RU2641450C1 - Fire-fighting hose - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: invention relates to the fire-prevention technology, the means of fire-extinguishing material supply (liquid fire-extinguishing substance), and can be used on the mobile fire-fighting facility to supply the fire-extinguishing substance to the height to extinguish the open occurred fire of one-and two-storied residential, public and administrative buildings of IV-V degree fire resistance. The fire barrel 4 is provided with cylindrical nozzles - central 15 and peripheral 16. The nozzles 16 axes are positioned at the angle to the axis of the hose 4 body 8. There are the through cylindrical axial holes 17 (18) with the sharp inlet edge in the nozzle 15 (16).EFFECT: fire extinguishing efficiency increase due to the possibility to supply the liquid fire extinguishing substances to the height, provision of the required intensity of fire extinguishing liquid supply from above to the maximum fire area, reduction of the open fire extinguishing time, personnel safety increase through the possibility to supply the fire extinguishing liquids without involving personnel into work at height in conditions of dangerous fire factors exposure, increase of the device operational reliability in the conditions of low negative temperatures of the north, expansion of the fire protection units operational departments tactical and technical capabilities.2 cl, 6 dwg

Description

The invention relates to fire fighting equipment, and in particular to means for supplying fire extinguishing material (liquid extinguishing agent), and can be used on a movable fire extinguishing medium to supply extinguishing agent to a height for extinguishing an open developed fire of one- and two-story residential, public and administrative buildings IV -V degree of fire resistance.

A characteristic feature of the development of fires in buildings of IV-V degree of fire resistance is an accelerated (fast or intensive) transition from an internal fire (within the boundaries of one room) to an open (with burning exit to the outside of the building), covering several rooms, including rooms on adjacent floors. Such a scenario for the development of a fire occurs, as a rule, over a period of time from the moment the fire brigades are called up to the completion of the deployment of forces and equipment of the divisions with prepared positions for fighting the fire.

In conditions of a high rate of spread of combustion in the corridors and attic of buildings of IV-V degree of fire resistance and the inability to quickly move the gas and smoke protection units, it is necessary to use fire extinguishing agents that can limit the spread of combustion and its transfer to other parts of the fire.

Known fire barrel containing a pipe for supplying a fire extinguishing agent with inlet and outlet openings, one of which is blocked by a stove (elastic or rigid) with openings in which elastic tubes are fixed. The free ends of the tubes pass through the perforated bottom of the glass covered by a threaded ferrule. The clip is mounted on the nozzle with the possibility of rotation and simultaneous compression and expansion of the side walls of the glass, changing the radial distances between the elastic tubes, and therefore, changing the shape of the jet. In addition, the device implements the ability to change the shape of the jet in the horizontal plane (a flat jet is formed) (USSR, No. 1243746, А62С 31/02, 07/15/86).

A disadvantage of the known device is as follows. The well-known fire barrel requires manual adjustment of the shape of the jet in the process of extinguishing a fire. This implies holding him in his hands, i.e. allowable working pressure of 0.4-0.5 MPa. In addition, a safe distance from the source of fire must be observed. In aggregate, this does not make it possible to simultaneously provide the required rate of supply of extinguishing fluid to the maximum area of the fire, which reduces the efficiency of flame extinguishing. In this case, the manual setting requires certain skills of the maintenance personnel, especially when choosing an effective fire extinguishing form, which negatively affects the fire fighting time and reduces the fire extinguishing efficiency. In addition, the fire barrel is unsuitable for use at low ambient temperatures due to the high probability of failure of the regulatory and adjustable nodes. Moreover, the need for manual adjustment of the shape of the jet reduces the safety of firefighters, and also because of the need to ensure the safe operation of firefighters, it imposes restrictions on the distance to the fire, which reduces efficiency and increases the time to extinguish a fire. In addition, the need to adjust the shape of the jet during the fire extinguishing, as well as the absence of special tools, do not allow the use of a well-known fire barrel for supplying a fire extinguishing agent to a height, which does not allow to simultaneously provide the required fire extinguishing liquid supply rate from top to bottom to the maximum fire area and reduces efficiency flame extinguishing.

Closest to the proposed is a fire barrel, designed for use in automatic fire extinguishing devices. The fire barrel is made in the form of a contour spray, which contains a housing connected to the hose line. A nozzle is installed in the casing, to which flexible fireproof hoses with conical nozzles at the free ends are permanently attached. Hoses have the ability to fix and change relative to each other spatial position. Using the mounting rods pivotally mounted on the housing, changing the spatial position of the hoses, the resulting spray angle of the extinguishing agent is adjusted to achieve the shape of the resulting flow necessary for fire fighting in each specific case (USSR, copyright certificate No. 1694154, А62С 31/00, 30.11.91 )

A disadvantage of the known device, first of all, is that conical nozzles form a directed compact stream of extinguishing agent, which does not allow to simultaneously provide the required rate of supply of extinguishing fluid to the maximum area of the fire, which reduces the efficiency of flame extinguishing. In this case, the fire barrel requires both preliminary adjustment of the shape of the jet, and in the process of extinguishing a fire. At the same time, the setting is manual, rather complicated and time-consuming, it requires certain skills of the maintenance personnel, especially when choosing the shape of the jet, which negatively affects the fire fighting time and reduces the efficiency of fire fighting. For the same reason, the well-known fire barrel is unsuitable for use at low ambient temperatures, and also because of the high probability of failure of the regulatory and adjustable nodes. Moreover, the need for manual adjustment of the shape of the jet reduces the safety of firefighters, and also because of the need to ensure the safe operation of firefighters, it imposes restrictions on the distance to the fire, which reduces efficiency and increases the time to extinguish a fire. In addition, the need to adjust the shape of the jet during the fire extinguishing, as well as the absence of special tools, do not allow the use of a well-known fire barrel for supplying a fire extinguishing agent to a height, which does not allow to simultaneously provide the required fire extinguishing liquid supply rate from top to bottom to the maximum fire area and reduces efficiency flame extinguishing.

The claimed invention solves the problem of creating a fire barrel, the implementation of which allows to achieve a technical result, which consists in increasing the efficiency of fire fighting due to the possibility of supplying liquid fire extinguishing substances to a height; in the ability to provide the required intensity of the supply of extinguishing fluid from above to the maximum area of the fire; to reduce the time of fire extinguishing an open developed fire; to increase the safety of personnel, due to the possibility of supplying a fire extinguishing fluid without involving personnel to work at height in the face of exposure to dangerous fire factors; to increase the operational reliability of the device in conditions of low negative temperatures of the north.

In addition, the claimed invention in the implementation allows to achieve an additional technical result, which consists in expanding the tactical and technical capabilities of the operational departments of the fire departments.

The essence of the claimed invention lies in the fact that in a fire barrel containing a housing, it is new that the housing is made in the form of a hollow steel pipe, one end of which is equipped with a connecting sleeve fire head, and a steel cover is welded to the second end of the barrel housing, in which in the form of a circle, an axial hole and peripheral holes located radially at an equal distance from the axis of the housing and at an equal distance from each other, in addition, each hole is installed and welded to the outer surface and covers the hollow cylindrical adapter, while the peripheral adapters are welded in such a way that their axes are located at the same sharp angle to the axis of the housing, which is 20 ° -30 °, and the inner diameter of the adapter is not less than the diameter of the hole, and on the inner surface of the adapter throughout a thread is made in length, in addition, a cylindrical nozzle is screwed into each adapter coaxially with the threaded end, which has a through axial bore with a sharp inlet edge, the total length of the nozzle satisfies the condition: l = (3 ... 4) d, where l is the total length of the nozzle, d is the diameter of the through axial hole, while the length of the fit end of the nozzle is the sum of the length of the adapter and the thickness of the cover and is at least half of it the total length, in addition, the thread at the upper mounting end of the nozzle is limited by a nut welded to the outer surface of the nozzle, while the diameter of the holes made in the cap corresponds to the outer diameter of the corresponding nozzles. In addition, the total length of the central nozzle is 39-45 mm with a through hole diameter of 13-15 mm, and the total length of the peripheral nozzle is 36-40 mm with a through hole diameter of 9-10 mm.

The claimed technical result is achieved as follows.

The essential features of the claims: "A fire barrel containing a housing, ..." - are an integral part of the claimed device and ensure its operability, and therefore, ensure the achievement of the claimed technical result.

In the claimed fire barrel, the casing is made in the form of a hollow steel pipe, one end of which is equipped with a connecting coupling fire head, and a steel cover is welded to the second end of the barrel casing, in which the axial hole and peripheral holes are made in the form of a circle. A hollow cylindrical adapter is installed and welded to the outer surface of the cover on each hole, made of steel, on the inner surface of which a thread is made along the entire length. A threaded cylindrical screw made of steel nozzles is screwed into each adapter coaxially with the threaded end. Thus, all the nodes of the claimed barrel are made of steel, which made it possible to use welding and threaded connections to connect the nodes. Since all the nodes of the declared barrel are made of steel, the nodes are connected by welding and threaded connection, the design of the declared fire barrel is a single unit, capable, as tests have shown, withstanding the high working pressure of the extinguishing liquid up to 0.9 MPa, which allows you to create a continuous curtain from a fire extinguishing agent, blocking the path for the spread of fire.

In addition, the presence in the inventive device of only mechanical connections and the absence of hydraulic and adjustment units increases the operational reliability of the device in the conditions of low winter temperatures of the north, and the absence of the need for preliminary and subsequent adjustment of the barrel reduces the time to extinguish a fire.

The axial hole and peripheral holes made in the lid are located radially at an equal distance from the axis of the housing and at an equal distance from each other.

The inner diameter of the adapter installed on the hole and welded on the cover is not less than the diameter of the hole, which ensures the tightness of the weld.

The implementation of the length of the landing end of the nozzle equal to at least half of its total length ensures the efficient operation of the fire barrel under operating pressure up to 0.9 MPa, while preventing the possibility of failure of the adapter nozzle. Due to the fact that the thread at the upper mounting end of the nozzle is limited by a nut welded to the outer surface of the nozzle, it is possible to screw the nozzle into the adapter using a wrench, which ensures a reliable connection of the structure.

The nozzles are made with a through cylindrical axial hole with a sharp inlet edge. In the claimed device, the axial hole in the nozzle is cylindrical with a sharp inlet edge, by analogy with the classic nozzle, namely: the classic cylindrical outer nozzle is a cylindrical pipe of length l = (3 ... 4) d with a sharp inlet edge (Chugaev PP Hydraulics: textbook for universities. - 4th ed., ext. and revised. - L .: Energoizdat. Leningrad Branch, 1982. - 672 p.). In addition, in the claimed device, the accepted nozzle length, therefore, the length of the axial hole is determined by the recommendations adopted in hydraulics, namely: in the central nozzle with a through hole diameter of 13-15 mm, the total length of the central nozzle is 39-45 mm, which is three diameters through holes. The peripheral nozzle with the diameter of the through hole 9-10 mm, the total length of the peripheral nozzle 36-40 mm, which is four diameters of the through hole. As a result, at given nozzle sizes, when the fluid flows through the declared nozzles, conditions are created under which, at high pressure of the liquid (at a working pressure in the hose line of 0.59-0.8 MPa), a liquid flow regime with a separation is formed, i.e. the jet flies through the nozzles without touching its walls and scatters at the exit in the form of a spray jet (Chugaev PP Hydraulics: textbook for high schools. - 4th ed., ext. and revised. - L .: Energoizdat. Leningrad branch, 1982. - 672 p.). In addition, since the length of the landing end of the nozzle is the sum of the length of the adapter and the thickness of the cover, while the holes are made in the shape of a circle and their diameter corresponds to the outer diameter of the corresponding nozzles, the end face of the fully screwed landing end is in the same plane with the surface of the inner wall of the cover . The result is a continuous channel for the passage of fluid through the nozzles.

Since the adapters are installed on each hole in the cover, their number, and therefore the number of nozzles, correspond to the number of holes in the cover. Due to the fact that the cap with nozzles is welded to the body of the fire barrel into which the liquid extinguishing agent enters, a system for supplying the liquid extinguishing agent is formed, which makes it possible to divide its flow into several streams corresponding to the number of nozzles.

As shown above, in the inventive fire barrel when fluid flows from the nozzle into the atmosphere, a spray jet is formed at the nozzle outlet having the stated ratio between its length and the diameter of the axial hole. Since the axial hole in the nozzle is cylindrical, when sprayed, the shape of the surface irrigated by one nozzle is close to a circle.

In the claimed fire barrel, the peripheral holes on which the adapters are mounted are located radially at an equal distance from the axis of the body and at an equal distance from each other, and the peripheral adapters are welded so that their axes are located at the same acute angle to the axis of the body of the fire barrel. Since the nozzles are screwed into the adapters, their axes are located at the same angle to the axis of the fire barrel body. As a result, the central nozzle forms an irrigated surface along the axis of the fire barrel body, and each peripheral nozzle forms its irrigated surface located at the same distance from the axial line of the fire barrel body. Moreover, due to the fact that the adapters are fixed at an angle to the axis of the fire barrel body, which is 20 ° -30 °, the boundaries of the surfaces irrigated by the nozzles intersect, forming, practically, a continuous curtain of liquid fire extinguishing substance (Fig. 6).

The ability to supply a fire extinguishing agent (water, water with a wetting agent or a foaming agent) in a sprayed state increases the irrigation area and evenly distributes the extinguishing agent, the water evaporates faster, absorbing a large amount of heat.

As a result, with the stated requirement for the ratio between its length and the diameter of the axial bore of the nozzle, at the usual working pressure of the liquid extinguishing agent 0.59-0.8 MPa, simultaneous irrigation of a large area of fire is ensured with optimal requirements for the flow rate of the extinguishing medium.

Since the axial hole in the central nozzle (13-15 mm) is larger compared to the peripheral ones (9-10), the central nozzle forms a central irrigated surface close to a circle whose radius exceeds the radius of the circumferences of the peripheral irrigated surfaces. As a result, the peripheral circles, at the declared angles of inclination of the axis of the nozzles to the axis of the barrel body, intersect with the central circle, forming an almost continuous curtain of fire extinguishing substance, covering the source of combustion from above.

Quantitative characteristics of the claimed device obtained by calculation and confirmed empirically and are optimal.

As experience has shown, for one fire barrel in the claimed design, with an angle of inclination of the axis of the adapter to the axis of the body of the fire barrel of 20 °, with a ladder rising to a height of 5 and 10 meters from the level of the fire, at the usual working pressure of a liquid fire extinguishing agent in a hose line 0 , 59-0.8 MPa, irrigated area is 15 and 32 m ^2, respectively.

Since the shape of the irrigated area with one fire barrel is close to the circumference, in this case the width of the irrigated surface (diameter) will be approximately 5 m and 10 m. This in both cases corresponds to half the width of the open attic of the building of the IV-V degree of fire resistance, which, with a variety of projects, it is 10.5-15 m.

Building of low stability in case of fire - buildings of various functional purposes, the structural elements of which are made with a fire resistance not exceeding 15 minutes (Ivannikov V.P., Klyus P.P. Directory of the head of a fire extinguishing. - M .: Stroyizdat, 1987. - 288 p.: ill.) As noted above, a characteristic feature of the development of fires in buildings of IV-V degree of fire resistance is an intensive transition from an internal fire (within the boundaries of one room) to an open (with burning exit to the outside of the building), covering several rooms, including by adjoining floors.

In the event of a fire in buildings of the IV-V degree of fire resistance of a prefabricated switchboard or cellular structure, the prolonged absence of the active influence of extinguishing substances on the combustion zone leads to an early collapse of the structures of floors and walls (partitions). The dynamics of freely developing fires in these buildings is characterized by the transition of the fire through the space of the attic into the space of the premises of neighboring entrances. As a result, the localization of the fire within the same entrance or floor by conventional fire extinguishing means is unlikely and may lead to complete or partial loss of the fire object.

In the claimed fire barrel, one end of the casing is equipped with a connecting sleeve fire head, which makes it possible to connect it to a standard means of transporting fire-extinguishing fluid, in particular to the nozzles of a comb-type switchgear.

The Grebenka switchgear is included in the complete set of the ladder and consists of a pipe for transporting liquid extinguishing agent and pipes connected with it. The nozzles are fixed in such a way that their longitudinal axis is perpendicular to the longitudinal axis of the pipe, while the nozzles are directed opening down (http://vunivere.ru/work56495/page4 "Memo to the driver-operator of the fire-ladder AL-30 (131) PM-506D", part 2, p. 4. Fig. 3.5). The pipe for transporting liquid extinguishing agent and nozzles are equipped with connecting heads for firefighters. In the "comb" pipe for transporting a liquid extinguishing agent is connected to the upper end of the hose line. Declared trunks connecting coupling heads by firefighters attached to the nozzles "combs".

The "comb" is fixed at the top of the upper section of the boom stairs. As a result, it is possible to supply a liquid fire extinguishing substance to a height by the declared fire barrel. In addition, since the “comb” nozzles are directed with their openings pointing downward, the nozzle attached to the nozzle of the fire barrel is also directed downward by the outlet. This makes it possible to supply liquid fire extinguishing substance to the fire object from top to bottom (Fig. 5), which helps to prevent the progress of the fire front by introducing fire extinguishing means along the paths of its most intense and dangerous distribution, in particular, forming a curtain of fire extinguishing substance on the attic floors, which reduces time and increases the efficiency of fire extinguishing.

In addition, the possibility, by means of the claimed barrel, of supplying an extinguishing agent from top to bottom to an object allows simultaneously irrigating extinguisher from above with large areas, blocking attic floors with a curtain of extinguishing agent, while simultaneously providing the required rate of extinguishing fluid from above to the maximum fire area. As a result, this allows, using the inventive device, in conditions of high speed of propagation of combustion in the corridors and attic of buildings of the IV-V degree of fire resistance and in case of loss of the possibility of rapid advancement of the gas and smoke protection units of the fire department, to limit the spread of combustion and its transition to other parts of the fire object , which also reduces time and increases fire fighting efficiency.

In addition, the passage of a freely developing fire through the space of the attic into the space of the rooms of neighboring entrances, by virtue of its transience, poses a threat to the personnel of the fire service engaged in extinguishing the fire (on the floors of the building). The possibility of localizing a fire within one entrance increases the safety of personnel during extinguishing a fire. Due to the possibility of fixing the declared barrel on the ladder, it is possible to supply fire extinguishing fluid without engaging personnel to work at height in the presence of dangerous fire factors, which increases the safety of personnel of operational units during fire fighting, and also reduces the number of personnel of fire protection units, involved in the supply of extinguishing agents to extinguish a fire.

The inventive fire barrel allows you to expand the functionality of existing fire equipment by its appropriate retrofitting. This will make it possible to unify the composition of the existing fire and rescue equipment of the fire protection units, which expands the tactical and technical capabilities of the operational units, reduces the time of fire fighting and increases the efficiency of extinguishing an open fire.

Thus, from the foregoing, it follows that the claimed fire barrel during implementation ensures the achievement of a technical result consisting in increasing the efficiency of fire extinguishing due to the possibility of supplying liquid fire extinguishing substances to a height; in the ability to provide the required intensity of the supply of extinguishing fluid from above to the maximum area of the fire; to reduce the time of fire extinguishing an open developed fire; to increase the safety of personnel due to the possibility of supplying a fire extinguishing liquid without involving personnel to work at height in the face of exposure to dangerous fire factors; to increase the operational reliability of the device in conditions of low negative temperatures of the north.

In addition, the claimed invention in the implementation allows to achieve an additional technical result, which consists in expanding the tactical and technical capabilities of the operational departments of the fire departments.

In FIG. 1 shows an example of the use of the claimed fire barrel for supplying liquid fire extinguishing substances to a height; in FIG. 2 shows a fire barrel, front view; in FIG. 3 - fire barrel, top view; in FIG. 4 is a drawing explaining the selection of the angles of inclination of the axes of the nozzles to the axis of the body of the fire barrel; in FIG. 5 is a diagram of the supply of liquid fire extinguishing substances to a height; in FIG. 6 is a diagram of the formation of a spot on an irrigated surface.

In an example of using the claimed fire barrel for delivering liquid fire extinguishing substances to a height, a comb type switchgear 1 with nozzles 2 for supplying a liquid fire extinguishing substance is shown, which is rigidly fixed to the top of the upper section of the boom 3. The nozzles are connected to fire trunks 4 by means of fixed connecting heads for firefighters 5. A hose line 6 is laid along the steps of the boom of the ladder, along the axis, the lower end of which is connected to the fire pump of the main fire truck Mobile (not shown). The switchgear 1 is connected to the upper end of the hose line 6 by means of the connecting head of the fire 7.

The maximum number of fire trunks 4 corresponds to the number of nozzles 2. Each barrel 4 contains a housing 8 in the form of a hollow steel pipe, one end 9 of which is equipped with a connecting sleeve fire head (not shown), through which the barrel 4 is connected to the connecting head 5 of the corresponding nozzle 2 of the distribution device 1. The end face 9 is made with the possibility of equipping it with a coupling sleeve fire head.

A steel cover 10 is welded to the second end of the housing 8 of the barrel 4, in which an axial hole 11 and peripheral holes 12 are formed in the form of a circle, located radially at an equal distance from the axis of the housing 8 and at an equal distance from each other. In addition, hollow steel cylindrical adapters 13 and 14, respectively, are mounted and welded to the outer surface of the cover 10 on the axial hole 11 and each peripheral hole 12. Moreover, the peripheral adapters 14 are welded in such a way that their axes are located at the same acute angle to the axis of the housing 8, which is 20 ° -30 °. The inner diameter of the adapters 13, 14 is not less than the diameter of the corresponding hole 11, 12, and a thread is made along its entire length along its entire length.

A central 15 and peripheral nozzles 16 with a through cylindrical axial hole 17, 18 with a sharp inlet edge made of steel are screwed into each adapter 13, 14, coaxially with a threaded end fitted with a thread. The total length of the nozzle 15, 16 satisfies the condition: l = (3 ... 4) d, where l is the total length of the nozzle, d is the diameter of the through axial hole, while the length of the fit end of the nozzle 15, 16 is the sum of the adapter 13, 14 and the thickness cover 10 and is at least half of its total length. The thread at the upper mounting end of the nozzle 15, 16 is limited by a nut 19 welded to the outer surface of the nozzle. The diameter of the holes 11, 12, made in the cover 10, corresponds to the outer diameter of the respective nozzles 15, 16.

The central nozzle can be made with a total length of 39-45 mm with a through hole diameter of 13-15 mm, and the peripheral nozzle can be made with a total length of 36-40 mm with a through hole diameter of 9-10 mm.

The choice of the declared dimensions of the angles of inclination of the axis of the peripheral adapters, and consequently of the peripheral nozzles, to the axis of the body of the fire barrel, namely: 20 ° -30 °, is due to the following (Fig. 4).

We consider the flow of fluid from the nozzles down. When liquid flows into the atmosphere through nozzles, spraying occurs. In this case, the sprayed liquid stream has a sufficiently compact part. Since the axes of the nozzles are located at the same acute angle to the axis of the barrel body, in an imaginary vertical plane passing through the axis of the central nozzle, through the axes of two diametrically located peripheral nozzles and through the axis of the barrel body, we have an isosceles triangle with the sides a ₁ and a ₂ , formed by peripheral compact jets, and a height h formed by a compact jet by the central nozzle, which is equal to the distance of the central nozzle to the irrigated surface, i.e. boom lift height. The internal length of the nozzles and the distance to the point of intersection of their axes with the axis of the body of the fire barrel, due to the small size compared to the distance to the irrigated surface, can be neglected. The length of the base b of the triangle determines the width of the irrigated surface.

As noted above, the width of the opened attic of a building of IV-V degree of resistance to fire is 10.5-15 m. Based on this, for effective fire fighting, the required width of the irrigated surface should be at least half the width of the opened attic, i.e. at least half the base length b of an imaginary triangle.

With the boom lifting height h = 10 m and the width b of the opened attic space of 10.5 m (1/2 b = 5.25 m) we have:

tgα = 5.25: 10 = 0.525. Angle α≈27 °.

With the boom lifting height h = 10 m and the width b of the opened attic space of 15 m (1/2 b = 7.5 m), we have:

tgα = 7.5: 10 = 0.75. Angle α≈37 °.

As experience has shown, for one fire barrel in the claimed design, with an angle of inclination of the axis of the adapter to the axis of the body of the fire barrel of 20 °, with a ladder rising to a height of 5 and 10 meters from the level of the fire, at the usual working pressure of a liquid fire extinguishing agent in a hose line 0 , 59-0.8 MPa, the irrigated surface area of the fire is 15 and 32 m ^2, respectively.

Since the shape of the irrigated area with one fire barrel is close to a circle, in this case the width of the irrigated surface (diameter) will be approximately 5 m and 10 m. In both cases, with an angle of inclination of the axis of the adapter to the axis of the body of the fire barrel of 20 °, it corresponds to half the width open attic of the building IV-V degree of resistance to fire, which, as noted above, with a variety of projects is 10.5-15 m.

As a result, on the basis of the calculated data and the results of experimental tests, the angle of inclination of the axis of the peripheral adapters, and, consequently, of the peripheral nozzles to the axis of the body of the fire barrel, is selected in the range of 20 ° -30 °, which provides the possibility of extinguishing a fire for one fire barrel, simultaneously blocking large fire areas up to 15 m wide.

The claimed device operates as follows.

The tests were carried out in the city of Pokachi (Nizhnevartovsk district of the Khanty-Mansiysk Autonomous Okrug - Ugra).

For testing, a fire barrel was made in accordance with the claimed design. The fire barrel (body, adapters, nozzles) can be made of corrosion-resistant steel, for example, according to GOST 9941-81. The casing 8 is made of a steel pipe 200 mm long with a wall thickness of 4 mm and a dimeter under the coupling pressure head GM-80; the number of nozzles is five: central 15, with a total length of 45 mm and an axial bore diameter of 15 mm; peripheral nozzles 16 with a total length of 40 mm and an axial bore diameter of 10 mm; the angle of inclination of the axis of the nozzle to the axis of the barrel body 20 °. The wall thickness of the nozzles is uncritical, as the liquid stream passes through the nozzles without touching its walls. In an exemplary embodiment, the wall thickness of the nozzle is 2 mm. The cover 10 can be made of any grade of general-purpose anti-corrosion steel. A predetermined angle of inclination of the axes can be obtained either by making the welded portion of the adapters in the form of a truncated cylinder, or by making the lid in the form of a circle segment. In the example of the barrel, the lid is made in the form of a circle segment.

When performing the pilot tests used: fire ladder AL-30 (131), the main fire truck ATs-40 (5557) with a pump PN-40UV, an experimental installation for receiving working fluid, pressure fire hoses (RPM-80-1.6), branching three-way (RT-80), measuring tape, stopwatch.

A ladder 3 with a "comb" type switchgear 1 fixed to the top of the upper boom section, the nozzles of which are connected to the fire trunks 4 by the connecting heads of the firefighters 5, are brought to a predetermined working height. After the fire pump was brought to the specified operating mode, the boom of the ladder was moved over the experimental installation for receiving the working fluid, after which the strait level and irrigation area were measured.

A hose line 6, the lower end of which was connected to the fire pump of the main fire truck (AC-40 (5557)), and the upper end, to the dispenser 1, into which liquid extinguishing agent (water, a low-percentage foaming agent solution) was supplied under operating pressure 0, 59-0.8 MPa.

The number of fire barrels fixed in the comb, 1.

Free branch pipes 2 are closed by caps.

The essence of the test: checking the efficiency of the fireman’s barrel to create a water curtain, determining the necessary pressure at the pump of the main fire engine to ensure satisfactory operation, establishing the operational characteristics of the trunks.

Test conditions:

Air temperature - 11 ° C Precipitation no Wind 0 m / s (calm) Lighting natural (clear weather) Atmosphere pressure not fixed Relative humidity not fixed

Water supply scheme: from the capacity of the main fire truck.

Working fluid: water

Pump output time to the required pressure 10-15 s Irrigated area at h _lift = 5 m 15 m ² Irrigated area at h _lift = 10 m 32 m ²

Claims (2)

1. Fire barrel containing a housing, characterized in that the housing is made in the form of a hollow steel pipe, one end of which is equipped with a connecting sleeve fire head, and a steel cover is welded to the second end of the barrel body, in which the axial hole and peripheral holes are made in the form of a circle located radially at an equal distance from the axis of the housing and at an equal distance from each other, in addition, a hollow cylindrical pipe made of steel is installed and welded to the outer surface of the cover on each hole adapter, while the peripheral adapters are welded in such a way that their axes are located at the same acute angle to the axis of the housing, which is 20 ° -30 °, and the inner diameter of the adapter is not less than the diameter of the hole, and a thread is made along the entire length of the adapter, in addition, a threaded cylindrical screw is screwed into each adapter coaxially with a threaded end, made of steel nozzles, in which a through cylindrical axial hole is made with a sharp inlet edge, while the total length the nozzle satisfies the condition: l = (3 ... 4) d, where l is the total length of the nozzle, d is the diameter of the through axial hole, and the length of the fit end of the nozzle is the length of the adapter and the thickness of the cover and is at least half of its total length, except Moreover, the thread at the upper mounting end of the nozzle is limited by a nut welded to the outer surface of the nozzle, while the diameter of the holes made in the cap corresponds to the outer diameter of the corresponding nozzles. 2. The device according to claim 1, characterized in that the total length of the central nozzle is 39-45 mm with a through hole diameter of 13-15 mm, and the total length of the peripheral nozzle is 36-40 mm with a through hole diameter of 9-10 mm.

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