RU75676U1 - ROOF COVERING - Google Patents

Abstract

The utility model relates to construction and can be used as a roofing for various building structures. A roof covering consisting of a base made of a profiled sheet, a vapor barrier, thermal insulation and a waterproofing coating, characterized in that the thermal insulation is made of two layers - the lower one is made of plates based on mineral or glass fiber and the upper one is made of polystyrene foam. The utility model will reduce material consumption and the total weight of the structure, simplify the technology and reduce the speed of its manufacture.

Description

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

A roof covering is known, including insulating layers successively laid on a base from a profiled sheet: leveling screed, primer, vapor barrier, heat-insulating layer, protective screed with a primer, waterproofing layer and a protective layer (RU 57777 U1, 10.27.2006).

The primer layer is made of a bitumen primer, the vapor barrier, waterproofing and protective layers are made of rolled bitumen-polymer materials of the CT group, and the thermal insulation layer is made of mineral wool boards or extruded polystyrene foam.

A disadvantage of the known roofing is the complexity of manufacturing, the high specific weight of the structure, which makes it practically impossible to use it on a professional sheet.

The presence of wet processes in the device leveling and protective screed limit the temperature range of the application of this design is not lower than + 5 ° C. The screed must be aged in dry weather for at least 7 days, so that further work on the sizing and installation of vapor barrier and waterproofing layers is possible. Rolled bitumen-polymer materials have a combustibility group G4 according to GOST 30244-94 therefore they can be used on roofs with an area of up to 3600 m ² according to Appendix 8 of SNiPa II-26-76. On roofs of large areas, it is required to carry out a fire filling of gravel with a thickness of at least 20 mm. All this greatly reduces the economic efficiency of roofing and the possibility of using large areas in modern technologies for the construction of commercial buildings.

The technical result of the proposed utility model is to reduce the material consumption and the total weight of the roofing without loss of strength characteristics, shorten the time and simplify manufacturing technology, reduce the cost of the design and increase its fire safety.

This technical result is achieved due to the fact that in a roofing covering consisting of a base made of a profiled sheet, a vapor barrier, thermal insulation and a waterproofing coating, the thermal insulation is made of two layers - the lower of the slabs based on mineral or glass fiber and the upper of expanded polystyrene.

In addition, the profiled sheet is made of galvanized steel.

In addition, the profiled sheet is made corrugated with a height of corrugations of at least 44 mm in accordance with the required load-bearing capacity.

In addition, the vapor barrier layer is made of polypropylene or polyethylene film.

In addition, the vapor barrier film has a thickness of up to 200 microns.

In addition, the lower layer of thermal insulation is made of plates based on non-combustible mineral or glass fiber.

In addition, the plates of the lower layer of thermal insulation are made of mineral or glass fiber with an organic binder, comprising 2-10% by weight of the lower layer.

In addition, the lower layer of thermal insulation of mineral or glass fiber is made with a thickness of at least 50 mm.

In addition, the compressive strength of the plates of the lower layer of thermal insulation of mineral or glass fiber is at least 25 kPa at 10% deformation.

In addition, the top layer of thermal insulation is made of plates based on extruded polystyrene foam or polystyrene.

In addition, the density of the upper layer of thermal insulation from expanded polystyrene is at least 15 kg / m ³ .

In addition, the compressive strength of the expanded polystyrene layer is at least 80 kPa at 10% deformation.

In addition, the thickness of the expanded polystyrene layer is at least 30 mm.

In addition, the flexural strength of expanded polystyrene boards is at least 140 kPa.

In addition, the waterproofing coating is made of rolled reinforced material based on plasticized polyvinyl chloride.

In addition, the waterproofing coating is made 1.2-2.0 mm thick.

In addition, between the layer of extruded polystyrene foam and waterproofing coating is a separation layer of fiberglass or polyester by weight of at least 60 g / m ² .

The utility model is illustrated in the drawing. In Fig.1 shows a roofing in cross section.

The roofing coating consists of a base made of galvanized steel profiled sheet 1, a vapor barrier 2, a thermal insulation made of two layers - the lower layer 3 and the upper layer 4, the separation layer 5 and the waterproofing coating 6.

The lower layer 3 of thermal insulation is made of plates with a thickness of at least 50 mm based on non-combustible mineral or glass fiber with an organic binder, comprising 2-10% by weight of the lower layer.

In addition, the compressive strength of mineral or glass fiber boards is at least 25 kPa at 10% deformation according to GOST 17177-94.

The upper layer 4 of thermal insulation is made of plates with a thickness of at least 30 mm from expanded polystyrene. The density of the upper layer 4 of thermal insulation is not less than 15 kg / m ³ and its compressive strength is not less than 80 kPa at 10% deformation, and the flexural strength is not less than 140 kPa.

The profiled sheet 1 can be made corrugated with a height of corrugations of at least 44 mm in accordance with the necessary bearing capacity.

The vapor barrier layer 2 can be made of polypropylene or polyethylene film, which has a thickness of up to 200 microns.

The waterproofing coating 6 can be made of rolled reinforced material based on plasticized polyvinyl chloride with a thickness of 1.2-2.0 mm

The separation layer 5 may be made of fiberglass or polyester by weight of at least 60 g / m ² .

The assembly of the roofing is as follows.

Galvanized profiled sheet 1 with a corrugation height of at least 44 mm (according to GOST 24045-94) is laid on the girders of the coating with a wide shelf up and fixed with self-tapping screws. In the longitudinal direction, the profiled sheet is interconnected using rivets or self-tapping screws with a pitch of 250 mm.

On the fixed and interconnected profiled sheets 1 lay a vapor barrier layer 2 - a polypropylene film with a thickness of 200 microns. The joints of the film and its adjoining to the parapets are glued with special adhesive tapes.

Then, the lower layer 3 of thermal insulation is laid on top of the film - a plate of non-combustible mineral fiber 50 mm thick with a compressive strength of at least 25 kPa. This layer protects the subsequent layers from high temperature from the side of the building.

Plates of expanded polystyrene (extruded polystyrene or foam) with a density of at least 15 kg / m ³ , compressive strength of at least 80 kPa and a combustibility group G1 according to GOST 30244-97 are laid as the upper layer 4 of thermal insulation. The thickness of the plate is determined by the required heat transfer resistance and is determined by the design calculation. However, the plate thickness should not be less than 30 mm to ensure a normal distribution of point loads.

The plates of the upper layer 4 of thermal insulation must be laid with a shift relative to the joints of the plates of the lower layer by at least 20 cm to ensure the rupture of possible "cold bridges".

The heat-insulating combination cake should be fixed on a supporting base of profiled sheet 1 using telescopic fasteners consisting of a plastic plate element and a self-drilling self-tapping screw. The length of the fastener is determined by the thickness of the heat-insulating cake. The number of fasteners depends on the size of the plates of the upper layer 4 of expanded polystyrene, but not less than 2 pcs / m ² .

To protect the expanded polystyrene plate from the effects of the waterproofing coating 6 - of the waterproofing membrane (roll material) based on plasticized polyvinyl chloride (PVC), glass fiber or polyester weighing at least 60 g / m ^{2 is} placed as a separation layer on the expanded polystyrene plates.

The waterproofing membrane of the waterproofing coating 6, laid on the separation layer 5, has a thickness of 1.2 to 2.0 mm and a combustibility group no worse than G2 according to GOST 30244-94.

The waterproofing coating 6 is also attached to the base of the profiled sheet 1 using similar telescopic fasteners. Fastening is made to the edge of the canvas with a step determined by the design calculation. The next roll is laid with an overlap of the fastening zone of at least 12 cm and subsequent sealing by welding panels with hot air.

The utility model will reduce material consumption and overall weight of the structure. At the same time, the structural strength properties are not reduced, and the load on the supporting structures of the building is reduced. The manufacturing technology of this design is such that it simplifies and reduces the speed of work associated with its assembly.

Claims (17)

1. A roof covering consisting of a base made of a profiled sheet, vapor barrier, thermal insulation and waterproofing coating, characterized in that the thermal insulation is made of two layers: the lower one is made of mineral or glass fiber boards and the upper one is made of polystyrene foam. 2. The roofing according to claim 1, characterized in that the profiled sheet is made of galvanized steel. 3. The roofing according to claim 1, characterized in that the profiled sheet is made corrugated with a height of corrugations of at least 44 mm in accordance with the required load-bearing capacity. 4. The roofing according to claim 1, characterized in that the vapor barrier layer is made of polypropylene or polyethylene film. 5. The roofing according to claim 1, characterized in that the vapor barrier film has a thickness of up to 200 microns. 6. The roofing according to claim 1, characterized in that the lower layer of thermal insulation is made of plates based on non-combustible mineral or glass fiber. 7. The roofing according to claim 1, characterized in that the plates of the lower layer of thermal insulation are made of mineral or glass fiber with an organic binder, comprising 2-10% by weight of the lower layer. 8. The roofing according to claim 1, characterized in that the lower thermal insulation layer of mineral or glass fiber is made of a thickness of at least 50 mm. 9. The roofing according to claim 1, characterized in that the compressive strength of the plates of the lower layer of thermal insulation of mineral or glass fiber is at least 25 kPa at 10% deformation. 10. The roofing according to claim 1, characterized in that the top layer of thermal insulation is made of plates based on extruded polystyrene foam or polystyrene. 11. The roofing according to claim 1, characterized in that the density of the upper layer of thermal insulation from expanded polystyrene is at least 15 kg / m ³ . 12. The roofing according to claim 1, characterized in that the compressive strength of the upper layer of thermal insulation from expanded polystyrene is at least 80 kPa at 10% deformation. 13. The roofing according to claim 1, characterized in that the thickness of the expanded polystyrene layer is at least 30 mm. 14. The roofing according to claim 1, characterized in that the tensile strength in bending of expanded polystyrene boards is at least 140 kPa. 15. The roofing according to claim 1, characterized in that the waterproofing coating is made of rolled reinforced material based on plasticized polyvinyl chloride. 16. The roofing according to claim 1, characterized in that the waterproofing coating is made with a thickness of 1.2-2.0 mm 17. The roofing according to claim 1, characterized in that between the upper layer of thermal insulation and waterproofing coating is a separation layer of fiberglass or polyester by weight of at least 60 g / m ² .