RU2168341C1 - Apparatus for fire protection of cables arranged in single or multiple layers - Google Patents

Abstract

FIELD: firefighting equipment. SUBSTANCE: apparatus has cables 1 laid in single or multiple layers and wrapped along their length with plurality of flexible cover plates 2 made from fireproof fabric impermeable for polyethylene melt, and layers of heat-insulating and heat-resistant material. Longitudinal edges 3 of cover plates 2 are connected in overlapping relation and secured by tightening devices 4. Cover plates 2 are joined one with the other in overlapping relation or by means of couplings 6 made from fireproof fabric impermeable for polyethylene melt. Edges 7 of couplings are also joined in overlapping relation and secured by means of additional tightening devices 8. Couplings 6 and cover plates 8 are provided with layers of heat-insulating and heat-resistant material, manufactured from basalt fibers. Serge-type basalt fabric may be used for manufacture of cover plates 2 and couplings 6. Transverse size of cover plates 2 corresponds to size required for embracing the number of cables 1 allowable by mounting and maintenance conditions. Tightening devices 4 and additional tightening devices are made in the form of belts manufactured from fireproof material, such as plaited basalt fibers. Apparatus may be used for protecting cables from flame of ignition source and allows cable burning to be completely eliminated. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 10 cl, 5 dwg

Description

 The invention relates to fire fighting equipment, in particular to devices for protecting cables from exposure to ignition source flame.

 Most effectively, the present invention can be used in existing cable structures, for example, in communication manifolds of cities in which, along with other cables, cables with insulation or with insulation and a sheath of combustible polyethylene are laid.

 A device for protecting cable trays from fires is known, comprising a plurality of flexible coatings of flame retardant fabric with a heat-insulating lining located around a cable tray with a tight coverage of multilayer cables laid on it, as well as an external casing in the form of a rigid spatial structure, covered over the entire length of the cables with many coatings from the same fire-resistant fabric with a heat-insulating lining. At the same time, around the cable tray, between it and the casing, there is free space (1).

 However, this design is intended to protect mainly power cables, which require the removal of heat generated by them along the entire length. Therefore, flexible coatings, tightly covering the tray with cables, are made in the form of belts placed at a sufficient distance from each other. And between the cables and the casing there is free space for ventilation.

 This embodiment of the protective structure in the event of a fire within it does not prevent the spread of fire between the belts. In addition, this design is cumbersome, because it contains many rigid spatial elements, is difficult to assemble and disassemble, and requires significant structural changes when used in existing cable structures.

 A fire-resistant coating is known for fire protection of flame-propagating cables laid in a multilayer bundle. In this case, the fire-resistant coating is a hardened composition, applied in liquid form to the entire outer surface of the cable bundle (2).

 This embodiment of the protective coating allows you to isolate the cables along their entire length from the access of air, which ensures the non-proliferation of burning cables when exposed to the flame of the ignition source.

 One of the significant drawbacks of this protective coating is that if you need to replace or remove cables from the bundle, you have to destroy the coating along the entire length of the cables, and then restore it. If cables are bundled into a bundle, they must also be coated with a protective compound.

 The technological process for applying the composition is usually associated with spraying, which requires additional measures to protect people.

 From the above it is seen that the protection of the cables with a flame retardant is not convenient and time-consuming to install, operate and dismantle, and therefore not economical. In addition, the fire-retardant hardened composition provides only non-propagation of cable combustion, but does not protect the cables from loss of performance, since the fire-retardant coating is destroyed at the place of ignition of the ignition source on the cables, which leads to the burning of the sheath and insulation of the cables in this place.

 The basis of the present invention is the creation of such a fire protection device for single or multi-layered cables, primarily with insulation or insulation and a sheath of combustible polyethylene, the design of which would exclude the burning of cables when exposed to a flame of an ignition source (electric arc in arc mode short circuit, open flame during deliberate arson or during hot work, etc.), would be economical, easy, convenient for installation and operation and during enimoy, including in existing cable structures.

 The task is achieved in that in the fire protection device of single or multi-layered cables containing a fire-resistant coating located around the cables with a tight coverage over their entire length, the coating is made in the form of a plurality of flexible covers wrapped around the cables of fire-resistant and melt-tight fabric polyethylene, the longitudinal edges of each of which are overlapped and bonded to each other, while the lining is placed on the cables in series and connected to each other, forming a sleeve.

 As fastening elements for the longitudinal edges of the linings, screeds made of fire-resistant material can be used.

 The presented design of the device allows you to reliably protect cables of any length, first of all, with insulation or insulation and a sheath of combustible polyethylene from exposure to the flame of the ignition source and, due to the simplicity of design, ensure ease of installation and operation.

 In accordance with one embodiment, the device is equipped with additional screeds of flame retardant material, and the pads are overlapped and in the joints are fastened with additional screeds.

 This embodiment of the device provides ease of connection of the plates to each other and additional protection of the cables from sunbathing.

 In a preferred embodiment of the invention, the device is equipped with additional screeds of flame-retardant material and couplings of flame-retardant and melt-tight fabric, mounted on top of the ends of the joined plates with a tight coverage, each of the couplings is made with a longitudinal connector, and its ends in the place of the connector are connected lapped and fastened with additional ties.

 This increases the reliability of both the bonding of the linings and the protection of the cables from sunbathing, since the additional overlap of the junction of the linings eliminates the possibility of flame penetration into the device.

 In a more preferred embodiment, as a flame retardant and melt-impermeable fabric of polyethylene, a basalt fabric such as twill can be used, which, due to its high density, provides linings with impermeability for molten polyethylene. Thus, in case of ignition source flame exposure to the cables, leakage of combustible insulation or cable insulation and sheath through the melt linings is prevented.

 In accordance with another embodiment of the invention, the lateral dimension of the linings corresponds to the size necessary to cover the maximum number of cables allowed by the conditions of installation and maintenance.

 Installation and maintenance conditions here means the maximum allowable load on the support surface (cable shelf, tray, etc.) of single-layer or multi-layer cables, the vertical distance between the support surfaces, their width, the minimum allowable distance between the upper layer of cables and located above they have a supporting surface, providing ease of maintenance of cables (replacement, inspection of cables), etc.

 This allows you to ensure the versatility of the device, since with an increase in the number of cables on the supporting surface, there is no need to replace the plates with large transverse size.

 And the excess of flame-retardant and melt-tight fabric that is wound many times over the cables, formed when the number of cables on the supporting surface is less than the maximum allowable for installation and maintenance conditions, increases the mechanical strength of the device and the reliability of cable protection against sunbathing.

 According to the next variant, the linings and couplings are lined with heat-insulating and heat-resistant material, which can be used as basalt fiber.

 The thermal insulation of the linings significantly slows down the temperature increase on the cables, which allows you to maintain the operability of the cables when exposed to an ignition source, since it prevents melting of the insulation of the cables when the linings are already high enough for this temperature. And the heat resistance of the material allows it to not be destroyed.

 Screeds and additional screeds can be made in the form of belts woven from basalt fiber, which simplifies the execution of screeds themselves and the process of fastening them to the elements of the device.

 The invention is illustrated by drawings.

In FIG. 1 shows a device for fire protection of multilayer laid cables when connecting overlays to each other with an overlap, side view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - section BB in FIG. 1;
in FIG. 4 - fire protection device for multilayer laid cables when connecting plates to each other with clutches; in FIG. 5 is a section BB of FIG. 4.

 The device contains a single-layer (not shown) or multi-layered cables 1, around which with a tight coverage they are wrapped a lot of flexible plates 2 of fireproof and impervious to melt polyethylene fabric. The linings 2 are placed sequentially along the entire length of the cables 1 and are interconnected to form a sleeve. The longitudinal edges 3 of the pads 2 are overlapped and fastened with ties 4 of fireproof material.

 According to one embodiment of the device, the pads 2 are lapped together and at the connection points are fastened with additional ties 5 of fire-resistant material (Fig. 1).

 In another embodiment, over the ends of the joined pads 2 are installed with a tight cover of the sleeve 6 made of flame retardant and meltproof polyethylene fabrics made with a longitudinal connector, the edges 7 of the couplers 6 in the place of the connector are overlapped and fastened with additional ties 8 of flame retardant material (Fig. 4) .

 Ties 4 and additional ties 5 and 8 can be made in the form of belts woven from basalt fiber, the ends of which are tied to a knot or fastened with buckles (not shown), and the lining 2 and sleeve 6 are made of basalt fabric such as twill.

 In a preferred embodiment, the lateral size of the plates 2 corresponds to the size necessary to cover the maximum number of cables 1, which is permissible under the conditions of installation and maintenance. And under each plate 2 and the sleeve 6, there are, respectively, linings 9 and 10 made of heat-insulating and heat-resistant material, for example, basalt fiber.

 The pads 9 and 10 can be made integral with the pads 2 and sleeves 6, respectively, or as separate elements wrapped around cables 1, under the pads 2 and around the ends of the joined pads 2 under the sleeves 6, respectively.

 The device of the preferred embodiment is mounted as follows.

 First, the cables 1 are tightly wrapped with a lining 2 made with a lining 9, the longitudinal edges 3 of the lining 2 are joined with an overlap and fastened with ties 4. If the lining 9 is made as separate elements, then the cables 1 are wrapped with a lining 9, and already over it with a lining 2 .

 Then next cover plate 2 is placed next to it, fixing it to the cables 1 according to the same principle and connecting it to the previous lap. The connected ends of adjacent pads 2 are fastened with additional ties 5, tying them with a knot or tightening with buckles.

 According to another variant of the lining 2, they are connected together by a sleeve 6 tightly enclosing their ends, made with a lining 10. At the same time, the edges 7 of the sleeve 6 are overlapped and fastened with additional ties 8.

 In the case of the implementation of the pads 10 in the form of individual elements, the ends of the joined pads 2 are first wrapped with a pad 10, and then over it with a sleeve 6.

 The transverse dimension of the linings 2 may correspond to the size necessary to cover the existing number of cables 1. In this case, when the number of cables 1 increases, the linings 2 must be changed to larger ones, the transverse dimension of which will correspond to the new number of cables.

 A more preferred option is that the lateral dimension of the plates 2 initially corresponds to the size necessary to cover the maximum number of cables 1, which is permissible under the conditions of installation and maintenance, which allows changing the number of cables without having to replace one size plate with another size plate.

 In this case, the dimensions of the couplings, couplers and additional couplers also correspond to the size necessary to cover the maximum number of cables allowed by the conditions of installation and maintenance.

 When the number of cables 1 is less than the maximum permissible under the conditions of installation and maintenance, the resulting fabric reserve of the linings 2 and sleeves 6 can be used to increase the mechanical strength of the device by repeatedly wrapping the linings and sleeves on the cables, and can also be folded at the longitudinal edges of the linings and couplings respectively.

 Similarly, a protective sleeve is assembled along the entire length of the cables.

Sources of information
1. US patent N 4585070, MKI H 02 G 3/04, CL USA 169/48, 1986

 2. 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, p. 5.3.3 (prototype (copy attached).

Claims (10)

 1. Fire protection device for single-layer or multi-layer laid cables, containing a fire-resistant coating, located around the cables with a tight coverage over their entire length, characterized in that the fire-resistant coating tightly enclosing the cables is made in the form of a plurality of flexible lining of fireproof and meltproof wrapped around the cables polyethylene fabric, the longitudinal edges of each of which are overlapped and fastened together, while the lining is placed on the cables in series and connected between oh, forming a sleeve.  2. The device according to p. 1, characterized in that it is equipped with screeds of fire-resistant material, by means of which the longitudinal edges of the plates are fastened.  3. The device according to claim 1 or 2, characterized in that it is equipped with additional screeds of flame retardant material, and the pads are overlapped and connected at the connection points with additional screeds.  4. The device according to claim 1 or 2, characterized in that it is equipped with additional screeds of flame-retardant material and couplings of flame-retardant and melt-tight fabric, mounted on top of the ends of the joined plates with a tight coverage of them, each coupling made with a longitudinal connector , and its ends in the place of the connector are overlapped and fastened with additional ties.  5. The device according to claim 1 or 4, characterized in that as a flame retardant and impervious to melt polyethylene fabric used basalt fabric type twill.  6. The device according to any one of paragraphs.1 to 5, characterized in that the lateral size of the linings corresponds to the size necessary to cover the maximum number of cables allowed by the conditions of installation and maintenance.  7. The device according to any one of paragraphs.1 to 6, characterized in that each plate is made with a lining of heat-insulating and heat-resistant material.  8. The device according to p. 4, characterized in that each coupling is made with a lining of heat-insulating and heat-resistant material.  9. The device according to claim 7 or 8, characterized in that basalt fiber is used as a heat-insulating and heat-resistant material.  10. The device according to any one of claims 2 to 4, characterized in that the ties and additional ties are made in the form of belts woven from basalt fiber.

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