RU214392U1 - Automatic fire extinguishing device - Google Patents

Abstract

The utility model relates to automatic fire extinguishing devices (UPTA) using a fire extinguishing element, the shell of which is filled with a thermally activated fire extinguishing agent, and is intended for localization and elimination of fires in enclosed spaces. The task of the utility model - increasing the efficiency of the device by increasing the mass of the fire extinguishing agent and the reliability without leakage of storage of the fire extinguishing agent - is solved thanks to the constructive solution of an autonomous fire extinguishing device containing a polymer shell in the form of a tube sealed at both ends, filled with a fire extinguishing agent, while on means for forcibly actuating the device can be installed on the outer surface of the polymer tube. According to the utility model, the polymer tube is made in the form of a dumbbell, with a tubular central part sealed at both ends by thermal pressing of the tube walls at a given temperature from 240 degrees to 280 degrees, while the tube is made of several polymer layers: inner layers of low-melting polymer, outer layer made of polyethylthyrophtholate polymer, which prevents the penetration of oxygen into the device, or cross-linked polyethylene, or polypropylene, while the inner volume of the tube is filled without excess pressure with a liquid fire extinguishing agent (GOTV) - a liquefied mixture based on organofluorine substances, having a boiling point of 50 to 60 degrees, for example, consisting of perfluoroketone, or cyclofluoropentane, or freons R 114B2, or fluoroketone. The technical result is achieved due to the content of the fire extinguishing agent in the device in a liquid state without pressure in the shell, which dramatically increases the reliability of the device and its service life.

Description

The utility model relates to automatic fire extinguishing devices (UPTA) using a fire extinguishing element, the shell of which is filled with a thermally activated fire extinguishing agent, and is intended for localizing and extinguishing fires in enclosed spaces, including small spaces and compartments with a high degree of tightness, for example, engine compartments motors, equipment compartments, transformer compartments, electrical cabinets, control cabinets, when burning electrical equipment and substances that react with water.

There are various models of automatic fire extinguishing devices. These include fire extinguishing elements, which are a hermetic shell filled with a thermally activated fire extinguishing agent. The material, shape and dimensions of the sealed shell are selected from the condition of ensuring the release of the fire extinguishing agent (liquid, aerosol or gas) within a short time, within a few seconds, after the start of heating the shell by the fire flame.

Known methods of automatic fire hazard control and autonomous fire signal-starting devices are designed to detect the thermal factor of a fire and to subsequently start an automatic fire extinguishing agent.

In various models of automatic fire extinguishing devices, fire extinguishing is triggered in different ways: when the flame directly affects the UPTA shell or when the average volume temperature in the enclosed space rises to a dangerous value, after which the shell is destroyed and the released fire extinguishing agent suppresses the fire in the early stages of its development, which do not require the use automation and human participation.

An invention is known according to patent RU2401674, in which the fire extinguishing element is a sealed capsule filled with fire extinguishing liquid. The shape and dimensions of the capsule are selected from the condition of providing a steam explosion of the fire extinguishing liquid for a short time, within a few seconds, after the start of heating the shell by the fire flame. The capsule is supplemented with a hollow shank, and the volume of the cavity of the shank forms a single volume with the volume of the capsule filled with fire extinguishing liquid, and the length of the shank is chosen from the condition of the possibility of its sealing. The fire extinguishing element is made from a glass tube with a given diameter and wall thickness by heating a section of the tube until the glass softens and pulling the tube in the softening area to form a shank. In the area of the end of the shank, the workpiece is cut off and the bottom of the capsule is formed from the side opposite to the shank by heating the workpiece, then the capsule is filled through the open shank with fire extinguishing liquid and the capsule is sealed by soldering the end of the shank.

Despite the fact that the technology for obtaining a workable fire extinguishing element is easy to manufacture, it has a well-known drawback, which consists in the fragility of the glass shell.

A device protected by patent RU2656819 is known from the prior art.

The automatic fire extinguisher against the ignition of the contents of the garbage container consists of a cylinder with a bracket for attaching it to the wall of the room; liquid fire-extinguishing agent, which is in a cylinder under pressure and passes into the gas phase when it flows out of the cylinder; charging tube hermetically connected to the cylinder and hermetically sealed after charging the cylinder; at least one discharge tube, one end of which is hermetically connected to the wall of the container, which is the bottom for the liquid fire extinguishing agent, and the other end has a plug inside, the end of which is in contact with the liquid fire extinguishing agent, connected to the discharge tube with fusible solder, while the plug is made metal or alloy with high thermal conductivity and has a portion protruding from the discharge tube. The plug has a sealing element, and a dosing device is installed in front of it.

An autonomous fire extinguishing device according to the application for invention RU2016136363 is known, containing a main polymer tube hermetically sealed from one end, filled under pressure with a fire extinguishing agent. The device is equipped with an additional polymer tube of smaller diameter hermetically sealed from one end, the other end of which is connected to the main polymer tube by means of a connecting element, the pressure of the fire extinguishing agent in which is 0.2÷2.0 MPa, the additional polymer tube is made of material, softening temperature which is 80÷300°C. The diameter of the main polymer tube is selected in the range of 20÷50 mm, and the diameter of the additional polymer tube is selected in the range of 5÷10 mm. Polyethylene, or polypropylene, or polyamide, or polyurethane, or nylon, or polystyrene, or polyethylene terephthalate is used as the material of the main polymer tube. The main polymer tube is multilayer, one of the layers of which is made of aluminum. Polyethylene, or polypropylene, or polyamide, or polyurethane, or nylon, or polystyrene, or polyethylene terephthalate is used as the material of the additional polymeric tube. As a fire extinguishing agent, perfluorocyclobutane, or 1,1,1,2,3,3,3-heptafluoropropane, or 1,1,1,3,3,3-hexafluoropropane, is used. The additional polymer tube is filled with a water- or organic-based gel.

Known stand-alone fire extinguishing installation OOO "PiroKhimika" RU210431. The utility model relates to fire-fighting equipment, in particular to self-contained volumetric gas extinguishing devices, and can be used to extinguish fires and fires in enclosed spaces with a degree of leakage up to 0.5 m ^-1 to volume. The automatic fire extinguishing installation contains a polymer tube hermetically sealed at both ends, filled with a gas fire extinguishing agent in the liquid phase, while the tube is additionally covered on the outside with a thin polymer protective film, the ends of the polymer tube are flat-sealed.

The disadvantage of these devices is that the OTV in the devices is under pressure. During storage, OTV leaks. and requires constant pressure checking and regular maintenance.

Starting automatic fire extinguishing devices is possible using a starting device located on a sealed shell with a fire extinguishing agent. The signal for the starting device can be received from a manual fire detector (IPR) or from a fire alarm and fire extinguishing system, as well as from third-party systems (for example, from a building dispatching system).

Known autonomous fire extinguishing product with the ability to obtain the characteristics of the object in remote mode according to patent RU2722416. SUBSTANCE: invention relates to fire extinguishing means in volume, namely to autonomous fire-extinguishing product made according to the technology of thermally activated fire-extinguishing agents, and contains microencapsulated and/or granular fire-extinguishing agent. The product is made in the form of a plate, on one side of which an adhesive layer and a protective film are applied, and on the other side, a radio tag and an external antenna and/or sensor associated with it, on top of which there is a compound layer containing a microencapsulated fire extinguishing agent. Or in the form of a cord filled with a granular fire extinguishing agent, in which a radio tag is placed. RFID transponders (Radio Frequency Identification - Radio Frequency Identification) of the active and / or passive principle of operation are built-in as a radio tag. The fire-extinguishing product has the ability to radio-frequency identification, fixing and transmitting information about the state of the object and the effects on the product.

The disadvantage of the technical solution is the increase in response time due to remote command to extinguish the fire.

For the prototype, an automatic fire extinguishing device of CJSC "PIROKHIMIKA" utility model RU141401 was chosen. The device contains a polymer tube hermetically sealed from both ends, filled under pressure with a fire extinguishing agent, a nipple with a rubber seal fixed on its inner surface is installed inside the polymer tube, while the ends of the polymer tube are sealed and made in the form of a hemisphere. Polyester and/or polyurethane and/or polyethylene and/or polyamide and/or polypropylene and/or polystyrene and/or polyethylene terephthalate are used as tube material. Halocarbons or their mixtures, or a mixture of perfluorocyclobutane and 1,1,1,2,2,3,3-heptafluoropropane are used as a fire extinguishing agent. At the same time, a means for forced operation of the device is installed on the outer surface of the polymer tube, connected by a wired or wireless communication channel to the temperature sensor of the protected object. A forced actuation device is an electric or pyrotechnic heating element capable of melting a polymer tube.

The disadvantage of the prototype is that the OTV in the device is under pressure. A leak occurs. and requires constant pressure checking and regular maintenance. In addition, the presence of a nipple implies the complexity of execution, increased cost, and the presence of a rubber seal reduces the reliability of the product due to the inability to calculate its service life.

The objective of the claimed utility model is to increase the efficiency of the device by increasing the mass of the fire extinguishing agent and the reliability without leakage of storage of the fire extinguishing agent.

The technical result of the utility model is achieved due to the constructive solution of an automatic fire extinguishing device containing a polymer shell in the form of a tube sealed at both ends, filled with a fire extinguishing agent, while on the outer surface of the polymer tube there is a means for forced operation of the device, made with the possibility of connecting to a wired or wireless communication channel. According to the utility model, the polymer tube is made in the form of a dumbbell, with a tubular central part sealed at both ends by thermal pressing of the tube walls at a given temperature from 240°C to 280°C. This technical result is achieved due to the content of the fire extinguishing agent in the device in a liquid state without pressure in the shell, which dramatically increases the reliability of the device and its service life, while the tube consists of an inner layer of low-melting polymer and an outer layer of polymer that prevents the penetration of oxygen into the device, moreover, the internal volume is filled without excess pressure with a liquefied fire extinguishing agent (GOTV) - a liquefied mixture based on organofluorine substances having a boiling point from 50 ° C to 60 ° C, for example, consisting of perfluoroketone, or cyclofluoropentane, or R 114B2 freons, or fluoroketone. Polyethyl terephthalate or cross-linked polyethylene or polypropylene is used as the material of the outer layer of the tube.

The automatic fire extinguishing device (UPTA) is made in the form of a polymer tube containing a fire extinguishing agent in a liquefied state.

In the standard version, the product is a sealed tube made in the form of a dumbbell made of special polymeric materials. polyethylthyrophtholate (PET), cross-linked polyethylene, polypropylene, filled with a liquid fire extinguishing agent (GOTV) - a liquefied mixture based on organofluorine substances, sealed at both ends by thermal pressing of the tube walls at a certain temperature from 240 ° C to 280 ° C. The shape of the tube in the form of a dumbbell is due to the technology of its manufacture and specially designed equipment that provides the necessary tightness of the shell by thermal pressing of the tube walls. The automatic fire extinguishing device has no overpressure inside the tube body, which avoids the leakage of liquid fire extinguishing agent throughout the entire service life. The polymeric material provides reliable storage of the fire extinguishing agent and its release under strictly defined conditions - the destruction of the shell at temperatures of 120-150°C. The body of the product is made of inner and outer polymer layers. The inner layer of the tube is made of low-melting polymer and this ensures reliable sealing by thermopressing of the tube walls. The outer layer is made of PET polymer, which prevents the penetration of oxygen into the tube and the ends of the tube are sealed by thermal pressing of the tube walls at a given temperature from 240 degrees to 280 degrees using specially designed equipment. The use of this equipment makes it possible to achieve a stable sealing quality to prevent the evaporation of the fire extinguishing agent into the atmosphere.

As a fire extinguishing agent, a mixture of substances is used that suppresses combustion with a liquid fire extinguishing agent (GOTV) - a liquefied mixture based on organofluorine substances, and having a boiling point from 50 ° C to 60 ° C, consisting of perfluoroketone, cyclofluoropentane, R 114B2 freons, fluoroketone.

Automatic fire extinguishing device operates as follows.

At normal ambient temperature around the automatic fire extinguishing device, the extinguishing agent inside the tube is in a liquefied state and there is practically no pressure inside the tube. When a fire occurs and the ambient temperature rises, the fire extinguishing agent inside the tube begins to gasify, the pressure inside the tube rises sharply and the tube shell is destroyed. The automatic device is triggered by direct exposure to a flame or by an increase in the average volumetric temperature to a dangerous value of 120-150 ° C, after which the shell is destroyed, and the fire extinguishing agent passes from a liquid state into a gaseous state. After the thermal transition of the fire extinguishing agent from a liquid to a gaseous state, the extinguishing is no longer done with a liquid, but with a gas, which dramatically increases the effectiveness of the fire extinguishing agent by increasing its volume. In this case, not only the fire source is extinguished, but also the protected volume is filled with a gas fire extinguishing agent, which makes it possible to stop the smoldering process and exclude the possibility of re-ignition.

The launch of an automatic fire extinguishing device (UPTA) is possible using a starting device (forced), made with the ability to connect to a wired or wireless communication channel. The signal for the starting device can be received from a manual fire detector (IPR) or from a fire alarm and fire extinguishing system, as well as from third-party systems (for example, from a building dispatching system). The forced actuation device can be any known electric or pyrotechnic heating element capable of melting through a polymer tube.

The device can be used both as a stand-alone device and as an actuating device as part of a fire alarm and fire extinguishing system (when used in conjunction with a forced and automatic start system).

The invention is aimed at improving the efficiency, reliability and reducing costs when extinguishing fires. This technical result is achieved due to the content of the fire extinguishing agent in the device in a liquid state without pressure in the shell, which dramatically increases the reliability of the device and its service life. On the other hand, when a substance passes from a liquid to a gaseous state, the efficiency of the device increases sharply due to an increase in the mass of the fire extinguishing agent.

In addition, the developed method of sealing the casing on specially designed equipment for thermopressing the tube walls provides the necessary tightness of the casing and its reliability.

Claims (3)

1. An automatic fire extinguishing device containing a polymer shell in the form of a tube sealed at both ends, filled with a fire extinguishing agent, while on the outer surface of the polymer tube there is a means for forcing the device to operate, configured to connect to a wired or wireless communication channel, characterized in that that the polymer tube is made in the form of a dumbbell, with a tubular central part sealed at both ends by thermal pressing of the tube walls at a given temperature from 240 degrees to 280 degrees, while the tube consists of an inner layer of low-melting polymer and an outer layer of polymer that prevents oxygen from penetrating inside devices, and the internal volume is filled without excess pressure with a liquefied fire-extinguishing organofluorine substance having a boiling point of 50 degrees to 60 degrees. 2. The device according to claim 1, characterized in that polyethylene terephthalate, or cross-linked polyethylene, or polypropylene is used as the material of the outer layer of the tube. 3. The device according to claim 1, characterized in that perfluoroketone, or cyclofluoropentane, or R114B2 freon, or fluoroketone is used as a liquefied fire-extinguishing organofluorine substance.