RU2237503C1 - Fire-extinguishing apparatus - Google Patents

Abstract

FIELD: fire-fighting equipment, in particular, extinguishing of fire by gas-aerosol burning inhibitors generated upon combustion of pyrotechnic compound charges.

SUBSTANCE: fire-extinguishing apparatus has casing composed of two plate-shaped vessels attached to one another with gap between their flanges for defining discharge nozzle, gas-aerosol generating pyrotechnic charges fixed in both vessels by means of heat-insulating layer of construction gypsum, and initiating unit made in the form of resistor covered with adhesive ignition compound. Initiating unit is located in axially asymmetric position between pyrotechnic charges, which are mounted flush with heat-insulating layer ends, said layers filling casing vessel flanges, where layer of foamed material is placed. Foamed material layer end is covered with sealing compound, in particular, silicone sealant, with ratio of casing diameter and pyrotechnic charge diameter being 1.7-2.5. Adhesive ignition compound of initiating unit is mixture of epoxy resin and potassium nitrate used in the ratio of 2:3. Apparatus of such construction is preferably used for directing fire-extinguishing mixture into object to be protected from fire on vehicles, ships, stores and industrial premises.

EFFECT: enhanced reliability in operation, increased fire-extinguishing effectiveness owing to increased volume of fire-extinguishing aerosol generated, minimal temperature of gas-aerosol mixture at discharge end of apparatus, and wider range of usage.

3 cl, 1 dwg

Description

The invention relates to fire fighting equipment, and more particularly, to devices for extinguishing fires using checkers of gas-aerosol combustion inhibitors generated during the combustion of a pyrotechnic composition, organizedly directed to a protected volume on vehicles, ships, warehouses and industrial premises.

The prior art characterizes the fire extinguishing aerosol generator according to patent RU 2205671, A 62 C 3/02, 2002, containing pyrotechnic checker placed axially in the housing through the layer of building gypsum, a cooling unit made of granules of ablation material, in the central transfer tube of which is connected to the combustion chamber fixed igniter associated with the remote control device, a convex cover with output radial holes and formed in the housing above the cooling unit perforated receiver, closed aluminum membrane.

The described generator is designed to operate in high humidity on river and sea vessels.

The disadvantages include the bulkiness of the structure, which is determined by the axial arrangement of the structural elements, and the complexity of the initiation unit, which includes a central fire transfer tube and an igniter connected via a switch to a remote control device, as well as a low extinguishing ability due to large losses of the generated aerosol deposited on ablation granules cooler.

The noted disadvantages are eliminated in a throwing and extinguishing device, compact and efficient, which contains a housing made up of two counter-fastened dish-shaped containers with a gap between their flanges forming an outlet slotted nozzle, and pyrotechnic charges generating a gas-aerosol mixture, fixed in both containers of the housing through a heat shield a layer of gypsum in such a way that the free end of the charge is located below the flange to form the receiver, as well as the initiation unit, cased on the housing under the handle, coaxial to the slot nozzle (see patent RU 2164809 C2, A 62 C 19/00, 2001).

By the number of coinciding features and technical nature, this fire extinguishing device is selected as the closest analogue to the proposed one.

A continuation of the advantages of a manual throwing device is an inherent disadvantage due to the location of the initiation unit outside the housing, which determines a relatively long start time with indirect ignition of charges that are located below the flanges and the axis of the ignition torch.

The presence of the receiver, necessary for organizing the dynamic flow of the quenching mixture, reduces the mass of the charge and reduces the protected volume.

The device is leaky, which reduces functional reliability and service life, limits the scope of use.

The thermal vulnerability of the flanging of the body (slotted nozzle) limits the operating time and volume of the generated aerosol, as it quickly burns out, which disrupts the fire extinguishing function and, at the same time, can serve as a source of secondary ignition.

The problem to which the present invention is directed, is to increase the efficiency of fire extinguishing and the functional reliability of a fire extinguishing device while expanding the scope of its use.

The required technical result is achieved in that in a known fire extinguishing device containing a housing composed of two counter-mounted dish-shaped containers with a gap between their flanges, forming an output nozzle, generating a gas-aerosol mixture, pyrotechnic charges, fixed to both body containers through a heat-protective layer of building plaster , and the initiation unit, according to the invention, the initiation unit is made in the form of a resistor filled with an adhesive igniter composition, placed symmetrically between the pyrotechnic charges mounted flush with the ends of the heat-insulating layers filling the flanges of the containers, where a foam pad is installed, which is coated on the end with a sealing compound, and the ratio of the overall diameter of the case to the diameter of the pyrotechnic charges is set in the range from 1.7 to 2.5, moreover, the adhesive igniter composition of the initiation unit is made of a mixture of epoxy resin and potassium nitrate in a mass ratio of 2: 3, and the foam pad is coated at the end have silicone sealant.

Distinctive features ensured the effectiveness of fire fighting by increasing the volume of the extinguishing aerosol generated while maximizing the temperature of the gas-aerosol mixture at the outlet of the device, the functional reliability of which increased.

The implementation of the initiation unit in the form of a resistor filled with an adhesive igniter composition allowed it to be placed directly between the pyrotechnic charges in the center of the piece, minimizing the gap, which, firstly, reduced the start-up time of the generator, and secondly, made it possible to seal the device.

Ignition of both parts of the charge occurs from the center dynamically and without interference, almost instantly and simultaneously.

Filling the flanging of the vessel’s containers with building gypsum formed a disk nozzle, the output area of which significantly exceeds the critical section area at its inlet, which ensures the quenching flow expands with an increase in the outflow speed, that is, the disk nozzle acts as a receiver between charges according to the prototype, so it became possible to mount charges checkers flush with flanges of the case.

At the same time, the mass of the checkers and the volume of the generated aerosol increased for fire protection of the larger room.

An additional affect of lining the flanging of the body with building gypsum is that automatically throughout the entire length of the disk nozzle, the extinguishing gas-aerosol mixture is actively cooled by contact-evaporated water, and the flanges practically do not heat up.

The fastening of the resistor of the initiation unit to the charge of the checker with an adhesive composition, which at startup creates an amplifying ignition pulse, is technologically and structurally simple.

The placement in the disk nozzle of a readily combustible foam pad covered at the end with a sealing compound reliably isolates the pyrotechnic charge from the effects of atmospheric moisture, which increases the generator warranty period with a nominal start-up speed.

Silicone sealant is a hydrophobic insulating adhesive, manufactured industrially.

The length of the output disk lined nozzle for the formation of the required gas-dynamic outflow of the extinguishing mixture is selected from the conditions for optimizing the ratio of the overall diameter of the body (D _to ) (at the end of the flanges) and the diameter of the pyrotechnic charges of the checker (D _h ) in the range from 1.7 to 2.5 experimentally.

When the ratio is less than 1.7, the quenching of the extinguishing mixture is unsatisfactory, the flow rate drops, and the intake of cooling air at the outlet of the device decreases, and the fire fighting efficiency decreases. With a ratio of 2.5, the mass of the checker decreases and the hydrodynamic resistance of the disk nozzle increases, which increases the pressure inside the device above the calculated one.

The performance of the adhesive igniter composition of a mixture of epoxy resin and potassium nitrate and their mass ratio is determined by functional purpose from the conditions of manufacturability and safety.

When the content of the epoxy resin in the adhesive material is less than 2 parts by mass, it mixes poorly and does not wet the surface of the charge, which ultimately leads to unreliable fastening of the resistor to it.

When the content and composition of potassium nitrate is less than 3 mass parts, ignition unsatisfactorily occurs, there may be cases of failure.

Therefore, each sign is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in signs of disunity, that is, not the sum of the effects is achieved, but the effect of the sum of the signs.

The invention is illustrated in the drawing, which shows the proposed fire extinguishing device.

The extinguishing device structurally consists of two parts, each of which contains a plate-shaped body 1, where the pyrotechnic charge 3 is fixed flush through the layer of gypsum 2, generating a gas-condensate mixture during combustion - a fire extinguishing aerosol containing combustion inhibitors and in the form of gaseous compounds and ultrafine condensed particles.

The parts of the housing 1 with each other by bolts 4 are rigidly connected counterclockwise to the gap 5, filled with a gasket 6 made of easily burned foam, which serves as a vibration damper and cyclic operation loading loads.

Building gypsum of the interlayer 2 of each container body 1 fills the flange 7, assembled to form a disk nozzle with a heat-shielding lining, in the gap 5 of which there is a gasket 6, coated at the end with a layer 8 of silicone sealant that insulates the volume of the device.

In the gap 5 is axisymmetric to the charges 3, an initiation unit is installed in the center of the checker, including a resistor 9 with a resistance of 5-15 Ohms, which is attached to the end of one of the charges 3 by means of an adhesive igniter 10, polymerized after pouring, providing a rigid connection.

Composition 10 is made of a mixture of combustible epoxy resin ED-20 with a hardener and an oxidizing agent - potassium nitrate (KNO ₃ ) in a ratio of 2: 3, which additionally increases the heat pulse for igniting pyrotechnic charges 3.

The resistor 9 is connected by wires 11 to the terminals 12 for supplying a triggering pulse with a current strength of 1-2 A and a duration of 0.5-1.0 s.

The housing 1 is equipped with support plates 13 for installation in a protected volume of the premises with standard fasteners.

The device operates as follows. When the fire control system is activated from exceeding the threshold of the permissible air temperature in the protected volume, the triggering pulse is supplied to a low-power resistor 9, which burns out, generating heat. In this case, composition 10 is ignited, the thermal pulse of which ignites the pyrotechnic charges 3, and the foam layer 6 burns out almost instantly, freeing the gap 5.

Both charges 3 stably and evenly burn from their free ends, generating a gas-aerosol mixture, which dynamically expires through a disk nozzle 5 of flanges 7 into a protected volume. In this case, the bound water of building gypsum is evaporated and actively mixed with the hot products of combustion of charges 3, diluting and cooling them.

The cooling efficiency of the extinguishing stream is illustrated by the fact that at a distance of 100 mm from the device, the temperature and flow is 100 degrees C, which is multiple lower than in the device of the prototype.

According to a comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a fire technician, it is revealed that it is not known, and taking into account the possibility of industrial production of these generators, it can be concluded that the patentability criteria are met.

The implementation of a fire extinguishing device leakproof for 10 years of storage reports a new quality - explosion safety, because the design prevents filling the working gap with technological suspensions from the guarded premises (flour, wood acne), combustible volatile (alcohol, acetone), etc., which the thermal start pulse is detonated, destroying the design of the generator.

Therefore, the proposed device can be more widely used, in particular, on ships in high humidity, on all modes of transport, as it is resistant to cyclic loads and vibration.

Claims (3)

1. Fire extinguishing device containing a housing composed of two counter-mounted dish-shaped containers with a gap between their flanges, forming an outlet nozzle, generating a gas-aerosol mixture, pyrotechnic charges, fixed in both containers of the housing through a heat-protective layer of gypsum, and an initiation unit, characterized in that the initiation unit is made in the form of a resistor filled with an adhesive igniter, placed axisymmetrically between the pyrotechnic charges mounted and flush with the ends of the heat-protective layers filling the flanges of the containers, where a foam pad is installed, coated on the end with a sealing compound, while the ratio of the overall diameter of the case to the diameter of the pyrotechnic charges is set in the range from 1.7 to 2.5. 2. The fire extinguishing device according to claim 1, characterized in that the adhesive igniter composition of the initiation unit is made of a mixture of epoxy resin and potassium nitrate in a mass ratio of 2: 3. 3. The device according to claim 1, characterized in that the foam pad is coated at the end with silicone sealant.