RU2705620C1 - Fire-resistant cable tunneling for walls and floors of buildings - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to passive fire protection devices and can be used mainly for sealing cable passage places through various building structures to prevent the spread of fire from one room to another during construction, installation of equipment, operation due to its geometrical sizes restoration ability after elimination of deformation action. Claimed object is solved by fire-resistant cable tunneling for walls and floors of buildings, containing at least electric cable, around which there is a deformation element compressed to up to 40 % of the initial volume, made from incombustible basalt fiber with fiber thickness of not more than 2 mcm and placed in a non-flammable shell of silica fabric. End faces of element on both sides are closed by composite fire-resistant incombustible plate made on cement binder with light mineral filler, reinforced on both sides by glass grate, and collar made of incombustible basalt fiber with shell from silica fabric.

EFFECT: invention makes it possible to prevent penetration of fire from one room into another through space in fire partition (wall), which remains after installation of cable and appears as a result of combustion or fusion of cable shell.

1 cl, 1 dwg

Description

The invention relates to passive fire protection devices and can be used primarily to seal cable passage points through various building structures to prevent the spread of fire from one room to another during construction, equipment installation, and operation.

Known for the closest analogue is the fireproof barrier for cable penetrations "shield AK-2" (application for invention of the Russian Federation No. 2012105564, 2013), made of a cushion made of fiberglass, filled with mineral wool coated with a flame retardant, characterized in that mineral wool is molded into a mineral wool slab, and the flame retardant composition “KL-1” containing, wt. %: acrylic dispersion 11.0-33.0; pentaerythritol 1.8-21.8; titanium dioxide 0.2-5.0; melamine 3.7-22.0; ammonium polyphosphate 13.5-33.5; ethylene glycol 0.2-10.0; cellulose ether 0.1-5.0; plasticizer 1.0-3.5; water the rest. The main disadvantages of this solution are the inability to fully ensure the required fire hazard class - KM0 (NG) and the uncontrolled loss of fire-retardant efficiency over time. In addition, it is impossible to control the decrease in operational characteristics of intumescent materials containing a polymer component, and therefore undergo degradation.

The objective of the invention is to prevent the penetration of fire from one room to another, through the space in the firewall (wall), which remains after installation of the cable and appears as a result of combustion or melting of the cable sheath, due to the ability to restore its geometrical dimensions after eliminating the effects of deformation.

The problem is solved by fire-resistant cable penetration for walls and ceilings of buildings, containing at least an electric cable, characterized in that around the cable there is a deformation element compressed to 40% of the initial volume, made of non-combustible basalt fiber with a fiber thickness of not more than 2 microns and placed in a non-combustible shell made of silica fabric, and the ends of the element on both sides are closed with a composite fire-resistant non-combustible plate made on a cement binder with a light mineral filler, reinforced with a fiberglass mesh on both sides, and a cuff made of non-combustible basalt fiber with a shell of silica fabric.

An isometric view of the cable entry is shown in FIG. 1, where 1 is a fire-resistant stove; 2 - deformation element; 3 - cable; 4 - deformation cuff; 5 - fire barrier.

When a significant fire occurs, the cable sheath 3 is burned and free space appears, which is filled with the deformation element 2 due to its expansion and stops the access of dangerous fire factors through the penetration.

Fire-resistant plate 1 is designed to provide rigid fixation of the entire cable penetration device, ensuring the correct operation of deformation elements, the general explosion safety and fire resistance of the penetration. Deformation cuff 4, made of the same material as deformation element 2, is designed to seal the internal opening of a fire-resistant plate and cable.

When installing a penetration in a special wall (in the ceiling) opening left for communications, the free space around the cable is laid using a deformation element compressed at least 40% of the original volume. A compressed deformation element mounted in the opening is capable of a long time (estimated at least 25 years) to retain the ability to expand to 100% of its original volume.

Fire-resistant cable penetration is a non-combustible product (NG combustibility group according to GOST 30244-94 “Building materials. Combustibility test methods”, fire hazard class KM0 according to table 3 F3-123 “Technical regulation on fire safety requirements” dated July 22, 2008 No. 123- Federal Law (with amendments and additions), provides a fire resistance limit of the opening of at least a fire resistance limit of the wall (floor) to EI 240 according to GOST 53310-2009 "Cable penetrations, airtight bushings and busbar ducts. Fire safety requirements. Meto Fire test s. "

The advantages of the proposed solution are that for the fire protection of the opening, a new filling deformation element is used, completely made of non-combustible, non-flame propagating, non-flammable, non-generating smoke and toxic emissions materials (fire hazard class - KM0).

An additional advantage of the device and the difference from the analogues of this cable penetration is the dry installation and, accordingly, a rather simple repair of the cable penetration is possible when replacing and reassembling the cables.

The technical result is to eliminate the spread of fire in the premises.

Claims (1)

Fire-resistant cable penetration for walls and floors of buildings, containing at least an electric cable, characterized in that around the cable there is a deformation element compressed up to 40% of the initial volume, made of non-combustible basalt fiber with a fiber thickness of not more than 2 microns and placed in a non-combustible sheath of silica fabric, and the ends of the element on both sides are closed by a composite fireproof non-combustible plate made on a cement binder with a light mineral filler, fiberglass reinforced on both sides, and cuff made of non-combustible basalt fiber with a shell of silica fabric.

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