RU2053821C1 - Fire fighting tool - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: proposed fire fighting tool incorporates barrel joined to support, pressure chamber with power source, case with fire fighting composition, boosting hose and shutoff device installed between pressure chamber and case. Shutoff device is made in the form of nonreturn shutoff valve with automatic blocking. Moving apart knives are mounted across cut of boosting hose. Fire fighting composition is placed into elastic shell. EFFECT: increased fire fighting capabilities. 1 dwg

Description

 The invention relates to fire fighting equipment and is designed to extinguish open fires from a firearm with shells with a fire extinguishing agent in a hinged manner, and can also be used for rescue operations, delivery to heights and inaccessible places of the cable (line or rescue rope), by fixing their ends to to the projectile being thrown and for casting harpoon-type hooks with the aim of pulling apart collapsed deformed building structures.

 Known gas suppressor, powder type PGP-1, designed for an automatic powder-gas fire extinguishing system (ASPGP), comprising a housing with fire extinguishing powder, the outlet nozzle of which is sealed with a safety membrane, a gas-generating chamber with a charge and an electric igniter, an outlet nozzle between the gas-generating chamber and the housing covered by a locking membrane in the form of a shear disk.

 This device is described in the Recommendations of the VNIIPO Ministry of Internal Affairs of the USSR for the design and use of an automatic powder-gas fire extinguishing system ASPTP, M. 1978, UDC 614.844.4, p. 12, 16.30, fig. 4 and 5.

One of the features of this device is that, as it was experimentally established, a heated fire extinguishing powder in the PGP-1 housing by flowing gases from the gas generating chamber to the decomposition temperature of the fire extinguishing powder (100-120 ^о С) and introducing it into the fire zone instantly eliminates burning due to the inhibitory properties of the products of powder decomposition and phlegmatization of the combustion zone with inert gases. This circumstance increases the fire extinguishing efficiency of the heated powder by 3-5 times, compared with the usual "cold" powder.

The disadvantages of this device include the following:
PGP-1 type flame suppressor is used only in stationary fire extinguishing installations;
low reload rate ПГП-1 (firing), not more than one shot per hour;
the high rate of expiration (emission) of the extinguishing powder (250 m / s) imposes safety requirements when using PGP-1;
limited firing range, not more than 150-200 m.

 Known pulse fire extinguishing installation containing an accelerating table with an outlet, a chamber with a fire extinguishing composition and a breech with a pyrotechnic charge, a support device with a guidance mechanism.

 One of the features of a pulse fire extinguishing installation is that due to the use of the energy of the powder, the extinguishing components are fired from the installation onto a burning surface.

 This installation is described in the magazines "Fire" N 12, 1989 p. 22 "Pulse fire fighting" and N 9, 1990, p.30 "Volley fire."

The disadvantages of this installation include the following:
the duration of the recharge of the installation (about 30 min);
the absence of sliding, damping devices in the installation increases the weight of its supporting devices;
the need to have in the unit a special service for accounting and storage of pyrotechnic products;
shooting is conducted only by direct fire at a distance of not more than 250 m;
high flow rate of the extinguishing agent, more than 250 m / s.

 It is known "Device for extinguishing a fire of a gushing well" containing a storage chamber with an energy source, a housing filled with a fire extinguishing composition with an outlet and a membrane installed between the housing and the chamber.

 A distinctive feature of this device is that to increase the extinguishing efficiency due to the range of the extinguishing agent, the device casing is equipped with an accelerating barrel and an additional membrane installed between the outlet of the housing and the accelerating barrel, while the diameter of the accelerating barrel is equal to the diameter of the outlet of the housing, and the length equal to half the length of the body.

 This device is described in A.S. N 1470306, class A 62 C 35/28 1987, published. 04/07/89, bull. N 13 "Device for extinguishing a fire of a gushing well" prototype.

The disadvantages of this device include the following:
the duration of the recharge of the installation (about 30 min);
instability of air pressure in the chamber of the installation casing due to various tensile forces of the membranes, which, to some extent, affects the range of the release of the extinguishing agent;
the lack of a barrel recoil-damper device biases the installation when fired.

 The aim of this invention is to increase the rate of fire (10 rounds per minute) and increase the extinguishing efficiency by changing the flight path of the extinguishing charge, the selective speed and range of its flight.

 This goal is achieved due to the fact that in a fire-fighting gun containing a barrel connected to a support, including a storage chamber with an energy source, a housing filled with a fire extinguishing composition, an accelerating barrel with an outlet, and a locking device between the storage chamber and the housing, the locking device is made in the form of a non-returnable shut-off valve with automatic blocking, and on the cut of the outlet opening of the booster barrel mounted sliding notch knives are mounted, while the fire extinguishing composition is placed in elas egg shell.

 The drawing shows a schematic kinematic diagram of the interaction of its components and parts, and also shows a schematic diagram of the power supply of the energy source and the ignition device.

 Fire-fighting gun consists of a base plate 1, pivotally connected to the breech of the storage chamber 2 with an energy source, a housing 3 with an extinguishing agent 4 enclosed in an elastic shell 5, an accelerating barrel 6, a locking device 7 with automatic locking. The locking device 7 is made in the form of a spring-loaded non-returning shut-off valve 8, the rod of which is equipped with a spring-loaded dog 9, which engages in the upper part with the edge of the window made in the guide of the locking device 7 and the pusher 10.

 On the exit section of the booster table 6, mounted notch knives 11 are mounted, for example, made in the form of rotating disks and arranged radially in the direction of the longitudinal axis of the booster barrel 6, the axis of rotation of which is located at the ends of the spring beams of the journal 12 fixed to the outer surface of the booster barrel 6 .

 Sliding notch knives 11 are equipped with an automatic drive, made in the form of a cylinder 13, fixed motionlessly on the housing 3, a spring-loaded piston 14 with a fixed regulator 15, the number of knives 11 included in the work, which are closed by a safety casing 16. A two-leg machine 17 is attached to the housing 3 of the fire-fighting gun with targeting mechanism.

 As an energy source, for example, combustible propane gas injected into the cylinder 18 and compressed air in the cylinder 19, which through the lever mechanism of the valve distributor 20 and the ejection gas mixer-doser 21 enter the prechamber 22 and the accumulation chamber 2, can be used. the mixture in the prechamber 22 is carried out by an electric candle 23 from the electric source 24. A pressure gauge 25 and a safety valve 26 are installed on the supply line of the combustible mixture.

 The device operates as follows.

Before firing of the guns fire, its base plate 1 is set in the ground at an angle of 10-45 recess ^on to the surface of projectile throwing line with extinguishing agent 4, and then breech storage chamber 2 is pivotally connected to the base plate 1 and fastened dvunoga- machine 17 with a guidance mechanism, a hose for supplying a gas mixture and a cable from an electric source 24 are connected.

 The lever handle of the valve distributor 20 from the neutral position is transferred to the purge mode. Compressed air from the cylinder 19 through the ejection gas mixer-dispenser 21 enters the pre-chamber 22, then into the accumulation chamber 2 and through the open hole of the non-return shut-off valve 8 enters the chamber 3, into the booster barrel 6 and enters the atmosphere. At the end of the purge (within 3-5 s), the handle of the fixed regulator 15 is set to position 0 or 2, 4, 8, or 16, depending on the number of sliding notch knives involved in the work 11. Then, a fire extinguisher shell is lowered into the booster barrel 6. composition 4, enclosed in an elastic sheath 5.

 Under the weight of the projectile 4, the pusher 10 releases the spring-loaded dog 9 and the shut-off valve stem 8, under the action of a spring, lowers down and closes the outlet from the accumulation chamber 2. The spring force of the shut-off valve 8 is selected so that it opens when it is created in the accumulation chamber 2 pressure exceeding the compression pressure of the gas mixture in the range of 5-10 atm.

Then, the lever handle of the valve distributor 20 from the neutral position is transferred to the "Charging" mode. Compressed air from the cylinder 19, through the ejection gas mixer-dispenser 21 will enter the prechamber 22 and the accumulation chamber 2 in the form of a mixture, mixed in a certain proportion in the mixer-dispenser 21 with combustible gas propane from the cylinder 18. Propane ignition (explosive) concentration limits - air mixtures are in the range from 2.1 to 9.5% by volume (38-170 g / m ³ ), the minimum ignition energy is 0.25 mJ (see I.V. Ryabov's Handbook "Fire hazard of substances and materials" , Publishing House of Building Literature, M. 1966, p. 141).

 The gas mixture in the prechamber 22 is ignited by an electric candle 23 from an electric source 24, for example, from a high voltage piezoelectric element, an inductor, or a battery.

 The flammable gas mixture through the gas channel explodes into the accumulation chamber 2 and ignites the gas mixture in it.

 When gases are burned in the storage chamber 2, a pressure is created inside it within 30-45 atm. under the action of which a non-return shut-off valve 8 opens and is fixed in the upper part by a spring-loaded dog 9, and a gas stream pushes a projectile with extinguishing agent 4 to the fire source (see Brief Polytechnical Dictionary, State Publishing House of Technical and Theoretical Literature, M. 1956, p. 259- Combustion pressure).

 When the shut-off valve 8 is opened, part of the gases from the chamber 3 body through the channel in its wall will enter the cylinder chamber 13 and act on the spring-loaded piston 14, fastened with the fixed regulator 15, the number of knives 11 included in the work. The fixed regulator 15 compresses the spring beams of the journal 12 and radially shifts the incision knives 11, which longitudinally cut the elastic sheath 5 when the projectile with the extinguishing agent takes off 4. When the projectile is flying, the oncoming air stream tears (tears off) the shell and the extinguishing agent 4 by fire release lever falls into a pulverized powder or aerosol. Depending on the flight path of the projectile, the remoteness of the fire and, accordingly, the velocity of the projectile, the number of incisions of the shell 5 is experimentally determined by the method of samples to obtain the most effective spray angle of the extinguishing agent 4.

 After the shot is made, the reloading process, its cycle, is repeated: blowing, loading the projectile into the barrel, pumping (charging) the gas mixture, igniting the gas mixture (shot).

 It was experimentally established that if a shell with a fire extinguishing composition 4 in the form of a powder is placed in an airtight shell in the form of a foil or thick paper coated with a polyethylene composition (for milk bags) and vacuumized and then sealed, then the package with loose powder is exposed to atmospheric pressure. (shell) becomes tough and hard. But it is only necessary to sharply depressurize the shell of this shell, as the air exploding into the package (shell) turns dust into dust all the lumps of the contents of the package (see IR N 12, 1970, p.21. Low pressure extrusion, crushing by explosion).

 In the event that there is no compressed air cylinder 19 at the place of firing (throwing) from a fire-fighting gun, it will be possible to use an air compressor or connect to the line of the air-brake system of a fire truck or use a hand pump to inflate the tires of the car with air. In this case, after purging the accumulation chamber 2 and closing the valve 8, combustible gas is first supplied to the accumulation chamber 2 to a certain pressure, determined by pressure gauge 25, and then the necessary compression is created by the hand pump.

 To throw a rescue rope (rope) to a height, a special projectile is made, to which the end of the rope is attached, and the projectile is fired from the mouth of a fire-fighting gun.

 The implementation of the locking device between the storage chamber and the body of the fire-fighting gun, made in the form of a non-returning shut-off valve with automatic locking simplifies the design of the fire-fighting gun, increases its rate of fire and fire fighting efficiency several times.

 The execution of a cut-out of the outlet of the booster barrel of the fire-fighting gun of extensible notch blades placed radially in the direction of the longitudinal axis of the booster barrel increases the efficiency of fire extinguishing by the extinguishing agent by varying the trajectory of the projectile, its speed and the spray angle of the extinguishing agent over the fire source.

 The implementation of a fire extinguishing composition (shell) in an elastic shell increases the efficiency of fire extinguishing due to the high rate of fire of a firearm (up to 10 rounds per minute), improving safety when loading a gun and increasing the range of a fire extinguishing charge and making fuller use of a fire extinguishing composition over a fire site.

 Savings from the use of fire-fighting guns are obtained due to the increased efficiency of firefighting with a fire-fighting gun while reducing the risk of its use.

Claims (1)

 FIRE-FIGHTING EQUIPMENT, comprising a barrel connected to a support, including an accumulation chamber with an energy source, a body filled with a fire extinguishing composition, an accelerating barrel with an outlet and a locking device between the storage chamber and the housing, characterized in that the locking device is made in the form of a non-return shut-off valve with automatic blocking, and on a section of the outlet opening of the booster trunk mounted sliding notch knives placed radially relative to the longitudinal axis of the booster the barrel, while the fire extinguishing composition is placed in an elastic shell.

Images