RU187845U1 - MULTI-LAYERED TRANSFORMABLE FIREBAR - Google Patents

Abstract

The utility model relates to multi-layered protective transformable fire barriers in construction and is intended for the localization of dangerous fire factors in open technological openings, openings of buildings and structures by forming isolated fire compartments. The objective of this utility model is to increase the fire resistance of a fire barrier in the event of exposure to high temperatures while maintaining its integrity. When annealing silica materials at extreme temperatures (fire), they lose the strength properties of the fibers, and the breaking load is reduced. In this regard, the probability of curtain breakage from the shaft increases (integrity loss “E”). The problem is solved by a multilayer canvas of a transformable fire barrier installed in an electric box with a control system and placed in guides containing pre-treated silica fabric with a thickness of 1 mm and a density of not more than 600 kg / m3, impregnated with an aqueous dispersion of colloidal rubber particles with the addition of flame retardants, with the inner surface of the sheet is covered with aluminum foil, between two identical silica sheets and screens made of aluminum foil a mineral fibrous thermal insulation material, sewn by needle punching with a silica thread, the fabric is reinforced with a carbon fiber mesh and stitched through with basalt thread, and the seams are treated with a fireproof elastic sealant, characterized in that, as an additional layer, the silica fabric on the outer and inner surfaces contains an intumescent coating with a thickness no more than 0.25 mm.

Description

The utility model relates to multilayer protective transformable fire barriers in construction and is intended to localize dangerous fire factors in open technological openings, openings of buildings and structures using the formation of insulated fire compartments.

The fire-retardant device is known from the prior art (RF patent No. 26748, 2002), which contains alternating corrugated rectangular fabric layers of basalt and silica threads (or thin fiber mats) interconnected, between which reinforcing metal threads or wire are laid. One of the outer layers contains a spray in the form of a mineral refractory film and is coated with a metal foil. Basalt threads and fibers withstand temperatures up to 600-800 ° C, and silica up to 1100-1300 ° C. Mineral refractory film protects the fabric threads from deformation during its rapid heating. The layer of metal foil plays the role of a reflector, slowing down the heating process, and, thereby, increasing the wear time of the device during operation. However, the foil used as a reflector in case of a strong fire will quickly burn, char, become covered with soot.

Closest to the claimed method is a method of manufacturing a myoglayer web of fire curtain and fire curtain (RF patent No. 2614710, 2017), including preliminary heat treatment of silica fabric to minimize heat shrinkage in case of fire, processing silica fabric with polyurethane and / or placement between two layers impregnated and heat-treated silica fabric with a thickness of 0.7 mm and a weight of 600 g / m ^{2 of} internal needle-punched glass mat with a thickness of 3 mm and a weight of 500 g / m ² and flashing silicon with an earth thread having the same heat resistance as the fabric itself - up to 1100 until the thickness of the fire curtains is 7 mm and the specific gravity is 2.5 kg / m ² . Treatment with polyurethane is carried out by applying a polyurethane coating to the outer and inner surfaces of the silica fabric. In addition, the web contains an additional intermediate layer similar to the main intermediate layer, and metal crimp plates with heat-resistant spraying are placed on the lower corner edges of the web. A fire curtain made in this way is also claimed.

The disadvantage of the prototype is to reduce the fire resistance of the structure in case of destruction of the polyurethane layer as a result of exposure to high temperatures, as well as the efficiency of use in a hydrocarbon fire.

The objective of this utility model is to increase the fire resistance of a fire barrier in the event of exposure to high temperatures while maintaining its integrity. When annealing silica materials at extreme temperatures (fire), they lose the strength properties of the fibers, and the breaking load is reduced. In this regard, the probability of curtain breakage from the shaft increases (integrity loss “E”).

The problem is solved by a multilayer canvas of a transformable fire barrier installed in an electric box with a control system and placed in guides containing pre-treated silica fabric with a thickness of 1 mm and a density of not more than 600 kg / m3, impregnated with an aqueous dispersion of colloidal rubber particles with the addition of flame retardants, with the inner surface of the sheet is covered with aluminum foil, between two identical silica sheets and screens made of aluminum foil a mineral fibrous thermal insulation material, sewn by needle punching with a silica thread, the fabric is reinforced with a carbon fiber mesh and stitched through with basalt thread, and the seams are treated with a fireproof elastic sealant, characterized in that, as an additional layer, the silica fabric on the outer and inner surfaces contains an intumescent coating with a thickness no more than 0.25 mm.

The composition of the layer of fire curtains includes:

1 - flame retardant intumescent composition, coating thickness not more than 0.25 mm,

2 - silica fabric with a thickness of 1 mm, a density of at least 600 kg / m ³ , impregnated with an aqueous dispersion of colloidal rubber particles with the addition of anti-foams,

3 - flame retardant intumescent composition, coating thickness not more than 0.25 mm,

4 - aluminum foil, not less than 0.2 mm thick,

5 - insulation layer, needle-punched, with a thickness of not more than 5 mm, fiberglass or thermal insulation based on glass wool or stone wool, reinforced with a carbon fiber grid (thermal conductivity of the insulation λ = 0,036 W / m * K),

6 - aluminum foil, not less than 0.2 mm thick,

7 - fire retardant intumescent composition, coating thickness not more than 0.25 mm,

8 - silica fabric with a thickness of 1 mm, a density of at least 600 kg / m ³ , impregnated with an aqueous dispersion of colloidal rubber particles with the addition of anti-foams,

9 - flame retardant intumescent intumescent composition, coating thickness not more than 0.25 mm

Fire retardant intumescent composition is a suspension of pigments, fillers, flame retardants and technological additives in an aqueous dispersion of a synthetic polymer. Under the action of heat and flame, this coke-forming flame retardant expands, increases its volume and forms a solid foamed mass that exhibits heat-shielding properties with respect to the underlying material layer.

The design of a multilayer web of a transformable fire barrier may have a cut to ensure unhindered evacuation of people from the fire compartment.

The design of the fire curtain corresponds to the classification EI 60, according to GOST R 53307-2009.

The proposed composition using the intumescent layer retains elasticity after drying, due to this, when the curtains are twisted into a roll, the composition does not crumble, and also ensures the integrity of the fabric in the case of extremely high temperatures due to its low thermal conductivity.

Upon completion of the tests, from the unheated side, there were no signs of integrity loss, and the heat flux did not exceed the normalized parameters, the sample corresponds to the EI60 classification.

The utility model allows to increase the degree of protection of the structure and people in the building from dangerous fire factors in the absence of damage to the fire barrier.

Claims (1)

A multilayer web of a transformable fire barrier installed in an electric box with a control system and placed in guides containing pre-treated silica fabric with a thickness of 1 mm and a density of not more than 600 kg / m3, impregnated with an aqueous dispersion of colloidal rubber particles with the addition of flame retardants, while the inner surface the webs are coated with aluminum foil; between two identical silica webs and shields of aluminum foil a mineral fiber heat is placed the insulating material, sewn by needle punching with silica thread, the fabric is reinforced with a carbon fiber mesh and stitched through with basalt thread, and the seams are treated with fire-resistant elastic sealant, characterized in that, as an additional layer, the silica fabric on the outer and inner surfaces contains an intumescent coating with a thickness of not more than 0 , 25 mm.