EA019490B1 - Double-layer metal roof with heat insulation - Google Patents

Abstract

The invention relates to construction, in particular, to a design of a double-layer metal roof made of profiled decks preferably with trapezoidal corrugations with heat insulation and support elements arranged between them. The double-layer metal roof includes upper and lower profiled decks, preferably with trapezoidal corrugations, with heat insulation and support elements arranged between them, discretely installed along the roof run and joined with it by means of a lower profiled deck. Each support element is arranged as bent in the form of a short section of trapezoidal corrugation, with the length that does not exceed the width of the run shelf. Support elements are arranged with a pitch that equals length of at least two corrugations of the lower profiled sheet. A "Π"-shaped strip is installed onto shelves of the support elements arranged along each of roof runs, via heat insulation gaskets parallel to a crossbar, and its shelf serves as a support for the upper profiled deck, and its vertical walls face the lower profiled deck and are arranged in the heat insulation layer.

Description

The invention relates to the field of construction, in particular to the construction of a metal two-layer roof for buildings for various purposes, made of upper and lower profiled flooring, mainly of a trapezoidal shape with thermal insulation placed between them.

Known metal two-layer roofing, consisting of upper and lower profiled metal flooring with trapezoidal corrugations and placed between them thermal insulation and supporting parts. Each supporting part consists of two elements: a L-shaped elongated element made of a heat-insulating material, one side adjacent to the lower deck, and a L-shaped metal element, which is a support for the upper deck and resting on the upper surface of the L-shaped element (CB 2198464 , 1988).

The implementation of one of the elements of the supporting part from the heat-insulating material minimizes the transfer of cold temperature from the upper flooring to the lower one, however, the complex shape of the part increases the labor costs for manufacturing the roof, and the low strength of the heat-insulating element compared to the metal profile, which is the place of abutment of the upper flooring, can lead to crushing support, and therefore, to degrade the performance of the roof.

The closest analogue to the claimed invention is a two-layer metal roof, including upper and lower profiled flooring, mainly with trapezoidal corrugations, and heat insulation and supporting elements placed between them, discretely installed along the roof run and connected to it through the lower profiled flooring (KI 2101430, 1998 g.).

A disadvantage of the known roof is the difficulty of manufacturing a support element consisting of two parts: two metal brackets installed in pairs along the corrugations of the upper and lower decks, installed in pairs by the shelves. The specified installation of two identical parts predetermines the use of upper and lower decks, one of which is load-bearing, and the other enclosing, with the same outline of the corrugations, which increases the intensity of the roof. In addition, the bolts passed through the shelves of the brackets do not eliminate the cold bridges, and the operation of a thin upper floor according to the point-supported scheme reduces the rigidity of the roof.

The objective of the present invention is to eliminate the above disadvantages.

The technical result of the invention is to improve the thermal insulation properties of the roof, increase its bending stiffness, simplify installation.

This problem is solved due to the fact that in a two-layer metal roof, including upper and lower profiled decking, mainly with trapezoidal corrugations, between which thermal insulation is placed and supporting elements discretely installed along the roof run and connected to it via the lower profiled decking, characterized in that each supporting element is bent in the form of a short section of a trapezoidal corrugation with a length not exceeding the width of the run flange, and is located above the corrugation of the lower profiled so that its lower horizontal shelves, by means of which the supporting element is attached to the girder, are located in the hollows located on both sides of the corresponding corrugation of the lower profiled flooring, and on the upper shelves of the supporting elements located along each crossbar with a step equal to at least a length two corrugations of the lower profiled sheet, through heat-insulating gaskets parallel to the crossbar, a U-shaped strip is installed in cross section, the shelf of which is a support for the upper profiled flooring, and its vertical walls are facing the lower profiled flooring, located parallel to the ends of the support element and placed in the insulation layer, while the upper surface of the insulation and the upper surface of the support element are located in one horizontal plane.

In a two-layer metal roof, preferably thermal insulation along the height of the roof section is made with different densities; at a height not exceeding half the height of the support element from the upper profiled flooring, the insulation density is higher than in the rest of the zone.

In a two-layer metal roof, the vertical walls of the U-shaped strip are placed in thermal insulation with a higher density.

Thermal insulating gaskets are located between the lower horizontal shelves of the support element and the lower profiled flooring.

The upper profiled flooring is connected to the U-shaped strip and the supporting element and can be made with a polymer coating.

The invention is illustrated by drawings, which depict:

in FIG. 1 - a longitudinal section of the roof; in FIG. 2 - transverse section of the roof.

The metal roof consists of two layers of profiled flooring - the upper outer 1 and lower inner 2 with unidirectional corrugations. The corrugations of the upper and lower decks can be made with any shape - from sinusoidal to rectangular, but mainly with a trapezoid shape.

The cross section of the upper and lower decks, which determines the height of the corrugations and their pitch, can be different. In the case of the implementation of the upper deck bearing the height of its corrugations is greater than

- 1 019490 corrugations of the lower flooring. The top profiled floor 1 can be made with a polymer coating.

Between the profiled flooring 1 and 2 there is a thermal insulation 3.

Thermal insulation 3 along the height of the roof section can be made with different densities: at a height not exceeding half the height of the supporting element from the upper profiled flooring, the thermal insulation density is higher than in the rest of the zone, which increases the rigidity of the roof. Preferably, the thickness of the thermal insulation with a higher density is 50 mm and with a lower density is 100 mm.

Between the profiled decks are also located supporting elements 4.

Each supporting element 4 is made bent in the form of a short segment of a trapezoidal corrugation. The length of the segment of the trapezoidal corrugation does not exceed the width of the flange run 5, to which the supporting element is attached by the lower horizontal shelves 6 through the lower profiled floor 2.

Run of the roof 5 can be performed, for example, from a bent Ζ-shaped or C-shaped profile or any other rolling profile.

The supporting elements 4 are installed on the lower floor 2 along the length of the run 5 with a step equal to at least the length of the two corrugations of the lower floor. In this case, each supporting element 4 is installed above one of the corrugations of the lower profiled flooring so that the upper shelf 7 of the supporting element 4 is located above the shelf 8 of this corrugation, its side walls 9 are oriented along the walls 10 of the corrugation, and the lower horizontal shelves 6 are placed in cavities, located on both sides of the corresponding corrugation 9.

The upper surface of the insulation and the upper surface of the shelf 7 of the support element are located in one horizontal plane.

On the upper shelf 7 of the support element and between its lower horizontal shelves 6 and the lower profiled floor 2, heat-insulating gaskets 10 are placed that prevent the formation of condensate on the inner surface of the lower profiled floor.

On the shelves 7 of the supporting elements 4, located along each of the runs 5 of the roof, through the heat-insulating gaskets 10 parallel to the crossbar there is a strip 11 of a U-shape in cross section, shelf 12 of which is a support for the upper deck 1.

The vertical walls 13 of the strip 11 are installed parallel to the ends of the support element, facing the lower profiled flooring 2 and recessed into the insulation layer, which eliminates the formation of cold bridges between the upper and lower decks.

In addition, the supporting elements, which are partly part of the strip cavity of the U-shaped profile, provide reliable fixation of the strips, and, therefore, the fastening of the upper profiled flooring.

The increase in the area of support of the upper profiled flooring by installing strips on the supporting elements provides an increase in the bending stiffness of the roof.

The installation of the roof is as follows.

According to the roof runs, made in the form of a или-shaped or C-shaped profile on self-tapping screws, a lower profiled flooring is installed. At the same time, to the roof runs through 2-3 corrugations of the lower profiled floor, the supporting elements are fixed in the form of short segments of trapezoidal corrugations with a height equal to the thickness of the insulation and the height of the corrugation of the lower profiled floor. After laying the thermal insulation flush with the upper surface of the supporting elements, the strip is shaped and secured to the trapezoidal corrugations of the strip in the cross section, the vertical walls of which are turned to the lower floor and are embedded in the thermal insulation layer. On top of the U-shaped strip lay the top profiled flooring with a polymer coating.

The connection of profiled flooring sheets to each other is overlapped. The connection of the profiled flooring to the girders is carried out by means of self-tapping screws with a sealing washer. Between the U-shaped strip, the upper and lower sheets of the profiled flooring, a thermally insulating gasket is laid.

Claims (6)

1. A two-layer metal roof, including upper and lower profiled flooring, mainly with trapezoidal corrugations, between which thermal insulation is placed and supporting elements discretely installed along the roof run and connected to it through the lower profiled flooring, characterized in that each supporting element is made bent in the form of a short a piece of trapezoidal corrugation with a length not exceeding the width of the run flange and located above the corrugation of the lower profiled flooring so that its lower horizontal floor and by means of which the supporting element is attached to the run, placed in the depressions located on both sides of the corresponding corrugation of the lower profiled floor, and on the upper shelves of the supporting elements located along each run with a step equal to the length of at least two corrugations of the lower profiled sheet, through heat-insulating gaskets parallel to the run, a U-shaped strip is installed in cross section, the shelf of which is a support for the upper profiled - 2 019490 flooring, and its vertical walls are facing the lower profiled flooring, located parallel to the ends of the supporting element with the possibility of fixing the supporting element and placed in the insulation layer, while the upper surface of the insulation and the upper surface of the supporting element are located in one horizontal plane. 2. A two-layer metal roof according to claim 1, characterized in that the thermal insulation along the height of the roof section is made with different densities; at a height not exceeding half the height of the support element from the upper profiled flooring, the insulation density is higher than in the rest of the zone. 3. A two-layer metal roof according to claim 2, characterized in that the vertical walls of the U-shaped strip are placed in thermal insulation with a higher density. 4. A two-layer metal roof according to claim 3, characterized in that between the lower horizontal shelves of the support element and the lower profiled floor installed insulating gaskets. 5. A two-layer metal roof according to claim 4, characterized in that the upper profiled flooring is connected to a U-shaped strip and a supporting element. 6. A two-layer metal roof according to claim 5, characterized in that the upper profiled flooring is made with a polymer coating.