UA48632A - Tambour-sluice for fire extinguishing - Google Patents

Abstract

The tambour-sluice for fire extinguishing relates to the fire extinguishing equipment. The tambour-sluice comprises the appliance for purifying the air and decreasing the mean temperature in the area of the fire containing of the symmetrical housing with inlet and outlet, the multistream nozzle, the device for feeding the pressurized working fluid, the pipeline for the working fluid, water intake, and the sink. To ensure the safe passage of the rescue or exploring team into the ships or industrial facilities in case of the fire the appliance for purifying the air and decreasing the mean temperature in the area of the fire is located at the rear of the protective tent containing the framework, the open side and the protective overlapping blinds at the both sides.

Description

Description of the invention

The invention relates to the field of fire-fighting equipment. It can be used as a means of safe 2 introduction of an emergency party and a reconnaissance group into rooms on ships, ships, and | the same coastal objects and objects of the national economy in the event of a fire.

On ships, ships, as well as coastal facilities objects of the national economy, fire fighting often has to be carried out in conditions when it becomes necessary to introduce an emergency party or a reconnaissance team into the premises where the fire is taking place in order to identify the source of the fire and localize it, evacuate 70 victims or solve other tasks. The danger of implementing such a measure is that when opening the room in which the fire is taking place, gaseous combustion products escape from it (which have an average temperature above 2502C and can become a source of fire spread outside the room, as well as have a harmful effect on the human body ). In addition, air with a normal oxygen content (2395 vol.) enters the open room, which contributes to fanning the fire and increasing the intensity of combustion of what is in the 72 room, or can cause a volume explosion.

In this case, it is most effective to use smoke extractors to remove combustion products, it is installed in the exhaust hole and the remaining part of the hole is covered with a patch made of tarpaulin. At the same time, the area of the flow holes is reduced (1) (11) - Kymstach I.F. Devlyshev P.P., Evtyushknn N.M. Fire tactics:

Study guide for fire technicians School and training of fire brigade personnel. - M: Stroyizdat, 1984. - P.134 - 135.).

During the operation of the smoke extractor to inject fresh air into the room, "...the smoke is as it were squeezed out by the supplied flow of fresh air and clears the way for the firefighters" |1). Most often, tarpaulin poles - jumpers - are used to block the paths of smoke propagation or organize the introduction of an emergency batch into the room through the lower slots, while through the upper slots, combustion products are allocated in the process of natural gas exchange (21 (21 -

Fire safety on ships. Trans. with English - L/ Shipbuilding, 1985. - P.253 - 256). (ANALOGUES). 29 The main disadvantages of the selected analogs are: "- the need to use powerful and oversized compressors for air injection; - the supply of fresh air into the room leads to fanning of the flame and deterioration of the fire situation, and just like the extraction of flue gases, it increases the discharge in the lower part of the room, and this contributes to the suction of outside air to the source of the fire; c - excess pressure in the emergency room leads to the spread of smoke and combustion products outside the room due to leaks, and this contributes to the creation of conditions for the spread of fire throughout the ship; - when creating obstacles to the spread of hot flue gases, the latter accumulate in the room, and this creates special difficulties for the introduction of an emergency batch (high temperature in the room, heavy smoke). 3o The technical solution |Z) (I3) is known - and p. Mo322925 author Krastelev M.M. and Myroshnychenko S.T. "Massoobmennoe M device for wet cleaning of air" - PROTOTYPE), which is a device for cleaning the gas-air environment of the room | reduction of the average volume temperature, consists of an axisymmetric case with an inlet and an outlet, a multi-jet nozzle, a device for supplying the working fluid under pressure, a pipeline of the working fluid, a drain hole. C 50 Disadvantages of the technical solution according to the patent |C): the device must be permanently installed indoors, c has large dimensions, and when used outdoors it ejects not only combustion products, but also fresh

Out of the air.

The invention is based on the task of developing a fire vestibule-sluice for the introduction of an emergency party into the premises of ships and vessels in the event of a fire by placing a device for cleaning the gas-air environment of the premises and reducing the average volume temperature on the back side of the protective tent, which has a frame, an open side and protective curtains located on the sides of the protective tent are made

Ge | overlapping and not fastened together to ensure the selection of hot flue gases from the upper part of the open opening (door), their processing in a device for cleaning the gas-air environment of the room and reducing

Me of average volume temperature | served chilled, moistened; with a low percentage of oxygen content of the mixture in the lower part of the hole to increase the level of safety of the personnel of the emergency party.

The fire vestibule-sluice consists of (see Fig. 1) a protective tent 1, which is made of heat-resistant fabric (for example, a tarpaulin) and includes a frame 2, protective curtains З and 4 on one or both sides of the protective tent 1 ( protective curtains З and 4 are made of the same material as protective tent 1, and are placed in an overlap, i.e. protective curtain 4 overlaps protective curtain З, but they are not fastened together) and 29 open side 5 from the front side of protective tent 1 From the inner part of the back side of the protective in. tents 1 place a device for cleaning the gas-air environment of the room in the event of a fire and reducing the average volume temperature, consisting of a body 6, which is made of the same material as the protective tent 1, and is arranged in such a way that part of the sides of the protective tent 1 and its back side are also parts of the housing 6. In the upper part, the housing b is supplied with a multi-stream nozzle 7, 60 located coaxially with the housing b and designed to form a droplet flow of the working fluid. A pipeline 8 for supplying the working fluid is brought to the multi-stream nozzle 7 (a fire hose is used as the pipeline 8), which is connected to the device 9 for supplying the working fluid under pressure. In the lower part, the housing b is provided with a water reservoir 10 with a drain hole 11 for draining the spent working fluid. because the operation of the fire vestibule-sluice is carried out as follows (see Fig. 2). If it is necessary to enter an emergency steam room for extinguishing a fire in an emergency room 12 (see Fig. 2), the protective tent 1 is pushed with the open side 5 to the door opening 13, closed by the door 14. The fire vestibule-sluice is included in the work (as indicated in the next paragraph) . From the regular or mobile fire main with the help of the device 9 for supplying the working fluid under pressure through the pipeline 8, the working fluid under the required pressure is fed to the multi-jet nozzle 7. The flow of jets and droplets from the batato-jet nozzle 7 in the local volume inside the housing captures the gas-air mixture in the direction from the input part of the body b to the output part. The discharge formed in the entrance part of the housing 6 causes the ejection of the gaseous environment from the upper part of the protective tent 1 to the lower one. Through the protective curtains 3, 4 go to the door opening 13 of the emergency room 12 and open the door 7/0 14. The protective tent 1 is left for some time. Through the open part 5 of the protective tent 1 attached to the open opening 13 of the emergency room 12, heated flue gases 15 are ejected into the upper inner part of the protective tent 1 and then into the inlet part of the housing 6 of the device for cleaning the gaseous and air environment. The latter enter the stream of jets and droplets. of the working fluid inside the body 6 and will form a gas-liquid flow that has a highly developed heat and mass exchange surface. When the gas-liquid flow is directed inside 7/5 of Housing 6, flue gases are cooled and moistened. Cooled, moistened, with a small percentage of oxygen content, the mixture from the lower part of the housing b is discharged into the lower part of the opening 13 of the emergency room 12 instead of fresh air, which should have been sucked into the emergency room 11 and support the combustion process. According to |C), the inert mixture 16, forcibly supplied to the emergency room 12, causes mixing of the gas-air environment of the emergency room 12, a decrease in the volume temperature and

Oxygen concentrations, illumination of the gas-air environment of the room. Next, through the protective curtains 3, 4 of the protective tent 1, being supplied with respiratory protection equipment 7 and fire fighting equipment, they enter the emergency room 1 to solve the assigned task (fire reconnaissance, evacuation of the wounded, fire extinguishing, etc.). The spent working fluid is collected in the reservoir 10 and allocated to the drain hole 11.

Distilled, fresh, sea water or water with surfactants are used as the working fluid.

Thus: "1 The fire vestibule-sluice is a means that ensures the safe entry of an emergency party or a reconnaissance group into a room on ships, ships, as well as coastal objects and objects of the national economy in the event of a fire due to the dilution of the gas-air environment of the emergency room cooled, with humidified, with a small percentage of oxygen, inert gas-air mixtures in order to reduce the average temperature, reduce the concentration of smoke and isolate the room with a slot from the outside air. o 2. The fire vestibule-sluice is an effective means of reducing the average volume temperature and excess Ge pressure in the emergency room in the event of a fire, which will create conditions that contribute to reducing the intensity of combustion and extinguishing the fire. co

C. The fire vestibule-sluice is a means of cleaning the gas-air environment of the emergency room from combustion products by the method of adsorption of aerosols on a highly developed adsorption surface generated from the working fluid |ZI. 4. The fire vestibule-sluice is a means of condensation of vapors of toxic aerosols (and p. Mo331256 of the authors

Krastelova M. M., Myroshnychenko S.T., Sukhova A.K.) "5. The fire vestibule-sluice is a means of absorption and chemisorption of toxic gases, condensation of oil vapors from PC") with the aim of reducing them to the maximum permissible concentrations 6 In the fire department sea or fresh water can be used as the working fluid of the vestibule-sluice; standard fire extinguishing system, distilled water, solutions with surface-active substances. 7 The fire vestibule-sluice does not disturb the microclimate of the adjacent premises. 8. The fire vestibule-sluice is undemanding in operation and has no restrictions during use. sh»

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Claims (1)

The formula of the invention Me, - ! with ! ! The fire vestibule-sluice containing a device for cleaning the gas-air environment and reducing the average volume temperature, consisting of an axisymmetric case with an inlet and an outlet, GE of a multi-stream nozzle, a working fluid supply device under pressure, a working fluid pipeline, a water reservoir and a drain hole, which is characterized by the fact that the device for cleaning the gas-air environment of the room and reducing the average volume temperature is located on the back side of the protective cap, which has a frame, an open side and protective curtains located on the sides of the protective tent, with" are made with an opening and are not fastened together. 60 b5