RU225021U1 - FIRE EXTINGUISHING DEVICE - Google Patents

Abstract

The utility model relates to the field of fire-fighting technology, namely to devices in which a fire extinguishing agent is released through an explosion. The fire extinguishing device contains a body in the form of a cylindrical glass, filled with a fire extinguishing gas-forming composition, and a sealing lid. The body and cover are made of polyethylene terephthalate. In the upper part of the body there is a thread on the outside for connection with the lid, on the inner surface of the side wall of which there is a thread. The internal volume of the housing is half filled with carbon dioxide hydrate as a fire extinguishing gas-forming composition. EFFECT: creation of a fire extinguishing device containing carbon dioxide hydrate, which can be delivered to the combustion zone in any convenient way: using unmanned aerial vehicles, trigger mechanisms or manually. 1 ill.

Description

The utility model relates to the field of fire-fighting technology, namely to devices in which a fire extinguishing agent is released through an explosion.

A bomb is known [RU 2232040 C1, IPC A62C 3/02 (2000.01), publ. 07/10/2004], which contains a shell filled with liquid or powder, and an explosive charge mounted inside the shell. The shell has a side surface that expands towards the bottom and a convex bottom, wherein the bottom surface contains at least one depression. The depth of the depression does not exceed the distance from the bottom surface to the section plane passing along the perimeter of the connection between the bottom and the side surface of the shell.

However, the disadvantage of this device is the presence of an explosive charge, which complicates the design of the fire extinguishing device.

A known fire extinguishing device [RU 2075318 C1, IPC A62C 3/02 (2000.01), publ. 07/10/2004], selected as a prototype, which contains a housing filled with a fire extinguishing gas-forming composition and consisting of a rupture shell with recesses dividing it into sectors, and a sealing lid. The shell is made with uneven strength properties, and its strength decreases from the base of the destructive shell due to a decrease in its thickness, forming sectors to reflect the flow upon rupture.

However, the disadvantage of this device is the use of powder as a fire extinguishing gas-forming composition, which leads to contamination of the fire extinguishing object.

The technical result of the proposed utility model is the creation of a fire extinguishing device containing carbon dioxide hydrate, which can be delivered to the combustion zone in any convenient way: using unmanned aerial vehicles, trigger mechanisms or manually.

The fire extinguishing device, as in the prototype, contains a housing filled with a fire extinguishing gas-forming composition and a sealing lid.

According to the utility model, the body in the form of a cylindrical glass and its lid are made of polyethylene terephthalate. In the upper part of the body there is a thread on the outside for connection with the lid, on the inner surface of the side wall of which there is a thread. The internal volume of the housing is half filled with carbon dioxide hydrate as a fire extinguishing gas-forming composition.

When it hits the source of fire, the polyethylene terephthalate body ruptures, providing preliminary knocking down of the flame by a shock wave and the spread of carbon dioxide hydrate along the perimeter of the triggering front. By dissociating, carbon dioxide hydrate cools the burning material, and carbon dioxide displaces oxygen from the combustion zone, eliminating combustion. In addition, carbon dioxide hydrate evaporates completely, which does not lead to contamination of the fire extinguishing facility.

In fig. Figure 1 shows a diagram of a fire extinguishing device.

The fire extinguishing device contains a cylindrical body 1 with a cover 2 made of polyethylene terephthalate. In the upper part of the housing 1 there is a thread 3 on the outside for connection with the cover 2. On the inner surface of the side wall of the cover 2 there is a thread 4. The internal volume of the housing 1 is half filled with carbon dioxide hydrate 5.

When creating a fire extinguishing device, the 100 ml body 1 is half filled with artificially produced carbon dioxide hydrate 5 and the cap 2 is screwed on. The device is then placed in a portable freezer, where it is stored at a temperature below 0°C and atmospheric pressure. When a fire occurs, the fire extinguishing device is removed from the freezer and delivered to the burning zone in any convenient way, for example, using unmanned aerial vehicles, trigger mechanisms, or manually if the fire is located nearby. When the device gets into the source of fire, rapid heat transfer occurs from the 1 mm thick body 1 of surface heat to the carbon dioxide hydrate 5 located inside. As a result, under the influence of ambient temperature, carbon dioxide hydrate 5 begins to actively dissociate. This process is accompanied by the release of carbon dioxide. Since housing 1 is sealed, gas accumulates and pressure increases inside housing 1. When the internal pressure reaches about 14 atmospheres, housing 1 ruptures and carbon dioxide hydrate 5 spreads along a perimeter of about 1 m. The pulsed release of carbon dioxide hydrate 5 leads to preliminary churning flame by a shock wave propagating along the triggering front. Continuing to dissociate, carbon dioxide hydrate 5 cools the burning material, and carbon dioxide displaces oxygen from the combustion zone, thereby stopping combustion.

At room temperature, carbon dioxide hydrate 5 does not actively dissociate, therefore, when the fire extinguishing device is removed from the freezer, the housing 1 ruptures within at least 2 hours, which makes its use safe.

Claims (1)

A fire extinguishing device containing a housing filled with a fire extinguishing gas-forming composition and a sealing lid, characterized in that the housing in the form of a cylindrical glass and the lid are made of polyethylene terephthalate, and in the upper part of the housing there is a thread on the outside for connection with the lid, on the inner surface of the side wall of which there is a thread, and the internal volume of the body is half filled with carbon dioxide hydrate as a fire extinguishing gas-forming composition.