RU2723811C1 - Method for building roof heat insulation - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, in particular to a method for heat insulation of a building. Method of roof insulation includes installation of double skin, which passes inside loft structure with formation of closed cavity in roof space and along wall edges. Main lining is a wire frame installed on the bars, on which webs of polymer composite material based on PVC with an aluminum coating are stretched with overlapping. Additional lining is located inside the main lining.EFFECT: objective of invention consists in creation of roof structure providing for reversing heat flow from its roof to floor of loft to prevent formation of ice crusts and icicles in winter time on roof surface due to creation of temperature comparable to temperature of outside air in under-roof space.1 cl

Description

The invention relates to the construction, in particular, to a method of thermal insulation of a building.

Known for the closest analogue is the method of thermal insulation of a building (RF patent for IZ No. 2630829, 2017), having one or more existing external walls and an existing roof structure supported by the walls. The method includes the construction of a first outer cladding structure that covers the outer surface of at least one outer wall, wherein said cladding construction is located at a distance from the outer wall surface to create a void in the wall between the outer wall and the cladding structure. It is planned to construct a second cladding structure that runs around or along the existing roof structure and which allows you to get a closed void in the roof that runs around or along the roof structure. The void in the roof interconnects with the void in the wall. The void in the wall and the void in the roof are filled with heat-insulating material to obtain a heat-insulating layer that runs essentially continuously along the void in the roof and the void in the wall. Additionally, the method includes installing a vapor-tight membrane, which may contain sheets of polyethylene material, between the exterior wall of the building and the void in the wall and / or below the void in the roof of the building in order to prevent air leakage and prevent moisture transfer into the building. The method may include forming a frame that extends substantially continuously along the roof structure and at least one of the wall structures. However. The described method is technologically complex and time-consuming, and also does not fully solve the problem of combating icing and icicles.

The objective of the present invention is to create a roof structure that provides a reversing heat flow from its surface to the attic floor to prevent the formation of icing and icicles in the winter on the roof surface by creating a temperature comparable to the temperature of the outside air in the roof space.

The problem is solved by the method of thermal insulation of the roof of the building, including the construction of the cladding structure, which takes place inside the attic structure with the formation of a closed void in the roof space and along the sides of the wall, characterized in that the cladding is double, where the main cladding is mounted on bars laid along the perimeter roofing, wire frame, repeating the configuration of the roof, on which are stretched with overlapping panels made of polymeric composite material based on PVC with aluminum coating, and additional sheathing is located inside the main sheathing at a distance of 200 mm from its surface.

At the same time, triangular wind windows are installed on the roof for air exchange of the under-roof space.

The installation work is carried out as follows.

A wooden block with a cross section of 20x20 mm is laid around the perimeter of the attic, which is attached to the attic wall using self-tapping screws. A steel wire with a diameter of 3 mm with a pitch of 700 mm is fixed along the length of the attic. The wire is attached to the rafters using twists. A stretched polymer composite material based on PVC with an aluminum coating with an overlap of 50 mm is laid on the wire. Web width 900-1500 mm.

The result is a structure similar to a tent. Another same wire frame is placed under the main one at a distance of 200 mm from the film coating, on which the second layer of material is placed, which creates the effect of a thermos. As a result, the attic heat does not reach the roof surface. As a result, the snow on the roof does not melt, ice and icicles are not formed.

The reflectivity of the material from aluminum is 91-95 percent. Thus, all the heat remains inside the tent, reversing to the surface of the attic floor.

In the under-roof space, triangular wind-mounted windows are installed with a height of 350 mm, a width of 650 mm and a pitch of 5 p.m. at a distance of 1800 mm from the roof drain pan and 1500 mm from its ridge for air exchange in the under-roof space.

A double “tent” reverses the heat of the heating pipes passing through the attic, and triangular windows make it possible not to accumulate the formed condensate in the under-roof space, which makes the formation of ice and icicles practically impossible.

The use of a heat-reflecting frame does not require significant material investments.

The technical result consists in reducing the heat loss of buildings without additional energy and labor costs, as well as completely preventing the formation of icing and icicles.

Claims (2)

1. The method of thermal insulation of the roof of the building, including the construction of the cladding structure, which takes place inside the attic structure with the formation of a closed void in the roof space and along the sides of the wall, characterized in that the cladding is double, where the main cladding is mounted on the bars laid along the perimeter of the roof , a wire frame that repeats the configuration of the roof, on which the panels are stretched with an overlap of a polymer composite material based on PVC with aluminum coating, and the additional casing is located inside the main casing at a distance of 200 mm from its surface. 2. The method according to p. 1, characterized in that the roof is equipped with triangular wind windows for air exchange of the under-roof space.