shape.

The gap between the containers forms the output disk nozzle, where an electric igniter is axially mounted.

The flanging of the container capacity of the dish-shaped body is filled flush with gypsum with a pyrotechnic charge of a lower mass, and the second container is made of a flange-shaped flanging of the disk container, which are fastened by means of bolt ties in a structural unity.

The bore of the disk nozzle is formed by means of measuring sleeves coaxially mounted on bolted couplers in a spacer with both containers.

A feature of the described generator is the operation in two successive modes of aerosol generation: to create a fire-extinguishing concentration of combustion inhibitors in the protected volume and subsequent delayed aerosol supply during end-face combustion of only a larger mass charge in a cylindrical container.

The disadvantages of the described generator are the following:

- the direct action of a high-speed jet of hot aerosol on devices, equipment and means of communication in a protected volume, which can cause damage and malfunction in their work;

- the thermodynamic interaction of two opposite fronts of the end combustion of charges and the nonlinear nature of the ratio of the areas of critical and output sections of the disk nozzle, limiting the arbitrary change in the mass and size parameters of both pyrotechnic charges, that is, they are unique and do not scale;

- the difficulty of mounting the generator through a special device that is not universal for various spatial conditions of the protected premises.

More perfect and unified is the design of the aerosol generator according to patent RU 80119 U1, A62C 13/00, 2009, which is selected by technical essence and the number of matching features as the closest analogue to the proposed mobile generator.

The known generator contains a housing made of two parts, fastened with a gap, forming an output annular nozzle, one of the housing parts having a plate shape, where a functional piece of a pyrotechnic composition with an axially located electric igniter is fixed through a layer of building gypsum, and the second part of the housing has the shape of a support disk, the diameter of which is 1.5-1.7 times the diameter of the dish-shaped part.

At the open end of the dish-shaped container, connecting plates are mounted monolithically, which are installed through calibrated washers in the through slots of the support disk, onto which they are bent to the bottom to form a structural unity.

Replaceable washers on the connecting plates allow you to adjust the height of the gap between the parts of the housing and determine the flow area of the output annular nozzle.

The support disk of a larger diameter than the dish-shaped container mounted above it with a gap screens the jet streams of hot combustion products of the pyrotechnic checker, spatially reorienting them and distributing them in the volume, additionally cooling.

A design feature is the presence of distributed stampings on the supporting surface of the disk, which form a blown space under the generator.

Through holes in the support disk are designed to accommodate screws or bolts for simple and reliable mounting of generators on various bearing surfaces in a protected room.

The design of the well-known generator is unified for various sizes of structural elements and expands the technological capabilities of its application.

A disadvantage of the known compact and efficient aerosol generator is that it is not designed to function autonomously due to binding to an external initiating impulse, which determines the delay in starting (while the fire develops) and, with manual initiation, a subjective factor.

In addition, the known generator is based on the supporting surface of the room by means of differently high point contacts: downward punchings and ends of the connecting plates bent to the disk, which determines the instability of the mounting and limits the mobile operational installation of the generators near the fire.

The technical problem to which the present utility model is directed is to increase the fire extinguishing efficiency of an autonomously operating generator, ensuring the expansion of its technological capabilities through autonomy of operation.

The required technical result is achieved by the fact that in a known fire extinguishing aerosol generator containing a cylindrical body fastened through a calibrated gap forming an output annular nozzle, with a support disk of a larger diameter, equipped with extrusion extrusions distributed on the periphery, mounting holes and through slots for connecting plates, cast in place from the open end of the cylindrical body, in which a functional pyroe is fixed by means of a layer of cured material nical checker axial igniter charge triggered externally by the authors' proposal, between the housing and the support disk adjacent vyshtampovki where coaxially slits are arranged on the connecting plates installed mounting clips through which is laid on the supporting disc thermochemical cord connected to the igniter charge.

Another feature of the proposed generator is that on the outer flat side of the supporting disk attached double-sided tape.

Distinctive features of the proposed technical solution ensured autonomous automatic start of the generator from exceeding the ignition temperature of the thermochemical cord in the protected volume and expanded the technological capabilities of the operative suppression of the ignition focus by means of mobile manual mounting of the generator on any supporting surfaces adjacent directly to the ignition focus using adhesive tape on the supporting disc.

The thermochemical cord, which, without additional means of initiation, ignites from the thermal energy of the environment at a temperature of 180 ° C and burns steadily, serves as a sensitive element of an autonomous security fire-fighting system, which automatically operates and transmits a thermal pulse to initiate a functional charge inside the generator.

The plasticity of the thermochemical cord allows it to be mounted in labyrinth gaps inside the generator and compactly laid on the supporting disk, fixing the spatial position by means of mounting clips mounted on the connecting plates of the housing.

Placing the thermochemical cord around the perimeter of the supporting disk of the generator allows you to control the temperature regime inside the protected volume, automatically responding promptly to a local excess of the temperature threshold from the side of the fire.

The free placement of the thermochemical cord in the mounting clips allows you to remove it and place it in a hard-to-reach place of the most likely fire, at some distance from the fixed generator.

Mounting clips are installed on the connecting plates of the housing until they are connected to the support disk, which eliminates the need for additional means of their fastening.

At the same time, the mounting clips serve as calibrated washers, which, together with the adjacent stampings of the support disk directed inside the generator, when assembling the structure, forms the height of the annular gap between the cylindrical body and the support disk - the passage section of the exit slotted nozzle.

The implementation of through slots for the installation of the connecting plates of the housing in the punchings of the supporting disk made it possible to place the bendable free end of the connecting plates in the dimensions of the supporting disk, which is tightly adjacent to the bearing surface in the protected room.

This feature of the proposed generator design expands the technological possibilities of application: in addition to the screw fastening through the holes in the support disk, quickly glue the generator to any surface directly at the ignition site manually, by means of a double-sided tape fixed to its rear end, which increases the fire fighting efficiency with a local extinguishing effect mixture to interrupt the combustion process.

The combination of coaxial through-cuts for the connecting plates with the punchings of the support disk is technologically ensured in one working stroke of the pressing tool.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the technical problem posed in the utility model is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The essence of the proposed utility model is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of claims of the totality of the essential features of the formula. The drawing shows:

in FIG. 1 - the proposed generator;

in FIG. 2 is a view along arrow A in FIG. one.

The mobile fire extinguishing aerosol generator contains a cylindrical body 1, on the open end of which the connecting plates 2 are fixed.

In the case 1, by means of a layer 3 of cured material (building gypsum, aerated concrete or foam), a pyrotechnic block 4 is fixed, which generates a functional aerosol during combustion, including gaseous combustion inhibitors and active particles of the condensed phase, interrupting the combustion chain reaction.

Coaxially to checker 4, an igniter charge 5 of a composition sensitive to a thermal pulse is mounted.

The housing 1 assembly is mounted on the adjacent embossments 6 of the support disk 7, having a diameter 1.5-1.7 times greater than the diameter of the cylindrical body 1, while its connecting plates 2 are placed in the through slots 8, coaxial to the extrusions 6 of the support disk 7.

Previously, before assembly, mounting plates 9 are mounted on the plates 2, which are placed in the form of washers on the punchings 6 of the support disk 7, forming an annular output nozzle.

Between the disk 7 and the end face of the checker 4 placed elastic foam pad 10.

Then, the ends of the plates 2 protruding inside the stampings 6 are bent with effort, fixing the monolithic position of the structural elements of the generator assembly.

At the same time, the thermochemical cord 11 adjacent to the igniter charge 5 and fixed inside the interlayer 3 is passed through the clips 9 distributed around the generator perimeter, laying it on the supporting disk 7 (Fig. 2), from the bottom of which a double-sided tape 12 is coated with a protective tape (not shown conventionally )

In the supporting disk 7 there are through holes 13 for placing mounting screws or bolts for stationary installation of the generator in a secure room.

The proposed generator operates as follows.

In the event of a fire in a closed protected volume when the temperature of the medium reaches 180 ° C, the thermochemical cord 11 ignites and burns linearly.

The igniter charge 5, when the combustion front of the cord 11 is reached, is initiated and sets fire to the pyrotechnic checker 4, generating a functional aerosol, which is ejected through the slotted annular nozzle between the housing 1 and the disk 7 into the protected volume where the fire is suppressed.

The volume inside the generator, freed up after the gasket 10 is burned, acts as a receiver, where the generated aerosol is mixed with the evaporated structural water of the gypsum layer 3 and cooled.

The generated gaseous products during the end burning of the checkers 4 are inhibited and rotated along the disk 7 to a radial outlet, further cooling.

A feature of the proposed generator is the possibility of its mobile use to suppress the source of ignition, for which adhesive tape 12 on the back of the support disk 7 is released from the protective tape and pressed tightly against the bearing surface inside the volume where the fire occurred. Then close the opening, isolating the room in which the above-described action of the generator takes place.

With stationary mounting of the generator, it is possible to remove the thermochemical cord 11 from the clips 9 and extend towards the likely occurrence of a fire source, thereby reducing the time required to launch the pyrotechnic checker 4 and to suppress the fire.

Comparison of the proposed technical solution with the identified analogues of the prior art did not reveal an identical match of the set of essential features of the utility model.

The proposed differences in the extinguishing aerosol generator are not obvious to a specialist in fire fighting equipment, which directly follows from the statement of the technical problem.

It is possible to produce a set of structural elements of the generator in their interconnection at the existing production, where analogue generators are produced in series using the existing technology.

From the foregoing, it can be concluded that the options for a utility model correspond to patentability conditions.

Tests of prototypes of the proposed design of the generators confirmed the functional reliability of the interaction of structural elements with autonomous automatic start from temperature excess in a closed volume.

The possibility of mobile mounting of generators in the immediate vicinity of the ignition site by gluing with double-sided tape on the back flat side of the support disk significantly increased the efficiency of active fire fighting, simplified installation work, which allows us to recommend the proposed design for serial production for delivery to customers.

Claims (2)

1. A fire extinguishing aerosol generator, comprising a cylindrical body fastened through a calibrated gap forming an output annular nozzle, with a support disk of a larger diameter, equipped with punchings, fixing holes and through holes for connecting plates, integral with the open end of the cylindrical body, which, through a layer of cured material, a functional pyrotechnic block with an axial igniter charge is fixed, initiating removable from the outside, characterized in that between the case and adjacent embossments of the support disk, where the slots are coaxially made, mounting clips are mounted on the connecting plates, through which a thermochemical cord connected to the ignition charge is laid through the support disk. 2. The generator according to claim 1, characterized in that a double-sided tape is attached to the external flat side of the support disk.

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