SU1029964A1 - Flame extinguishing safety device - Google Patents

Abstract

SAFETY USTROYSTYU flame retardant, comprising a housing with a perforated bottom and with it vmontirovannmi perforated disks, between which is mounted a flame conductive element of -voloknistogo material characterized in that, in order to increase efficiency by desensitization plamegasheni combustion zone, a flame conductive member is made of polyacrylonitrile okislennogs . with O) 4

Description

The invention relates to devices for localizing explosions of combustible gas mixtures, in particular for extinguishing the flame of backpressures produced in the apparatus for the flame treatment of metals.

Flame-retardant safety devices are known, including corpuscles with a lid and a flame-retarding element made of metal fiber by powder metallurgy. However, the use of such a material in the manufacture of flame-retarding elements for extinguishing the flame of fast-burning mixtures has not found wide distribution, since the relatively high rigidity of the fibers makes it difficult receiving channels corresponding to the critical. the diameter of the quenching of the flame quick-burning mixtures.

It is also known to have a flame-retarding device comprising a housing with a lid and a flame-retarding element of fiberglass pressed between the perforated C23 discs.

The disadvantages of this device are the relatively high resistance to gas flow, due to the fact that considerable pressing force is required due to the stiffness of the fibers and the insufficient heat resistance of the glass fiber, which changes its structure under the action of high temperatures developing in the flame front.

The aim of the invention is to increase the efficiency of the flame extinguishing by phleg1.11.Atizing the combustion zone.

The goal is achieved by the fact that in a device comprising a housing with a perforated bottom and with perforated disks mounted into it, between which there is a flame retardant element made of fibrous material, the flame retardant element is made of oxidized polyacrylonitrile.

Polyacrylonitrile fibers have a diameter of 5-20 µm and a length of the order of a few mm, which ensures reliable 3ji3opoB between individual fibers of the order of 2040 µMF. The required pore sizes are also facilitated by the high elasticity of the oxidized polyacrylonitrile fibers.

In addition, these fibers have high heat resistance and have a rather low thermal conductivity (0.2-0.4 kcal / m.h. hail), which provides the necessary time of protective action of the flame-retarding element in case of a flame landing on its surface. Along with this, oxidized polyacrylonitrile has the property of releasing a significant amount of CO and CDJr when it is heated to a temperature of about 600-900, which ensures the refluxization of combustible gas in the combustion zone.

The drawing shows the proposed device, the overall appearance.

The flame retardant safety device includes a housing 1 with a lid 2, a flame retardant element is placed in the case, which is a glass 3 with a perforated bottom in which a suspension of polyacrylonitrile fiber 5 is pressed through the perforated disk 4. The flame retardant element is sealed in the case by means of gaskets 6.

The device works as follows.

Combustible gas through the inlet nozzle enters the gate, passes through the pores of the flame-retarding element, and through the outlet nozzle enters the consumption. If flame retardant equipment occurs in the pores of the flame-retarding element, protection of the pipeline is achieved. Moreover, due to the elasticity of the fibers, the pressing force required to obtain pores of the required diameter is reduced, which reduces the resistance of the flame-retarding element compared to other materials , Due to the high temperature resistance of the oxidized polyacrylonitrile, the protective action time required for stopping the gas flow is achieved. The release of oxidized poly acryl with nitrile co and CO 2 when heated by a scientific research institute reduces the likelihood of burning the flame retardant element by a factor of 2-3 if the flame is landed on it, which improves the reliability of the flame extinguishing agent.

The proposed flame-retarding safety device allows, by varying the degree of pressing in of the oxidized polyacrylonitrile, in a wide range, to adjust the pore size of the flame-retarding element depending on the type of fuel pelvis, which makes it possible to obtain flame-retarding elements with optimal resistance,

Claims (1)

FIRE-EXTINGUISHING SAFETY DEVICE, comprising a housing with a perforated bottom and perforated disks mounted therein, between which a flame-retardant element of fibrous material is installed, characterized in that, in order to increase the flame retardant by phlegmatization of the combustion zone, the flame-retardant element is made of oxidized polyacrylate.