RU2727599C2 - Method of fire protection of cable and cable lines - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to fire protection of electric cables and cable lines. For protection of electric cables and cable lines, INFLEX-FK-31 fire-proof net coated with fire-retardant intumescent compound is used. Grid web is cut in compliance with dimensions of protected electric cable or cable line and installed around electric cable or cable line by means of joints of grid overlaps by means of fasteners. When exposed to open fire or high temperatures, the mesh material forms a stable strong foamed layer, blocking the propagation of combustion and preventing inflammation of the protected electrical cables. Mesh perforation allows the cables to self-bank, which improves heat removal.

EFFECT: invention allows reducing labour intensity and improving reliability of electric cables and cable lines protection against fire.

1 cl, 1 dwg

Description

The invention relates to a method for protecting electrical cables, cable lines and other cable products from fire.

In case of fire, cables pose the greatest danger, since they become pathways for the spread of flame to other rooms, and under emergency operating conditions, it is they that often become a direct source of ignition and fire development. The main indicators of fire safety that characterize the behavior of the cable when exposed to fire are: fire resistance, resistance to combustion propagation with single and bundled laying, low density of smoke released during combustion and smoldering of the cable, absence or reduced content of halogens in gaseous products released during combustion and smoldering cable. The fire resistance of the electrical cable can be ensured by using a special insulation material that forms a non-conductive layer during combustion, or an additional fire-resistant electrical insulation element.

Known technical solution to ensure fire resistance through the use of a thermal barrier over the conductive cores, which is made in the form of an extruded composition based on synthetic rubbers, containing non-combustible fillers. (RF patent No. 53810 dated May 27, 2006).

However, a fire-resistant insulation element made of an extruded composition does not provide guaranteed fire resistance in case of fire with simultaneous mechanical effects on the cable of shocks, vibrations, bends, etc.

It is known that fire protection can be provided by applying a special composition to the surface of the product. In this case, a fire retardant layer is formed on the surface, which has the properties of a fire retardant coating. Intumescent paints and varnishes are one of the fastest growing areas in the development of fire protection formulations. The fire-retardant effect of such coatings (treatments) is based on the fact that at a certain temperature, which, as a rule, is lower than the ignition temperature of the protected material or the critical temperature of metal structures, spontaneous chemical reactions and physical processes begin, leading to the formation of foamed heat-insulating layers (coke, solidifying melt) and / or the release of phlegmatizing and inhibiting the combustion process, products. As a result, when exposed to sources of flame and heat, ignition is prevented, the intensity of flame propagation decreases, and the fire resistance of structures increases.

There is a known method of protecting cable routes from fire, in which a substance forming an insulating layer is applied to the cable and the fastening elements of the cable / cable route, which swells when heated (see DE 3925314, H02G 3/30, 22.03.90). In such cable routes, in the event of a fire, a protective heat-insulating foam layer is formed around the cable and its fastening elements, due to which it is possible to avoid ignition of the cable insulation for a certain time. This method is chosen as a prototype. However, it should be noted that especially for vertically laid cable routes, due to poor adhesion, peeling of the insulating layer can occur. In addition, over time, taking into account the degree of influence of the environment and other negative factors, protective coatings lose their fire retardant properties, that is, are subject to "aging". In addition, it is necessary to note the complexity of the method, since the work on the application of intumescent compounds on the surface of cables includes the following technological operations: surface preparation, preparation of the working composition of the coating, coating, drying the coating, etc., as well as the need to use the appropriate equipment.

The technical problem solved by the claimed invention is to reduce labor intensity and increase the reliability of protection of electrical cables and cable lines from fire.

The technical problem posed is solved by the fact that in the known method of fire protection of electrical cables and cable lines, including the use of an intumescent fire retardant coating, according to the claimed solution, an INFLEX-FK-31 fire retardant mesh covered with an intumescent fire retardant composition is used, the mesh fabric is cut in accordance with with the dimensions of the protected electrical cable or cable line and installation of the mesh by installing the mesh cloth around the electrical cable or cable line and overlapping the mesh cloths using fasteners. In addition, due to the fact that the mesh webs are overlapped both on the longitudinal and transverse sides, while the width of the overlap is 4 ± 1.0 cm, mounting brackets or galvanized knitting wire are used to fasten and connect the mesh webs, and the distance from electrical cables to fire retardant mesh is no more than 4 cm, while the mesh size is 4 × 4 mm + -2 mm. And also due to the use of a fire retardant intumescent composition based on polyurethane.

The technical result, which provides a reduction in the labor intensity of the method, is achieved through the use of a fire retardant mesh INFLEX-FK-31 containing a fire retardant intumescent composition based on polyurethane to protect electrical cables and cable lines. The mesh is cut into canvases at the place of operation in accordance with the dimensions of the protected electrical cable or cable line and is installed on the protected area using fasteners, while the mesh canvases are overlapped both on the longitudinal and transverse sides, eliminating the formation of cracks and unprotected cable sections or cable line. When exposed to an open fire or high temperatures, the mesh material forms a stable durable foam layer, blocking the spread of combustion inside the cable tray and blocking oxygen access to the fire site - high-strength foam forms at the point of ignition and forms a protective "dome" that prevents the penetration of oxygen from the outside and the development of the focus burning. In places of a heated cable, the mesh material changes color, which makes it possible to visually determine the location of a possible accident.

The advantages of the declared solution are:

• No costs for surface preparation, preparation of the working composition of the coating, coating application, drying of the coating, etc., for repair and restoration work, maintenance throughout the entire period of operation, as well as the need to use the appropriate equipment.

• Unlike the method of applying intumescent compounds on electrical cables and cable lines, in the claimed method, when calculating the material consumption, it is required to consider exclusively the protected perimeter, without taking into account the complex real geometry of the cable surface;

• Provides free access to any section of electrical cables;

• Mesh perforation, in contrast to intumescent fire retardants, allows cables to self-ventilate, which improves heat dissipation;

• High manufacturability of installation, which guarantees the possibility of work under any external conditions - temperature, humidity, tightness, without the need to prepare the surface of the cable allows you to effectively and guaranteed to provide fire protection of cable facilities

The stated solution is illustrated by graphic materials.

FIG. 1 shows an example of mesh installation.

FIG. 1, positions show: 1 - bundle of cables, 2 - perforated tray, 3 - mesh "INFLEX-FK-31", 4 - clasp (mounting brackets).

For the manufacture of the INFLEX-FK-31 fire retardant mesh, a fiberglass mesh can be used, on which a fire retardant intumescent composition based on polyurethane is applied by immersion or spraying. Fire retardant mesh "INFLEX-FK-31" is produced in the form of flexible rolls with a typical width of 1 m and a length of 15 m. The mesh is cut into canvases at the site of operation or in advance, in accordance with the dimensions of the protected electrical cable or cable line. The cutting of the fire retardant mesh is carried out using a clerical knife or scissors. The fire-retardant mesh is cut in such a way that the overlap on the longitudinal and transverse sides is 4 ± 1.0 cm. Then the mesh is installed by installing the mesh cloth around the electric cable or cable line and connecting the mesh cloths with an overlap using fasteners. The mesh is secured with mounting brackets or galvanized tying wire so that no gaps are left. The distance between the staples should not exceed 40 cm.

If the cable tray is full, it will overlap with the mesh. Mesh fabrics are overlapped both on the longitudinal and transverse sides, the width of the overlap in this case should be 4 ± 1.0 cm. If necessary, the overlaps can be fixed with a galvanized knitting wire. In case the tray is not completely filled and cables need to be added, then the fire protection mesh is laid directly on the cables inside the tray, which is then filled with cables. If the cable tray is not completely filled and the space between the fire retardant mesh and the cables is more than 4 cm, then it is necessary to lay the mesh sheet inside the cable tray directly on the cables.

For ceiling and wall mounting, suitable fasteners such as screw anchors or expansion anchors, metal flexible hoses or punched tape can be used. When carrying out installation, it is necessary to ensure that the distance between the fasteners to the ceiling provides an even adherence of the mesh to the ceiling. If the distance between the mesh and the ceiling is more than 4 cm, an additional layer of fire retardant mesh must be laid between the cables and the ceiling. For the final fastening and connection of the mesh webs, mounting brackets or galvanized knitting wire are used. In case of sagging cable routes, the mesh should be fixed with metal punched tape or metal flexible hose. Installation directly to the ceiling can be carried out using hanging brackets, for which it is necessary to wrap the cable bundles in a fire retardant mesh and place them in the hanging brackets. If the cable runs on the brackets sag, the mesh must be secured with steel ties with ball locks.

At the points of cable exit from cable trays, the mesh is cut in such a way as to wrap the cables without gaps and the mesh is fixed using mounting brackets or galvanized mounting wire. If the volume of the bundle of cables is small, it is recommended to use tie wire.

When laying cable routes, make sure that the distance from the cables to the fire protection mesh does not exceed 4 cm.

If necessary, the mesh can be fixed additionally, for example, using a U-profile and in the center.

Installation of fire retardant mesh "INFLEX-FK-31" is possible at temperatures from -25 to +60 degrees. When installing the INFLEX-FK-31 fire retardant mesh, it is necessary to control:

- the presence of an overlap with an overlap width of 4 ± 1.0 cm;

- absence of folds, wrinkles, gaps and gaps;

- ensuring an even fit of the mesh to the ceiling and walls;

- ensuring the distance from the cables to the fire retardant mesh, which should not exceed 4 cm.

The above-described options for performing a fire barrier should be considered only as exemplary options. Various modifications of the above-described mesh mounting options are also possible and will be apparent to those skilled in the art. It is assumed that such embodiments should not limit the proposed solution.

The claimed method provides reliable protection of the cable from fire, is characterized by high manufacturability of installation, does not impede access to the elements of the wiring, which is especially convenient when it is necessary to repair or maintain it. The proposed method is suitable for use in residential buildings and industrial facilities, including underground. Fire protection of the cable can be used when installing new power lines and winding already laid channels. In the absence of fires, the mesh does not interfere with natural air exchange, therefore it does not cause overheating of the wiring.

Claims (2)

1. A method for fire protection of cables and cable lines, including installation and installation around the cable and cable lines of a fire-retardant mesh INFLEX-FK-31 and overlapping of mesh webs both on the longitudinal and transverse sides, with an inlet width of 4 ± 1, 0 cm using fasteners and with a distance from the cables to the fire retardant mesh no more than 4 cm, while the mesh fabric is cut in accordance with the dimensions of the protected cable and cable line, and the fire retardant mesh itself is made of fiberglass with a mesh cell size of 4 × 4 mm and contains a polyurethane-based intumescent fire retardant coating. 2. A method according to claim 1, characterized in that the fastening and connection of the mesh webs is carried out using mounting brackets or galvanized knitting wire.

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