RU2113873C1 - System and device for fire extinguishing - Google Patents

Abstract

FIELD: fire-fighting equipment, in particular, fire extinguishers-generators of fire-extinguishing aerosol of multipurpose application for local and volume fire extinguishing; may be used for various purposes of fire fighting and prevention of explosions. SUBSTANCE: system and device have aerosol-generating fire-extinguishing compounds, catalysts of oxidation of combustion products. Required temperature of aerosol-gas mixture is ensured by cooling of this mixture. Powder content in system aerosol-generating fire-extinguishing charge or charges amounts to 30-100 wt.%. Length of air hollows in the device for fire extinguishing amounts to at least 0.3 diameter of container. Final oxidation of aerosol-gas mixture in flow is effected in system and device. EFFECT: higher efficiency and reliability of fire extinguishing and safety for man. 15 cl, 9 dwg

Description

 The invention relates to the field of fire extinguishing and can be used in the manufacture and use of fire fighting equipment.

 To date, fire extinguishing agents such as hand-held fire extinguishers [1] and abandoned fire extinguishers [2] are known and widely used.

 A feature of these fire extinguishing agents is the use of fire extinguishing powders as a fire extinguishing agent.

 However, the use of fire extinguishing powders is associated with a significant operational drawback - caking powder, which requires the development of special measures to prevent it and reduces the reliability of such fire extinguishing agents. The effectiveness of fire extinguishers also depends on the degree of dispersion of the powder: the higher the dispersion, the higher the efficiency (but also greater caking).

 Closest to the invention is a system for extinguishing a fire containing means for detecting tanning and a device for extinguishing a fire [3].

 Closest to the invention is a known device for extinguishing a fire, containing a container for a fire extinguishing charge with an outlet guide pipe, igniter and starter [4].

 In a bursting container container is a charge of extinguishing powder. For preliminary preparation of the powder, a gas-generating charge is provided in the structure, which is driven by an igniter capsule. The gases generated by this charge provide aeration of the powder, which increases the efficiency of its use due to the partial elimination of the caking effect.

 However, the use of such a method of preparing the powder cannot increase the efficiency of the fire extinguishing agent more than the initial dispersion of the powder, which is at least 10 microns, allows. Such fire extinguishing agents are also not effective in rooms with a high degree of clutter, which impedes the access of extinguishing agents to the fires.

 In addition, a significant drawback of such fire extinguishing agents is the presence in the protected volume (after the fire extinguisher has been triggered) of carbon and nitrogen oxides in an amount significantly exceeding their maximum permissible concentration, which makes these means unsafe for humans, not only in case of fire, but also in case of unauthorized start-up (self-start).

 The objective of the invention is the improvement of the system for extinguishing a fire and a device for extinguishing a fire to obtain a technical result consisting in increasing the efficiency and reliability of fire fighting and safety for humans.

 This is achieved using a fire extinguishing system, including means for detecting tanning, and at least one fire extinguishing device, each fire extinguishing device having a guide pipe or nozzles with an ejector or guide pipe or nozzles with an ejector with gas-dynamic nozzle, and a fire-extinguishing combined charge, consisting of either aerosol-generating fire extinguishing of a charge or charges, or aerosol-generating fire-fighting of a charge or teplopoglotitelnym series with a charge or aerozolegeneriruyuschego extinguishing charge or charge with teplopoglotitelnym charge collected with an oxidizing charge or aerozolegeneriruyuschego extinguishing charge or charges extinguishing powder charge with powder content of 30 - 100 wt.%.

 The heat-absorbing charge may be in a solid, liquid or gaseous state of aggregation.

 The fire extinguishing device has a combined heat-absorbing charge.

 The extinguishing combined charge of at least one fire extinguishing device contains a powder charge weighing 20-60% of the total charge weight.

 The extinguishing combined charge of at least one fire extinguishing device contains a powder charge weighing 70 to 95% of the total charge weight.

 If there is more than one fire extinguishing device in the fire extinguishing system, they work simultaneously or sequentially, while the containers of the devices are gas-dynamic coupled together.

 The fire extinguishing device contains a container for a fire extinguishing charge with an exhaust guide pipe, an igniter and a starter, a fire extinguishing combined charge consisting of aerosol-generating fire extinguishing charge and heat-absorbing charge or charges separated from a guide pipe or pipes and a charge of one or more air cavities with a length of at least 0, 3 diameters of the container and heat-resistant gas-aerosol-permeable membrane or membranes fixed with spacer elements.

 The fire extinguishing combined charge consists either of aerosol-generating fire extinguishing, heat-absorbing and oxidizing charges collected in layers, or of aerosol-generating fire-extinguishing charge containing from 5 to 60 vol.% Elements of heat-absorbing charge, or of aerosole-generating fire-extinguishing charge, containing 5 up to 60 vol. % of elements of a heat-absorbing charge with elements of an oxidizing charge, or an aerosole-generating fire-extinguishing charge containing from 1 to 9 vol.% oxidizing charge, and a heat-absorbing charge, or an aerosole-generating fire-extinguishing charge containing from 1 to 9 vol.% oxidative charge , and heat-absorbing charge with elements of an oxidizing charge.

 Aerosole-generating fire extinguishing and / or heat-absorbing, oxidizing charges contain in their composition a catalyst for the oxidation of combustion products in an amount of 0.1 - 8 wt.%.

 The oxidation catalyst for the combustion products is selected from a number of metals, namely nickel, cobalt, iron, manganese, chromium, aluminum, magnesium, copper, platinum, silver, oxides and / or peroxides of copper, vanadium, manganese, chromium, cobalt, silicon, iron, nickel, aluminum, calcium, metal salts, namely iron, nickel, cobalt, manganese, copper, potassium, sodium, magnesium, aluminum, including their alloys and mixtures.

 The heat-absorbing charge in its composition contains an oxidizing agent selected from the series: ammonium nitrate, potassium, sodium, calcium, barium, strontium, ammonium perchlorate, potassium, sodium, or a mixture thereof in an amount of 10-60 wt.%.

 Aerosolegenerating fire extinguishing charge as a modifier of combustion contains magnesium or its alloy with aluminum in an amount of 1 to 15 wt.%.

 A fire extinguishing device simultaneously sprays water or water with a catalyst for the oxidation of combustion products and / or an aqueous solution of salts or a substance with a specific odor, and / or an aqueous solution of salts with a catalyst for the oxidation of combustion products, while the flow rate of water or an aqueous solution is at least 10% by weight of the combined charge.

 The container has an outlet or several evenly spaced openings, and the distance between two adjacent openings is not less than the diameter of the minimum of the openings.

 The heat-absorbing charge is made either in the form of air gaps, gas ducts, or in the form of one or more heat-resistant gas-aerosol-permeable membranes located at the required distance from each other, or in the form of heat-resistant gas-aerosol-permeable membranes with heat-absorbing elements located between them in the form of tablets, tubes, granules , blocks, or in the form of any combination of these types of heat-absorbing charge.

 The proposed system for extinguishing a fire includes means for detecting a fire and a device for extinguishing a fire, and is characterized in that it has at least one device for extinguishing a fire. Each fire extinguishing device has a guide nozzle or nozzles with an ejector or ejectors that are gas-dynamically connected to the body, or a guide nozzle or nozzles with an ejector or ejectors with a gas dynamic nozzle, and a fire extinguishing combined charge. The inner surface of the housing of the device can be insulated. If there is more than one device in the system, the internal volumes of their bodies are interconnected gasdynamically.

 In the proposed device for extinguishing a fire, a fire extinguishing combined charge consists of an aerosole generating fire extinguishing charge or charges, or an aerosole generating fire extinguishing charge or charges collected with a heat absorbing charge, or an aerosole generating fire extinguishing charge or charges collected with a heat absorbing charge and heat absorbing charge; or from an aerosolegenerating fire extinguishing charge or charges collected with a powder fire extinguishing charge (with a powder content of 30 to 100 wt.%), while the charges are carried out in a convenient form that provides the required aerosol-gas intake velocity. The use of aerosol generating fire extinguishing charges significantly increases the fire extinguishing efficiency of a fire extinguishing agent compared to those described above, especially in combination with a powder fire extinguishing charge.

 The extinguishing combined charge of at least one fire extinguishing device may contain a powder charge weighing 20-60 or 70-95 wt.% Of the total charge weight.

 As aerosol generating fire extinguishing charges, compositions according to Russian patents N 2001647 and N 2001648, class. A 62 D 1/00, published 10/30/93, N 2005517, cl. A 62 C 3/00, published 1/15/94.

 The components of the combined extinguishing charge (aerosol-generating extinguishing charge, heat-absorbing charge, oxidative charge) are collected in layers in the required sequence. At the same time, the elements of heat-absorbing and oxidizing charges can be introduced into the aerosol-generating charge. Thus, an aerosol generating charge may contain 5-60 vol.% Elements of heat-absorbing charge or 5-60 vol. % of elements of a heat-absorbing charge in combination with elements of an oxidizing charge or 1 - 9 vol.% of elements of an oxidizing charge in combination with a heat-absorbing charge, or 1 - 9 vol.% of elements of an oxidizing charge in combination with a heat-absorbing charge with elements of an oxidizing charge.

 In the proposed device, the heat-absorbing charge can have any state of aggregation (solid, liquid, gaseous) and can be placed in cases of various shapes and designs. In addition, a combined heat-absorbing charge can be used, while its composition, shape and size should provide the required rate of heat absorption.

 In order to exclude (reduce) the carbon and nitrogen oxides in the protected volume after the fire extinguishing device has been triggered, the following technical solution is proposed: device elements (inner part of the housing, guide pipe, ejector, membrane) and elements of the combined fire extinguishing charge (aerosol generating charge, heat-absorbing charge, oxidative charge) can be coated or contain in their composition catalysts for the oxidation of combustion products in an amount of 0.1 - 8%.

 Compounds of a number of metals, namely nickel, cobalt, iron, manganese, chromium, aluminum, magnesium, copper, platinum, silver, are proposed as catalysts for the oxidation of combustion products; oxides and / or peroxides of copper, vanadium, manganese, chromium, cobalt, silicon, iron, nickel, aluminum, calcium, metal salts, namely iron, nickel, cobalt, manganese, copper, potassium, magnesium, aluminum, including their alloys and mixtures.

 For this purpose, the heat-absorbing charge may contain (in an amount of 10-60 wt.%) An oxidizing agent selected from the series: ammonium nitrate, potassium, sodium, calcium, barium, strontium, ammonium perchlorate, potassium, sodium; mixtures thereof.

 An aerosol generating charge combustion modifier (magnesium or its alloy with aluminum) in an amount of 1-15 wt.% Is proposed.

 Improving the fire extinguishing efficiency of the proposed fire extinguishing device is achieved, in addition, by simultaneous spraying of water or aqueous solutions of salts with or without a catalyst for oxidation of combustion products. For the purpose of recognizing or deterring effect, substances with a specific odor can be sprayed. The consumption of water or an aqueous solution is at least 10% of the weight of the combined extinguishing charge.

 In FIG. 1 to 9 show some of the schemes of the proposed device.

 When the device is made of any heat-resistant and sufficiently durable material: metal, plastic, multilayer paper cardboard with special impregnation.

 The housing of the device has an outlet 1 or several evenly spaced openings in order to reduce the high-temperature plume. The distance between any two adjacent holes must be at least the diameter of the minimum of the holes, while the outlet may be provided with a guide pipe.

 At the same time, the design of the device in which the fire extinguishing combined charge consists of an aerosole generating fire extinguishing charge and heat absorbing charge or charges separated from a guide pipe or nozzles and from an aerosole generating fire extinguishing charge with one or more air cavities of at least 0.3 case diameter and heat-resistant gas aerosol-permeable was checked. membrane or membranes fixed with spacer elements.

 If necessary, and mainly in order to reduce the temperature of the combustion products, between the aerosol-generating charge and the outlet (s) there is one or more charges of the heat sink. The heat-absorbing charge can also be made in the form of one or several heat-resistant gas-aerosol-permeable membranes 3 located at the required distance from each other, both with and without heat-absorbing elements 7 located (filled) between them. In this case, the elements of the heat sink are made in any form (tablets, tubes, granules, blocks and the like product form), any other small-sized elements or in the form of air gaps, or in the form of any combination of these types and new heat sinks and air gaps (gaps, ducts and similar constructive concrete solutions).

 If necessary, the heat sink (cooler), gas-aerosol-permeable membranes contain an oxidation catalyst for the combustion products of the composition and / or their mixture with the decomposition products of the heat sink (cooler), and / or their mixture with air, regardless of the method of mixing, blowing, flow, etc. like that.

 The housing of the device 2 may have a connecting unit, which serves to connect with a grenade launcher when dynamically throwing it into a protected volume, an object where a fire occurs, etc.

 Based on the proposed fire extinguishing device, a system for extinguishing a fire can be created, including standard means for detecting fire, means for connecting fire extinguishing devices with each other and with means for detecting fire and activating these devices. The system is characterized in that, as a fire extinguishing device, it comprises the devices described above.

 The fire extinguishing system is designed so that if there is more than one fire extinguishing device in it, they can work simultaneously or sequentially with the required gas-dynamic connection of the buildings with the same or different design and sizes of combined aerosol generating, heat-absorbing, oxidizing or powder charges.

 Prototypes of the proposed fire extinguishing agents have passed preliminary tests and have shown high reliability and efficiency.

 Currently, they are being implemented at a number of plants in the CIS countries.

Claims (15)

 1. A system for extinguishing a fire, including means for detecting a fire, characterized in that it has at least one device for extinguishing a fire, each fire extinguishing device has a guide pipe or nozzles with an ejector or a guide pipe or nozzles with an ejector with a gas-dynamic nozzle, and a fire-extinguishing combined charge consisting of either an aerosole-generating fire-extinguishing charge or charges, or an aerosole-generating fire-extinguishing charge, or charges with a heat-absorbing charge, or from aerosol-generating fire-extinguishing charge or charges with a powder fire-extinguishing charge with a powder content of 30-100 wt.%.  2. The extinguishing system according to claim 1, characterized in that the heat-absorbing charge can be in a solid, liquid or gaseous state of aggregation.  3. Extinguishing system according to paragraphs. 1 and 2, characterized in that the device for extinguishing a fire has a combined heat-absorbing charge.  4. Extinguishing system according to paragraphs. 1 to 3, characterized in that the fire extinguishing combined charge of at least one fire extinguishing device contains a powder charge weighing from 20 to 60% of the total charge weight.  5. Extinguishing system according to paragraphs. 1 to 3, characterized in that the fire extinguishing combined charge of at least one fire extinguishing device contains a powder charge weighing from 70 to 95% of the total charge weight.  6. Extinguishing system according to paragraphs. 1 to 5, characterized in that if there is more than one device for extinguishing a fire in it, they work simultaneously or sequentially, while the containers of the devices are interconnected gasdynamically.  7. Fire extinguishing device comprising a container for a fire extinguishing charge with an outlet guide pipe, an igniter and a starter, characterized in that the combined fire extinguishing charge consists of an aerosole generating fire extinguishing charge and heat absorbing charge or charges separated from the guide pipe or nozzles and one or more charge air cavities with a length of at least 0.3 container diameters and a heat-resistant gas-aerosol-permeable membrane or membranes fixed with spacer elements cients.  8. The device according to claim 7. characterized in that the fire-extinguishing combined charge consists of aerosol-generating fire extinguishing, heat-absorbing and oxidizing charges collected in layers, or of aerosol-generating fire-extinguishing charge containing from 5 to 60 vol.% Elements of heat-absorbing charge, or from an aerosole generating fire extinguishing charge containing from 5 to 60 vol.% elements of a heat absorbing charge with elements of an oxidizing charge, or an aerosole generating fire extinguishing charge and comprising in its composition from 1 to 9 vol.% oxidizing charge and charge teplopoglotitelnogo or aerozolegeneriruyuschego extinguishing charge, containing in its composition from 1 to 9 vol.% oxidizing charge and charge teplopoglotitelnogo charge with oxidizing elements.  9. The device according to paragraphs. 7 to 8, characterized in that the aerosolegenerating fire extinguishing and / or heat-absorbing, oxidizing charges contain in their composition a catalyst for the oxidation of combustion products in an amount of 0.1 to 8 wt.%.  10. The device according to paragraphs. 7 to 9, characterized in that the oxidation catalyst of the combustion products is selected from a number of metals — nickel, cobalt, iron, manganese, chromium, aluminum, magnesium, copper, platinum, silver, oxides and / or peroxides of copper, vanadium, manganese, chromium, cobalt, silicon, iron, nickel, aluminum, calcium; metal salts - iron, nickel, cobalt, manganese, copper, potassium, sodium, magnesium, aluminum, including their alloys and mixtures.  11. The device according to paragraphs. 7 to 10, characterized in that the heat-absorbing charge in its composition contains an oxidizing agent selected from the series - ammonium nitrate, potassium, sodium, calcium, barium, strontium, ammonium perchlorate, potassium, sodium or a mixture thereof in an amount of from 10 to 60 wt. %  12. The device according to paragraphs. 7 to 11, characterized in that the aerosole generating fire extinguishing charge as a modifier of combustion contains magnesium or its alloy with aluminum in an amount of from 1 to 15 wt.%.  13. The device according to paragraphs. 7 to 12, characterized in that it simultaneously sprayes water or water with a catalyst for the oxidation of combustion products and / or an aqueous solution of salts or substances with a specific odor, and / or an aqueous solution of salts with a catalyst for the oxidation of combustion products, while the flow rate of water or aqueous solution makes up at least 10% of the weight of the combined charge.  14. The device according to paragraphs. 7 to 13, characterized in that the container has an outlet or several evenly spaced openings, while the distance between two adjacent openings is not less than the diameter of the minimum of the openings.  15. The device according to paragraphs. 7 to 14, characterized in that the heat-absorbing charge is made either in the form of air gaps, gaps, flues, or in the form of one or more membranes located at the required distance from each other, or in the form of heat-resistant gas-aerosol-permeable membranes with heat-absorbing elements located between them in in the form of tablets, tubes, granules, blocks, or in the form of any combination of these types of heat-absorbing charge.

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