RU189618U1 - Fireman Portable Barrel - Google Patents

Abstract

The utility model relates to the field of fire extinguishing and, in particular, to fire portable devices that provide the supply of fire extinguishing composition inside the burning room and extinguishing the burning room from the inside. When creating the invention solves a technical problem, which consists in expanding the Arsenal of technical tools designed for mobile fire extinguishing devices inside buildings by creating a fire-fighting portable barrel that combines a rapid decrease in temperature, a very rapid extinguishing and wetting from re-ignition of everything burning from the inside at once small amount of water, mobility, reliability and manufacturability of the device with the provision of water from a fire source into the burning room. portable barrel is made with the possibility of its connection with the technical means designed to extinguish the fire, including movable interconnected body 1 and a perforated pipe 2, body 1 is made detachable in the form of two hollow cylinders with sockets and directed to each other by flanges 3, bolted 4, the outside of the case 1 is equipped with a reflective screen 5 and a docking station 6 located on the end part of the case 1 on the side directed towards the technical means intended for extinguishing a fire inside the building Usa 1 has a rotation device 7, fasteners for a rotation device 8, a bell of a perforated pipe 9, sliding elements 10 and bearings of sliding elements 11, which are parts of a supporting-rotating mechanism, a perforated pipe 2 made in the form of a rotating longitudinal perforated cylinder and equipped with a protective plate 12 and closing plates 13, rigidly connected to the housing 1, the sprinkler back 14, rigidly fixed to the perforated pipe 2 and the sprinkler front 15, fixed to the perforated pipe 2 through pa Jyom 16, narrow sliding elements 18, connecting plate 19, rigidly connecting narrow sliding elements 18 inside, covering plates 13 and protective plate 12, interchangeable plates 20 located on the outer side of the perforated pipe 2, with the body of the perforated pipe 2, sprinkler rear 14, front sprinkler 15, replaceable plates 20 are equipped with water sprinklers 17. Replaceable plates 20 can be equipped with openings, jets, nozzles or nozzles of different shapes and diameters for supplying liquid foam. Gaseous extinguishing agents and extinguishing facilities razmerov.Mnogie different elements of fire manual trunk into technology, easy to assemble and can be made from conventional materials and components.

Description

The invention relates to the field of fire extinguishing and, in particular, to fire portable devices that provide the supply of fire extinguishing composition inside the burning room, irrigation and extinguishing the burning inside the room.

Known sprinkler for spraying fire extinguishing fluid fire extinguishing system, which includes a housing made in the form of thick-walled glass having a bottom part with channels and a wall equipped with spaced rows inclined to the axis of the atomizer channels, the axis of inclination in each row increases as the distance from the bottom part of the glass to a right angle, forming a series of horizontal channels. According to the invention, the sprinkler is provided with additional inclined channels located at least in one row above the row with horizontal channels, wherein the diameter of the horizontal channels exceeds the diameter of the inclined channels. In the bottom part of the glass and on the outer side wall in rows with inclined channels V-shaped annular grooves with a 90 ° angle are made. V-shaped grooves are made so that the inclined channels have access to the side of the V-shaped groove, which is oriented at a right angle to the axis of the inclined channels. This embodiment of the sprinkler allows you to increase the efficiency of extinguishing fires by creating a compact stream of fire extinguishing fluid in the form of a dome with a dense and uniform distribution of droplets throughout the dome, providing protection from fire of large surfaces with minimal fluid flow (RU 551067, IPC A62C 31/02 (2006.01 )).

A disadvantage of the known device is the inability to use this sprinkler to extinguish the burning inside of the room on all six burning walls at once across their surface at the same time, a small supply of fire extinguishing fluid to suppress the fire in the entire burning room at once. Lack of mobility, - the threaded part on the mouth of the glass sprinkler is attached to the fire extinguishing device, for example, to the fire extinguishing module and is designed for stationary rather than mobile use.

The closest in technical essence to the proposed solution is a working fire extinguishing device with a fire extinguishing device located in the boom end region of the working tool, adjustable at least in one spatial direction, and with an infiltration device adjustable relative to the fire extinguishing device with hydraulic pressure from hydraulic system at least one control valve of a double-acting working cylinder with a shaped pipe through piston rod, which at the protruding end is equipped with a penetration tool containing a through hole and a nozzle head, and at the other end is connected via line with an extinguishing agent supply device, characterized in that with the discharge chamber of the working cylinder, at least one element of pressure accumulation, and with a return line for hydraulic fluid from the discharge chamber, which, when submerged by pressure, causes the penetration tool to move in, About the stream is connected at least one additional element of the accumulation of pressure (RU 2458717, IPC А62С 31/22 (2006.01), А62С 31/24 (2006.01),).

The disadvantage of a working fire extinguishing device with its supplying device is its low mobility, a small area of burning surface covered with water jets and a relatively low rate of extinguishing a burning room, supplying a large amount of water in one direction (end wall) from the discharge pipe (6) will result its runoff and underflooding of the floor and lower floors, high consumption of water, (fire extinguishing fluid) and its inefficient use.

When creating a utility model, a technical problem is resolved, which consists in expanding the arsenal of technical means intended for mobile fire extinguishing devices inside buildings by creating a fire brigade that combines a rapid decrease in temperature in the combustion zone, a very fast extinguishing and wetting from re-ignition total water burning from inside the room with a small amount of water uniformly distributed over the surface of all burning walls, mobility, reliability, and manufacturability of devices providing a source of water from a fire inside a burning building.

The technical problem is solved by a new design of a fire mobile trunk. The new design of a fire portable barrel has a frequent pitch of holes for spraying water along a perforated pipe, spraying water even within a radius of 360 degrees across the axis of the perforated pipe. Due to the short-term, uniformly distributed, dense salvo irrigation over the entire surface, all six internal walls of the room burning from the inside at once. Due to the fact that the water from the holes for spraying water from the perforated pipe is sprayed with thin jets, which in the first seconds of the water supply in the burning room very quickly turn into water vapor if the temperature in the room is high, or immediately wetting to the surface of the walls them from re-ignition. Due to the fact that with this method of irrigation, volley emission of thin jets of water in a burning room and their evaporation in the first seconds of water supply create a huge amount of water vapor with an excess of filling the entire volume of the burning room. When this occurs, the binding of oxygen from the air with water vapor, which leads to a rapid cessation of combustion.

Uniformly distributed, dense salvo irrigation over the entire surface, all six internal walls of the inside burning room are achieved by spraying water through a large number of holes for sprinkling water on a long rotating perforated pipe made in frequent steps and irrigating the burning room in the longitudinal relatively perforated pipe the direction along the ceiling, two side, two end walls and a floor in a radius of about 350 degrees providing dense irrigation of the burning room throughout it length and height. Due to the fact that water from each of the numerous holes for splashing water from a perforated pipe is not fixed fixed at one point, but is sprinkled around its axis by a rotating perforated pipe, on the ceiling, two side, two end walls and a floor within a 360 degree radius, providing dense irrigation of all walls of a burning room across its entire width and height. Due to the fact that water from all holes for spraying water from a perforated pipe is supplied by jets under pressure to the ceiling, both side and end walls and floor, a rapid decrease in temperature in a burning room is achieved, a quick extinguishing of a burning room from inside and wetting of the entire surface of all walls extinguished premises from re-ignition.

Low water consumption for extinguishing and wetting a burning room from re-ignition in general, is achieved due to the fact that the holes in the perforated pipe have a small diameter, due to a very fast extinguishing with short-term water supply.

The technical problem and technical result are achieved by the fact that the fire portable barrel is made with the possibility of connecting it with technical means intended to extinguish a fire, including case 1 and perforated pipe 2 movably interconnected, case 1 made detachable in the form of two hollow cylinders with sockets and with flanges 3 connected to each other, connected by bolts 4, on the outside the body 1 is equipped with a reflective screen 5 and a docking station 6 located on the end part of the body 1 with Directed to the technical means intended to extinguish the fire, inside the housing 1 are installed a rotation device 7, fasteners for the rotation device 8, a bell of a perforated pipe 9, sliding elements 10 and supports for sliding elements 11, which are parts of a rotary support mechanism, the perforated pipe 2 is made in the form of a rotating longitudinal perforated cylinder and is equipped with a protective plate 12 and closing plates 13 rigidly connected to the housing 1, with a sprinkler of the rear 14 rigidly fixed to the perforation front pipe 15, fixed to a perforated pipe 2 through a connector 16, narrow sliding elements 18, a connecting plate 19 rigidly connecting narrow sliding elements 18 inside, covering plates 13 and a protective plate 12, interchangeable plates 20 arranged with the outer side of the perforated pipe 2, while the body of the perforated pipe 2, the sprinkler 14, the sprinkler front 15, replaceable plates 20 are equipped with water sprinklers 17. Replaceable plates 20 can be equipped with an opener iyami, jets, nozzles, or the nozzles of different shape and diameter of the feed liquid, foam, fire extinguishing compositions and gaseous extinguishing rooms of different sizes.

The technical means intended to extinguish a fire, to which a fire-fighting portable barrel can be connected, include any means of supplying the fire extinguishing composition and means of transportation and movement in space, such as motor ladders, autolines, self-propelled, including radio-controlled equipment, robotics, as manned as and non-manned aircraft, flyboards. The function of rotation of the perforated pipe 2, can be carried out as for example, water jets from the holes on the back fill 14 and the fill front 15, pushing the back and front sprinklers around its axis in the direction of rotation, so for example, the rotation device 7, of another type or shape, for example in the form of a screw.

FIG. 1 is a schematic diagram of a fire brigade.

Fire portable barrel is made with the possibility of its connection with the technical means intended to extinguish the fire. Fire hand barrel includes movably interconnected body 1 and perforated pipe 2. Body 1 is made detachable in the form of two hollow cylinders with sockets and flanges 3 directed to each other, connected by bolts 4. Outside, body 1 is equipped with a reflective screen 5 and docking station 6 located on the end part of the housing 1 from the direction directed to the technical means intended to extinguish the fire. Inside the housing 1, a rotation device 7 is installed, a fastener device for rotation 8, a bell of a perforated pipe 9, sliding elements 10 and supports for sliding elements 11, which are parts of a support-rotation mechanism, are installed. The perforated pipe 2 is made in the form of a rotating longitudinal perforated cylinder. The perforated pipe 2 is equipped with a protective plate 12 and closing plates 13, rigidly connected to the housing 1, a rear sprinkler 14, rigidly fixed to the perforated pipe 2 and a front 15 sprinkler fixed to the perforated pipe 2 through a connector 16, narrow sliding elements 18, a connecting plate 19 rigidly connecting the narrow sliding elements 18 located inside of themselves, covering the plates 13 and the protective plate 12, with interchangeable plates 20 located on the outer side of the perforated pipe 2. In this case forged pipe 2, rear sprinkler 14, front sprinkler 15, replaceable plates 20 are equipped with water sprinklers 17. Replaceable plates 20 can be equipped with openings, jets, nozzles, or nozzles of different shapes and diameters for supplying liquid, foamy, gaseous extinguishing agents and for extinguishing premises different sizes.

Rigid connections are made by casting, pressing in, bolts with nuts, threaded connections, detachable connections are made using a threaded connection, fire connecting heads of various types, including quick disconnect connections. The details of the portable fire barrel are made of homogeneous materials, composite of several materials.

The work of the fire portable trunk is as follows.

Water is fed through the docking station 6 into the housing 1. Supplied to the housing 1, the water flow exerts pressure on the rotation device 7 and drives the rotation device 7 and the perforated pipe 2 rigidly connected to it into rotational movement using the fastener rotation device 8. After the rotation device 7 , the water guided by the bell of the perforated pipe 9 is fed into the perforated pipe 2. From the perforated pipe 2, water is fed through water sprinklers 17 in the perforated pipe 2, in the sprinkler 14, and the sprinkler front 15 with thin jets one pressure is fed into the burning room to extinguish the fire. The sliding elements 10 are movably connected to the supports of the sliding elements 11 and the perforated pipe 2 and provide ease of sliding when the perforated pipe 2 rotates and the perforated pipe 2 is fixed against axial movements. The supports of the sliding elements 11 are fixed in the housing 1. Cover plates 13 in order to avoid splashing large amounts of water in the lower part of the room, preventing flooding of the room, cover the outside of the opening for spraying water 17 in the perforated pipe 2 when they rotate along the bottom plates 13. perforated pipe 2 without obstructing its rotation. The protective plate 12 protects the parts of the fire portable trunk from damage, for example, when the fire portable trunk is pushed into the window of the burning room on the sill and at the same time ensures its sliding. The connecting plates 19 interconnect the narrow sliding elements 18 inside the connecting plates 19, the closing plates 13 and the protective plate 12 located under the perforated pipe 2. The flanges 3 of the detachable parts of the housing 1 are bolted with nuts 4. The reflecting screen 5 prevents water from splashing, for example, in a window opening in which the fire portable trunk is submitted. Connector 16 provides for detaching the front sprinkler 15, for example, to clean it and clean the perforated pipe 2 from mechanical objects trapped in the perforated pipe 2 with water, and to insert an additional extension piece of perforated pipe between the perforated pipe 2 and the front sprinkler 15. Case 1 on the flange 3 joint is provided collapsible in case of contact with water into the body 1 of large mechanical objects, and if necessary, at the expiration of the long service life of the fire brigade station ol, to allow replacement of the slip element 10. The portable firefighter barrel can be equipped with several sets of interchangeable plates 20, - extinguishing foam, extinguishing gas and liquid formulations. As lengthening devices used heat-resistant pipes, sleeves.

The inventive constructive execution allowed creating a reliable and technological mobile device attached to a fire hose from a fire tanker (AC), a fire hydrant or another suitable device, or a water supply source that allows you to quickly extinguish and moisten from re-ignition even strongly flaming from inside the room over the entire surface at once all six interior walls of the burning room, including when entering it to extinguish the fire is not possible, and with a relatively small total Odom water to put out the whole space inside and without reheating. According to the portable fire brigade, it is possible to alternately, at high speed, extinguish various premises and structures that are burning inside, including basements and other premises. Also, this fire portable trunk can be used for mobile extinguishing of burning passenger compartments of buses, cars and other vehicles, in any situations where its use would be appropriate in the military industry, and in any sectors of the national economy.

The extinguishing of the burning room from the inside is as follows.

Example No. 1 of extinguishing with the help of a fire portable trunk:

Burned wooden one-story house. Arrived a fire engine AC with the fighting crew of two people. A strong flame burst from the windows of two adjacent rooms outside under the roof of the house. It is impossible to get close to the windows of a burning house because of the high temperature. From the fire truck, the ATC deployed a hose line with a diameter of 51 mm., Designed for a working pressure of up to 3 MPa. A tee was connected to the hose line and two fire hoses with a diameter of 51 mm were connected from the tee in parallel. A portable fire fighter was connected through a docking station 6 through a tap to one of the fire hoses. First-aid fire was connected to the second fire hose. They lifted the portable fire brigade and filed its bow into the burning room window, pushed the portable fire brigade forward inside the burning room using the sliding of the portable fire bore on the sill on the protective plate 12. The crane was opened, along the entire length of the burning room and around the circumference around the axis of the portable fire brigade the barrel through the holes for spraying water 17, perforated pipe 2 began to spray water - on the ceiling, right side wall, floor, left side wall, on the far and near front walls of neous hundreds of water jets that are densely irrigated at the same time almost the entire surface of the walls of the burning, the burning room. The reflective screen 5 prevented the discharge of water jets into the window opening, redirecting them to the inside of the burning room. The closing plates 13 prevented the room from warming. As a consequence of the volley release by jets of water and its intense evaporation, the entire room was filled with a dense cloud of water vapor in a few seconds, oxygen was bound from the air, and the fire was sharply suppressed by water vapor and the temperature in the room was sharply and strongly reduced. For another 10 seconds, the fire brigade left it on and cooled the extinguished room and moistened all the walls against re-ignition. They closed the faucet, dragged the fireman’s portable trunk out of the window of the extinguished room and filed the fireman’s portable trunk through the window of another burning room. In a similar way, they extinguished the fire and dampened the walls of another room from re-ignition. We finished working with a portable fire bore, shut off the faucet, dragged the fire brigade from the window, and disconnected the docking station 6 from the crane.

Example 2. The room on the 1st floor of a brick building was on fire. A portable fire fighter was fed through the docking station 6 and a crane connected to the fire hose from the AC, into the window of the burning room, the fire fighter was pushed deeper inside by sliding the protective plate 12 along the window frame. They filed a fire in a portable fire barrel by opening a tap. From holes for spraying water 17 of a perforated pipe 2 with a dense coating, volley irrigation of all walls, floor and ceiling of a burning room with water was made and instantly poured steam from a window of evaporated water, first alternately with smoke, and then almost without smoke signaling that the fire is extinguished. They gave the fire brigade to work another 10 seconds. They cooled the extinguished room, moistened the surface of all the walls, the floor and the ceiling, cut off the water supply to the fire brigade and turned off the tap. A fire portable trunk was pulled from the window opening using the sliding of the protective plate 12 along the window frame and the docking station 6 was disconnected from the crane. The crane was disconnected from the fire hose.

Example 3. Quenching a basement through a barred basement window.

The basement of a high-rise building with office premises on the ground floor littered with decommissioned office furniture and office equipment was burning. At the ground level among the foundation blocks there is a basement window with a size of approximately 50 * 50 cm., Barred with thick bars of reinforcement from which fire and smoke escaped. From the fire truck, the ATC deployed a hose line with a diameter of 51 mm., Designed for a working pressure of up to 3 MPa. To the fire hose connected the crane and to him docking station 6 fire portable trunk. A portable fire fighter was served in the window of the burning basement between the bars of the reinforcement. They opened the crane, - along the entire length of the burning room and around the axis of the fire carrying barrel, through the holes for spraying water 17, the perforated pipe 2 began to spray water - on the ceiling, right side wall, floor, left side wall, on the far and near end walls at the same time hundreds of streams of water, which densely irrigated practically the entire surface of all the burning walls, the burning basement at the same time. Since the fire brigade was close to the ceiling and the left side wall of the basement, water jets near the fire brigade hit the ceiling and the left side wall and flew inside the basement. At the same time, water jets still reached the right wall of the basement room, as well as all the other walls of the burning room. The reflective screen 5 prevented the discharge of water jets into the window opening, redirecting them inside the burning room. As a consequence of the volley release of water jets and its intense evaporation, the entire basement room was filled with a dense cloud of water vapor in a few seconds, oxygen was bound from the air, and the fire was sharply suppressed by water vapor and water jets irrigating the entire surface of all walls and the temperature in the burning basement was dramatically and severely reduced. For another 10 seconds, the fire brigade left it on, cooled the extinguished room and moistened all the walls against re-ignition. They turned off the faucet and shut off the water supply to the fireman’s portable barrel and pulled it out of the window of the extinguished basement room. Disconnect the valve from the fire hose and from the docking station 6.

Claims (2)

1. Fire portable barrel is made with the possibility of its connection with technical means designed to extinguish the fire, including movably interconnected body and perforated pipe, the body is made detachable in the form of two hollow cylinders with sockets and directed to each other flanges, connected with bolts, the outside of the case is equipped with a reflective screen and a docking station located on the end part of the case from the direction directed towards the technical means intended to extinguish the fire inside the The rotation device, the rotation device fastener, the perforated tube socket, the sliding elements and the sliding element supports, which are parts of the supporting-rotating mechanism, are perforated. The perforated pipe is made in the form of a rotating longitudinal perforated cylinder and is equipped with a protective plate and closing plates rigidly connected to the body, rear irrigator, rigidly fixed to the perforated pipe, and front irrigator, fixed to the perforated pipe through the connector, narrow ementami sliding connector plate fixedly disposed inside the connecting elements themselves are narrow sliding closing plate and the protective plate, indexable insert disposed on the outer side of the perforated tube, wherein the housing of the perforated pipe, sprinkler posterior, anterior irrigation, removable plate fitted with water sprinklers. 2. Portable firefighter barrel under item 1, characterized in that the interchangeable plates can be equipped with holes, jets, nozzles or nozzles of different shapes and diameters for supplying liquid, foamy, gaseous fire extinguishing compositions and for extinguishing rooms of different sizes.

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