RU2630653C2 - Fire fighting device - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: fire extinguishing device contains a solid metal cylindrical body inside which is made a recess in the form of a truncated cone, in which a thin-walled rubber shell filled with quenching liquid is fixed. The free end of the casing passes into the central hole in the upper part of the casing, where it is fixed from the outside by the holder. A handle is attached to the holder on the upper side of the body, to which a first cable, through a ball-shaped metal stopper and attached to a metal platform suspended to the delivery means, is attached by means of a fastener with an integrated lock. On the opposite sides of the body are symmetrically formed two internal cavities, each of which is a spring, one end of which is attached to the body, and the second end of the spring is connected to the piston, on which the needle is fixed. A second cable is attached to the piston, which is passed through the roller and attached to the ring through which the first cable passes. The inner diameter of the ring is half the outer diameter of the ball-shaped metal stopper. A fastening element with a built-in lock is connected via a cable to a power source located on the delivery vehicle, for example a helicopter. The rubber casing is filled with quenching liquid from 1 to 3 l.

EFFECT: safety, the possibility for re-using the fire extinguishing devices equipped with new rubber casings.

2 cl, 3 dwg, 1 tbl

Description

The invention relates to fire fighting equipment, namely to extinguish fires during fires over large areas, and can be used to localize and eliminate large forest fires, as well as when suppressing fires in industrial and public facilities.

A device for extinguishing fires is known [US 5894892 (A), IPC A62C 19/00, publ. 04/20/1999], which is a fire extinguishing bomb that explodes after a fire flame and includes a sealed hollow container containing balls with fire extinguishing chemicals, such as ammonium sulfate, ammonium chloride and sodium carbonate.

Explosion of a bomb leads to sprinkling of fire extinguishing substances on burning objects, and, as a result, most of the liquid is spent on the filling of combustion objects, without significantly reducing the temperature in the vicinity of burning objects.

A known method of extinguishing horse and ground forest fires [RU 2146544 C1, IPC A62C 3/02, publ. 03/20/2000], including the delivery of an explosive charge to a fire zone in an air bomb and its release during the interaction of a bomb fuse, for example, with the crowns of trees, while simultaneously releasing and spraying the extinguishing agent. An explosive charge in an air bomb is delivered using a platform provided for hanging 16 or more air bombs and made of metal structures with the possibility of connecting to delivery vehicles.

An explosive charge in an air bomb is delivered using a platform of aluminum structures connected to a helicopter. Carry out targeted dropping of an air bomb in a fire zone.

To implement this method, a device was used to extinguish horse and ground forest fires, including a body in the form of an air bomb with fire extinguishing agent. The case is made of flame retardant polyethylene, and the explosive charge and extinguishing agent (powder) are taken in a ratio of 1: 600-1: 700. This device is made with an external fuse initiating device for instant actuation in contact with after dropping, for example, with the crowns of trees.

However, such a device is unsafe, since the possibility of a false fuse when the bombs are suspended from the helicopter, as well as during their delivery to the place of the fire, is not ruled out.

Known fire suppression device [RU 2111032 C1, IPC6 A62C 3/02, B64D 1/16, publ. 05/20/1998], selected as a prototype, containing a container with a fire extinguishing composition and dispersing explosive charge, the initiator of the explosion of which is associated with the electrical circuit of the control signal. The electric circuit contains a sensor of the selected parameter, tuned to a predetermined parameter value and electrically connected with the initiator of the explosion, causing the dispersing charge of the explosive to be triggered by the control signal of the sensor when it reaches the specified value when the fire suppression device approaches the combustion zone.

As a sensor of the selected parameter, a temperature sensor can be used that is pre-configured to a temperature preselected based on the fire condition, after which the dispersive charge of the explosive is automatically triggered by the control signal of the temperature sensor.

In the case of using a helicopter as a delivery vehicle, the device is placed in a container suspended under the helicopter and is locked with a lock that releases the device by a reset signal.

The height sensor is a radio sensor.

The disadvantages of the known device are the complexity and high cost of manufacturing and subsequent use, since a fire requires a set of sensors of selected parameters (thermal, smoke, height sensors, etc.), each of which requires a setting that causes a lot of labor.

The task of the invention is to expand the arsenal of funds for a similar purpose.

The proposed fire extinguishing device, as in the prototype, contains a container filled with a quenching liquid and configured to discharge the quenching liquid by destroying the tank.

In contrast to the prototype, a recess in the form of a truncated cone is made inside a cylindrical solid metal case, in which a thin-walled sealed rubber shell filled with extinguishing liquid is fixed. The free end of the shell is threaded into the central hole in the upper part of the housing, where it is secured externally by the holder. A handle is fixed above the holder on the upper side of the casing, to which, by means of a fastening element with an integrated lock, a first cable is attached, passed through a spherical metal stopper and attached to a metal platform suspended from a helicopter. Inside the case, on its opposite sides, two internal cavities are symmetrically made, in each of which there is a spring, one end of which is attached to the case, and the other end of the spring is connected to the piston on which the needle is fixed. A second cable is attached to the piston, which is passed through the roller and attached to a ring through which the first cable is passed. The inner diameter of the ring is half the outer diameter of the spherical metal stopper. A fastener with an integrated lock is connected via cable to a power source located on the delivery vehicle.

The rubber shell is filled with a quenching liquid with a volume of 1 to 3 liters.

The use of n-extinguishing devices attached to a platform connected to a delivery vehicle allows to release n-volumes of extinguishing liquid of 1-3 l at a height of 2-5 m from the platform to the combustion surface of the fire. These volumes of extinguishing liquid, moving in a flame, knock it down, gradually collapse, turning into a cloud of small droplets with a diameter of 1-6 mm, which covers the fire, creating a buffer vapor layer, restricting access to the oxidizing zone from the periphery. Thus, fire extinguishing is achieved.

The use of extinguishing liquid volume in fire extinguishing devices of less than 1 liter is impractical, since due to the low density of irrigation this leads to a significant increase in the number of fire extinguishing devices attached to the platform.

The use of extinguishing liquid volumes of more than 3 l leads to an uneven density of irrigation of the fire source with each separate volume of extinguishing liquid: at the periphery, the irrigation density is 2-2.5 times less than in the central region.

The proposed fire extinguishing device is safe for people who accidentally find themselves in a fire zone, and does not lead to pollution and destruction of the environment. After use, fire extinguishing devices are equipped with new thin-walled rubber shells, filled with extinguishing liquid and reused.

In FIG. 1 shows a fire extinguishing device before extinguishing the extinguishing fluid.

In FIG. 2 shows a vehicle for delivering fire extinguishing devices to a fire zone.

In FIG. 3 shows a fire extinguishing device after the release of the extinguishing fluid.

Table 1 shows the test results of fire extinguishing devices.

The fire extinguishing device (Fig. 1) contains a metal continuous cylindrical body 1, inside which a recess in the form of a truncated cone is made, in which a thin-walled sealed rubber shell 2 is fixed, filled with a quenching liquid 3 of 1-3 l volume. The free end of the sheath 2 is threaded into the central hole in the upper part of the housing 1, where it is secured externally by the holder 4. Above the holder 4 on the upper side of the housing 1 is a handle 5, to which, by means of a fastening element 6 with an integrated lock, the first cable 7 is passed through a spherical metal stopper 8.

On the opposite sides in the housing 1, two internal cavities are symmetrically made, in each of which there is a spring 9, one end of which is attached to the housing 1, and the second end is connected to the piston 10, on which the needle 11 is fixed.

A second cable 12 is attached to the piston 10, which is passed through the roller 13 and attached to a ring 14 through which the first cable 7 is passed. The inner diameter of the ring 14 is two times smaller than the outer diameter of the spherical metal stopper 8.

As a fastening element 6 with a built-in lock, a lock with forced separation of the object to be discharged can be used [RU 2374139 C1, IPC6 B64D 1/02, publ. 11/27/2009]. The fastener 6 is connected via a cable to a power source located on the delivery means.

Using the first cable, 7 n-extinguishing devices are attached to a platform that is suspended from a delivery vehicle, such as a helicopter (Fig. 2).

Previously, before suspending the fire extinguishing devices to the platform, each device is filled with extinguishing liquid: water or aqueous solutions based on combustion inhibitors (for example, tofasil, metaphosil, mineral potassium salts, etc.). To do this, a sealed thin-walled shell 2 is placed in the opening of the housing 1 from its inner side, the free end of which is inserted into the hole in the upper part of the housing 1. The shell 2 of each fire extinguishing device is filled with a quenching liquid with a volume of 1 to 3 l, after which the free end is tightly sealed with a holder four.

Upon receipt of a signal about a fire and its characteristics (fire area, fire height, average temperature in the combustion zone, etc.), the required number of fire extinguishing devices are attached to the platform. A platform with fixed fire extinguishing devices is suspended from a delivery vehicle, such as a helicopter, and delivered to a fire zone.

At the command of an operator on board the helicopter, at an altitude of 2 to 5 m from the platform to the burning surface of the fire site (the height is determined by an altimeter installed on board the aircraft, for example, an A-037 type radio altimeter), a locking signal for the fastener 6 is triggered. cable 7 with handle 5. Each fire extinguishing device under the influence of gravitational forces begins to fall down until the combination of a spherical metal stopper 8 with ring 14. The movement of the cables 12 in the grooves of the rollers 1 3, their tension and subsequent stretching of the springs 9, as a result of which the pistons 10 with the needles 11 are displaced to the center of the fire extinguishing device, breaking the thin-walled hermetic shell made of rubber symmetrically on both sides 2. The quenching liquid 3 released while continuing to move downward under the action of aerodynamic forces and the fire extinguishing device with a torn shell 2 remains suspended on the platform (Fig. 3).

Each volume of the quenching liquid, moving under the action of gravity, begins to deform: first it takes the form of a “pancake”, then the process of its destruction into separate parts begins. After this, the volume of the quenching liquid is completely destroyed and a cloud of small droplets with a diameter of 1 to 6 mm is formed. To do this, the volumes of the extinguishing fluid are released at a height of 2-5 m from the platform to the surface of the burning of the fire. At the same time, a cloud of droplets formed as a result of the destruction of all the volumes of the quenching liquid covers the fire, knocking down the flame and evaporating intensively in it, due to which a significant decrease in temperature in the fire zone and its subsequent extinction are achieved. In case of incomplete extinction of the fire, the sequence of actions of the method is repeated until it is completely eliminated.

The test results of fire extinguishing devices at the test site are presented in Table 1. Model A1 fire centers were constructed from 50 × 50 mm pine bars. The fire area was ≈1 m ² . The temperature of the combustion products and flame was measured with chromel-alumel thermocouples complete with a multi-channel recorder РМТ-59М and amounted to ≈800 ° C. A platform with fire extinguishing devices mounted on it, rubber shells 2 of which were filled with water, was suspended above a model fire site on a metal L-shaped structure. At the signal, various volumes of quenching liquid were released from different heights. We measured the area irrigated by the quenching liquid, and determined the density of irrigation with one device. The fact of quenching was recorded visually. Extinguishing was considered achieved if no re-ignition occurred within 10 minutes.

Extinguishing a model fire has been achieved, for example, in the following cases:

- when using two fire extinguishing devices at the same time with extinguishing liquid volumes of 1 l, the release of which was made from a height of 5 m from the platform to the surface of the fire of the fire;

- when using one fire extinguishing device with a quenching liquid volume of 2 l, the release of which was made from a height of 4 m from the platform to the surface of the fire of the fire;

- when using one fire extinguishing device with a quenching liquid volume of 3 l, the release of which was carried out from a height of 2 m from the platform to the burning surface of the fire site.

With large areas of fire, the distance between the cables for which fire extinguishing devices are suspended on the platform is determined by the area and density of irrigation of each individual device, taking into account the irrigation density of 1-2.5 l / m ² (table 1).

The number of fire extinguishing devices used is determined based on the size of the platform and the carrying capacity of the delivery vehicle.

Claims (2)

1. Fire extinguishing device containing a container filled with a fire extinguishing composition and configured to discharge the extinguishing composition by destroying the container, characterized in that a recess in the form of a truncated cone is made inside a cylindrical solid metal body, in which a thin-walled rubber shell filled with extinguishing liquid is fixed, the free end of the shell is threaded into the central hole in the upper part of the housing, where it is fixed on the outside by the holder, above the holder on the upper side of the housing Lena is a handle to which, through a fastening element with an integrated lock, a first cable is attached, passed through a spherical metal stopper and attached to a metal platform suspended from a delivery means, while on the opposite sides in the housing there are symmetrically made two internal cavities, in each of which there is a spring , one end of which is attached to the housing, and the second end of the spring is connected to the piston on which the needle is attached, a second cable is attached to the piston, which is passed through the roller and it is replicated to the ring through which the first cable passes, the inner diameter of the ring is two times smaller than the outer diameter of the spherical metal stopper, while the fastener with an integrated lock is connected via a cable to a power source located on the delivery means. 2. The device according to p. 1, characterized in that the rubber shell is filled with a quenching liquid with a volume of 1 to 3 liters.

Images