RU15458U1 - FIRE-PROTECTIVE PARTITION FOR SEPARATING COMMUNICATION CABLES FROM OTHER CABLES - Google Patents

Abstract

1. Fireproof partition for separating communication cables from other cables, made in the form of sheets of fire-resistant material interconnected along the length, characterized in that each sheet from the side intended for access to communication cables is made with a lining of heat-insulating and connected to it flame retardant material, and flame retardant material for sheets is also arc resistant. 2. The partition according to claim 1, characterized in that asbestos cement is electrotechnical arc-resistant as a material for sheets, and pressed basalt fiber is used as heat-insulating and fire-resistant material for the lining.

Description

Fireproof partition for separating communication cables from other cables

The utility model relates to fire fighting equipment, namely to fireproof partitions for separating communication cables from other cables.

This fireproof partition can be used both in existing and in newly built cable structures, for example, in communication collectors of cities.

According to the Electrical Installation Rules, communication cables are supposed to be placed, as one of the options, under the power cables and separated from them by a fireproof partition (1).

However, the design of the fireproof partition in these Rules is not disclosed.

It is known to perform a fireproof partition for separating, including communication cables from other cables, which consists of sheets of fire-resistant material interconnected along the length of the cable (2).

Sheets here use asbestos-cement (3), which have a certain fire resistance, however, not long enough.

At the same time, these asbestos-cement sheets are not sufficiently resistant to the electric arc arising in power cables, and often are destroyed from it partially or completely, depending on the intensity of the electric arc, as a result of which the communication cables located below are exposed to the electric arc. And since the latter are made mainly with insulation or with insulation and a sheath of combustible material, when exposed to an electric arc, they not only get damaged, but also light up, and this, in turn, leads to burnout of communication cables over long distances. In such fires, the asbestos-cement barrier located above the communication cables does not

Object: IPC device: А62СЗ / 16

protects the cables located above it (power or power and control cables of the collector’s own needs) from overheating, which can lead to ignition of their shells and, as a result, to the spread of fire to the entire height of the collector.

The present utility model is based on the task of creating such a fireproof partition that would protect communication cables from the effects of the electric arc of power cables placed above them, and also protect the cables placed above it from the effects of flame and overheating when the communication cables light up from any ignition source (open flame during hot work or intentional arson, etc.).

The task is achieved in that at the fireproof partition for separating communication cables from other cables, made in the form of sheets of fire-resistant material interconnected along the length, each sheet on the side intended for access to communication cables is made with a heat-insulating lining connected to it and flame-retardant material, and flame-retardant material for sheets is also arc-resistant, while asbestos cement is electrotechnical arc-resistant as a material for sheets, and as heat insulation Extruded basalt fiber is used for the lining and fire-resistant lining material.

Due to the execution of sheets of a fireproof partition from a fire-resistant material, the communication cables are simultaneously protected from the electric arc arising in the power cables located above them, and the latter are protected from an open flame in the event of a fire in the communication cables.

The use of an electrotechnical arc-resistant asbestos cement as a fire-resistant material, of which asbestos-cement boards are currently made are electrotechnical arc-resistant (4), in comparison with conventional asbestos cement used in

At present, for the manufacture of fire-resistant partitions (3), it is possible to significantly increase the physicomechanical and electrical (arc resistance) indicators of the fire-retardant partition, which is achieved through the use of long-fiber asbestos and an increase in the pressing force of the asbestos-cement mass.

And the execution of sheets of a fireproof partition with a lining of heat-insulating and fireproof material, for example, pressed basalt fiber in the event of a fire of communication cables, protects the sheets from overheating, which can lead to a significant increase in temperature above the fireproof partition, which, in turn, is a provoking factor for tanning cables placed here. At the same time, the fire resistance of the material allows it not to collapse under the influence of fire and, therefore, maintain its heat-insulating properties.

The essence of the utility model is illustrated by drawings.

Figure 1 shows a fireproof partition for separating communication cables from other cables;

figure 2 is a section aa in figure 1.

The fireproof partition for separating communication cables from other cables consists of sheets 1 of fire-resistant material interconnected along the length of one, which is electrotechnical arc-resistant asbestos cement.

Since the fireproof partition is designed to separate communication cables from other cables, in particular in the communication manifold, where the cables are placed on the shelves of the cable structures, sequentially, one above the other, mounted vertically, the sheets of the fireproof partition are usually placed in a horizontal plane, with the exception of ups and downs of cable lines.

therefore, in the case we are considering, from the bottom, it is made with a lining 2 of heat-insulating and fire-resistant material, the pressed basalt fiber being used as it. In order to avoid sagging between the shelves of cable structures, the lining 2 is connected to the sheet 1.

Fireproof properties of the partition are as follows.

Sheets 1, interconnected along the length and placed between communication cables and other cables (power cables or power and control cables for the collector’s own needs), due to their arc resistance, protect communication cables that are especially susceptible to the spread of burning from the electric arc of power cables and, at the same time, due to fire resistance, the latter are protected from fire in case of fire of communication cables under the influence of any other ignition source.

In this case, the thermal insulation of the lining 2 does not allow the sheets 1 to overheat in the presence of an open flame from the side of the communication cables. And this, in turn, protects the cables placed on the opposite side of the partition from overheating, which can lead to their ignition.

Sources of information:

1. Rules for electrical installations. Energoatomizdat, Moscow, 1985, p. 189.190, §2.3.120, items 1.5 (copy attached).

2. Laying cables in industrial premises. Materials for design and working drawings. VNIPI Tyazhpromelektroproekt, Moscow, 1992, p. 4, p. 4.5.1., P. 69 (prototype (copy attached)).

3. The sheets are asbestos-cement flat. GOST 18124-95, Moscow, MNTKS (copy attached).

4. Boards asbestos-cement electrotechnical arc-resistant. GOST 248-92, Moscow, Standards Publishing House (copy attached).

Appendix: copies of information sources on 12 pages.

Authors:

Feskov E.M.

rman V.I. Dmitrieva T.Yu.

Claims (2)

1. Fireproof partition for separating communication cables from other cables, made in the form of sheets of fire-resistant material interconnected along the length, characterized in that each sheet from the side intended for access to communication cables is made with a lining of heat-insulating and connected to it flame retardant material, and flame retardant material for sheets is also arc resistant. 2. The partition according to claim 1, characterized in that asbestos cement is electrotechnical arc-resistant as a material for sheets, and pressed basalt fiber is used as heat-insulating and fire-resistant material for the lining.