SK1062007A3 - Fire-fighting method and device for application of powder medium - Google Patents

Abstract

Progressive fire extinguishing method, make by methodic, immediately consecutive following application of chemical extinguishing powder medium and after application of cooling or isolation extinguishing medium. Technology for application of powder medium, formed by central carrier part /1/, by install segments /2/ for its installation on install points of aircraft or helicopter, by brake mechanism /3/, by opening mechanism I4I of powder filling container cover, by cover /5/ of powder filling container, which could be made from one part minimally, by control mechanism /6/ of brake mechanism and cover of powder filling container, by security mechanism /7/ of control mechanism of brake mechanism and cover of powder filling container, by mechanism of dispersion /8/ of powder filling, and by external stabilization surfaces /9/.

Description

Method of progressive fire extinguishing and equipment for application of dust medium,

Technical field

The invention relates to a method of progressive fire extinguishing and a device for application - dispersion of dust medium, i. method - progressive - gradual fire extinguishing method using a combination of successive effects of chemical extinguishing and extinguishing by cooling or extinguishing by insulating method, and equipment for transport and application - dispersion of dust, especially extinguishing medium. The applicability of the invention to the extinguishing action is defined in particular by the parameters (chemical composition and physical parameters) of the powder fire extinguishing medium, in particular for forest and stand fires, fires of large-scale open space technologies, oil and gas drilling equipment and transport systems, or military or strategic objects and the like.

BACKGROUND OF THE INVENTION

The current range of technologies applicable to fire extinguishing includes mainly equipment for ground extinguishing, ie. ground fire fighting equipment (tank car syringes, special cars, fire equipment and equipment) and technologies for aerial fire fighting (integral or overhead tanks and fire-fighting bags for the transport and application of water or extinguishing water solutions by aircraft or helicopters). The increasing number of forest fires and fires in special conditions (water surface, strategic objects, energy and transport systems, technologies, or places unavailable for conventional extinguishing methods) is not currently followed by effective methods for extinguishing them. Especially in the case of forest fires, the effectiveness of current tactics and fire extinguishing technology is minimal ([I] Kemenyík, Š .: “Do we“ fire ”with water ?, ALARM Security Magazine 2/2007, ISSN 1335-504X, page 6-10), as the extinguishing effect by air the transported and applied water and aqueous solutions are minimized by the efficient heat flows that are located between the fuel source (thermally degraded as a rule by wood mass) and the system to which the extinguishing agent is applied (aircraft, helicopter). Tactical fire extinguishing models and used - known extinguishing technologies do not currently allow the effective extinguishing of the basic extinguishing requirements, which are rapid fire detection and fire fighting. The use of conventional ground fire extinguishing technology and technology is limited by terrain availability and heat flows spreading partly along the terrain profile. The use of aviation technology (aircraft equipped with a water tank, or helicopters equipped with a water tank or fire extinguishing bag for water transport and application) is inefficient in terms of low performance of this method of extinguishing (so-called point extinguishing), ie. low volume of extinguishing medium supply (see [1]) in terms of time (continuity of supply) and spatial distribution of extinguishing medium distribution over large and time related to powerful heat sources. Small amounts of water (0.5-2m ³ ) delivered at intermittent intervals are not enough to take the system - fire so much heat energy that without the external source there will be no system - fire self-sufficient in fuel preparation and its initiation, ie. to avoid the self-propagating combustion process. This is mainly due to the fact that the cooling energy potential of water is reduced as it passes through the flame phase and ascending heat flows, and at the moment of impact on the fuel (to be the primary extinguishing), much of the water is heated or evaporated. The consequence of the unsuitable method of extinguishing and the unsuitable extinguishing technology is the extinguishing of forest fires (or fires in special conditions) highly time-consuming and costly and causes high damage to material and national wealth values (forests, animals, ecosystems) exceeding tens of millions Gr. Significant are also the high costs of restoring fire-affected areas, as well as lengthy fire-fighting by inefficient methods, requiring the involvement of a large number of firefighters, trained personnel and a large amount of ground and aerospace firefighting equipment as well as logistical support personnel and personnel.

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SUMMARY OF THE INVENTION

The present invention provides a method for progressively extinguishing a fire and a device for applying a dust medium.

The method of progressive fire extinguishing is a series of operation consisting of application - dispersion of extinguishing medium with chemical extinguishing effect and subsequent application of extinguishing medium with cooling extinguishing effect or insulating extinguishing effect. Aeronautical method of application - dispersion of the extinguishing medium with chemical extinguishing effect is performed by the device for applying the dust medium. The extinguishing medium with a chemical extinguishing effect is a powder, the extinguishing medium with a cooling extinguishing effect is water or an aqueous solution, and the extinguishing medium with an insulating extinguishing effect is an air foam, or a chemical foam, or an inert gas. The essence of the progressive fire extinguishing method is that successive phases of chemical extinguishing and extinguishing by cooling, or extinguishing with an extinguishing medium with an insulating extinguishing effect, are applied. The sequence of steps is as follows: the first phase - the chemical extinguishing phase, is formed by the application of the chemical extinguishing powder, the second phase - the cooling phase, is formed by the application of the extinguishing agent with cooling extinguishing effect, or insulating extinguishing effect; water, or aqueous solution, or air foam, or chemical foam, or an inert gas (e.g. CO ₂ or N ₂ ). The first phase - the chemical fire-extinguishing phase is intended to suppress the flame-burning phase and thereby to enable the energy yield of the thermal barrier between the fuel source and the extinguishing agent source to be extinguished with a cooling or insulating extinguishing effect. Temporary reduction of the heat output of the system (by suppressing the flame phase that produces heat in the exothermic reaction) will make it possible to utilize the insulating effect or cooling effect (potential) of the extinguishing agent used in the next second phase - the cooling phase. The second phase, in the case of quenching by cooling, is intended to cool the fuel source (eg thermally degraded wood mass) to such an extent that no critical mass of fuel is produced - volatile combustible gaseous products. By critical mass of volatile flammable gaseous products is meant the quantity of the substance whose combustion in air mixture produces enough thermal energy to autopropagate the process of thermal degradation of the available fuel source (eg wood mass). The extinguishing agent with a cooling extinguishing effect for the realization of the second phase is water or an aqueous solution (water with the addition of a wetting agent - detergent). The second phase in the case of insulating fire extinguishing is to isolate the fuel source (eg thermally degraded wood mass) and the fuel itself (volatile combustible gaseous products) to such an extent that the fuel - volatile combustible gaseous products is no longer transferred to the environment and mixed with air. In particular, the extinguishing agent having an insulating extinguishing effect suitable for carrying out this phase is a chemical foam or air foam, or an inert gas (specifically) heavier than air. Disrupting the fuel supply to the environment will prevent it from mixing with air and creating a combustible assembly, thereby removing the fire-integral system from the combustion process, and in this way, the combustion process will energy destabilize and stop. The progressiveness of the extinguishing procedure consists in implementing in a series of consecutive system steps, where the previous step - phase prepares optimal conditions for maximizing the effect of the next step - phase. The advantage of this procedure is that there is no physical destruction of the space from the extinguishing powder and that the extinguishing powder that does not enter the chemical reaction is 100% recyclable after extraction from the environment.

The dust application device is a container made up of components allowing installation, transport, and ejection of the container from the hinge points of an aircraft or helicopter. The workload of the device - the container is made up of a dust medium. The design of the container consists of a central carrier, installation means for installing the aircraft or helicopter hinge device, a braking mechanism, an opening mechanism for the dust container housing, a dust container housing which may be made up of one or more parts, the brake mechanism and the dust container cover, the brake mechanism and the dust container cover safety mechanism, the dust dispersion mechanism, and the external stabilizing surfaces to stabilize the ballistic characteristics of the device during flight after being dropped from an aircraft or helicopter hinge point. The dust container consists of a central carrier and a dust container cover, and the opening mechanism of the dust container cover, the dust dispersion mechanism, and the safety mechanism of the brake mechanism and dust container cover control mechanisms utilize chemical reaction energy to operate; electrical or mechanical energy. Installation devices for installing the aircraft or helicopter hinge points and external stabilizing surfaces are mounted on the dust cartridge container components, and the braking mechanism is a parachute mounted on the dust cartridge or dust cartridge components. The ballistic characteristics of the device allow precise targeting for the ejection of the container using standard sighting systems installed in military aircraft and helicopters. When the container is dropped from the hinge point (s), the container behaves like a conventional air munition - the bomb and flight path is defined by the container's focus and ballistic characteristics. The control mechanism of the braking mechanism and the dust container cover when the desired parameter (eg height, time, etc.) is reached activates the braking o

a mechanism that slows the container and places it in an approximately vertical position. The braking mechanism may be formed by a parachute installed in the central carrier or by a cover of the powder cartridge which, when opened, creates an aerodynamic resistance of the system against the path of movement of the device. Upon actuation of the braking mechanism, the control mechanism of the braking mechanism and the dust cap housing activates the opening of the dust cap, which may be made of one or more parts. If the braking mechanism is comprised of the components of the dust cartridge, the activation of the braking mechanism and the opening of the dust cartridge cover are simultaneous, i.e., the braking mechanism. it is the same action fulfilling two parallel objectives at the same time. As soon as the dust cartridge cover is opened, the dust cartridge dispersion mechanism is activated to promote the dispersion of powder from the cartridge into the surrounding space. The safety mechanism of the brake mechanism control mechanism and the dust container cover serves to ensure safe handling of the device during transportation, storage, maintenance, filling and application to the aircraft or helicopter hinge points; it prevents any operation of the brake mechanism control mechanism and the dust container cover. The device is mainly used in the implementation of the method of progressive fire extinguishing, in its first phase, ie. chemical extinguishing phase.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention - a device for applying a dust medium - is illustrated by the drawing in which FIG. 1 shows a device according to the invention; a container for applying a powder extinguishing medium, FIG. 2 illustrates a method of applying the working load of the device-container, i. the dispersion of the dust extinguishing medium into the space after the braking mechanism has been activated and the dust filling cover has been opened and the dust filling dispersion mechanism has been activated, FIG. 3 shows a device according to the invention; the container for applying the powder extinguishing medium when the braking mechanism is not formed by a parachute mounted on the dust container but is formed by the components of the dust container which, after opening, impose aerodynamic resistance, and FIG. 4 shows a method of preventive application of dust extinguishing medium dispersion in a protected area to which a fire spreads.

DETAILED DESCRIPTION OF THE INVENTION

The invention - a method of progressive fire extinguishing - is formed by applying - dispersing an extinguishing medium with a chemical extinguishing effect and subsequently applying an extinguishing medium with a cooling extinguishing effect or an insulating extinguishing effect. Application - dispersion of the extinguishing medium with chemical extinguishing effect is carried out by the device for applying the dust medium. The extinguishing medium with a chemical extinguishing effect is a powder, the extinguishing medium with a cooling extinguishing effect is water or an aqueous solution, and the extinguishing medium with an insulating extinguishing effect is air foam, or chemical foam, or inert gas.

The invention - a device for applying a dust medium according to FIG. 1, is formed by a central carrier part J, installation elements 2 for its installation, on aircraft or helicopter hinge points, braking mechanism 3, opening mechanism 4 of the dust cartridge container, dust cartridge container 5, which is made of at least one part, by a control mechanism 6 of the braking mechanism and the dust container cover, the safety mechanism 7 of the braking mechanism and the dust container cover, the dust dispersion mechanism 8, and the outer stabilizing surfaces 9 to stabilize the ballistic characteristics of the device during flight after dropping from an aircraft or helicopter hinge point. The dust container is formed by a central carrier part 1 and a cover of the dust container 5. The dust cartridge cover opening mechanism 4, the dust cartridge dispersion mechanism 8, and the brake mechanism control mechanism and the dust cartridge cover safety mechanism 7 are installed on the central carrier I-Installation elements 2 for installing the aircraft or helicopter hinge points. the outer stabilizing surfaces 9 are mounted on the components of the dust cartridge 1 and / or 5, and the braking mechanism 3 is formed by a parachute installed on the dust cartridge or by the components of the dust cartridge cover 5.

Industrial usability

The method of progressive fire extinguishing is useful especially in common types of fires, ie. fires of solid flammable substances, fires of gaseous flammable substances, fires of liquid flammable substances, and fires of dangerous substances both in closed and open space. The use of this method is particularly advantageous in cases where it is necessary to quickly and efficiently locate and eradicate large-scale fires, especially open-air fires in the forest or vegetation environment. a fire difficult to access by conventional fire extinguishing techniques, or a fire of a strategic or military building, a transport building or a technological facility or infrastructure, ie. fire in conditions where there is a high potential for damage to property or national wealth (cultural or natural), or where defense, security or the functioning of the state, the functioning of transport, the economy or the strategic industry are at risk. This method allows to reduce the extinguishing time and minimize the damage caused by fire and the costs of fighting it.

The device for applying the dust medium is particularly useful for carrying out fire extinguishing, in particular in the manner of progressive fire extinguishing, or for carrying out preventive protection of the area against the spread of fire (according to Fig. 3), or the consequences of a possible explosion. The applicability of the fire-fighting equipment is defined primarily by the parameters (chemical composition and physical parameters) of the powder-extinguishing medium charge, but in particular for forest and stand fires, large-scale open space fires, oil and gas drilling equipment and transport systems, or military or strategic objects and the like. Air transport is feasible by plane or helicopter (with or without human crew), ie. airborne means of transport, equipped with suspension points and a sighting device for aiming conventional air ammunition.

Claims (4)

PATENT CLAIMS A method of progressive fire extinguishing, characterized in that an extinguishing powder medium with a chemical extinguishing effect is applied and subsequently an extinguishing medium having a cooling extinguishing effect or an insulating extinguishing effect is applied, wherein the application - dispersing the extinguishing dust medium with chemical extinguishing effect an apparatus for applying a dust medium, wherein the extinguishing medium with a chemical extinguishing effect is powder, the extinguishing medium with a cooling extinguishing effect is water or an aqueous solution, and the extinguishing medium with an insulating extinguishing effect is air foam or chemical foam or inert gas. Device for applying dust medium for carrying out the method according to claim 1. - application - dispersion of dust medium, in particular for fire fighting and preventive protection of the area against the spread of fire and the consequences of a possible explosion, is formed by a central carrier, installation elements for its installation aircraft or helicopter points, a brake mechanism, an opening mechanism of the dust container cover, a dust container cover made of at least one part, a brake mechanism and a dust container cover control mechanism, a brake mechanism and a dust container cover safety mechanism, dust dispersion mechanism, and external stabilizing surfaces to stabilize the ballistic characteristics of the device in flight after being ejected from an aircraft or helicopter hinge point, characterized in that the magazine p the rachet filling is formed from a central carrier (1) and a dusting container cover (5), and a dusting container opening mechanism (4), a dusting dispersion mechanism (8), and a safety mechanism (7) of the brake control mechanism; the dust container cover is installed on the central carrier (1). Apparatus according to claim 2, characterized in that the installation elements (2) for its installation on the hinge points of the aircraft or helicopter, and the outer stabilizing surfaces (9) are installed on the components of the dust cartridge (1, 5), and the braking means. the mechanism (3) consists of a parachute installed on the dust cartridge or the components of the dust cartridge cover (5). Device according to claim 2 and 3, characterized in that it is designed for single or repeated use after replacement of damaged components, refilling of the dust filling and renewal, refilling or replacement of a source or sources of chemical or electrical or mechanical energy.