RU141401U1 - OFFLINE FIRE FIGHTING DEVICE - Google Patents

Abstract

1. Autonomous fire extinguishing device containing a polymer tube hermetically sealed at both ends, filled with a fire extinguishing agent under pressure, characterized in that a nipple with a rubber sealant is fixed on the inside of the polymer tube, the ends of the polymer tube are sealed and made in the form hemispheres. 2. The self-contained fire extinguishing device according to claim 1, characterized in that the material of the tube is polyester and / or polyurethane and / or polyethylene and / or polyamide and / or polypropylene and / or polystyrene and / or polyethylene terephthalate. 3 . The stand-alone fire extinguishing device according to claim 1, characterized in that halocarbons or mixtures thereof are used as the extinguishing agent. The self-contained fire extinguishing device according to claim 1, characterized in that a mixture of perfluorocyclobutane and 1,1,1,2,2,3,3-heptafluoropropane is used as a fire extinguishing agent. 5. A stand-alone fire extinguishing device containing a polymer tube hermetically sealed at both ends, filled with a fire extinguishing agent under pressure, characterized in that a nipple with a rubber sealant is fixed on the inside of the polymer tube, the ends of the polymer tube are sealed and made in the form of a hemisphere, On the external surface of the polymer tube there is installed a device for forced operation of the device, connected by a wired or wireless communication channel with a temperature sensor The object of the protected object. 6. The stand-alone fire extinguishing device according to claim 5, characterized in that the material of the tube is polyester and / or polyurethane and / or poly

Description

The utility model relates to fire fighting equipment, in particular, to autonomous volumetric extinguishing devices, and can be used for volumetric or local-volumetric fire extinguishing in sealed or conditionally sealed volumes, including technically complex objects with a dense arrangement of equipment, mainly vehicle compartments , electrical panels, technological installations, objects saturated with electronics.

A self-contained fire extinguishing installation using FireTrace technology is known. This installation is a self-activating fire extinguishing system, which is able to extinguish the fire at the beginning of its occurrence. For this, a special flexible tube is used, which is both a sensor-detector of an incipient fire and a conductor of discharge of a fire extinguishing agent. As a material for the manufacture of the tube, special polymers are used, due to which the required signaling properties and release characteristics of the extinguishing composition are achieved. Such an autonomous fire extinguishing installation is designed to eliminate fires of Classes A2 and B. These are fires in small industrial premises or in cabinets that house electrical equipment or flammable liquids. The installation uses a gas fire extinguishing agent - KP 227еa freon.

The installation consists of a cylinder, the volume of which can be 2-8 liters, a shut-off device (memory) with a manometer, a siphon tube (module) and a special FireTrace tube connected to the shut-off device by means of a shut-off valve. This tube at the same time is a fire detection device and a means of delivering a fire extinguishing agent to a fire site. Depending on the modification, the locking mechanism may be with one or two overlapping valves through which FireTrace tubes are connected. The length of one such tube can reach ten meters. Laying of FireTrace tubes is carried out in a protected volume in places where a fire and temperature rise during a fire are most likely. The placement of the cylinder with GOTV is possible either in the same place - in the closet, or nearby - outside the protected volume. The normal state of the FireTrace module-tube system implies the presence of excess pressure and nitrogen, the displacing gas, in the device. In the event of a fire and an increase in the temperature of the tube to 110-120 ° C, its wall softens and ruptures, forming a “nozzle” with a diameter of 4-6 millimeters. Through this newly formed hole, the fire extinguishing composition is fed into the protected volume at the ignition site. It takes 5-6 seconds to operate the unit when exposed to an open flame (http://www.tenzor.net/firetrace.html).

One of the advantages of FireTrace technology is its autonomy, since the system on this technology does not need any sources of electricity and means of automatic fire alarm.

The disadvantages of the well-known autonomous fire extinguishing installation include the use of a cylinder and pressure gauge in it. The presence of these tools complicates the device and limits its use in places where a simple and compact installation is required, as well as in places with increased mechanical and vibration load, in places subject to severe pollution and exposure to aggressive chemical environments (high humidity, flammable liquids, oil, antifreeze , anti-icing reagents), corrosion, sharp temperature jumps, which is typical, for example, for the engine compartments of vehicles.

The closest device selected as a prototype is a fire extinguishing device containing a tube with hermetically sealed ends filled with a fire extinguishing agent, a pressure indicator is mounted in one end of the tube with the possibility of interaction of its sensitive element with a fire extinguishing agent, and a cap is installed on the side of the opposite end of the tube so that the power bandage covers the tube, and the mating part of the plug is tightened into the tube and made in the form of an annular groove on the cylinder the surface of the stub, the width of which exceeds the width of the power brace (RU 407572, A62C 35/00, 12.27.10).

The known fire extinguishing device is safe, reliable and provides the ability to effectively and efficiently monitor the health of the device without dismantling it in any operating conditions. In addition, the device is characterized by a variety of ways to start it.

The presence in the known fire extinguishing device of a power bandage covering the tube, as well as the installation of a pressure indicator and plug in its ends, respectively, complicates its manufacture and reduces the reliability (increases the likelihood of depressurization) of the system during sudden temperature jumps.

The technical result of the utility model is to simplify the device, as well as to increase safety and reliability.

According to the first embodiment, the technical result is achieved in that in a stand-alone fire extinguishing device containing a polymer tube hermetically sealed at both ends, filled with pressure extinguishing agent, according to the proposal, a nipple with a rubber sealant fixed on its inner surface is installed inside the polymer tube, while the ends of the polymer the tubes are sealed and made in the form of a hemisphere.

According to the second variant, the technical result is achieved in that in a stand-alone fire extinguishing device containing a polymer tube hermetically sealed at both ends, filled with pressure extinguishing agent, according to the proposal, a nipple with a rubber sealant fixed on its inner surface is installed inside the polymer tube, while the ends of the polymer the tubes are sealed and made in the form of a hemisphere, a means for forced operation of the device is installed on the outer surface of the polymer tube, It can be wired or wirelessly connected to the temperature sensor of the protected object.

As the material of the tube, polyester and / or polyurethane and / or polyethylene and / or polyamide and / or polypropylene and / or polystyrene and / or polyethylene terephthalate can be used.

As a fire extinguishing agent, halocarbons and mixtures thereof are predominantly used, for example, a mixture of perfluorocyclobutane (HFC 318) and 1,1,1,2,2,3,3-heptafluoropropane (HFC 227 ea), selected so that the device operates at the required temperature .

The forced actuation device is an electric or pyrotechnic heating element capable of melting a polymer tube.

The drawing shows the proposed stand-alone fire extinguishing device.

The self-contained fire extinguishing device contains a polymer tube 1 sealed from both ends, filled under pressure with a fire extinguishing agent 2, a nipple 3 is installed inside the polymer tube 1 with a rubber seal 4 fixed on its inner surface, the ends of the polymer tube 1 are sealed and made in the form of a hemisphere. In the second embodiment of the device, in addition to the outer surface of the polymer tube, there is installed a means 5 for forced operation of the device, connected by a wire or wireless communication channel 6 to the temperature sensor 7 of the protected object.

The product is made as follows.

The polymer tube 1 may have a length, in particular, from one to three meters and a diameter of from 10 to 30 mm. For the manufacture of the tube can be used, for example, polyester, polyurethane, polyethylene, polyamide, polypropylene, polystyrene, polyethylene terephthalate, as well as mixtures thereof. Initially, one of the ends of the tube is sealed. On the open end side, a nipple 3 and a rubber sealant are installed 4. The tube is cooled to a temperature of minus 40 ÷ 0 ° C, after which a liquefied extinguishing agent (OTV) is charged through the nipple. Halocarbons and mixtures thereof, for example, a mixture of perfluorocyclobutane (HFC 318) and 1,1,1,2,2,3,3-heptafluoropropane (HFC 227 ea), selected in such a way that the device works when required temperature. At the end of refueling, the second end of the tube is sealed. When sealing each end of the polymer tube, a spherical surface is formed, which allows for increased resistance of the product to high pressure and temperature extremes. The proposed design provides the convenience and manufacturability of manufacturing, refueling, and also guarantees the safety of the extinguishing agent, regardless of the condition / condition of the nipple and seal during long-term use. In the second embodiment of the device, additionally on the external surface of the polymer tube 1 is installed a means 5 for forced operation of the device, connected by a wire or wireless communication channel 6 to the temperature sensor 7 of the protected object. Means 5 forced actuation (start) is an electric or pyrotechnic heating element that can melt the polymer tube.

Autonomous fire extinguishing device is used as follows.

The product is installed in the upper part of the protected volume. Such a volume may be the vehicle’s engine compartment, electrical switchboard, server cabinet, transformer unit, and other objects. It is important that the protected object be conditionally sealed, since a fire extinguishing concentration of OT (type 5-10 vol.%) Must be achieved for extinguishing.

When a fire occurs in the protected volume and the temperature rises to the melting temperature of the polymer tube material, the latter is melted at the highest temperature, as a result of which an OTW exits through the hole, which extinguishes the ignition in the protected volume. When using the device made according to the second embodiment, the temperature increase is detected by the temperature sensor 7 with a predetermined threshold value (for example, T = 120 ° C), which automatically transmits a signal via a wired or wireless communication channel 6 to the means 5 for forced operation. A manual mode of operation can also be carried out, in which the signal is transmitted to the console by an operator who controls the activation mode of the fire extinguishing device.

Claims (8)

1. Autonomous fire extinguishing device containing a polymer tube hermetically sealed at both ends, filled with a fire extinguishing agent under pressure, characterized in that a nipple with a rubber sealant is fixed on the inside of the polymer tube, the ends of the polymer tube are sealed and made in the form hemispheres. 2. The stand-alone fire extinguishing device according to claim 1, characterized in that the material of the tube is polyester and / or polyurethane and / or polyethylene and / or polyamide and / or polypropylene and / or polystyrene and / or polyethylene terephthalate . 3. The stand-alone fire extinguishing device according to claim 1, characterized in that halocarbons or mixtures thereof are used as the extinguishing agent. 4. The stand-alone fire extinguishing device according to claim 1, characterized in that a mixture of perfluorocyclobutane and 1,1,1,2,2,3,3-heptafluoropropane is used as the extinguishing agent. 5. A stand-alone fire extinguishing device containing a polymer tube hermetically sealed at both ends, filled with a fire extinguishing agent under pressure, characterized in that a nipple is installed inside the polymer tube with a rubber sealant fixed on its inner surface, while the ends of the polymer tube are sealed and made in the form hemispheres, on the outer surface of the polymer tube there is installed a means for forced operation of the device, connected by a wired or wireless communication channel to the sensor perature of the protected object. 6. The stand-alone fire extinguishing device according to claim 5, characterized in that the material of the tube is polyester and / or polyurethane and / or polyethylene and / or polypropylene and / or polystyrene and / or polyethylene terephthalate. 7. The stand-alone fire extinguishing device according to claim 5, characterized in that halocarbons are used as the extinguishing agent. 8. The device according to p. 5, characterized in that the forced response device is an electric or pyrotechnic heating element capable of melting a polymer tube.

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