WO2019078761A2 - Autonomous fire-fighting device for elongate objects - Google Patents

Abstract

The solution relates to fire-fighting devices and can be used for protecting elongate objects, such as cables and cable ducts. The technical result of the claimed solution is the possibility of effective limited fire-fighting in elongate objects in the event of a conflagration in a limited section. Said technical result is achieved in that an autonomous fire-fighting device in elongate objects is formed on the basis of a combustible fire-extinguishing fuse which is covered by a non-combustible or partially combustible current-nonconducting gas-permeable casing, which device is characterized in that the combustible fire-extinguishing fuse is formed containing non-combustible inserts.

Description

 AUTONOMOUS FIRE EXTINGUISHING DEVICE FOR EXTENDED OBJECTS

DESCRIPTION

The solution relates to fire extinguishing devices and can be used to protect extended objects, such as cables, cable channels.

Known extinguishing compositions and compositions, including polymeric binder and microencapsulated fire-extinguishing agent of volumetric action, automatically released when heated. For example, in patent RU 2161520 an extinguishing agent with microcapsules with a core of extinguishing agent is described. The composition provides the operation of microcapsules at a given temperature in the range of 110-165 ⁱⁿ C.

 Patent RU 109668 U is also known for autonomous fire extinguishing agent and agent with extinguishing properties, made of a material with extinguishing properties, containing microcapsules with extinguishing composition, having dimensions from 2 to 100 microns and representing halogen-carbon, enclosed in

polymer shell of polyurea and / or polyurethane, and a binder. Also known means with extinguishing properties (patent RU 90994 U), containing solid-phase carrier coated with a microencapsulated extinguishing agent in the form of halogen-carbon, enclosed in a polymer shell and

distributed in a polymeric binder.

Known FIRE EXTINGUISHING COMPOSITION AND METHOD FOR ITS OBTAINING (patent RU 403934). It describes an extinguishing agent containing microcapsules with a core of extinguishing agent, which are halogen-carbon, surrounded by a shell of a polymeric material, distributed in a polymeric binder, wherein the polymeric binder is water-soluble or water-insoluble polymers in the form of solutions or dispersions in water or organic solvents respectively, the shell material is polyurea and / or polyurethane based on polyisocyanate prepolymer, while the microcapsules themselves have different Xia sizes ranging 2,0-100,0 microns. Preparation method extinguishing agent by preparing microcapsules with a core of extinguishing agent surrounded by a shell of a polymeric material, and mixing them with a polymeric binder, characterized in that for preparing the microcapsules a polyisocyanate is mixed with the extinguishing agent

halogenocarbons, in a ratio of 100: 1-100: 7, the resulting mixture is metered at a rate of 0.1 to 1.0 ml per second into a 0.1-3.0% aqueous solution of surfactants with stirring until a microemulsion is formed, the ratio of the volumes of the organic and aqueous phases is 1: 1-1: 5, then the microemulsion is mixed with 5-10 wt. an aqueous solution of a polyamine or polyalcohol with a mass ratio of polyisocyanate to polyamine or poly alcohol 1: 0.1-1: 1 to form a shell, then the reaction mixture

incubated for 1-4 days at a temperature of 20-60 ° C to build a shell to a thickness of 0.03-0.3 μm, after which the microcapsules are separated from the aqueous phase by decanting and used for the manufacture of fire extinguishing composition by adding a binder.

 The disadvantage of all known solutions is that the methods and compositions form the final substance in the form of a working composition suitable as a means of powder extinguishing powder used in various spraying modules [http://www.samospas.ru/cat/59], having a limited space actions and can not be used as a standalone means

fire extinguishing with a wide area of action, for example, with coverage limits the volume of the entire room. Also the modules themselves, in which the powders are placed

fire extinguishing roads and require special installation. In addition, it is not always possible or convenient to install them in small closed spaces, for example, inside a car cabin or inside a filing cabinet.

Known PyroSticker [http://www.pirohim.ru/html/ast_15.html] brand ACT, which is a fire extinguishing agent designed specifically to protect against fire in small objects, such as: switchboards, electrical cabinets, safes, etc. PiroSticker ACT works as an intelligent fire extinguishing system. The effect of temperature on its active components causes an instant reaction with the release of strong combustion inhibitors, up to until complete suppression of the fire. The microencapsulation of a liquid fire extinguishing composition ensures its preservation in an unchanged form in normal conditions during the product life cycle, as well as an intensive release at the operating temperature. The disadvantage of the prototype is the limited use in objects of lengthy shape, for example, in ducts and cable ducts and ducts. To use it in them, it requires a lot of prastikerov to glue at a certain interval. Also a disadvantage is that starting from 30 liters of the protected volume, the Pyrosicker has problems - it is always attached at the top, and at the lower location of the source, the response is difficult.

The closest analogue is the solution for patent RU145590U, publ .:

09/20/2014. It describes an autonomous fire extinguishing device containing a layer of fire extinguishing composition applied to its surface, characterized in that it is made on the basis of a non-conducting cord of arbitrary cross-section or fire-fighting tape, and the cord or tape is covered with a non-combustible or partially flammable non-conducting current gas-permeable shell over which a layer is applied a mixture of microcapsules fire extinguishing composition with a polymeric binder.

The technical result of the claimed solution is the realization of the possibility of using a fire extinguishing agent based on extinguishing agent as

Autonomous fire extinguishing means for any areas and volumes without finding people in them, including a lengthy shape, such as

air ducts and cable ducts and ducts. In addition, the possibility of full protection of the volume of any displacement with reliable operation is realized.

The technical problem of the prototype is that the cord is not able to extinguish in a limited area of fire, because the outbreak of extinguishing the source of fire will continue along the entire length of the cord and the cord will completely burn out and release

fire extinguishing even where there is no burning. Thus, the prototype cannot be used for extinguishing extended objects, such as cables or cable channels.

The solution is to eliminate the shortcomings of the prototype. The technical result is the possibility of effective limited fire extinguishing extended objects in case of fire in a limited area.

This technical result is achieved due to the fact that the device

autonomous fire extinguishing of extended objects, made on the basis of a combustible fire extinguishing cord covered with a non-combustible or partially combustible nonconducting current gas-permeable shell, characterized in that the combustible fire extinguishing cord is made containing incombustible inserts

arranged alternately between flammable areas of the extinguishing cord. Preferably, non-flammable inserts are made of a polymer that does not support combustion or of the same materials as the composite combustible fire extinguishing cord, with the exception of components that provide flammability.

 The length of the non-combustible insert is from 1/20 to 1/40 of the length of one combustible section, but not less than 100 mm, of the combustible fire extinguishing cord located between adjacent non-combustible inserts.

 The combustible areas of the combustible fire extinguishing cord with non-combustible inserts are connected using staples or adhesive bonding, or with

using heat shrinkable tubing.

 The connection of combustible areas of combustible fire extinguishing cord with non-combustible inserts can also be accomplished with the help of an H-shaped connector with jagged legs.

Brief Description of the Drawings

 Figure 1 shows the design of the device.

 Figure 2 shows an example of the implementation of the H-shaped connector mount.

In the drawings: 1 - combustible fire extinguishing cord, 2 - non-combustible or partially combustible non-conducting current gas-permeable casing sheath, 3 - combustible section of the cord, 4 - non-combustible insert.

The device can be implemented using an autonomous fire extinguishing device, made on the basis of a combustible fire extinguishing cord. Cord 1 (see Figure 1) is covered with a non-conductive gas-permeable sheath 2.

Cord 1 is covered with non-combustible or partially combustible non-conductive current

gas-permeable sheath 2 (fiberglass or basalt thread braiding, taping from woven non-combustible material, metal mesh with

polymer coating). The method of applying the shell can be different - extrusion, braiding, winding, putting on.

 The role of the shell 2 is to prevent open flame in the protected volume and to minimize the pollution of the protected volume when the device is triggered.

Cord 1 can also be made on the basis of a substance that forms an extinguishing aerosol during combustion, either from a composite material based on a mixture of microcapsules with a combustible warming substance, or from another fire extinguishing composite. New is that combustible extinguishing cord is made containing incombustible inserts, which are arranged alternately between combustible areas of combustible extinguishing cord.

 Non-combustible inserts 4 (see Figure 1) can be made of polymer, not

supporting combustion or of the same materials as the composite combustible fire extinguishing cord, with the exception of components that provide flammability. The role of insert 4 is to limit the extinguishing area within the fire region and to prevent burning out of the cord 1 along the entire length.

 The length of the non-combustible insert 4 is from 1/20 to 1/40 of the length, but not less than 100 mm of one combustible section 3 of the combustible fire extinguishing cord located between adjacent non-combustible inserts 4.

 When the length of the insert is less than the minimum ratio of the length, the insert is not functional, since active combustion flows can spill over the inserts into the following sections of the cord. And with a longer insert length than 1/20 of the length of the combustible section, the area that combustible areas can cover when extinguishing can not overlap each other. And, if the source of ignition is in the area between their location, extinguishing will not occur.

 The connection of combustible areas 5 of the igniter cord with non-combustible inserts 4 can be made with staples or adhesive bonding, or with

using heat shrinkable tubing. Also, the connection of combustible areas of combustible fire extinguishing cord with non-combustible inserts can be performed using the H-shaped connector (see Figure 2), with jagged legs.

 Cord 1 may be covered with a non-combustible or partially combustible non-conducting current by a gas-permeable shell.

 Cord 1 can be made of a substance that forms an extinguishing aerosol during combustion, or of a mixture consisting of microcapsules with freon, and a substance that heats these capsules during combustion, or of another fire extinguishing composite.

The principle of operation of the device is as follows.

 The product on the basis of the claimed device of a given length is placed along the cable, the cable channel or wrapped at an angle around it. In the event of a source of fire triggered triggering cord 1.

 In the event of a source of fire, the triggering of the cord is initiated. When the core cord 1 is heated, a chemical reaction occurs with the release of heat and the release of extinguishing agent along the entire length of the combustible areas to non-combustible inserts 4.

 Due to the presence of inserts 4 cord consumption is limited by the source of ignition.

 And after the fire, the used section 3 of the fuel cord is replaced with a new one.

Claims

FORMULA 1. Device for autonomous fire extinguishing of extended objects, combustible fire extinguishing cord covered with non-combustible or partially combustible non-conductive gas-permeable casing, characterized in that the combustible fire extinguishing cord is made containing three or more non-combustible inserts located alternating between combustible areas of the combustible fire extinguishing cord.  2. The device according to claim 1, characterized in that the non-flammable inserts are made of a polymer that does not support combustion or of the same materials as the composite combustible fire extinguishing cord, with the exception of components that provide flammability.  3. The device according to claim 1, characterized in that the length of the non-combustible insert is from 1/20 to 1/40 of the length of one combustible section, but not less than 100 mm, of a combustible fire extinguishing cord located between adjacent non-combustible inserts. 4. The device according to claim 1, characterized in that the connection of combustible areas of combustible fire extinguishing cord with non-combustible inserts is made using staples or adhesive bonding, or using heat shrinkable tubes.  5. The device according to claim 1, characterized in that the connection of combustible sections of combustible fire extinguishing cord with non-combustible inserts is made with the help of an H-shaped connector having jagged legs.