RU2095102C1 - Device for detection and volume extinguishing the fire and aerosol-forming fire-extinguishing compound - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: device body accommodates charge of fire-extinguishing compound with central channel whose external surface is armored with incombustible material, charge initiating means and chamber for formation of aerosol where complete burning of compound takes place that is ensured by high excess of oxidizer in compound. Device has cooling unit made of inert or chemically active porous substance forming no toxic components during decomposition. Porous substance is pelletized in granules of 7-10 mm in diameter. Mass of cooling unit amounts to 0.75-1.25 of charge mass. Internal surface of device body is coated with heat-resistant material. Fire-extinguishing compound includes the following ingredients, mas. %: binding fuel, 2-2.5; dicyandiamide or melem, melamine, 15-20; CaO or K₂Cr₂O₇, CuC₂O₇•2H₂O, C₆H₂O₂N₃K, 1-3; KNO₃ and/or NaNO₃, the balance. EFFECT: higher efficiency. 3 cl, 1 dwg, 1 tbl

Description

 The invention relates to fire fighting equipment, and in particular to equipment for volumetric fire extinguishing.

 Known devices for volumetric fire extinguishing based on chladones (UK patent N 2020971 MKI A 62 C 37/00, 1979). However, chladones contribute to the destruction of the ozone layer of the Earth and have a high level of toxicity.

 These disadvantages are partially eliminated in devices where a pyrotechnic charge or a charge of solid fuel is used as a fire extinguishing composition (UK patent N 2028127, MKI A 62 C 13/22 MKI A 5 A, 1980).

 The disadvantages of this device include low efficiency due to the need to create a high fire extinguishing concentration of gaseous products of combustion and their high toxicity.

 The most effective are devices based on solid fuels, during the combustion of which, along with gases, condensed solid particles of micron sizes are formed. The gases emitted during combustion provide transportation of solid fine particles to the fire.

 A device for detecting and volumetric fire extinguishing with smoke-forming fire extinguishing composition, adopted as a prototype (RF patent N 2046614, MKI A 62 C 37/00, 1991).

 The device consists of a housing with a smoke-forming extinguishing agent placed in it in contact with the initiation unit. The outflow of combustion products occurs through the outlet of the housing.

 As a fire extinguishing composition, a composition containing alkali metal nitrate and / or perchlorate and a combustible binder is used, while the smoke-forming composition may additionally contain fuel or ammonium perchlorate. To improve operational characteristics, a composition containing alkali metal nitrate and / or alkali metal perchlorate and ballistic powder was used as a smoke-generating substance.

The disadvantages of the prototype are the high temperature formed behind the outlet of the gas-aerosol jet body with a significant luminous flame zone and unsatisfactory toxicological parameters of the aerosol formed due to the content of CO, NH ₃ and HCN in it.

 Incomplete oxidation of the products of decomposition of a combustible binder and additional fuel due to an insufficient amount of oxygen and their afterburning due to atmospheric oxygen leads to the formation of an extended high-temperature zone.

The problem to which the invention is directed, is to create a device for detecting and extinguishing a fire and extinguishing agent with a low temperature obtained at the exit of the extinguishing aerosol device, low toxic or non-toxic, with a minimum content of CO, NH ₃ , HCN while maintaining high fire extinguishing efficiency .

 The problem is solved due to the fact that in the known device for detecting and extinguishing a fire, consisting of means for detecting fire and initiating fire extinguishing means, a housing with an outlet and a charge of a fire extinguishing composition with a longitudinal channel placed therein, between the end surface of the charge and the aerosol forming chamber and the cooling unit are arranged in series with the end surface of the housing. The charge of the extinguishing composition has at least one channel and is made in the form of an aerosol-forming composition with an oxidizer excess factor of 0.8≅α≅1.45.

 A heat shield is installed along the entire length of the inner side surface of the housing. The cooling unit is made of inert or chemically active, which does not produce a porous substance during decomposition of toxic components. The substance is formed into granules of 7-10 mm in size, randomly sprinkled in the area of the cooling unit.

 The mass of the cooler is 0.75-1.25 mass of charge.

 The outer surface of the charge of the extinguishing composition is lined with a non-combustible composition.

It is possible to achieve the goal by combining the proposed device and the new composition of the extinguishing agent. For this purpose, dicyandiamide or mele, melamine and CuO or K ₂ Cr ₂ O ₇ , CuCr ₂ O ₇ • 2H ₂ O, C ₆ H ₂ O ₇ N ₃ K, are additionally introduced into the known composition containing alkali metal nitrate and a combustible binder, and as alkali metal nitrate KNO ₃ and / or NaNO ₃ in the following ratio of ingredients (wt.):
Fuel binder 2-2.5
Dicyandiamide or melem, melamine 15-20
CuO or K ₂ Cr ₂ O ₇ , CuCr ₂ O ₇ • 2H ₂ O, C ₆ H ₂ O ₇ N ₃ K - 1-3
KNO ₃ and / or NaNO ₃ Else
The drawing shows a General view of the device.

 A device for detecting and extinguishing a fire has a means for detecting a fire and initiating fire extinguishing means (1), (for example, a fire-retardant cord); Pavilion 2); the charge of the extinguishing agent installed inside the housing (3). Between the end surface A of the charge of the extinguishing agent (3) and the end surface B of the housing (2), an aerosol formation chamber (4) and a cooling unit (5) are connected to each other. On the end surface B of the housing (2), outlet openings (6) are made for the expiration of the fire extinguishing products. The charge of the extinguishing agent (3) is made with a central channel (s) (7), and the outer surface of the charge (3) is lined with a non-combustible composition (8) (for example, a mixture of liquid glass and iron oxide in a ratio of 1: 3). Reserving the outer surface of the charge (3) prevents ignition from the end and side surfaces.

 Performing a charge (3) with a central channel / channels (7) and booking the end surfaces of the charge (3) with a non-combustible composition (8) allows you to adjust the temperature of the aerosol depending on the requirements by adjusting the combustion surface of the charge. In this case, the charge (3) is an additional heat insulator of the housing (2).

 The inner side surface of the housing (2) along the entire length is covered with a heat-protective coating (9), for example mica. This helps protect the housing (2) from overheating. The heat-shielding coating in the zone of the aerosol formation chamber is especially important (4); it allows one to reduce heat removal from the most important combustion zone, to ensure the complete combustion of the composition, and to obtain a better-quality aerosol in composition.

 The mass of the cooler is 0.75-1.25 mass of charge.

 Between the chamber for forming the aerosol (4) and the cooling unit (5), a divider (10) is installed, which contributes to a more complete filling of the cooling unit (5) with an aerosol.

 The cooling unit (5) is made of an inert substance (for example, river sand of a large fraction).

 Also, the cooling unit can be made of a chemically active substance that does not produce toxic substances during decomposition, for example, substances of the class of crystalline hydrates, i.e. containing water in the crystal lattice.

 The substance is formed into porous granules with a diameter of 7-10 mm, randomly sprinkled, which contributes to a greater degree of cooling of the aerosol due to an increase in the contact surface.

 Crystal hydrates can be mixed with inert natural binders (e.g. kaolins or clays). At the mixing stage, it is possible to obtain porous elements in the form of granules, to form them by passing forming on hydraulic presses into products of various profiles.

The charge of the extinguishing agent (3) is made of an aerosol-forming composition with an oxidizer excess factor of 0.8≅a≅1.45. Its composition contains the following ingredients (wt.):
Fuel binder 2-2.5
Dicyandiamide or melem, melamine 15-20
CuO or K ₂ Cr ₂ O ₇ , CuCr ₂ O ₇ • 2H ₂ O, C ₆ H ₂ O ₇ N ₃ K - 1-3
KNO ₃ and / or NaNO ₃ Else
As a combustible binder, phenol-formaldehyde or epoxy can be used.

Performing a charge of extinguishing agent (3) in this way allows one to obtain an aerosol with high extinguishing efficiency, which is determined by its high content of solid particles such as K ₂ O, Na ₂ O, KOH, K ₂ CO ₃ , Na ₂ CO ₃ , as well as inert gases N ₂ and CO ₂ . In this case, the stage of afterburning of the combustion products of the compositions due to oxygen is not required, it turns out that enough "internal" oxygen oxidizer. The content of CO, NH ₃ and HCN in this case is significantly lower than the permissible values according to European standards.

 A comparative analysis of fire extinguishing efficiency, the content of toxic components of the prototype and the proposed device in combination with an aerosol-forming composition are shown in the table.

 The proposed device operates as follows.

 When a fire occurs, the means for detecting and initiating fire extinguishing means is triggered (1). The heat pulse from the initiation means (1) ignites the charge (3) of the extinguishing agent. The combustion products through the channel (7) enter the aerosol formation chamber (4), where the composition is completely burned, which is ensured by a high coefficient of excess oxidizer of 0.8≅a≅1.45, the presence of a heat-shielding coating on the body and charge reservation. Through the divider (10), the combustion products enter the cooling unit (5). The chemically active porous substance of the cooler (5) under the influence of high temperature of the combustion products is destroyed into fine particles, thereby further contributing to an increase in the amount of active aerosol, which in turn increases the quenching efficiency of the composition. In addition, the cooling unit allows to reduce the temperature of the aerosol at the outlet of the device to the required limits.

 Thus, a combination of the design features of the device with the composition of the extinguishing agent allows you to obtain the necessary parameters of the extinguishing aerosol that meet the requirements of the European standard for the content of toxic substances with high extinguishing efficiency. The device is industrially applicable and is easy to manufacture.

Claims (3)

 1. A device for detecting and extinguishing a fire, including means for detecting and initiating fire extinguishing means, a housing with an outlet and a channel charge of a fire extinguishing composition located in it, characterized in that between the end surface of the charge and the end surface of the housing there is an aerosol formation chamber and a cooling unit made of inert or chemically active, which does not produce a decomposition of toxic components of a porous substance (cooler), the mass of which is t 0.75 1.25 of the mass of the charge, and the charge of the extinguishing agent has at least one channel and is made in the form of an aerosol-forming composition with an excess coefficient of oxidizing agent of 0.8 ≅ a ≅ 1.45, and heat-shielding is installed along the entire length of the inner side surface of the housing the coating, and the outer surface of the charge of the extinguishing composition is lined with a non-combustible composition.  2. The device according to claim 1, characterized in that the cooling unit is made in the form of randomly sprinkled granules with a diameter of 7 10 mm 3. Aerosol-forming fire extinguishing composition containing alkali metal nitrate and a combustible binder, characterized in that it further comprises dicyandiamide or melem, melamine and CuO or K ₂ Cr ₂ O ₇ , CuCr ₂ O ₇ • 2H ₂ O, C ₆ H ₂ O ₇ N ₃ K, and as alkali metal nitrate KNO ₃ and / or NaNO ₃ in the following ratio of ingredients, wt. Combustible binder 2 2.5
Dicyandiamide or melem, melamine 15 20
CuO or K ₂ Cr ₂ O ₇ , CuCr ₂ O ₇ • 2H ₂ O, C ₆ H ₂ O ₇ N ₃ K 1 3
KNO ₃ and / or NaNO ₃ The rest

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