RU2180864C2 - Fire-fighting apparatus for cable - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: apparatus is composed of trays having U-shaped section and connected one with another through couplings having U-shaped section, each being put on lower surfaces of ends of trays to be connected one with another. Trays and couplings are manufactured from electrical arc-resistant asbestos cement possessing improved fire- resistance. Depth of tray must be at least equal to diameter of cable laid therein and width of tray is selected on condition that gap be formed between tray walls and cable. Apparatus is used for protecting individual power cable from fire hazards such as flame of ignition source or electric arc of adjacent cables, as well as for retarding burning process. EFFECT: simplified construction, convenient mounting and maintenance and enhanced reliability in operation. 5 cl, 2 dwg

Description

 The invention relates to fire fighting equipment, and in particular to devices for individual protection of a single cable, in particular a power cable, from the flame of the ignition source (open flame during fire work or with deliberate arson, electric arc in the mode of arc short circuit in adjacent cables, etc.) .

 The present invention can be used both in existing and in newly built cable structures, for example, in communication collectors of cities.

 Known flame retardant for single-laid cables, including power, which is a hardened flame retardant, applied in liquid form to the entire outer surface of the cable (1).

 This embodiment of fire-retardant means allows you to isolate the cable along its entire length from the access of air, which ensures the non-proliferation of combustion of the cable when exposed to the flame of the ignition source.

 However, this tool does not protect the cable from the effects of an electric arc, and also quickly collapses at the point of exposure to the ignition source, which leads to damage to the cable. Moreover, the technological process for applying the composition is usually associated with spraying already in the cable structure itself, which requires additional measures to protect people and surrounding structures.

 Known fire-retardant device for cables, made in the form of a partition of fire-resistant material, placed under power cables. In this case, the partition is made along the length of a composite of sections interconnected (2).

 Here, asbestos-cement sheets (3) are used as sections for a fire-resistant partition, which have a certain fire resistance and protect the cables placed above them from sunbathing for some time.

 However, these asbestos-cement sheets are not sufficiently resistant to the electric arc and often collapse from it partially or completely, depending on the intensity of the electric arc. In this case, the cables in the group protected from below by a partition are not protected from each other in any way when an electric arc arises in any of them. The partition also does not provide effective protection of cables against the spread of combustion, since it limits the space near the cable on one side only.

 The present invention is based on the task of creating such a fire-fighting device for a cable, in particular a power one, which would protect a separately laid cable from a flame of an ignition source, including an electric arc of adjacent cables, limit the spread of combustion and would be convenient for installation and operation.

 The task is achieved in that in the fire-fighting device for the cable, made in the form of continuous sections of fire-resistant material interconnected along the length, the fire-resistant material of the sections is also arc-resistant, and each section is made in the form of a tray for one cable, U-shaped in the transverse cross-section, while the depth of the cavity of each tray is not less than the diameter of the cable intended for laying in it.

 The implementation of the sections of the device in the form of a tray, the walls of which completely cover the cable from the sides, in combination with fire-resistant material can reliably protect a separate cable from the effects of the electric arc of adjacent cables, as well as increase the duration of the cable when it is exposed to a flame of any ignition source due to the shape of the fire fighting device and the increased fire resistance of the material from which it is made. The U-shape of the cross-section of the tray due to the restriction of air access to the cable from below and from the sides helps to limit the spread of combustion of the cable in the event of fire, and this form also facilitates the molding of the product during manufacture. According to a more preferred embodiment, the width of the cavity of the tray is selected with the condition of the formation of gaps between the walls of the tray and the cable intended for laying in the tray.

 When exposed to the flame of the ignition source, the presence of a certain air gap between the cable and the walls of the tray will not allow the cable to significantly heat up from the tray, with which it is in contact only with the lower part, which increases the safety of the cable. The gap can also provide, if necessary, freedom of placement of the cable in a horizontal plane, which when laying it from the drum retains some curvature.

 Asbestos cement arc-resistant asbestos cement was used as the material for the trays.

 The use of this material, from which arc-resistant asbestos-cement electrotechnical boards are currently being made (4), in comparison with conventional asbestos-cement used for the manufacture of fire-resistant partitions (3), it is possible to significantly increase the physicomechanical and electrical (arc resistance) parameters of the fire fighting device, which is ensured due to the use of long-fiber asbestos and increase the pressing force of the asbestos-cement mass.

 The trays are interconnected by couplings of fire-resistant material, U-shaped in cross section, with each of the couplings being put on the ends of the connected trays from below, and electrotechnical arc-resistant asbestos cement is also used as a fire-resistant material.

 This implementation of the connecting elements allows you to reliably protect the cables from the flame of the ignition source, including the electric arc, at the junction of the trays, completely covering the possible gap between them. The trays are envisaged to be interconnected by a clutch on cable shelves (consoles), the distance between which may sometimes not coincide with the length of the trays, and this difference can be compensated by adjusting the clearance between the trays within the clutch. Moreover, this connection is reliable, simple and convenient for installation.

 The invention is illustrated by drawings.

Figure 1 shows a fire fighting device with a cable laid in it in a perspective view;
in FIG. 2 - an example of laying fire-fighting devices with cables on prefabricated cable structures, cross section.

 The fire fighting device is made integral along the length of solid sections in the form of trays 1 for one cable, U-shaped in cross section. The trays 1 are interconnected by couplings 2 also of a U-shape in cross section. Each clutch 2 is tightly worn from below to the ends of the connected trays 1. Trays 1 and couplings 2 are made of fire-resistant material, which is electrotechnical arc-resistant asbestos cement, which has enhanced properties of both arc resistance and fire resistance.

 The device is intended for laying in it a single cable 3, for example a power cable. In this case, the depth of the cavity of the tray 1 should be not less than the diameter of the cable 3 laid in it, and the width of the cavity is selected with the condition of the formation of gaps between the walls of the tray 1 and the cable 3.

 In the particular case of the trays 1 laid along the cable shelves 4 prefabricated cable structures in the communication headers (figure 2). Cable shelves 4 are made with through holes for fasteners. In this case, the coupling 2 is attached to the cable shelves 4 brackets 5 with nuts 6.

 The device is mounted as follows.

 Connect the ends of the two trays 1 and put on the bottom of the connected ends of the sleeve 2. Similarly assemble the entire device to the required length. In the case of installing a fire fighting device in the communication manifold, the trays 1 are made with a length corresponding to the distance between the cable shelves 4 of the prefabricated cable structures, so that the connection of the trays 1 with the couplings 2 falls on the cable shelves 4. If the connection of the trays 1 with the cable shelf 4 does not match, the difference can be compensated adjusting the gap between the trays 1, within the clutch 2.

 After the device is assembled, cable 3 is laid in it. For better stability of the device on cable shelves 4, it is fastened in the area of couplings 2 by brackets 5 covering above from the top to cable shelves 4, passing the ends of the brackets 5 through the through holes in the cable shelves 4 and fixing them from the bottom with nuts 6. On cable shelves 4 install several fire fighting devices with cables, depending on the capacity of cable shelves 4.

 If a fire fighting device is installed in an existing cable structure, the cable to be protected is raised above the cable shelves and the trays with couplings connecting them are placed under it.

 Laying each separately lying, in particular power, cable in an individual fire fighting device in the form of a tray made of fire-resistant material of a U-shape in cross section, the cavity depth of which is not less than the cable diameter, and the cavity width is selected with the condition of the formation of gaps between the walls of the tray and the cable, allows you to reliably protect each cable from exposure to the flame of the ignition source, including the electric arc located near or below the cables, as well as to limit the spread of combustion to blanching in case of ignition. From the electric arc of the above cables, the cable is protected by the same fire protection devices of these cables. In addition, this fire-fighting device is convenient for installation and operation, as well as applicable in existing cable structures.

Sources of information
1. Technical proposals for ensuring the fire safety of the cable economy of nuclear power plants. Recommendations VNIIPO Ministry of Internal Affairs of Russia, 1997, p.11, clause 5.3.3 (copy attached).

 2. Laying cables in industrial premises. Materials for design and working drawings. VNIPI Tyazhpromelektroproekt, Moscow, 1992, p. 4, 6, 8, 69 (copy attached).

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

 4. Boards asbestos-cement electrotechnical arc-resistant. GOST 4248-92, Moscow, Standards Publishing House (copy attached).

Claims (5)

 1. Fire-fighting device for the cable, made in the form of continuous sections interconnected along the length of fire-resistant material, characterized in that the fire-resistant material of the sections is also arc-resistant, and each section is made in the form of a tray for one cable, U-shaped in cross section while the depth of the cavity of each tray is not less than the diameter of the cable intended for laying in it.  2. The device according to p. 1, characterized in that the width of the cavity of the tray is selected with the condition of the formation of gaps between the walls of the tray and the cable intended for laying in the tray.  3. The device according to p. 1, characterized in that the material for the trays used asbestos cement is electrotechnical arc-resistant.  4. The device according to p. 1, characterized in that it is equipped with couplings of fire-resistant material, U-shaped in cross section, through which the trays are interconnected, each of the couplings being worn from below to the ends of the connected trays.  5. The device according to claim 4, characterized in that asbestos-cement is electrotechnical arc-resistant as a fire-resistant material for couplings.

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