RU2761812C1 - Flexible attachable fire-resistant cable penetration for thin-walled barriers - Google Patents

Abstract

FIELD: fire protection.SUBSTANCE: invention relates to passive fire protection devices and can be used to prevent the spread of fire from one room to another during the construction and installation of equipment in the presence of thin-walled fire barriers. The task is solved by a flexible overhead fire-resistant cable penetration for thin-walled barriers, including a fire-resistant flexible casing with fire-resistant electrical cables located in it, between which fire-resistant deformation elements are inserted. The casing has a conical shape, the upper narrowed part of which is designed for uniform tightening with fire-resistant metal clamps of the surface of the casing with cables located in it, and the lower expanded part of the casing has a free edge for fastening to the protected opening of a fire-resistant barrier along its outer perimeter using metal fire-resistant dished rods.EFFECT: possibility of installing a fire-resistant cable penetration outside a thin-walled fire-resistant barrier with a thickness of 150 mm or less, through which the cable line passes.1 cl, 2 dwg

Description

The invention relates to devices for passive fire protection and can be used to prevent the spread of fire from one room to another during the construction and installation of equipment in the presence of thin-walled fire protection barriers.

Existing cable penetrations are various devices mounted in the wall opening (floors), through which the cable passes from one room to another. The basic principle of operation of such penetrations is that in the unheated zone of the opening of traditionally used walls of more than 200 mm, non-combustible or slightly combustible intumescent materials are mounted around the cable, thus preventing the passage of fire through the cable through the fire barrier.

So, there is a known fire-resistant penetration for cables and pipelines (RF patent for IZ No. 2007807, 2006), containing a body, an embedded pipe or a partition made of a temperature-resistant non-combustible material, in the hole of which passing cables are installed and the internal volume of which is limited on both sides by flanges with a hole for the passage of cables and is filled with an insulating high-temperature substance that has the ability to increase the volume at high temperatures, characterized in that it is equipped with clamps located on the outside of each flange with recesses forming cavities with recesses of the flanges, in each of which there is a sealing element in the form of a plastic insulating of a temperature-resistant material bridging the longitudinal gaps along the cable, the flanges are connected to the body through a temperature-resistant gasket, while vermiculite, perlite or their mixture with other materials is used as a temperature-resistant non-combustible material. In this case, an insulating high-temperature substance with the ability to increase volume at high temperatures is placed in one or more flexible shells made of non-combustible material, and the clamp is directly connected to the body by a threaded connection, while the flange and clamp form a conical cavity for the sealing element, where the flange and the clamp are installed with a gap, and a heat-insulating material is placed in the clamp cavity, which has the ability to endothermic reaction.

Known fire-resistant cable penetration for walls and floors of buildings (RF patent for IZ No. 2705620, 2019), where a deformation element compressed to 40% of the original volume is located around the cable, made of non-combustible basalt fiber with a fiber thickness of not more than 2 microns and placed in a non-combustible silica fabric sheath.

The closest analogue of this invention includes products of the type "fireproof couplings" (https://ogneza.com/kabelnyie-prohodki/), which are used to seal the passages of technological pipelines, pipelines of engineering systems, cables and cable systems through walls, ceilings and other building structures. For example, the known cable penetration "OGNEZA-PM-K" 50, where the body of the couplings are detachable and equipped with locks-couplers. The disadvantages of these types of couplings include the presence of material expanding when exposed to a flame, and, as a result, the formation of smoke and toxic combustion products.

However, all the described technical solutions, as well as modern traditional solutions for cable penetrations through walls with a thickness of more than 150 mm with a decrease in wall thickness to 150 mm or less, are not able to effectively protect the cable penetration from heating.

The technical objective of the invention is the possibility of mounting a fire-resistant cable penetration outside a thin-walled fire barrier with a thickness of 100 mm or less, through which the cable line passes.

The task is solved by a flexible overhead fire-resistant cable penetration for thin-walled barriers, including a fire-retardant flexible casing with fire-resistant electric cables located in it, between which there are fire-retardant deformation elements, characterized in that the casing has a conical shape, the upper narrowed part of which is designed for uniform tightening by fire-resistant metal clamps of the casing surface with the cables located in it, and the lower expanded part of the casing has a free edge for attaching the fireproof barrier to the protected opening along its outer perimeter using metal fire-resistant disc anchors.

FIG. 1 shows a section of the structure of a flexible overhead cable penetration, where: 1 - fire barrier (wall, ceiling, partition, etc.); 2, 8 - metal disc anchors; 3 - fire retardant flexible casing "MIX" (RF patent for IZ No. 2725720, 2020); 4.5 - metal clamps, including those with memory; 6 - electrical cables; 7 - fire retardant deformation element. Clamps 4 and 5 wrap around the deformation elements, providing a rigid frame, and allow them to "unclench" during the combustion of the cable sheath and fill the vacated space.

Figure 2 shows a general view of the cable penetration in a flexible fireproof cover mounted along the perimeter of the opening of the fire retardant barrier.

The entire structure is made exclusively of non-combustible materials, which ensures that there are no intumescent materials that, when burning, form smoke and toxic combustion products.

The flexibility of cable penetration, in contrast to traditional solutions for cable penetrations, allows taking into account the geometric and space-planning features of the used thin-walled barriers (walls, partitions, etc.) in the premises of buildings and structures.

The advantage of the presented penetration is the lightness of the entire structure and ease of installation.

The technical result consists in the absence of the possibility of penetration of hazardous fire factors through the sheath and the safety of the cable core for a thin-walled building structure.

Claims (1)

Flexible overhead fire-resistant cable penetration for thin-walled barriers, including a fire-retardant flexible casing with fire-resistant electrical cables located in it, between which fire-retardant deformation elements are inserted, characterized in that the casing has a conical shape, the upper narrowed part of which is designed for uniform tightening with fire-resistant metal clamps the surface of the casing with the cables located in it, and the lower expanded part of the casing has a free edge for attaching the fireproof barrier to the protected opening along its outer perimeter using metal fire-resistant disc anchors.

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