RU57777U1 - MULTI-LAYERED ROOFING - Google Patents

Abstract

The utility model is aimed at improving the reliability and economic efficiency of multilayer roofing by ensuring the uniform reliability of all layers of the coating. The specified technical result is achieved in that the multilayer roofing comprises successively laid vapor barrier and heat insulation layers, screed, upper and lower waterproofing layers and a protective layer. The vapor barrier and waterproofing layers are made of weldable rolled bitumen-polymer materials of the CT group, and the thermal insulation layer is made of plates made of Rockwool material or of the thermal insulation materials of the CT group. When performing waterproofing layers of one material, the mass of the upper layer is at least 5.0 kg / m ² and the mass of the lower layer is 3.0-3.5 kg / m ² . The vapor barrier layer is made with a mass of not more than 3.5 kg / m ² . from such materials of the CT group as KTelast ™, KTflex ™, KTplast ™, BiCroTol ™ “winter” or BiCroTol ™ “summer”. The waterproofing layers are made of materials of the KT group, such as KTplast ™, KTelast ™, KTflex ™, KTkrom ™ or BiKroTol ™ “summer”, and the thermal insulation layer is made of such materials of the KT group as KTkrovlya, KTkrovlyan, KTkrovlyaV, KT-200, KT -175 or from extruded polystyrene foam.

Description

The utility model relates to construction and can be used to protect various building structures and structures as a roofing.

The closest in technical essence to the claimed utility model is a multilayer roofing coating, including primer, vapor barrier, heat-insulating, compensating layers, screed, waterproofing and protective coating layers successively laid on the base, in which the primer layer is made of primer, the vapor barrier is made of roofing or roofing material, thermal insulation layer - of gas silicate, expanded clay - concrete, slag or mineral wool, waterproofing layer - of roofing material, and a protective layer - of armor nnogo roofing material with a granular coating (Certificate for useful model №3774, IPC E 04 D 3/24, op. of 16.03.97).

The disadvantage of this technical solution is the low economic efficiency of the coating due to the low reliability of the roofing layers, as a result, the coating resource is not more than 5 years with an overhaul period of 1-2 years, and also due to the unevenness of the coating layers, when some layers are overhauled coatings or fragments have not exhausted their resource.

The task, which is aimed by the claimed technical solution, is to increase the reliability and economic efficiency of a multilayer roofing by ensuring equal reliability of all layers of the coating.

The problem is solved as follows.

In a multilayer roofing covering, including vapor barrier and heat insulation layers successively laid on the base, screed, waterproofing and protective layers, according to the claimed utility model, vapor barrier and waterproofing layers are made of deposited rolled bitumen-polymer materials of the “CT” group, and the thermal insulation layer is made of plates made of Rockwool material or of heat-insulating materials of the CT group, while the waterproofing layer is made of upper and lower layers, when and which of the same material the mass of the lower layer is 3.0-3.5 kg / m ² and the mass of the upper layer is not less than 5.0 kg / m ² .

Moreover, the vapor barrier coating layer is made with a mass of not more than 3.5 kg / m ² .

Moreover, the vapor barrier layer is made of such materials of the KT group as KTelast ™, KTflex ™, KTplast ™, BiCroTol ™ “winter” or BiCroTol ™ “summer”.

In addition, the waterproofing layers of the coating are made of such materials of the KT group as KTplast ™, KTelast ™, KTflex ™, KTkrom ™, or BiKroTol ™ “summer”.

In addition, the heat-insulating coating layer is made of such heat-insulating materials of the KT group as KTkrovlya, KTkrovlyaN, KTkrovlyaV, KT-200, KT-175 or from extruded polystyrene foam.

The implementation of the vapor barrier and waterproofing layers from rolled bitumen - polymer materials of the CT group, and the heat-insulating layer from plates made of Rockwool material or from the thermal insulation materials of the CT group, makes it possible to ensure the uniform reliability of all layers of the multilayer roofing

coating during operation, taking into account the operating conditions of each layer, which increases the reliability of the coating as a whole and the economic efficiency of its use. Due to the possibility of manufacturing a waterproofing layer from deposited bitumen - polymer materials of the CT group, it became possible to manufacture it, both the most loaded coating layer, in the form of upper and lower layers, which increases the reliability of both the waterproofing layer and the roofing as a whole. When performing waterproofing layers of one material, the lower waterproofing layer, as less loaded, will have increased reliability. Therefore, to ensure rational reliability of the layers, the upper waterproofing layer is made with a mass of at least 5 kg / m, and the lower one is permissible to carry out with a mass of 3.0-3.5 kg / m ² . At the same time, the vapor barrier layer, as less loaded, is made of material weighing no more than 3.5 kg \ m ² .

These values are established experimentally and are the most rational for ensuring equal reliability of layers, taking into account the conditions of their work. The implementation of these layers of materials with a lower mass will not ensure their uniform reliability and reliability of the entire structure, and their implementation from materials with a larger mass is not economically feasible.

The implementation of the vapor barrier layer from KTelast ™, KTfllex ™ KTplast ™, BiKroTol ™ “winter” or BiKroTol ™ “summer”, specified in the order from the lowering of their operational properties, waterproofing layers - from KTplast ™, KTelast ™, KTflex ™, KTkrom ™ or BiKroTol ™ “summer”, and heat-insulating - from plates made of Ktkrovlya, Ktkrovlyan, KtkrovlyaV, KT-200, KT-175 or from extruded polystyrene, also indicated in the order of decreasing their operational properties, together provide

uniform reliability of layers with various potential resources required for a specific multilayer roofing, therefore, increasing the reliability of the entire roofing.

The presence of significant features distinctive from the prototype allows us to recognize the claimed utility model as new.

The figure shows the General scheme of a multilayer roofing, table 1 shows the materials used in multilayer roofing and in the prototype, and table 2 shows their equipment.

As can be seen from table 1, KTelast ™ and KTelit ™ have the maximum operational parameters, which have a maximum conditional life, and the prototype material, which has a minimum service life, has the minimum operational parameters. From heat-insulating materials, the maximum operational parameters are possessed by such materials as Rockwool, KT-200, KTkrovlyaV.

Table 2 shows the systems of multilayer roofing, equipped with layer materials, providing equal reliability of layers and designed for a specific potential resource.

The protective layer is made in the form of a coarse-grained mineral sprinkle deposited on the surface of the upper waterproofing layer.

The upper waterproofing layer, as the most loaded, perceiving the main load from the influence of atmospheric precipitation, alternating temperatures, UV irradiation, wind loads, vibration and deformation of building elements, is made of a material with the best characteristics, namely KTelit ™, KTelast ™, which in combination with the rest of the coating layer it

potential resource from 10 to 20 years, and KTplast ™ and BiKroTol ™ “summer”, providing in combination with other coating layers its potential resource from 5 to 9 years.

The lower waterproofing layer is much less loaded than the upper. Made of materials such as KTplast ™, KTelast ™, KTflex ™ or KTplast ™ provides, in combination with the rest of the coating layers, its potential life from 10 to 20 years, and if it is made from KTkrom ™ or BiCroTol ™ materials “summer” - 5 -7 years.

The heat-insulating layer plays a very important role in a multilayer roofing. The moisture content in the diffusion space, the risk of freezing and roofing defects, which determines the reliability of the system, depend on the level of water absorption, other physical and mechanical characteristics of thermal insulation. Therefore, in coatings where a high potential resource is required (from 10 to 20 years or more), thermal insulation boards made of Rockwool material are used. With a lower required potential resource (up to 10 years), the heat-insulating layer is made of heat-insulating plates based on basalt fiber of the KTkrovlya type.

The lowest layer of the system is vapor barrier, it is the least loaded, however its value is not less than that of the upper waterproof layer. Its purpose is to protect the heat-insulating layer from humidification of moisture penetrating from the room. With the required high potential resource (10-20 years), the vapor barrier layer is made of KTelast ™, KTplast ™ or KTflex ™, and with the required lower potential resource (up to 10 years) - from BiCroTol ™ “winter” or BiCroTol ™ “summer”.

In the case of constructive solutions such as an “inverse” roof or an exploited roof, when a concrete screed is required on the roofing, possibly with soil, the most durable materials are used that provide a potential coverage of at least 20 years. In such cases, the vapor barrier layer is made of KTelast ™, single or double layer, the thermal insulation layer is made of extruded polystyrene foam, the cement-sand screed is made on the thermal insulation layer, and the root layer is made of geotextile.

Table 1.
Materials used in CT roofing systems Deposited coiled bitumen-polymer materials Options Ktkromperfor ™ KTalit ™ KTelast ™ Ctflex ™ KTplast ™ Ktkrom ™ Bikrotol "winter" Bikrotol "summer" Ruberoid Flexibility on a bar 25 mm, not higher, ° С 0 -fifteen -25 -fifteen -10 -5 -10 0 +5 Heat resistance for 2 hours, not lower, ° С 80 140 one hundred 95 130 90 80 85 70 Breaking load, kgf / 5 cm based on: X / E / T 30/40/80 30/40/80 30/40/80 30/40/80 30/40/80 30/40/80 30 / - / 80 30 / - / 80 28 Conditional service life, years 10 25 25 twenty fifteen 10 10 8 5 Type of binder or modifier - APP SBS SBS APP - CBC - - Note: T - fiberglass, X - fiberglass, E - polyester, SBS - styrene-butadiene-styrene, APP - atactic polypropylene Thermal insulation materials Options Rockwool KT200 CT Penop CT CT Roof Butte Ruf Buttev Roof Butte / KtkrovlyaV 175 lex 35 roof roof Density, kg / m ³ 145-180 St. 180 100-125 180-210 150-190 29.5-38.5 150 120 Heat conductivity coefficient, W / m ° С, at 25 ± 5 ° С 0,038 0,038 0,036 0,042 / 0,039 0,042 0,028 0,037 0,038 Strength on separation of layers, MPa, not less 0.0075 0.0075 0.004 0.007 0.007 - 0.006 0.007 Compressive strength at 10% deformation, MPa, not less 0,045 0,060 0,025 0,060 0,045 0.25 Water absorption by volume in 24 hours,% 1,0 1,0 1,0 2.0 2.0 0.1 1.8 2.0 Humidity, by mass,%, no more 1,0 1,0 1,0 1,0 1,0 0 one one Combustibility group NG NG NG NG G G1 NG NG Length mm 1000; 1200 1000; 1200 1000; 1200 1000; 1200 1000; 1200 1200 1200 1200 Width mm 500; 600 500; 600 500; 600 500; 600 500; 600 600 606 600 Thickness mm 30-125 thirty; 40 50-200 50-100 50-100 23-100 23-100 23-100

Table 2.
Complete set of multilayer roofing System No. Potential resource Vapor barrier Type of thermal insulation Screed bottom layer Upper layer one fifteen KTelast ™ Rockwool - KTplast ™ KTalit ™ 2 fifteen KTelast ™ Rockwool - KTelast ™ KTelast ™ 2a twenty KTelast ™ Rockwool Cp * KTelast ™ KTelast ™ 3 12 CTlex ™ Rockwool CTlex ™ KTelast ™ four 10 KTplast ™ Rockwool - CTlex ™ KTelast ™ 5 12 KTelast ™ Rockwool - KTelast ™ Screed c-p 6 twenty KTelast ™ Rockwool - 2 × CTelast ™ Screed c-p 7 fifteen KTplast ™ Ktkrovlya, N, V Sat or cp KTplast ™ KTalit ™ 7a 12 KTplast ™ KT-200, 175 Sat or cp KTplast ™ KTalit ™ 8 9 BiCrotol ™ “winter” Ktkrovlya, N, V Sat or cp KTplast ™ KTplast ™ 8a 7 BiCrotol ™ "summer" KT-200,175 Sat or cp KTplast ™ KTplast ™ 9 8 BiCrotol ™ “winter” Ktkrovlya, N, V Sat or cp Ktkrom ™ KTplast ™ 9a 5 BiCrotol ™ "summer" KT-200, 175 - Ktkrom ™ KTplast ™ 10 6 BiCrotol ™ "summer" Ktkrovlya, N, V - BiCrotol ™ "summer" 2 × BiCroTol ™ “summer” 10a 5 BiCrotol ™ "summer" KT-200, 175 - BiCrotol ™ "summer" 2 × BiCroTol ™ “summer” eleven twenty KTelast ™ Extruded PPS Screed c-p Geotextile Soil layer 12 thirty 2 × CTelast ™ Extruded PPS Screed c-p Geotextile Soil layer Note - *) Sat or c-p - screed prefabricated or cement-sand.

Claims (2)

1. A multilayer roofing coating, including successively laid vapor barrier and heat insulation layers, screed, waterproofing and protective layers, characterized in that the vapor barrier and waterproofing coating layers are made of rolled bitumen-polymer materials of the CT group, and the thermal insulation layer is made of plates made of heat-insulating materials of the CT group, while the waterproofing layer is made of upper and lower layers, in which the mass of the lower oya is 3.0-3.5 kg / m ^2, and the top layer - at least 5 kg / m ^2. 2. The coating according to claim 1, characterized in that the vapor barrier layer is made of KT materials such as KTkrovlya, KTkrovlyaN, KTkrovlyaV, KT-200, KT-175 or from extruded polystyrene foam.