RU182918U1 - "HYDRA" FOREST FIRE EXTINGUISHING DEVICE - Google Patents

Abstract

This utility model belongs to a new class of fire extinguishing devices by the method of hydraulic shock. From the prior art, at the moment, there are no such devices. Forest fires are extinguished by traditional methods. Dropping water using aircraft, extinguishing with a counter fire and fire brigades. The task to be solved by the claimed technical solution is to create a shock wave of enormous force and amplitude to bring down a fire flame. This task is achieved due to the fact that ordinary water, when the charge is blown up instantly it evaporates, turning into steam, expands and spreads at great speed in all directions, knocking down the flame and the carcass of the fire. The technical result provided by the given set of features , is a more effective extinguishing of forest fires. The fire goes out completely and (or) passes from the state of combustion to the state of decay and is then extinguished by ordinary methods. The device consists of a plastic refractory container, preferably a cylindrical shape, filled with water. An explosive charge is placed in the center of the device and securely fixed by fastening. A detonator with a remote detonator over a radio channel and / or a contact fuse triggered upon impact are inserted into the charge. The volume of the container and the amount of explosive depend on the strength of the fire and other factors. Instead of water, it is possible to use ice. What will be more convenient during transportation and bailout. But not very convenient for storage. When detonated, an explosive detonates and expands at a tremendous speed. Water under the influence of a shock wave of an explosive instantly turns into steam and with great speed begins to expand in all directions and knocks down the fire flame. The fire extinguishes completely or smolders and is then extinguished by conventional means. At the same time, fire fighting efficiency is increased many times.

Description

This utility model belongs to a new class of fire extinguishing devices using hydroshock.

From the prior art, at the moment, there are no such devices. Forest fires are extinguished by traditional methods. Water dumping using aircraft, extinguishing by a counter-fire, and fire brigades.

The task to which the claimed technical solution is directed is to create a shock wave of enormous strength and amplitude to bring down a fire flame.

This task is achieved due to the fact that ordinary water, when a charge is blown up, instantly evaporates, turning into steam, expands and spreads at great speed in all directions, knocking down the fire and extinguishing the fire.

The technical result provided by the given set of features is a more effective extinguishing of forest fires. The fire goes out completely and (or) passes from the state of combustion to the state of decay and then is extinguished by ordinary means.

The device is illustrated in FIG. one.

The device consists of a container 1 filled with water or ice 4. In the center of the device is placed and securely fixed by fastening 2 a charge of explosive 3 (plastite C4, hexogen, trinitrotoluene). A detonator with a device for remote detonation over the air, and a contact fuse that is triggered upon impact, is inserted into the charge. The volume of the container and the amount of explosive depend on the strength of the fire and other factors. The approximate volume varies from 300 liters and above. The explosive charge is taken at the rate of 1: 300. That is, when using a capacity of 300 liters, the charge will be approximately 1 kilogram. For fires of increased complexity, the volume of the tank is taken about 1000 liters, and the explosive charge, respectively, about 3-4 kilograms.

The device operates as follows.

When detonated, an explosive detonates and expands at a speed of approximately 8000-9000 meters per second (depending on the explosive used). Water under the influence of an explosive shock wave instantly turns into steam and begins to expand in all directions with great speed.

If we take water vapor as an ideal gas, then from the equation of state of an ideal gas (the Mendeleev-Klaiperon equation, the Klaiperon equation) it is not difficult to obtain the value of the volume of 1 liter of water converted into steam: it is 1.7 m ³ = 1700 l.

From the table of elasticity of saturated water vapor, we also find the vapor density at the boiling point at atmospheric pressure: p0 = 598 g / m ³ . The volume is 1,672 m ³ = 1672 liters. Which is about the same. Water, turning into steam, increases its volume by 1700 times. That is, the volume of our amount of water will increase 1700 times.

Thus, when a device is detonated, a shock wave of steam and compressed air arises of enormous force. Which spreading in all directions with great speed knocks down the flame of fire. The fire extinguishes completely or smolders and is then extinguished by conventional means. At the same time, the fire fighting efficiency is increased many times.

There are three options for using the device:

1) In the calculated fire path of FIG. 2. one or more devices are placed and fixed 8. When a fire approaches, the device is undermined. It is important to note that when using multiple devices, it is important to initiate detonation at the same time. Otherwise, a device that has worked previously may damage or completely destroy other devices. Location of fire 5, wind direction and direction of fire 6, front of fire 7.

2) The device 8 is thrown by pneumatic control panels into the fire area of FIG. 3. Upon contact with the ground, the explosive charge of the device is undermined. Location of fire 5, wind direction and direction of fire 6, front of fire 7.

3) The device 8 is discharged from the air using aircraft along the fire front of FIG. 4. Upon contact with the ground, the explosive charge of the device is undermined. Location of fire 5, wind direction and direction of fire 6, front of fire 7.

Claims (1)

The device for extinguishing forest fires, consisting of a tank filled with water, with an explosive charge fixed in the center of the tank, laminates C4 in the amount necessary to convert the water used into steam.

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