RU2131964C1 - Roof hydraulic seal of low fire hazard - Google Patents

Abstract

FIELD: fire prevention and control. SUBSTANCE: roof hydraulic seal of low fire hazard includes combustible hydraulic seal and surface fireproof material which is made of weatherproof swelling painting coating. EFFECT: excluded flame spreading over surface of easily burning roof hydraulic seal. 2 cl, 1 tbl

Description

 The invention relates to the field of construction, namely, a device for roofing painting (mastic) and rolled waterproofing of reduced fire hazard.

 It is widely known the use of waterproofing based on combustible bitumen (bitumen-ruberoid, mastic, hydroglass, etc.), which is covered with gravel (sand) backfill, cement-sand screed or reinforced concrete slabs to protect against possible sunburn, as well as from the effects of the atmosphere [ 1] (Operation of roofs of residential buildings. Handbook. AA Nikitin and others - M .: Stroyizdat, 1990). However, this kind of protection is of great weight and unacceptable primarily for the roofs of large industrial buildings of metal-frame type, which quickly collapse in case of fire.

 The closest in technical essence to the present invention is Gammaplast - reinforced roll waterproofing on a bitumen-polymer basis with surface protection from the small thin-layer granite crushed stone embedded in the manufacture of the roll — the so-called “flak” (resembling in appearance husk from sunflower seeds) [2] (Prospectus of the company "Polymer Membrane", Austria, 1993).

 This protection, having a low weight, provides waterproofing with low combustibility and slow flame spread over the surface (i.e., it has a low flame spread index - IRP) in accordance with GOST 12.1.044-89 "Fire and explosion hazard of substances and materials. Nomenclature of indicators and methods for them definitions. " On flat roofs (with slopes from 2.5 to 10%), it protects the rolled waterproofing carpet from sunbathing, flame propagation and atmospheric exposure. However, on flat roofs (with slopes <2.5%) and in case of violation (underestimation) of the design value of slopes on flat-roofed roofs, which usually takes place with the most often used internal gutter on buildings, stagnant water zones are formed. In these places, under the influence of freezing-thawing cycles, the “flask” is separated from the roll base, as a result of which, first, the protective layer, and then the roll waterproofing, is destroyed.

 Since defective waterproofing areas cannot be repaired, they must be replaced; however, this fails to achieve the initial continuity of protection. In addition, on pitched roofs (with a slope> 10%), when exposed to fire, the protective elements ("hazel") are separated from the melting base, exposing the combustible bitumen-polymer material.

 Thus, Gammaplast type waterproofing can be reliably applicable only in a narrow interval of the roof slope (about 5 - 10%).

 The above-mentioned drawbacks are deprived of the proposed technical solution, which allows, while maintaining a low weight of fire protection, to ensure its maintainability, durability and applicability on roofs with any slope slopes, as well as to exclude the spread of flame over the waterproofing surface.

 The technical essence of the invention is a combustible paint (mastic) or roll waterproofing, which is covered with a paint intumescent weatherproof coating, for example, based on chlorosulfonated polyethylene and thermally expandable graphite, for example, according to TU N 34.1147628-03-95.

 The proposed intumescent fire retardant coating with a thickness of 1.5 - 2.0 mm is applied primarily to combustible bitumen-ruberoid roofs, including bitumen-ruberoid roofs with gravel backfill (or sand backfill) - to increase their durability; on the same roofs with impaired backfill (sprinkling) - instead of renewing the protective layer, as well as on any combustible paint (mastic) or roll roofs instead of surface backfilling with gravel or sanding.

 The proposed fire retardant coating is applied and, if necessary, repaired by conventional painting methods.

 Technical indicators of the invention are presented in the table (see the end of the description).

Note to table
1. According to examples 1 to 9, a surface intumescent coating was used as an XT-8000 intumescent paint coating (TU 34.1147628-03-95). Results similar to those shown in the table are obtained using other similar coatings (for example, SGK-1 coating according to TU 3-2355-90).

 2. For examples 7 to 9, no subsequent tests were carried out after negative combustibility results (see paragraph 1.1 of the table).

 3. Accelerated weathering tests were carried out according to GOST 21531-76, method 2); assessment of the decorative and protective properties of the coating in accordance with GOST 9.407-84, of the prototype by visual inspection (indicated in brackets).

 4. Tests for resistance to freeze-thaw cycles were carried out by immersion of waterproofing samples with a fire-retardant coating in water. After that, for testing for IRP and combustibility, the samples were dried and glued to asbestos-cement substrates (the sizes of the samples and substrates, including their number, in accordance with GOST 12.1.044-89). Assessment of the appearance of the samples - visual inspection (indicated in parentheses).

 From the data presented in the table it follows that the optimal thickness of the fire-retardant coating is 1.5 - 2.0 mm, at which the waterproofing is hardly combustible and has a low IRP, i.e. burns out only near the fire and is not a source of its distribution. A smaller coating thickness degrades the fire-technical properties of waterproofing, and a larger thickness does not improve these properties.

 From examples 1 - 6 it also follows that with a coating thickness of 1.5 - 2.0 mm, the combustibility and IRP of waterproofing do not depend on the type of material to be protected and its thickness.

Claims (2)

 1. Roofing waterproofing of reduced fire hazard, consisting of combustible waterproofing and surface fire protection, characterized in that the fire protection is made of weather-resistant intumescent paint coating.  2. Waterproofing according to claim 1, characterized in that the intumescent coating is based on chlorosulfonated polyethylene and thermally expandable graphite with a coating thickness of 1.2 - 2.0 mm

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